20315144_120830 Demag Drive

June 16, 2018 | Author: Boomies1 | Category: Transmission (Mechanics), Gear, Kinematics, Manufactured Goods, Mechanics
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Geared motors39144 300812 enGB 203 151 44 714 IS 980 Further documents Drive Designer Logic-guided selection and configuration of Demag geared motors and travel unit components. Drive Designer Online at: www.demag-drivedesigner.com provides all information online (no installation required; always up-to-date; numerous special functions). You can gain access to the configuration process for other Demag products at the Designer Portal www.demag-designer.com When this catalogue is published, all previous issues become invalid and must be regarded as withdrawn. The same applies for all previous versions of Drive Designers on CD, 208 731 44 and 208 745 44, Version 5 and earlier. General documents Order no. DE EN FR ES Brochures Demag drives brochure 208 732 44 208 734 44 208 735 44 208 736 44 Demag wheel range brochure 208 722 44 208 724 44 208 725 44 208 726 44 Catalogues/technical data www.demag-drivedesigner.com Drive Designer online Geared motor catalogue 203 150 44 203 151 44 203 152 44 203 153 44 DRS wheel block system catalogue 203 350 44 203 352 44 203 353 44 203 354 44 Demag DWS wheel set technical data 203 687 44 203 688 44 203 689 44 203 690 44 Geared travel motors catalogue – Volume 3 – Quick selection and gearbox limit torque – DE / EN / FR Geared travel motors catalogue – Volume 3 – Quick selection and gearbox limit torque – IT / EN / ES 203 013 44 – 203 014 44 – – 203 014 44 Assembly instructions: D 11 - D 41 helical gearbox 214 719 44 214 720 44 214 721 44 214 722 44 Assembly instructions: D 50 - D 90 helical gearbox 214 150 44 214 151 44 214 152 44 214 153 44 Assembly instructions: W 10 - W 100 angular gearbox 214 057 44 214 058 44 214 059 44 214 060 44 Assembly instructions: A 10 - A 90 offset gearbox 214 205 44 214 206 44 214 207 44 214 208 44 Assembly instructions: FG 06, FG 08, FG 10 gearbox 206 217 44 206 218 44 206 219 44 206 220 44 Assembly instructions – Z motor range 214 227 44 214 228 44 214 229 44 214 230 44 Assembly instructions: KBA - KBF motors 214 317 44 214 318 44 214 319 44 214 320 44 Assembly instructions: Brake accessories for Z motor range 214 040 44 214 041 44 214 042 44 214 043 44 Assembly instructions / plug connection for KB and Z motor ranges 214 021 44 214 022 44 214 023 44 214 024 44 Assembly instructions: Encoders for Z motors 214 371 44 214 372 44 214 373 44 214 374 44 Assembly instructions: DRS 112-200 wheel block system 214 275 44 214 276 44 214 277 44 214 278 44 Assembly instructions: DRS 250-500 wheel block system 214 326 44 214 327 44 214 328 44 214 329 44 Assembly and maintenance instructions: DWS wheel set 214 132 44 214 133 44 214 134 44 214 135 44 2031511y_en_300812.indd Assembly instructions Geared motor catalogue Demag Cranes & Components GmbH constantly works on improving its products. For this reason, we reserve the right to incorporate changes in line with technical progress and which do not detract from the quality of our products. Therefore, diagrams and technical information may not always correspond to the latest design. 2031511x_en_300812.indd Reproduction of this catalogue, in whole or in part, requires our prior consent. 1 Our expertise and experience in the materials handling and industrial drive sectors have been consistently incorporated into the Demag geared motor range. Demag geared motors feature the following advantages: A wide range of possible combinations, providing you with versatile and cost-effective drive solutions to meet your needs Innovative design Gearbox: • high two-stage transmission ratio range • all current designs and mounting options available Varied motor range: • cylindrical rotor motors • cylindrical-rotor brake motors • conical-rotor brake motors • general applications • travel applications Modular brake system: • two brake sizes for each cylindrical-rotor motor size • fine graduation of brake torque for each brake size to suit your application Support: • comprehensive catalogue allows you to make your own selection • configuration software, CAD files etc. with selection/design aids and calculation programs • qualified advice provided on-site by our sales engineers Delivery times to meet your needs guaranteed by availability from stock and in-house production of the components and systematic modular development. Worldwide service 2 2031511x_en_300812.indd at numerous service locations all over the world Demag drives world-wide 1 General 1 2 Helical geared motors 2 3 Angular geared motors 3 4 Offset geared motors 4 5 Motors 5 6 Options and accessories 6 7 Annex Addresses, General Terms and Conditions of Sale and Delivery 2031511a_en_300812.indd Service www.demagcranes.com Order form 7 3 Contents General 6 1.1 Description of the Demag geared motor range 6 1.2 Selecting the geared motor 1.2.1 Procedure flow chart 12 12 1.2.2 Selecting the motor 26 1.2.3 Selecting the brake 33 2 Helical geared motors 34 2.1 Gearbox type designation 36 2.2 Motor and brake type designation 37 2.3 Code example 37 2.4 Mounting code 38 2.5 Helical gearboxes in direct drive input 42 2.5.1 Selection example Helical geared motors 43 2.5.2 Selection tables Helical geared motors – single speed 44 2.5.3 Selection tables Helical geared motors – pole-changing 8/2 69 2.5.4 Selection table (direct input) Helical geared motors, overview 79 2.5.5 Dimension sheets Direct drive input with cylindrical rotor motor 80 2.6 Helical gearbox with coupling connection 89 2.6.1 Selection example Helical geared motor with coupling connection 90 2.6.2 Selection tables, input speed n1 ~ 1450 min-1 92 2.6.3 Dimension sheets Coupling connection with conical rotor motor 102 2.7 Further connection dimensions and coupling housing 111 3 Angular geared motors 114 3.1 Gearbox type designation 116 3.2 Motor and brake type designation 117 3.3 Code example 117 3.4 Mounting code / model code 118 3.5 Angular gearbox, direct drive input 126 3.5.1 Selection example Angular geared motors 127 3.5.2 Selection tables Angular geared motors – single speed 128 3.5.3 Selection tables Angular geared motors – pole-changing 8/2 156 3.5.4 Selection table (direct input) Angular geared motors, overview 167 3.5.5 Dimension sheets Direct drive input with cylindrical rotor motor 168 3.6 Angular gearbox with coupling connection 180 3.6.1 Selection example Angular geared motors with coupling connection 181 3.6.2 Selection tables, input speed n1 ~ 1450 min-1 183 3.6.3 Dimension sheets for coupling connection with conical rotor motor 192 3.7 Connection dimensions Coupling housing 204 4 Offset geared motors 206 4.1 Gearbox type designation 208 4.2 Motor and brake type designation 209 4.3 Code example 209 4.4 Mounting code / model code 210 4.5 Offset gearboxes in direct drive input 218 4.5.1 Selection example offset geared motors 219 2031511a_en_300812.indd 4 1 2031511a_en_300812.indd 4.5.2 Selection tables Offset geared motors – single speed 220 4.5.3 Selection tables Offset geared motors – pole-changing 8/2 246 4.5.4 Selection table (direct input) Offset geared motors, overview 255 4.5.5 Dimension sheets Direct drive input with cylindrical rotor motor 256 4.6 Offset gearbox with coupling connection 266 4.6.1 Selection example Offset geared motors with coupling connection 267 4.6.2 Selection tables, input speed n1 ~ 1450 min-1 269 4.6.3 Dimension sheets for coupling connection with conical rotor motor 274 4.7 Connection dimensions Coupling housing 284 5 Motors 286 5.1 General 286 5.1.1 Properties of Demag AC motors 286 5.1.2 Insulation 287 5.1.3 Motor protection 288 5.1.4 Abbreviations technical data 288 5.1.5 Converting motor data for other voltages and frequencies 289 5.1.6 Standards and regulations 290 5.2 Demag Z cylindrical-rotor motors 291 5.2.1 Type designation 291 5.2.2 Demag Z cylindrical rotor motor models 292 5.2.3 Technical data Z cylindrical-rotor motors 294 5.2.4 Dimension sheets Z cylindrical-rotor motors 301 5.2.5 Mechanical design of Z cylindrical-rotor motors 306 5.2.6 Electrical features Z cylindrical-rotor motors 307 5.3 Brakes 311 5.4 Demag KB conical rotor motors 341 5.4.1 5.4.2 Type designation Designs of Demag KB conical rotor motors 341 342 5.4.3 5.4.4 5.4.5 Technical data KB conical rotor motors Dimension sheets KB conical rotor motors Mechanical design of KB conical rotor motors 344 353 358 5.4.6 Electrical design of KB conical rotor motors 363 5.5 Operation with frequency inverter 366 6 Options and accessories 374 6.1 Gearbox options 374 6.2 Z motor options 386 6.3 Brake options Z cylindrical rotor motor 403 6.4 KB motor options 405 6.5 Brake options KB conical motors 420 7 Annex 425 7.1 Remarks for ordering 425 7.2 Enquiry form 427 7.3 Addresses 429 5 1 General 1 1.1 Description of the Demag geared motor range Modular drive system Direct drive input Cylindrical rotor motor ZB63 - ZB225 D11 - D90 Helical gearbox W10 - W100 Angular gearbox Intermediate stage B003-B680 Brake Cylindrical-rotor brake motor ZB63 - ZB225 A10 - A90 Offset Gearbox 41614450.eps 6 2031511b_en_300812.indd The Demag modular system makes it possible to implement tailor-made solutions for a vast range of tasks in the drives sector. For direct drive input, the various gearbox types are combined with Demag Z cylindrical-rotor motors via end caps. The transmission ratio range of D type helical gearboxes and W type angular gearboxes can be significantly increased by means of an intermediate stage. A type offset gearboxes are designed for two and three-stage gear configurations. KB225 with a Demag coupling shaft end 41614544.W100 Angular gearbox Intermediate flange A10 .indd KB conical rotor motors and Z cylindrical-rotor motors fitted with a Demag coupling shaft end are fitted with an intermediate flange and coupling to the gearboxes with a coupling extension.D90 Helical gearbox Demag coupling Cylindrical-rotor brake motor ZB63 .ZB225 with a Demag coupling shaft end Brake B003-B680 W10 .ZN225 with a Demag coupling shaft end D11 . 7 .A90 Offset Gearbox Conical-rotor brake motor KB71 .eps 2031511b_en_300812.Coupling connection 1 Cylindrical rotor motor ZN63 . indd Size . Hypoid gearboxes offer good efficiency in the lower output power range for quiet running characteristics and higher transmission ratios. Various flanges can be bolted onto these models. 42576144. The output shafts are available as solid or hollow shafts of various designs and diameters.eps Sizes D11 to D41 feature a housing of high quality die-cast aluminium.15 – 250 3. The transmission ratio range of models D31 to D90 can be significantly increased by means of an intermediate stage.6 – 388 13.87 – 371 4.15 – 250 2.73 – 369 3.94 – 386 12. foot rails or torque brackets to meet your requirements. 1 The range includes 9 gearbox sizes.7 – 399 15. The basic versions of the W10 to W50 gearboxes are of two-stage design.9 – 434 16. The transmission ratio range of gearbox sizes W20 to W100 can be significantly increased by means of an intermediate stage.03 – 193 7. sizes W60 to W100 are three-stage.63 3. which guarantees high stability for high performance and low deadweight.63 2.Demag type D helical geared motors are of coaxial configuration and offer a variety of mounting possibilities owing to the gearbox housing being of flange or foot design.89 – 201 7.78 – 251 6. 8 W100 12000 Nm 2031511b_en_300812. 41896545. Sizes W10 to W40 feature a housing of high quality gravity die-cast aluminium.8 . Models D50 to D90 have a grey cast iron housing with a cast-on flange or a cast-on toe boards.8 . Demag type W angular geared motors enable you to mount the output flange.49 – 220 Maximum output torque 90 Nm 130 Nm 200 Nm 330 Nm 550 Nm 1000 Nm 1800 Nm 3200 Nm 5800 Nm Helical geared motors with particularly low output speeds on request.5 – 485 120 Nm 200 Nm 330 Nm 500 Nm 800 Nm 1350 Nm 2500 Nm 4000 Nm 7000 Nm Angular geared motors with particularly low output speeds on request.34 – 100 5. The angular stage comprises a hypoid wheel pair for sizes W10 to W50.eps The range includes 10 sizes. Sizes W50 to W100 feature a grey cast iron housing. The basic gearboxes are of two-stage design. which guarantees high stability for high performance and low deadweight.45 – 369 3.44 – 197 6. Overview: Size D11 D21 D31 D41 D50 D60 D70 D80 D90 Transmission ratio range 2. Overview: Transmission ratio range Maximum output torque W10 W20 W30 W40 W50 W60 W70 W80 W90 5.3 – 441 15. Overview: Size A10 A20 A30 A40 A50 A60 A70 A80 A90 Transmission ratio range 8.2 – 274 Maximum output torque 130 Nm 205 Nm 370 Nm 660 Nm 1150 Nm 2100 Nm 3700 Nm 6600 Nm 11500 Nm 2031511b_en_300812.91 – 297 9. For this reason.69 – 256 8. this gearbox type has become the preferred solution for travel applications.eps 1 offer the optimum solution for space-saving requirements owing to the compact design.32 – 52.21 – 123 3. 41867544. foot or flange-mounted types enable you to implement a cost-effective solution to meet your requirements.Demag type A offset geared motors The variety of output shafts – hollow-shaft or solid shaft – and the possible mounting variants as a hollow-shaft gearbox with torque bracket. Sizes A50 to A90 feature a grey cast iron housing.89 – 281 10.69 – 218 8. Sizes A10 to A40 feature a dimensionally stable. The range includes 9 gearbox sizes. This guarantees high stability for high performance and low deadweight. vertically split housing of high quality die-cast aluminium.indd Offset geared motors with particularly low output speeds on request. 9 .5 6.23 – 267 9. sizes A20 to A90 are two or three-stage depending on the transmission ratio.85 – 156 3. Size A10 is of two-stage design. 6 and 8-pole motors are graded according to the IEC classification..160 to Z.225 motors of grey cast iron.. 41671644. For electrical brake release. The Z.eps Two sizes of brake can be fitted to each motor size for optimum adaptation to torque.eps are of optimum design for use with the gearbox system and to meet your application requirements and can be supplied with or without brake (ZB and ZN motors). 4. The ZBF motors can be supplied as the basic motor with Demag coupling shaft end for mounting on the gearbox as a coupling connection. those of the Z.E motors comply with efficiency class IE2.indd The torque range of each brake size can be further adjusted using various brake spring combinations. The 4-pole Z. switching frequency and adjustment interval requirements.2.E.... Refer to section 5. motors can also be supplied without a gearbox of flange and foot design with IEC dimensions or also with Demag coupling shaft end. various control modules are available to provide operating times to meet application requirements. These units are of double-surface disc brake design which are spring activated when no voltage is applied.63 to Z. 10 2031511b_en_300812.225. Demag B brakes for Z motors for Demag ZB cylindrical-rotor motors are available from sizes B003 to B680. The output ratings of the 2.A and Z. The motor range includes pole-changing designs and motors with integrated fly wheels for particularly smooth load movement. The housings of motors Z..1 Demag Z cylindrical-rotor motors 41405044.132 are of a high quality aluminium alloy. .3 for technical data. The motor range includes sizes Z.63 to Z. eps 1 can be connected to the new Demag gearboxes via the Demag coupling system.g. The conical rotor principle offers a further advantage: it allows a microspeed combination motor to be used.eps 11 . When the motor is switched on. This principle is particularly suitable for high switching frequencies and braking work and for line-controlled hoist drives and is field-proven in millions of applications worldwide. This is a unit comprising two motors with an intermediate mechanical gearbox. 8-pole). They are available with various numbers of poles in sizes 71 to 225 of singlespeed design or as pole-changing motors.indd 42388844. 41425944.Demag KB conical rotor motors The housing of the motors KB71 to KB125 are of a high-quality aluminium alloy while those of the KB140 to KB225 motors are of grey cast iron. 2031511b_en_300812. the brake is automatically released via the motor winding without the need for additional brake control elements and is automatically applied when the motor is switched off. The intermediate gearbox makes it possible to achieve transmission ratios of 500:1 on the main motor output shaft by additionally utilising the differing numbers of poles of the main motor (e. The KB conical-rotor brake motor is a combination of an electric motor and springoperated brake in one unit functioning on the conical rotor principle.g. 2-pole) and microspeed motor (e. 2 Selecting the geared motor Geared motors can be selected using the following flow diagram. W angular gearbox or A offset gearbox Output speed n2 Efficiency η Getr.3 2031511b_en_300812.indd Check motor 1) .2. particularly for motors with a gearbox featuring a coupling design Standard brake? no yes no see mountig code 12 Determine mounting position yes see section 1.2 Determine axial force FA see section 1.1.2.1 Calculate required power P1 Selection tables Geared motors Provisional gearbox selection no Radial and/or axial load? yes Select gearbox with reinforced bearing or larger gearbox no Determine radial force FR see section 1.2 Permissible load on shaft? yes Specify gearbox Motor with brake? 1) Check the duty factor of the geared motor.1.1. Output torque M2 Calculate required service factor fB erf see section 1. The following information is required for specifying the motor: 1.2.1 Procedure flow chart 1 • • • • selected gearbox type required output speed gearbox efficiency required duty factor This information can be used to select the drive from the selection tables.1. Select gearbox type: D helical gearbox.2.2. Gearbox efficiency – n2 Output speed rpm φ Angle of application of the radial force (view onto the gearbox) – r Radius of the drive element m cos φ Power factor – PN rated power kW CDF Cyclic duty factor % PB20 Power consumption of the brake coil at 20 ºC W IA/IN Starting torque ratio – S1 Duty type. (100 % CDF) IN Rated current A S2 .30 1 Designations for drive motors and gearboxes 13 .g. IE2.. IE3 Efficiency class in accordance IEC 60034 . belt. intermittent duty JB Moment of inertia of the brake kgm2 t1 Response time of the brake s JM Motor moment of inertia kgm2 additional Moment of inertia (e. continuous duty. S9 Duty types. flywheel mass) t21DC kgm2 Application time for the brake when connected to the DC side s Jzus MA Starting torque Nm t21AC Brake torque Nm Application time for the brake when connected to the AC side s MB MN Rated torque Nm WB Brake friction until adjustment J nN Rated speed rpm IE1.Legend of abbreviations used in the data sheets 2031511b_en_300812. conveyor) N P2 Drive output of the gearbox kW FR Permissible radial force of output shaft.indd Abbreviations Description Unit: Abbreviations Description Unit: P1 Drive output of the motor kW F Tensile force (chain. shaft centre N M1 Drive torque of gearbox Nm fB Duty factor – M2 Output torque of gearbox Nm i Gearbox transmission ratio – n1 Drive speed rpm η Getr.. rotation P1 = P2 M2 ⋅ n2 F ⋅ r ⋅ n2 = = ηGetr 9550 ⋅ ηGetr 9550 ⋅ ηGetr Efficiency The efficiency of gearboxes is determined by the gear wheel stages. ≈ 0.96. enclosed gearboxes) • increased ambient temperature Kindly contact us to agree suitable measures for such operating conditions. ≈ 0. particularly for angular gearboxes • motors connected by a coupling • drive output greater than 75 kW • vertical arrangement of the gearboxes with large oil fill level • special installation conditions (e. Switching operations are defined as the sum of starts.1. Intermediate stages have an efficiency of ηGetr. Bevel wheel stages should be treated the same as helical gear stages. This factor determines the gearbox size. ηGetr.g. The thermal output (thermal limit) must not be exceeded over a longer period of time in order to prevent the gearbox from overheating.2. Required output torque M2 M2 = 9550 ⋅ P2 n2 M2 = F · r The duty factor is determined on the basis of one drive. for three-stage helical gearboxes and offset gearboxes.Required drive output P1 Our agencies are available to help you calculate the drive output requirement for your application using calculation programs for horizontal and vertical drives. bearing friction and friction on the sealing elements. ≈ 0. This must be given particular consideration when specifying drives with low outputs. for an operating time of 8 hours/day with 150 switching operations/hour and low masses to be accelerated. ηGetr. Permissible limit values must not be exceeded in continuous duty. The drive must be specified according to shock load curve s for regenerative braking. which. belt or conveyor drive. has a duty factor of fB erf = 1. and when operated at low temperatures or with high oil fill levels (dependent on the design) and due to the sealing elements and anti-friction bearings of gearboxes with a coupling connection. 1 Chain. ≈ 0.98. Gearbox output is limited by the maximum permissible operating temperature. the layout of the drives is to be checked by Demag.85 to 0.1 Calculating the required duty factor . a duty factor from the diagram duty factor fB erf is selected. For two-stage helical gearboxes and offset gearboxes.indd 1. Gearboxes are generally less efficient at high input speeds and high transmission ratios. This must be particularly checked in the case of: • higher input speeds (high churning losses) • low gearbox transmission ratios. the efficiency of two-stage angular gearboxes with a hypoid stage may be assumed to be ηGetr.5 x the motor rated torque has been selected in the case of three-phase regenerative and mechanical braking. Depending on the transmission ratio.87. braking operations and switch-over operations. If a braking torque exceeding 2. To ensure that the drive complies with the deviating. 14 2031511b_en_300812. actual operating conditions.94. 3 1.4 1.7 1.eps Determining the duty factor depending on the impact.8 1. the higher duty factor applies 15 .8 1.3 t 41279044.6 1. starting frequency and operating time.1 1.9 0.8 s m l 0 100 Starts/h 200 400 300 500 600 700 800 900 1000 1100 1200 1300 1400 1500 2031511c_en_300812.8 1.2 1.5 1.eps l m s JLast JM fB erf fB = = = = = = = Uniform duty Moderate shock loads Heavy shock loads Total external moments of inertia (referred to the motor shaft) Motor moment of inertia.eps M JLast s MN JM ≤ 10 41279244.1 1.7 1.5 1.indd 41634944.eps M m JLast JM MN ≤3 41279144.0 0.9 1.6 1.5 1. see chapter 5 Required duty factor Geared motor duty factor 1) In the event of differing load classifications.Determining the impact Required duty factor fB erf Estimate of the expected operating conditions. Operating time in h/d 24h/d 16h/d 8h/d fB erf 1.3 1.7 1.6 1.0 1.4 1.2 1.2 1.4 1. optionally according to or1) inertial moment factors 1 Shock loads M l JLast MN JM ≤ 0.3 1. 6 on condition that: PN ≥ PM erf 2.2.1 Determining the required gearbox torque: 16 9550 ⋅ PN ⋅ ηGetr ⋅ f B erf n2 2031511c_en_300812. ⋅ 9550 Select the motor as described in section 5.indd M2 erf = .2. In this case. contact our technical department for selection of the appropriate geared motor. Motor selection Determine the required motor output: PM erf = ML ⋅ n2 ML ⋅ nN = η Getr. the service life is only limited by the antifriction bearings. inertia moment factors greater than 10 or extreme shock loads or vibration. Selecting geared motor units with KB conical rotor motors with coupling connection Select the geared motor with KBA conical rotor motor and gearbox with coupling connection as described below: 1. the sealing rings or the lubricant. the following conditions: JLast JM = 2. 16 hours operating time and 200 starts result in a duty factor fB erf of 1. For a geared motor selected in this way. the following must be fulfilled: 1 fB ≥ fB erf Example: For a drive.4. Gearbox selection The duty factor is selected according to section 1.8 or moderate impacts m. For applications with starting against full load (high inertia starting). ⋅ 9550 i ⋅ η Getr.Select: The selected duty factor fB erf is used to check the geared motor from the selection table. the gearing is durable.1. = Gearbox efficiency n2 = Output speed nN = Rated motor speed PN = Rated motor power M2 erf = Required gearbox torque fB erf = Required duty factor M2 = Gearbox output torque 1. F vorh = 2000 ⋅ M dt dt = Diameter of the drive element in mm 2031511c_en_300812.2. the diameter and the type of drive element.6 1 The following must apply: M2 ≥ M2 erf PM erf = Required motor output ML = Load moment i = Existing gearbox transmission ratio η Getr.indd M = Existing torque in Nm 17 . The type of drive element determines factor C which is the multiplying factor for the radial force.Select the gearbox according to the relevant “Gearbox with coupling connection” section: • Helical gearboxes: Section 2.2 Permissible radial and axial force for the geared motors Existing radial force The radial force acting on the journal is the result of the output torque of the geared motor.6 • Angular gearboxes: Section 3.1.6 • Offset gearboxes: Section 4. .25 V-belt 2. direction of rotation) in the gearbox.eps 18 2031511c_en_300812.indd The smaller of the two values FRL or FRW now represents the maximum permissible radial force.1 Factor C for drive element type The selection tables specify the permissible radial force FR for each geared motor. it is advisable to carry out an additional calculation check of the permissible radial force even if the force is applied at the centre of the shaft extension. If the force transmitted by the drive elements is applied at the centre of the shaft extension.50 Geared motor shaft end diagram 41665144.00 Teeth > 13 > 20 1.25 ≤ 13 1. since higher radial forces may occur than those given in the selection tables (flange-mounted design). the permissible radial force must be calculated according to the following relationships: Drive elements Gear wheel Execution 1. For foot-mounted offset and angular gearboxes.00 ≤ 17 1.15 ≥ 20 chain sprocket C > 17 1.00 Flat belt Pre-tension As specified by the belt manufacturer 2. the following applies: FR ≥ Fvorh · C If the force is not applied at the centre of the shaft extension. These values refer to the point at which the force is applied at the centre of the shaft extension (x = l/2) and are minimum values which apply for the most unfavourable conditions (mounting position.40 Toothed belt 1. at a distance x from the shoulder of the shaft N C Factor for drive element type C1. see selection tables N FR (x) Permissible radial force. limited by the bearing service life. C3. limited by the shaft resistance. d.indd 2.Force based on bearing service life: 1. l Gearbox constants mm – C4 Gearbox constant Nmm x Distance from shaft collar to force application mm 19 . at a distance x from the shoulder of the shaft N FRW (x) Permissible radial force. C2. FRW ( x ) = C4 ≥ Fvorh ⋅ C x + C3 Abbreviations Description Unit: Fvorh Existing radial force from the output torque and the diameter of the drive element N FA Permissible axial force N FR Permissible radial force at the centre of the shaft extension (l/2). limited by the bearing service life or by the shaft resistance at a distance x from the shoulder of the shaft N FRL (x) Permissible radial force. C1 ≥ Fvorh ⋅ C x + C2 1 FRL (x) = FR ⋅ Force based on shaft resistance: 2031511c_en_300812. 0 256.0 66.0 1.0 1.76 · 105 WU/WG 50 50 x 100 223.42 · 106 WU/WG 10 25 x 50 128.0 1.06 · 105 WF 20 25 x 50 180.0 132.5 1.0 1.0 4.0 1.20 · 106 WU/WG 100 110 x 210 424.0 17.0 2.0 5.11 · 106 AF 60 60 x 120 269.03 · 107 WF 100 110 x 210 490.0 215.68 · 106 AU/AG 90 110 x 210 346.5 287.63 · 105 25 x 50 123.67 · 105 DG/DF 70 60 x 120 249.0 8.0 2.14 · 105 AF 50 50 x 100 213.0 3.5 1.0 42.0 1.0 1.0 2.5 2.7 1.0 1.0 224.75 · 105 WU/WG 40 40 x 80 203.0 8.5 36.0 1.11 · 106 WU/WG 70 60 x 120 284.5 248.0 1.63 · 106 AU/AG 80 90 x 170 290.62 · 105 WF 30 30 x 60 202.0 185.5 42.0 2.0 1.0 283.5 89.5 163.0 93.5 38.77 · 106 AF 70 70 x 140 306.0 189.45 · 106 DG/DF 90 90 x 170 333.0 100.12 · 106 WF 80 70 x 140 380.Gearbox constants for determining the permissible radial force FRL(x) and FRW(x) from bearing service life from shaft resistance C1 [mm] C2 [mm] C3 [mm] C4 [Nmm] DG/DF/DU 11 20 x 40 109.0 153.5 205.0 98.0 9.5 63.5 82.0 6.94 · 106 WU/WG 90 90 x 170 341.48 · 106 AF 80 90 x 170 342.5 61.0 1.0 1.0 58.0 0.5 1.0 1.0 1.98 · 106 AU/AG 70 70 x 140 255.0 1.5 1.5 1.0 172.5 34.5 1.29 · 105 WU/WG 20 25 x050 142.5 139.0 1.0 257.5 41.0 1.70 · 105 WF 40 40 x 80 245.0 1.0 1.5 3.0 52.0 1.0 5.51 · 105 WF 50 50 x 100 265.0 1.0 117.0 4.5 233.52 · 105 WU/WG 60 50 x 100 242.0 3.0 1.61 · 107 AU 20 25 x 050 107.0 1.0 1.0 1.04 · 106 AF 90 110 x 210 388.0 127.indd 1 Gearbox .5 89.0 98.5 3.07 · 105 WU/WG 30 30 x 60 166.5 1.0 1.22 · 106 AU/AG 60 60 x 120 213.0 56.0 1.63 · 105 DG/DF 60 50 x 100 219.0 205.5 1.0 2.0 4.0 241.5 38.7 169.5 155.0 113.0 1.0 224.0 1.0 42.5 229.0 1.26 · 105 AU/AG 40 40 x080 146.0 1.70 · 106 WU/WG 80 70 x 140 299.0 209.70 · 105 30 x 60 128.01 · 107 WF 10 25 x050 164.0 385.40 · 107 Helical gearbox in foot-mounted and flangemounted design Angular gearbox in universal and foot-mounted design Angular gearbox in flange-mounted design Offset gearbox in universal and foot-mounted design Flange-mounted offset gearbox 20 Shaft d x l [mm] 2031511c_en_300812.5 163.5 1.0 319.89 · 105 AF 30 30 x060 157.5 140.01 · 107 AF 20 25 x 50 125.16 · 105 AU/AG 30 30 x 060 123.5 2.0 5.0 1.51 · 105 AU/AG 50 50 x 100 175.0 1.0 314.0 35.0 2.5 136.92 · 105 DG/DF/DU 21 Helical gearbox with foot-mounted.40 · 105 DG/DF 50 40 x 80 172.0 51.0 192.92 · 106 DG/DF 80 70 x 140 294.42 · 106 WF 90 90 x 170 399.0 9.61 · 105 AF 40 40 x 80 180.5 1.5 106.31 · 106 WF 70 60 x 120 347.54 · 106 WF 60 50 x 100 283.0 34. flange-mounted and combined foot/flange-mounted design DG/DF/DU 31 25 x 50 114.0 236.0 103.0 4.13 · 105 DG/DF/DU 41 30 x 60 143.0 173.0 4.5 290.0 2.5 125.0 8.0 1. For higher required radial forces.3 20000 20000 20000 20000 19680 17947 17154 16690 2 20000 20000 20000 20000 20000 18964 18171 17748 22150 1 28000 28000 28000 28000 27720 24465 23359 1.Permissible axial force FA Please contact our technical department if the axial force – irrespective of the direction of rotation – is greater than 0.indd D 80 D 90 Duty factor Output speed range n2 [rpm] [fB] < 16 < 25 < 40 < 60 < 100 < 160 < 200 1 3000 3000 3000 3000 3000 3000 2635 > 200 2024 1. The radial forces shown in the table apply for a rated input speed range from 720 ≤ n ≤ 1450 rpm.3.3 5000 5000 5000 4970 3997 3313 3168 2750 2 5000 5000 5000 5000 5000 4637 4451 3853 1 5000 5000 4113 3270 2367 1809 1699 1457 1.2 times the permissible radial force FR.3 3000 3000 3000 3000 3000 3000 3000 3000 2 3000 3000 3000 3000 3000 3000 3000 3000 1 4600 4600 4202 3470 2273 1761 1509 1322 1.1. 1 FA ≤ 0.3 and fB = 2. Increased radial forces for helical gearboxes in N Gearbox D 11 D 21 D 31 Ø 25 D 31 Ø 30 D 41 D 50 D 60 D 70 2031511c_en_300812. fB = 1. refer to section 1. These can be used to determine the permissible increased radial forces for a reduced torque.3 10000 10000 10000 8843 6987 5609 5183 5132 2 10000 10000 10000 10000 9632 8242 7770 7605 1 15000 15000 15000 15000 15000 13379 12703 12340 1.3 55000 55000 55000 55000 52523 48693 47630 – 2 55000 55000 55000 55000 55000 54371 52990 – 21 . The radial forces given apply for forces applied to the centre of the shaft.3 4600 4600 4600 4600 3509 2998 2707 2529 2 4600 4600 4600 4600 4566 4163 3898 3489 1 5000 5000 4516 3590 2599 1986 1865 1600 1.3 28000 28000 28000 28000 28000 28000 27825 26723 2 28000 28000 28000 28000 28000 28000 28000 28000 1 55000 55000 55000 54628 46580 43014 42270 – 1.3 15000 15000 15000 15000 15000 14180 13913 13401 2 15000 15000 15000 15000 15000 14887 14630 14085 15632 1 20000 20000 20000 20000 18663 16899 16137 1.3 5000 5000 5000 4527 3640 3018 2885 2504 2 5000 5000 5000 5000 4895 4223 4054 3509 1 6500 6500 5343 3952 3087 2712 2541 2410 1.2 · FR Increased radial forces FR The table below presents the radial forces [FR] of the geared motors with coupling connection for the duty factors fB = 1.2.3 6500 6500 6500 5926 4941 4426 4170 3972 2 6500 6500 6500 6494 5783 5254 4989 4540 1 10000 10000 8645 6200 4342 2977 2596 2661 1. 3 4100 4100 4100 4100 4100 4100 4100 4100 2 4100 4100 4100 4100 4100 4100 4100 4100 1 5600 5600 5600 5600 5600 5600 5600 5600 1.3 40000 40000 40000 37599 33258 – – – 2 40000 40000 40000 40000 37000 – – – – 1 65000 57086 49320 43830 38054 – – 1.3 14000 14000 14000 14000 14000 14000 14000 14000 2 14000 14000 14000 14000 14000 14000 14000 14000 1 16000 16000 16000 16000 16000 16000 – – 1.3 16000 16000 16000 16000 16000 16000 – – 2 16000 16000 16000 16000 16000 16000 – – 1 25000 25000 25000 25000 25000 25000 – – 1.3 85000 85000 81816 73533 66195 – – – 2 85000 85000 85000 81484 74145 – – – 2031511c_en_300812.3 65000 62782 55204 49714 43940 – – – 2 65000 65000 61086 55596 49823 – – – 1 85000 84693 73865 65582 58242 – – – 1.3 10000 10000 10000 10000 10000 9164 8670 2 10000 10000 10000 10000 10000 9930 9436 8711 1 14000 14000 14000 14000 14000 14000 14000 14000 1.3 5600 5600 5600 5600 5600 5600 5600 5600 2 5600 5600 5600 5600 5600 5600 5600 5600 1 10000 10000 10000 10000 9756 8399 7905 7459 8085 1.3 25000 25000 25000 25000 25000 25000 – – 2 25000 25000 25000 25000 25000 25000 – – – 1 40000 40000 37829 33848 29507 – – 1.indd 1 Gearbox .3 4000 4000 4000 4000 4000 4000 4000 3715 2 4000 4000 4000 4000 4000 4000 4000 4000 1 4100 4100 4100 4100 4100 4100 4100 4100 1.Increased radial forces for angular gearboxes in N WU/WG 10 WU/WG 20 WU/WG 30 WU/WG 40 WU/WG 50 WU/WG 60 WU/WG 70 WU/WG 80 WU/WG 90 WU/WG 100 22 Duty factor Output speed range n2 [rpm] [fB] < 16 < 25 < 40 < 60 < 100 < 160 < 200 > 200 1 4000 4000 4000 4000 4000 3933 3690 3391 1. 3 12500 12500 10934 9643 8250 7305 7153 – 2 12500 12500 12172 10881 9487 8534 8370 – 1 17469 14752 12075 10411 9020 8427 8240 – 1.3 31500 31500 31500 31500 31500 30492 – – 2 31500 31500 31500 31500 31500 31500 – – – 1 50000 50000 46867 42054 36843 34547 – 1.indd Since the A10 gearbox is not in a foot-mounted or universal design.Increased radial forces for offset gearboxes in N AU 20 AU/AG 30 AU/AG 40 AU/AG 50 AU/AG 60 AU/AG 70 AU/AG 80 AU/AG 90 Duty factor Output speed range n2 [rpm] [fB] < 16 < 25 < 40 < 60 < 100 < 160 < 200 1 3150 3150 3150 2868 2569 2315 2211 > 200 2135 1.3 19364 16647 13971 12306 10810 10090 9886 – 2 20000 18542 15865 14201 12601 11752 11532 – 1 31500 31500 31500 31500 30216 28842 – – 1. no details of the permissible radial forces are provided here.3 3150 3150 3150 3150 2956 2668 2560 2466 2 3150 3150 3150 3150 3150 3020 2909 2798 1 5000 5000 5000 5000 5000 4865 4608 – 1.3 8000 8000 7485 6639 6006 5526 5456 – 2 8000 8000 8000 7451 6714 6159 6066 – 1 12500 11730 9697 8406 7012 6076 5936 – 1.3 85000 75374 66788 61334 56920 54968 – – 2 85000 80404 71818 66240 61048 58494 – – 1 Gearbox 2031511c_en_300812.3 50000 50000 50000 45759 40547 38094 – – 2 50000 50000 50000 49464 44252 41642 – – – 1 80991 70345 61756 56302 52794 51237 – 1. 23 .3 5000 5000 5000 5000 5000 5000 5000 – 2 5000 5000 5000 5000 5000 5000 5000 – 1 8000 7871 6621 5826 5297 4890 4847 – 1. 2.1.indd 42576044. angle of application Counter-clockwise Clockwise 42575944. B3. The following parameters must be known for exact calculation: • Gearbox size 1 • Ratio • Output torque • Drive speed • Output shaft direction of rotation • Angle ϕ and point x of application of the radial force • Type and diameter of the drive element (See diagram for direction of rotation and angle of application) Sketch: Direction of rotation. B7.eps .eps Example of an alternative mounting position For W gearboxes.6. the information on the direction of rotation and angle of application ϕ refers to mounting codes B14.1.6.3 and B5. please contact our technical department.3 Conditions for further increases of the permissible radial load If higher radial forces are required than those specified. 24 2031511c_en_300812.1. standard lubricant is used. NLGI Ambient temperature ARAL BP Standard Mineral Öl / Oil / Huile CLP (CC) VG 220 -10ºC ··· +50ºC Aral Degol BG 220 BP Energol GR-XP 220 Standard Hypoid Öl / Oil / Huile API GL5 SAE 90 -10ºC ··· +50ºC VG 68 -30ºC ··· +20ºC 1) VG 220 -20ºC ··· +60ºC VG 680 -20ºC ··· +80ºC Castrol Castrol Castrol Optimol Tribol Klüber Mobil Esso Shell Fuchs Klüberoil GEM 1-220 Mobil Gear 630 Esso Spartan EP 220 Shell Omala S2 G 220 Fuchs Renolin CLP 220 A10-A90 D11-D90 W60-W100 Castrol Alpha Optimol SP 220 Optigear MW 220 BM 220 MAX 220 Tribol 1100 / 220 FG06-FG10 W10-W50 A10-A90 D11-D90 W10-W100 FG06-FG10 Sonder / special Synthet. DIN (ISO) ISO. This means that they are protected against corrosion for installation in buildings with a neutral atmosphere as well as in a moderate openair climate.2.1. Unless otherwise specified.1.indd The geared motors are supplied as standard with a double package Hydro top coat in RAL 5009 (azure blue).1.Geared motors and solo gearboxes are filled with lubricant before leaving the factory.4 Lubricants.2. Special paint finish. Lubricants for special applications and operating conditions are described in section 6. see section 6.xls 1. 1 1. The lubricants used meet the requirements of DIN 51 517 part 3.4 1) The permissible gearbox torque decreases at higher temperatures. 25 .1. The gearbox is filled with different quantities of oil depending on the mounting position (see assembly instructions).1 special lubricants.1. Basic gearboxes (gearboxes for geared motors with direct drive input) are supplied without lubricant.1. Öl / Oil / Huile CLP PG Shell Fuchs Spirax Titan Gear S3 AD LS SAE 80W90 90 BP Energear Castrol Hypo EPX 90 SAE 90 Klübersynth GH 6-68 BP Aral Castrol Enersyn Degol Alphasyn SG-XP GS 220 PG 220 220 Optimol Optiflex A 220 Tribol 800 / 220 Shell Mobil Esso Klübersynth Omala Glygoyle Glycolube GH 6-220 S4 WE HE 220 220 220 Shell Klübersynth Omala GH 6-680 S4 WE 680 42708344_de_040910. temperatures The following table shows lubricants that may be used for the gearboxes. Non-painted parts are provided with corrosion protection which will last for a limited period for transport purposes.5 Paint finish 2031511c_en_300812. unless otherwise specified.E motors occurs on request.E motors and KBA motors given in the tables apply for continuous duty S1 according to DIN EN 60034-1.2. The specified power ratings for the ZBF and KBF motors apply for intermittent duty S3. 8-pole 8-pole } ZBF 12/2 KBF 12/2 Z.eps . for a coolant temperature of 40 °C and up to an installation height of 1000 m above seal level. The specified power ratings of the Z. Exact motor data is available on request. A conversion for Z. non-standard brake coils with a reduced brake torque must be used (see section 5.A 2-.9 Z. 8-pole } ZBF 2-pole.A 6-.6 12-pole 0.8 0.3). For coolant temperatures above 60 °C. by the factor kH.A 8/2 } KB 6-.2.4 0. 4-pole KB Z.3 40 50 60 70 80 T [ °C ] 26 2031511c_en_300812. and at installation heights greater than 1000 m above sea level.A 12/2 0. 4-pole 1.1 Ambient temperature and installation height The power ratings of the 4-pole Z. kH = Factor for non-standard coolant temperature kT Z.2 Selecting the motor 1 1.7 ZBF 8/2 KBF 8/2 Z.5 0.2.indd 41217745. For approximate selection at higher coolant temperatures.0 0. the specified motor output must be reduced by the factor kT. The reduction factors depend on the number of poles in the motor and are shown in the following diagram.A pole-changing 0.1.A motors apply for intermittent duty S3 60% CDF for a coolant temperature of 60 °C and an installation height of 1000 m above sea level. Installation altitude: above Maximum coolant temperature Z. motors may be provided with special windings for non-standard operating conditions.9 0. 27 .eps Depending on the motor frame size or number of poles.0 0. This results in a permissible motor output of: Pzul = PN · kT ·kH Abbreviations Description Unit: Pzul Permissible motor output kW PN Rated power kW kT Factor for non-standard coolant temperature – kH Factor for non-standard installation height Motor derating is not necessary if the ambient temperature (coolant temperature) is lowered with the installation height according to the adjacent table.A single speed up to Z.A pole-changing. ZBF KB m °C 0 1000 2000 3000 1000 2000 3000 4000 60 52 44 36 40 32 24 16 2031511c_en_300812.8 0.indd If the permissible motor output is no longer sufficient for the drive.kH = Factor for non-standard installation height kH 1 1. check whether the motor with the next highest power rating meets the requirements.7 1000 2000 3000 4000 h [m] 41217745. The most common duty types S1.2 Determining the duty type The Z.indd tB Time under load tSt Idling time tS Time cycle .1.eps 2031511c_en_300812.2.2. S2.A motors with a single speed are rated for intermittent duty S3 60% CDF at 60 °C ambient temperature. The motor duty type is selected in accordance with the definitions given in the table of duty types according to DIN EN 60034-1.eps 41299944. S1 Continuous duty S2 Short-time duty tB tB Load Load Time Time tB Time under load tB Time under load 41614144. In practice. The Z. In order to select the appropriate motor.eps 28 Start-up period Time under load Time cycle Idling time Cyclic duty factor = t A + tB ⋅ 100% referring to 10 min.E motors are rated for continuous duty S1 100% CDF at 40°C ambient temperature. 1 The KBA motors are provided with data both for continuous duty as well as intermittent duty at 40 °C ambient temperature. t A + tB + t St 41614344. The duty type must be quoted in the order together with the corresponding specification. S3 and S4 are described in the diagrams below. the motors are also used in a different duty type.eps S3 Periodic intermittent duty S4 Periodic intermittent duty with influence of starting ts ts tB tA tB t St t St Load Load Time Time Cyclic duty factor tA tB tS tSt = tB ⋅ 100% referring to 10 min. tB + tSt 41614244. it is necessary to describe the duty type accurately since the power to be provided may vary considerably from the specified power ratings. Other duty types must be determined on the basis of equivalent loading as a function of time and load. time under load.0 1. The rating plate of the motor remains unchanged in this case. the rated power of the Z. 100 % CDF – S2 Constant short-term load.A motors may be converted to the lower duty factor for duty types S2 and S3 using the corresponding kED factors. Increased power for dual-speed motors in hoisting applications on request. Time under load S3 Periodic intermittent duty without influence of starting (indexed operation).. S 9 When specifying the number of starts per hour.g.09 1. time cycle. standstill time and the relevant required output.A) – 60 min 30 min 10 min. idling time.27 S2 Operating time S3 Cyclic duty factor S 4 .18 1. it is possible to select the duty type and motor output. starting time. e.E or KB motors to other duty types.27 60 % 40 % 25 % 15 % 1.6. it must be ensured that the breakdown torque factor MK MED ⋅ k ED does not drop below the value 1. 2031511c_en_300812. S3 – 40 % Cyclic duty factor CDF in % (referring to 10 min. 1. starts per hour.g. For increased power. load torque and moment of inertia 1 Duty types in accordance with DIN EN 60034-1 Increased power for change in duty type According to the following table.) S4 Periodic intermittent duty with influence of starting Cyclic duty factor CDF in %.Abbreviations Description Necessary data S1 Continuous duty. braking time. brake type. e. On request 29 . No provision is made for converting the Z. S2 – 30 min.05 1.0 1..indd PED = PN · kED Duty type Explanation S1 Continuous duty with 100 % CDF kED (Z. the external moment of inertia and the cyclic duty factor. For a frequency other than 50 Hz.5 0. The no-load starting frequency defines how often a motor can accelerate the moment of inertia of its rotor without counter torque at 50 % CDF to its no-load speed within an hour.9 1.3 Determining the permissible starting frequency ZBA.2 0.2.7 0.7 0.9 1.7 0.eps 0 20 40 60 80 100 ED in % 41652044.3 0.1 kP 1 0.3 0.1 0.9 0.2 0 0 0.8 0.7 0.6 0.4 0.0 M MA 41217844.2 P1/PN = 0 0.eps 30 0 0.1 0.1 1.0 0.eps 2031511c_en_300812.4 0.1 0.9 0.8 0.indd Torque during start-up z = z0X · kM · kFI · kP or . the list value z0 is recalculated for ZBA and KBA motors as follows: z0 X = z0 (50 Hz)2 fx 2 Permissible starting frequency z can be determined according to the following equation: z = z0 · kM · kFI · kP k M= 1 External moment of inertia M1 MA k FI = Power requirement and duty factor JM J M+ J Zus kP kM 1.6 0.5 0.8 0.7 0.8 0.4 0.4 0.0 1.5 0.2 0.6 0. The permissible starting frequency z takes into account the load torque.6 0.3 0.6 0.3 0.5 0.2.9 1 2 3 4 5 J Zus JM 41217944.1.2 0.2 0. ZBE and KBA motors 1 The motor power tables specify the no-load starting frequency z0.8 0.5 0.0 k FI 1.4 0. Calculation of the starting frequencies is an approximation and is intended as a guide value for design purposes. To obtain the permissible starts per hour. Motor losses increase if electrical braking is performed. the calculated starting frequency corresponds to approximately one quarter of the number of permissible starts without electrical braking. Motor losses increase if electrical braking is performed.indd After determining the permissible motor starting frequency. which should be avoided in practice. For calculation purposes. In the case of counter-current braking. The calculation of the permissible switching frequency requires mechanical braking or a running down of the motor without braking. whereby brake torques up to 3-times the motor starting torque may occur depending on the pole number ratio and/or winding design. In the case of counter-current braking.3. check whether the brake is also suitable for use with ZBA and ZBE motors. Abbreviations Description Unit: PED Power for the new duty factor W PN Rated power of the motor W kED Factor for increased power – MED Torque for the new duty factor Nm MK Breakdown torque Nm z0 No-load starting frequency from list at 50 Hz h-1 fX New frequency deviating from 50 Hz Hz z0X No-load starting frequency at new frequency h -1 z Permissible starting frequency h -1 – kM Factor for taking counter torque into account during the start-up time kFI External moment of inertia factor – kP Factor for taking the required output and duty factor into account – JM Motor moment of inertia kg m2 Jadd External moment of inertia referred to the motor shaft kg m2 M1 Drive torque of the motor Nm MA Tightening torque of the motor Nm P1 Motor output W PN Rated power of the motor W 31 . whereby brake torques up to 3-times the motor starting torque may occur depending on the pole number ratio and/or winding design. Refer to diagrams in section 5.5. divide the switching frequency factor A by the start-up time. Polechanging motors are partly decelerated regeneratively by the large pole winding. you are advised to contact the technical department in our head office. the permissible starting frequency increases if the motor is started using the low-speed winding. check whether the brake is also suitable for use with ZBF motors. If the calculated starting frequency is close to the required value. the start-up time from the low speed v1 to the high speed v2 is used for the high-speed winding. ZBF and KBF motors Starting frequency factor A is specified in the travel motor power tables. Pole-changing motors are partly decelerated regeneratively by the large pole winding. Refer to diagrams in section 5.5. In pole-changing motors. the calculated starting frequency corresponds to approximately one quarter of the number of permissible starts without electrical braking. the calculated starting frequency may be reduced by 50 %.1 The calculation of the permissible switching frequency requires mechanical braking or a running down of the motor without braking. 2031511c_en_300812. For approximate calculation. which should be avoided in practice. the calculated starting frequency may be reduced by 50 %.3. After determining the permissible motor starting frequency. For approximate calculation. C2. 32 2031511c_en_300812.2 _ C1. see section 1.4 Calculation of the radial and axial forces for the Z motor Limit values FR(x) and FA apply for the radial and axial forces of both foot and flange motors.3 · FRL If the axial force exceeds 0.2.3 times the radial force. Description Unit: Fvorh Acting radial force N FA Permissible axial force N FRW Permissible radial force according to shaft resistance at x = l/2 N FRL Permissible radial force according to bearing service life at x = l/2 N FR (x) Permissible radial force. C3. limited by the bearing service life or by the shaft resistance at a distance x from the shoulder of the shaft N FRW (x) Permissible radial force outside of the shaft centre at the point x according to shaft resistance N FRL (x) Permissible radial force outside of the shaft centre at the point x according to bearing service life N C Factor for the type of drive element.1. value and description. C3 and C4 are dependent on the motor frame size and are defined together with the permissible radial load FRL. 1 Motor shaft end diagram Calculation for the motor shaft is not necessary for motors fitted with an integrated Demag gearbox. d.1. please contact our technical department. Force based on bearing service life: FRL ( x ) = FRL ⋅ C1 ≥ Fvorh ⋅ C x + C2 Force based on shaft resistance: FRW ( x ) = C4 ≥ Fvorh ⋅ C x + C3 The smaller of the two values FRL or FRW now represents the maximum permissible radial force.indd Abbreviations . l Motor constants mm C4 Motor constant Nmm x Distance from shaft collar to force application mm Motor constants C1. C2. FRW in the following table.2.2. Permissible axial force FA: FA ≤ 0. 5 6.15 · 104 Z 90 B 28 x 060 1150 1450 1700 1900 324 294 32 1.05 · 105 Z 225 A 60 x 140 – 5750 6550 – 639 569 45 8.33 · 105 Z 100 B 28 x 060 1150 1500 1700 1900 324 294 32 1.59 · 105 Z 132 C 38 x 080 1450 1900 2200 – 437 397 33 2. starting frequency.68 · 105 1 Motor 1..15 · 104 Z 80 B 24 x 050 0650 0800 0950 1050 275 250 28.5 3. 33 . Refer to section 5.5 3. A standard brake is assigned to the motors in the geared motor selection tables.3. The brake torque of the standard brake corresponds to the values specified in the motor tables (section 5.3 Selecting the brake All Demag Z cylindrical-rotor motors can be supplied with spring-actuated brakes. for a detailed description of the brakes. motors operating on the conical rotor principle with their integrated brake are also available (KBA and KBF range).19 · 104 Z 63 B 14 x 030 0600 0750 – – 229 214 27.59 · 105 Z 160 A 48 x 110 – 4150 4800 – 525 470 36 4.19 · 104 Z 71 A 14 x 030 0600 0750 – – 229 214 27.indd Owing to their modular design.15 · 104 Z 90 A 24 x 050 0650 0800 0950 1050 275 250 28.05 · 105 Z 200 B 55 x 110 – – 5950 – 580 525 45 7.). In addition.19 · 104 Z 71 B 14 x 030 0600 0750 – – 229 214 27.28 · 105 Z 180 A 48 x 110 – 4150 – – 525 470 36 4. The brake torques are finely graded owing to the combination of springs.5 3. A “small” and a “large” disk brake is available for the ZBA motors.8 · MN Check the brake depending on the application (hoist drive.Permissible radial forces and motor constants Shaft dxl [mm] FRL 2-pole [N] FRL 4-pole [N] FRL 6-pole [N] FRL 8-pole [N] C1 [mm] C2 [mm] C3 [mm] C4 [Nmm] Z 63 A 14 x 030 0600 – – – 229 214 27.19 · 104 Z 80 A 24 x 050 0650 0800 0950 1050 275 250 28.33 · 105 Z 100 A 28 x 060 – 1500 – 1900 324 294 32 1. The following information is required to select and check the brake: • Speed • Load moment • Moments of inertia • Starting frequency See section 5. the brakes can be very easily adapted to meet the requirements of the application.5 6.68 · 105 Z 225 B 60 x 140 – 5650 – – 639 569 45 8.28 · 105 Z 160 B 48 x 110 – 4150 4750 – 525 470 36 4..2.05 · 105 Z 200 A 55 x 110 – 5150 5950 – 580 525 45 7.5 3. .3 2031511c_en_300812. the switching times of the separately controlled brakes can be selected in accordance with the application.33 · 105 Z 112 A 38 x 080 1500 1950 2250 2450 437 397 33 2.59 · 105 Z 132 B 38 x 080 1450 1900 2200 2450 437 397 33 2.28 · 105 Z 180 B 55 x 110 – 5250 6100 – 580 525 45 7.5 6.3) and is: MB ≈ 1.59 · 105 Z 132 A 38 x 080 1500 1950 2250 2500 437 397 33 2. DGV 90 DFV 50 .DFV 41 Flange-mounted type DUV 11 .DFV 90 Flange-mounted type 34 41632944.indd Foot-mounted type .eps 2031512a_en_300812.DUV 41 Combined foot/flange-mounted type DGV 50 .2 Helical geared motors Housing designs DGV 11 .DGV 41 2 Foot-mounted type DFV 11 . indd The geared motor may only be used in this version (see assembly instructions 214 720 44 and 214 151 44) 35 . Mounting code The mounting code must be added to the gearbox information. The mounting code specifies the following in sequence: • • • • model and mounting position output shaft dimension motor terminal box position gearbox transmission ratio The type designation and mounting code are combined to produce the ordering data on the basis of which the required geared motor is delivered. This information makes it possible to determine the price and delivery period. speed and duty factor. Type designation • • • • • • gearbox type housing design output shaft type motor frame size number of stages input type 2 The gearbox designation comprises: The motor designation comprises: • • • • • • motor type motor design application code motor frame size rating class no. of poles For motors fitted with a brake. several geared motors are offered that meet the necessary criteria with regard to output. 2031512a_en_300812.5) under the column “Gearbox”. The type designation indicates the geared motor technical features. the motor designation also indicates the brake size. The relevant motor type and brake size are specified in the “Motor” and “Brake” columns.In the selection tables “Helical Geared Motors” (Section 2. 23.4 for explanation of the mounting code Transmission ratio 2 Terminal box position Output shaft code Model code D F V 41 D D . 50.2.B5. 31. 80. 90 Output shaft design V Solid shaft with key Housing design Gearbox type D Helical gearbox 36 Foot-mounted type (feet with through-holes) Flange mounting (flange with through-holes) Combined foot/flange-mounted type (for frame sizes D11 . 60.1 Gearbox type designation Type designation Mounting code Refer to section 2.30 - 1 . 41. 70.indd G F U .0 .8 Input type D Direct drive input L Light coupling S Heavy coupling Number of stages D 2-stage T 3-stage Sizes 11. 21.D41 only) 2031512a_en_300812. 200. 180. B007. 180. B050.8 ZBA 71 A4 B007 42574744. 8.indd DFV 41 DD-B5.2. B020.eps 37 . KB) N Motor without brake (ZN) Motor type Z Cylindrical rotor motor K Conical rotor motor with brake (brake size not quoted) 2.0-30-1-23. B140. 90. 132. 160. 90. 80. B.2 Motor and brake type designation Brake size ZBA: B003. 112. 125. C Size ZBA/ZNA: 63. 71. 160. 80. B680 Z B A 71 A 4 B007 Number of poles 2. 200. 160. 90. 8/2 2 Rating class A. 200. 4. B280. B280. 180. 112. 225 Application code A Motor for general applications in intermittent duty E Motor for general applications in efficiency class IE2 Motor design B Motor with brake (ZB. B680 ZBE: B020. 225 KBA: 71. 100. 132. AL.3 Code example 2031512a_en_300812. B140. 100. B050. 6. 140. 225 ZBE/ZNE: 80. 112. 100. 2.2. The positions are defined as 0. Terminal box position: The terminal box of the motor may be fitted in four different positions. 38 2031512a_en_300812.eps Gearbox transmission ratio: 1) The technical data given in the speed/output overviews applies for a shaft diameter of 30 mm. .4.1 to 2. an additional cost and non-standard delivery times apply.4. Example: Terminal box position 1 0 1 3 2 42574144.3).4 Mounting code Model / mounting position: Sections 2. 2 or 3 looking at the motor shaft end-on (see sections 2. Drive-Designer includes data for 25 mm diameter shafts.4.3 present the gearboxes in all available designs and mounting positions. The corresponding model code must be specified for the encryption. For these shafts.4. Output shaft code: The output shaft type is indicated by the following codes: Size D21 D31 D41 D50 D60 D70 D80 D90 Solid shaft with key V 20 25 25 1) 30 30 40 50 60 70 90 Solid shaft without key V 120 125 130 130 140 150 160 170 190 Solid shaft with key in inch V 220 225 230 230 240 250 260 270 290 2 Standard Output shaft code D11 Option Output shaft code Further optional shafts and their dimensions are to be found in section 6.indd Refer to the “Transmission ratio i” column in the “Helical geared motors” selection tables for the transmission ratio. 1.1 to 2.1.1 Output shaft design. B6.1 DG gearbox model code Foot-mounted type G Model B5.eps 39 . V6 Foot-mounted B3 0 1 2 3 2 42574144. V5.eps B7 0 1 3 2 42574444.eps V5 V6 View to determine the terminal box position 2031512a_en_300812.indd Terminal box position code according to model code B3 42574544.eps 42574644.eps B6 0 1 3 2 42574244. B8.eps B8 0 1 3 2 42574344. B7.2.4. eps 0 1 3 2 42575044. V3 Flange-mounted with through-holes (Model B14.eps 42575244.3 (B1.D41) B5.43) 42574944.42) 42574844.40) 2 0 1 3 2 B5.4. V1.eps V3 (V19) V1 (V18) View to determine the terminal box position 40 42575144.2 (B1. V19.indd Terminal box position code according to model code B 5.1 (B1.40) .eps 2031512a_en_300812.2.eps 0 1 3 2 B5. V18 flange-mounted with threaded hole for D11 .0 (B1.2 DF gearbox model code Flange-mounted type F Model B5.0 (B1.eps 0 1 3 2 B5.41) 42574744. eps 0 1 3 2 B3.4 Foot-mounted and flange-mounted with threaded holes) B3.40) 2 0 1 3 2 B3.indd Terminal box position code according to model code B3.eps V36. V15.41) 42575344.eps 0 1 3 2 B3.D41 Model B35.4.53 (B3.4) View to determine the terminal box position 2031512a_en_300812.50 (B3. V36.43) 42575544.42) 42575444.51 (B3.2. V15.50 (B3.eps 42575844.52 (B3.eps 0 1 3 2 V15.4.eps 41 .5 (V36. V36 Foot-mounted and flange-mounted with through-holes (Model B34.5 (V15.40) 42575744.4) 42575644.3 DU gearbox model code Combined foot / flange-mounted type U for D11 . D90) Cylindrical rotor motor Z63 .2.eps . Direct drive input D11 .Z225 Brake B003-B680 42 2031512b_en_300812. The transmission ratio range of D31 and D90 type helical gearboxes can be significantly increased by means of an intermediate stage. the various gearbox types are combined with Demag Z cylindrical rotor motors via end caps.indd 41614448. For direct drive input.D90 Helical gearbox Intermediate stage (D31 .5 Helical gearboxes in direct drive input 2 The Demag modular system makes it possible to implement tailor-made solutions for a wide variety of drive applications. 1 10 335 304 270 590 486 436 382 341 311 277 259 221 197 183 163 144 128 316 287 258 235 197 179 159 164 135 121 106 94.26 1.60TD ZBA 71 A 4 B007 79 D.7 50.4 54.1 5..4 77.2 9.38 3.2 40.5.5 6.98 2.6 186 169 152 138 15000 15000 15000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 6500 6500 6500 6500 2.04 1.49 2..41 Gearbox Motor Brake Weight [kg] 1) D.7 8.79 3.0 35..0 71.15 1.4.50TD ZBA 80 B 8 B007 50 D.1 Selection example Helical geared motors Selection example A geared brake motor of 0. ≈ 1.8 8.3 11 12 13 15 17 19 7.28 1.3 7.5..7 4.99 3.12 2.70 0.50DD ZBA 80 B 8 B007 45 D.44 1.41TD Housing and shaft type as per type designation in section 2..indd Output speed 43 .01 3. 10 revolutions per minute is required.9 61.7 86. motor with standard brake = 20 kg 2.2 Selection tables Helical geared motors single speed Output P1 [kW] 0. Required duty factor fB erf.41TD ZBA 71 A 4 B007 20 2031512b_en_300812.0 5.13 1. From the table in section 2.41 2 Gearbox: Weight DGV with oil in mounting position B3.1 D.2.4 8.7 9..29 1.77 1.2: Helical gearbox D.25 n2 [rpm] M2 [Nm] i FR [N] fB 7.0 7.93 1.41TD Motor: ZBA 71 A4 n2 = 10 rpm M2 = 235 i = 138 fB = 1.25 kW with an output speed of approx.82 4.5.29 3.8 45.1 7.61 1. 9 5.2 9.80 Gearbox Motor Brake Weight [kg] 1) D.89 0.4 61.5 3.8 69.34 1.74 2. motor with standard brake.98 3.74 1.19 1.89 3.6 77.2 37.52 2.8 4.95 1.0 3..7 5.5.60TD ZBA 80 A 8 B007 85 D.1 5.9 61.32 2.23 2.3 66.45 3.41DD ZBA 63 B 4 B003 17 D.6 3.40 2.08 2.97 1.0 40.34 1.9 8.63 1.13 3.70 2.44 3.31TD ZBA 63 B 4 B003 16 D.5 11 15 17 19 4.5 2031512c_en_300812.4 77.78 3.41 2.91 2.9 66.6 53.60 2.8 41.indd P1 [kW] .0 51.9 44..98 1.6 5.18 0.03 2.4 7.18 2.11 3..5 46.5 8.2 35.4 7.6 55..98 4.1 10 11 13 14 16 18 20 24 26 8.50 6..6 6.4 10 12 13 16 18 21 23 25 27 30 35 39 21 23 28 31 34 37 493 448 398 360 320 290 258 560 520 463 410 338 303 265 237 216 193 180 154 113 100 89 345 303 300 273 233 211 190 173 151 138 122 111 96 86 73 67 206 168 149 133 108 97 83 77 69 64 58 50 45 83 75 62 56 52 46 197 179 159 144 128 116 103 224 208 185 164 135 121 106 94..55 2.87 5.96 1.31DD ZBA 63 B 4 B003 15 D.50TD ZBA 80 A 8 B007 47 D.0 35.64 3.82 2.8 9.2 7.41TD ZBA 63 B 4 B003 19 D. Dimension sheets section 2.08 2.0 5.2.8 49.3 5.6 88.8 6.85 2.5..18 44 n2 [rpm] M2 [Nm] i FR [N] fB 3.06 3..74 3.19 1.88 0.4 45.7 86.51 1.86 3.7 58.3 4.46 1.06 1.7 4.6 138 121 240 218 186 169 152 138 121 110 97.07 2.41TD ZBA 80 A 8 B007 26 D.5 76.21DD ZBA 63 B 4 B003 13 1) Weight DGV with oil filling in mounting position B3.09 0.0 71.2 40.2 165 134 119 106 86.42 1.3 3.95 0.50DD ZBA 80 A 8 B007 42 D.58 4.32 2.2 Selection tables Helical geared motors Single speed 2 0.9 6.56 1.1 15000 15000 15000 15000 15000 15000 15000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 4600 4600 4600 4600 4600 4600 2.5 59.56 1.52 2..48 3. 0 28.5 7.99 3.2 4.7 12.61 1.25 2.93 1.82 4.7 2.7 5..1 7.60TD ZBA 71 A 4 B007 79 D.11DD ZBA 63 B 4 B003 13 D.98 2.7 50.1 32.85 6.9 44.4 3.13 1.11 3..7 6.1 724 644 580 518 468 709 644 572 518 461 418 371 335 304 270 590 486 436 382 341 311 277 259 221 197 183 163 144 128 316 287 258 235 32.0 71..41 1.8 6.25 3.55 1.2 37.indd 0.61 1.50 2.3 20.49 2.84 6. Dimension sheets section 2.2.59 8.93 2.21DD ZBA 63 B 4 B003 13 D.46 10.50TD ZBA 80 B 8 B007 50 D.8 45.5 8.29 1.20 1.01 3.9 61.70 0.0 7.3 11 12 13 15 17 19 7.08 1.90 5.98 4.39 2.0 5.77 1.60TD ZBA 80 B 8 B007 88 D..2 5.3 11.1 10 40 36 83 75 62 56 52 46 40 36 32 29 25 23 20 18 15 14 12 11 9.49 2.1 5.5 6.8 25..5 Gearbox Motor Brake Weight [kg] 1) D.58 3.3 3.62 7.5.70 2..7 4.25 n2 [rpm] M2 [Nm] i FR [N] fB 43 48 21 23 28 31 34 37 43 48 54 60 69 77 85 95 113 125 145 161 183 203 226 284 3.85 1.0 35.4 77.50DD ZBA 80 B 8 B007 45 D.41TD ZBA 71 A 4 B007 20 2 P1 [kW] 45 .78 3.38 3.1 18.75 1.28 1.79 3.5.61 1.49 7.8 8.79 3.7 9.16 4.5 59.5 7.44 1.15 1..3 14.9 23.1 16.0 28.1 9.51 8.8 49.12 2.89 201 179 161 144 130 197 179 159 144 128 116 103 197 179 159 164 135 121 106 94.7 86.2 4.44 1.17 2.8 41.29 3.2 40.09 3.94 2.6 186 169 152 138 4600 4600 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 20000 20000 20000 20000 20000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 6500 6500 6500 6500 3.26 1.70TD ZBA 80 B 8 B007 121 D.61 6.41 1) Weight DGV with oil filling in mounting position B3..7 14.75 1.7 4.8 66.35 9.47 3.7 5.18 2031512c_en_300812.7 4.2 Selection tables Helical geared motors Single speed 0. motor with standard brake.42 4.4 8.7 8.5 11.4 54.2 9.04 1.3 7.2 3. 2 37.62 7..5 76..84 2.16 4.0 51.32 3.7 60.04 2.86 0.76 3..94 2.77 1.80TD ZBA 90 A 8 B020 186 1) Weight DGV with oil filling in mounting position B3.71 3.20 3.59 8.60 1.2.06 1.3 20.8 41.1 9.0 28.61 6.8 69.84 6.9 44.18 1.6 3.06 2.14 6..59 11.9 32.0 40.36 1.98 Gearbox Motor Brake Weight [kg] 1) D.5.39 2.3 14.27 2.80 1.28 3.52 1.9 44.5.9 49.95 3.1 16.25 0.76 1.52 6.77 5.66 2.1 32.0 28.8 25.93 3.28 1..28 1.37 46 n2 [rpm] M2 [Nm] i FR [N] fB 11 13 14 16 18 20 23 25 28 24 26 12 13 16 18 21 22 25 27 30 34 39 42 21 23 28 31 34 37 43 48 53 59 69 28 31 34 37 43 48 53 59 69 77 85 94 113 125 144 161 182 202 225 297 382 3.28 2.2 119 106 86.60 4.2 Selection tables Helical geared motors Single speed 2 0.2 206 187 166 150 131 117 101 92 83 100 90 202 180 147 131 113 105 94 88 78 68 61 55 113 102 85 76 70 63 54 49 44 40 34 85 76 70 63 54 49 44 40 34 31 28 25 21 19 16 15 13 12 10 7.9 4.1 32.66 3.6 55.indd P1 [kW] .2 37.3 66. Dimension sheets section 2.5 46.5 58.65 1.25 3.5 3.96 7..8 41.7 12.61 1.86 2.3 20.6 66.15 1.11DD ZBA 71 A 4 B007 14 D.3 11.9 23.6 53.43 1.99 2.2 1023 917 853 121 110 97.9 6.5 2031512c_en_300812.56 2.63 193 173 161 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 4600 4600 4600 4600 4600 4600 4600 4600 4600 4600 4600 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 28000 28000 28000 1.8 49.21DD ZBA 71 A 4 B007 14 D.4 14.2 35.1 49.86 2.11 1.9 23. motor with standard brake.6 88.28 3.71 1.41DD ZBA 71 A 4 B007 18 D.63 2.1 18..92 3.4 61.99 1.53 1.63 2.5 59.53 2.6 77.74 8.31DD ZBA 71 A 4 B007 16 D.31TD ZBA 71 A 4 B007 18 D.5 54.41TD ZBA 71 A 4 B007 20 D.20 3.8 25.19 2.91 1.30 4. 3 7.9 61.7 4.50TD ZBA 90 A 8 B020 51 D.43 1.90 2.2 45.4 54.41TD ZBA 71 B 4 B007 21 D.5 11 12 13 6.99 0.31TD ZBA 71 B 4 B007 19 D.4 77.70TD ZBA 90 A 8 B020 122 D.42 3.5.61 2.2 4.87 2.5 58.6 9.5.20 1.7 8.0 35.30 2.80 3.2 40.7 5.2 37.36 3.91 3.16 1.25 1.10 2.27 1) Weight DGV with oil filling in mounting position B3.10 2.78 1. motor with standard brake.44 1.31 1.8 6.6 53.5 Gearbox Motor Brake Weight [kg] 1) D.3 66...92 1.69 1.11 2.2 5.6 33.73 0.59 2.90 2.9 49.05 1..00 3.42 2.14 3.95 2.08 3.6 55.63 1.32 3.47 1.1 29..1 7.76 0.3 11 12 13 15 17 19 20 23 26 10 11 13 14 16 18 20 23 25 28 23 26 30 33 37 41 18 21 22 25 1065 949 853 763 689 615 535 479 1044 949 843 763 678 615 546 512 465 413 374 333 302 268 562 502 458 408 381 325 290 269 240 212 189 175 156 138 359 315 286 254 230 200 178 155 140 126 152 138 118 107 96 87 201 173 160 143 201 179 161 144 130 116 101 90.83 1.5 7.00 1.7 4.5 54.98 1.3 3.96 1.67 3. Dimension sheets section 2.1 33.0 71.15 1.30 1.8 69.10 1.41DD ZBA 71 B 4 B007 19 D.2 4.36 2.05 1.4 41.5 26.93 3.87 1.81 2.04 2.60TD ZBA 90 A 8 B020 89 D.4 61.60TD ZBA 71 B 4 B007 80 D..52 3..7 86.8 45.indd 0.7 5.19 1.3 197 179 159 144 128 116 103 197 179 159 144 128 116 103 106 94.50DD ZBA 90 A 8 B020 46 D..6 88.4 3.15 2.65 1.7 50.6 77.7 60.0 20000 20000 20000 20000 20000 20000 20000 20000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 5000 5000 5000 5000 1.8 6.31DD ZBA 71 B 4 B007 17 2 P1 [kW] 47 .5 76.2.2 Selection tables Helical geared motors Single speed 2031512c_en_300812.0 7.69 1.6 7..7 9.0 138 121 110 97..37 n2 [rpm] M2 [Nm] i FR [N] fB 3.2 5.4 3.35 1.8 8.38 1. 3 4.12 1.9 5. motor with standard brake.8 134 120 105 93 85 76 67 60 55 130 116 107 96 83 75 67 61 52 47 42 38 96 83 75 67 61 52 47 42 38 32 29 25 22 20 18 16 12 9.36 2..34 1.67 1.20 1.12 3.5 2031512c_en_300812..9 23.35 2.62 7.12 2.70TD ZBA 90 B 8 B020 128 D.31DD ZBA 71 B 4 B007 17 D.9 4.91 2. Dimension sheets section 2.06 5.5 3.07 2..8 25.52 3.3 4.1 32.5 3.42 2.70TD ZBA 80 A 4 B007 118 1) Weight DGV with oil filling in mounting position B3.5.2 3.97 3.93 2.1 21.09 11.34 1.1 9.3 20.3 3.49 2.3 14.08 1.49 1.1 16.02 220 198 193 173 161 143 124 111 201 179 161 144 130 116 201 179 161 5000 5000 5000 5000 5000 5000 5000 5000 5000 4600 4600 4600 4600 4600 4600 4600 4600 4600 4600 4600 4594 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 55000 55000 28000 28000 28000 28000 28000 28000 20000 20000 20000 20000 20000 20000 20000 20000 20000 1.66 4.62 7.72 3.19 1.61 4.65 1.2.0 7.6 6.90TD ZBA 90 B 8 B020 295 D.08 1.4 6.9 8.6 29.56 1.7 12.43 9.3 11.17 3.14 2.1 25.55 5.5 3.3 14.1 18.80TD ZBA 90 B 8 B020 192 D.61 6.81 3.7 37.1 32.0 28.21DD ZBA 71 B 4 B007 15 D.indd P1 [kW] .1 18.9 1650 1485 1447 1298 1208 1073 930 832 1508 1343 1208 1080 975 870 744 662 596 51..6 4.2 35.9 23.55 48 n2 [rpm] M2 [Nm] i FR [N] fB 27 30 34 38 42 47 53 60 65 28 31 33 37 43 48 53 59 68 76 84 94 37 43 48 53 59 68 76 84 94 112 124 143 160 181 201 223 295 361 455 3.0 40.9 7.33 3.93 1..35 1.84 6.02 Gearbox Motor Brake Weight [kg] 1) D.81 3.21 1.49 1.00 1.5 46.8 25.2 Selection tables Helical geared motors Single speed 2 0.85 2.1 7.67 1.37 0.72 1.82 3.49 1.0 28.16 4.1 49.91 2.64 2.0 4.40 0.91 2.62 2.5.11DD ZBA 71 B 4 B007 15 D.9 44.3 20.02 4.74 1.9 5.9 23.15 2.8 41.35 2...76 3.9 32.1 16.66 3.07 3.2 37.59 8. 5 46.1 25.40 1.42 2.6 53.62 2.55 n2 [rpm] M2 [Nm] i FR [N] fB 9.4 23..60TD ZBA 90 B 8 B020 96 D.8 45.5 54.indd 0.03 3.50DD ZBA 80 A 4 B007 42 D.7 50.60TD ZBA 80 A 4 B007 85 D.86 2.41DD ZBA 80 A 4 B007 24 D.1 18.75 1.4 77.41TD ZBA 80 A 4 B007 26 D.2 14.5 20000 20000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6497 5000 4836 5000 5000 5000 4967 5000 5000 5000 5000 4989 4977 3.29 3.07 2.0 40.8 69.9 16.5 58.51 1.2.91 1.34 1.73 1) Weight DGV with oil filling in mounting position B3.93 1.9 11 12 14 15 18 20 8.5 6...23 1.1 33.93 2.9 32.5.15 1.5 164 135 121 106 94.7 86.10 1.88 2.51 1.40 2.8 71.5 76.05 1.34 3.74 0.70 1.33 2..31DD ZBA 80 A 4 B007 22 2 P1 [kW] 49 .0 71.56 2.7 11 12 13 15 16 18 20 23 26 28 31 36 15 16 18 20 23 26 29 24 27 31 34 38 42 48 60 28 31 35 40 44 49 55 61 67 75 88 98 533 481 1080 960 870 773 729 662 588 533 474 429 381 347 292 265 607 500 448 392 350 320 285 266 227 202 188 167 148 361 327 284 256 222 202 182 217 197 168 152 137 124 109 88 191 170 149 133 121 108 96 85 78 70 60 54 144 130 144 128 116 103 197 179 159 144 128 116 103 93.9 11 4.8 51.9 23.32 1.0 6.38 3.04 1.91 1.9 61.31 1.57 1.78 0.72 1.93 3.34 2.66 1..96 2.16 1.8 7.9 9..9 8. motor with standard brake.4 54.4 41.7 60.2 Selection tables Helical geared motors Single speed 2031512c_en_300812.26 1.9 5.50TD ZBA 80 A 4 B007 47 D.2 37.9 49.6 29.0 97.72 0.16 2.70TD ZBA 80 A 4 B007 118 D.88 3.29 1.1 21.01 1.2 40.18 1.2 45.46 1.72 2.46 1.2 7.11 2. Dimension sheets section 2.43 3.66 1.37 1.2 35.86 3.6 88.9 78.5..6 29..65 3.5 Gearbox Motor Brake Weight [kg] 1) D.09 2. .89 2.16 4.03 2.9 8.29 2.3 11..9 6.66 3.36 1.19 2.75 50 n2 [rpm] M2 [Nm] i FR [N] fB 38 44 49 55 61 71 78 87 97 115 128 148 55 61 71 78 87 97 115 128 148 165 187 208 219 231 290 305 373 470 576 740 932 3.3 4.45 3.1 9.59 8.0 7.38 8..1 18.49 1.0 4.70TD ZBA 80 B 4 ZBE 80 B 4 B020 119 122 1) Weight DGV with oil filling in mounting position B3.65 1.95 3.94 1.3 11.59 25.39 2.20 3.95 4.33 1.3 14.1 16.5 2031512c_en_300812.77 11.8 9.76 3.21DD ZBA 80 A 4 B007 20 D.54 2.80TD ZBA 80 B 4 ZBE 80 B 4 B020 183 186 D.98 2.45 2.1 16.51 1.90TD ZBA 100 A 8 B020 298 D.7 2.3 4.1 32.02 4.76 1.22 6.55 0.1 18..11DD ZBA 71 B 2 B007 15 D.66 0.88 220 198 173 156 193 173 161 143 124 111 193 173 179 161 144 130 116 201 179 161 144 130 116 101 4162 4255 4334 4600 4477 4496 4557 4600 4577 4526 4461 4377 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 55000 55000 55000 55000 28000 28000 28000 28000 28000 28000 28000 28000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 0.3 14.71 3.indd P1 [kW] .95 1.86 3..63 2.85 0.9 23.8 25.97 5.61 6.5.1 9..3 8.3 5.3 20.08 1.10 1.97 2.22 3.7 13.34 1.1 3..81 3.04 3.17 3.6 4.70TD ZBA 100 A 8 B020 131 D.80TD ZBA 100 A 8 B020 195 D.7 12.5 4.62 7.8 11 12 14 137 118 107 96 86 74 67 60 54 46 41 35 96 86 74 67 60 54 46 41 35 32 28 25 24 23 18 17 14 11 8.2 3.9 5.94 2.3 20.11DD ZBA 80 A 4 B007 20 D.84 6.49 1. Dimension sheets section 2.9 7.2 7.9 23.53 2.0 28.6 6.05 9.5. motor with standard brake.57 1.49 Gearbox Motor Brake Weight [kg] 1) D.82 3.8 5.16 2..21 1.89 4.4 3.5 2288 2059 1799 1622 2007 1799 1674 1487 1290 1154 984 882 1862 1674 1498 1352 1206 1025 913 821 734 663 592 515 37.19 2.22 1.82 3.97 1.56 3.0 4.7 12.04 1.2.66 3.64 2.9 4.8 5.47 6.75 1.69 1.2 Selection tables Helical geared motors Single speed 2 0.20 1. 9 49.09 2.1 25.4 9.2 Selection tables Helical geared motors Single speed 2031512c_en_300812.5 54.2 40.1 18.8 11 12 14 15 18 20 22 25 13 15 16 18 20 23 26 28 31 35 40 43 48 20 23 26 28 24 27 31 34 38 42 48 59 65 75 83 35 39 43 48 54 61 67 75 87 97 110 123 136 152 461 414 370 1005 913 811 734 653 592 525 479 402 365 323 293 541 483 441 393 367 313 279 259 231 204 182 169 150 352 306 277 250 299 271 232 210 189 171 150 121 109 94 86 205 183 166 148 132 118 108 96 83 74 65 58 53 47 90..50 1.72 3.65 0.2 37.06 3.95 1) Weight DGV with oil filling in mounting position B3.6 33.4 54.95 1.4 41.9 16.66 0..9 32.74 3.4 77.51 1.9 9..53 1.02 1..indd 0.2 35.50TD ZBA 80 B 4 ZBE 80 B 4 B020 48 51 D.70 3.5 10.9 8.5 58.41 1.35 1.6 29.8 71..00 3.1 33.10 3.76 1.5 197 179 159 144 128 116 103 93.57 1.70 3.06 1.14 1.2 7..5 63.1 21.7 50.5.91 4.35 4.7 17.1 29.98 1. motor with standard brake.7 86..2 45.6 18.87 1.6 53.0 71.97 2.86 2.10 1.5 106 94.49 2.32 3.8 21.43 1.20 2.31DD ZBA 80 B 4 ZBE 80 B 4 B020 23 26 2 P1 [kW] 51 .20 0.5 Gearbox Motor Brake Weight [kg] 1) D.7 60.2.5.0 35.9 23.70 1.91 1.12 2.42 2.2 72.2 14.26 3.06 1.3 57.5 12.93 2.75 n2 [rpm] M2 [Nm] i FR [N] fB 16 17 19 7.74 1.68 3.40 1.3 81.28 20000 20000 20000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6476 6426 6430 6422 4371 4320 4650 4792 4775 4740 4880 5000 4963 4848 4874 4882 4944 4990 3.9 78.70TD ZBA 80 B 4 ZBE 80 B 4 B020 119 122 D.00 1.8 11.36 1.20 1.90 2.41 3.6 29.23 1.50DD ZBA 80 B 4 ZBE 80 B 4 B020 44 47 D.03 3.0 40.09 1.41TD ZBA 80 B 4 ZBE 80 B 4 B020 27 30 D.25 1.60TD ZBA 80 B 4 ZBE 80 B 4 B020 86 89 D.4 23.41DD ZBA 80 B 4 ZBE 80 B 4 B020 25 28 D. Dimension sheets section 2.5 69.69 1.8 45.95 0.9 61.39 2.07 2. 63 3.3 11.1 6.56 1.16 18.96 3..27 8.5. motor with standard brake.59 8.97 1.7 12.88 2.66 2.59 8.30 3.69 1.62 7.79 4.89 4.9 23.5.1 52 n2 [rpm] M2 [Nm] i FR [N] fB 54 61 70 78 87 96 115 127 147 164 185 206 218 229 78 87 96 115 127 147 164 185 206 218 229 288 303 388 467 590 722 911 3.47 6..43 1.32 2.5 3.08 1.61 6.86 3.35 1.66 3.35 2.16 4. Dimension sheets section 2.26 1.4 3.80TD ZBA 90 A 4 ZBE 90 A 4 B020 186 187 D.09 1.84 2.76 1.73 2.73 2.8 11 13 7.1 3.30 2.90TD ZBA 90 A 4 ZBE 90 A 4 B020 288 289 D.08 1.47 6.90TD ZBA 100 B 8 B050 301 D.69 3.3 4.49 1.21DD ZBA 80 B 4 ZBE 80 B 4 B020 21 24 D.61 6.2 4.27 1..41 1..15 2.52 3.82 3.7 9.2.00 3.7 132 119 103 92 83 75 63 57 49 44 39 35 33 31 92 83 75 63 57 49 44 39 35 33 31 25 24 19 15 12 9.84 7.96 2.3 14.1 16.75 1.1 9.80TD ZBA 100 B 8 B050 198 D.0 7.2 1.59 1.05 2.62 7.34 1.52 1.30 0.1 18.61 3.02 4.2 Selection tables Helical geared motors Single speed 2 0.81 3.67 Gearbox Motor Brake Weight [kg] 1) D.17 3.3 11.9 5.13 1.3 8.91 1..1 3.67 3.4 6.1 9.98 1.66 10.07 2..7 9.20 1.02 220 198 173 156 138 124 220 198 193 173 161 143 124 111 101 193 173 161 143 124 111 201 179 161 144 3513 3601 4055 4008 4161 4242 4427 4340 4280 4175 4124 4047 4011 3994 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 55000 55000 55000 55000 55000 55000 55000 55000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 20000 20000 20000 20000 0.62 2.9 4.5 2031512c_en_300812.11DD ZBA 80 B 4 ZBE 80 B 4 B020 21 24 D.35 3.1 16.86 5.7 5.19 1.66 3.4 6.indd P1 [kW] .66 4.7 12.84 6.1 8..7 3432 3089 2699 2434 2153 1934 1650 1485 3011 2699 2512 2231 1934 1732 1576 1447 1298 1208 1073 930 832 1508 1343 1208 1080 25.7 7..7 7.11DD ZBA 80 A 2 B007 20 D.9 4.58 2.38 2.3 20.70TD ZBA 90 A 4 ZBE 90 A 4 B020 122 123 1) Weight DGV with oil filling in mounting position B3.84 6.16 2.3 14.8 8.4 7. .4 9.1 33.9 78.34 1.1 29.31 3.86 2.7 50.50DD ZBA 90 A 4 ZBE 90 A 4 B020 46 47 D.0 23..4 41.41DD ZBA 90 A 4 ZBE 90 A 4 B020 28 29 D.16 3.6 18.70TD ZBA 90 A 4 ZBE 90 A 4 B020 122 123 D.19 1.9 35.5.62 1.3 77.0 14.0 35.2 40.78 0.33 3.03 1.5 10.41 1..5 48..49 2.85 2.31DD ZBA 90 A 4 ZBE 90 A 4 B020 26 27 2 P1 [kW] 53 .15 1.2. motor with standard brake.06 2.65 1.29 1.60DD ZBA 90 A 4 ZBE 90 A 4 B020 76 77 D.48 0.82 3.5 63.5 12.5.07 1.4 12.4 23.50 1.4 54.5 Gearbox Motor Brake Weight [kg] 1) D.26 2.4 43.5 63.04 3.26 1.8 11.84 2.49 2.9 16.08 2.32 2.0 71.04 1.9 61.92 1.8 13.04 2.8 45.6 29.42 1.32 2..19 1.83 2.3 81.93 1.5 26.11 2.66 2.7 17.22 2.15 1.31 1..1 18.60TD ZBA 90 A 4 ZBE 90 A 4 B020 89 90 D.1 11.1 45.2 37.2 72.1 21.1 25.8 21.2 14..28 20000 20000 20000 20000 20000 20000 20000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 6020 5822 6069 6412 6401 6353 6287 6207 6161 6073 5992 5922 5834 3008 3538 3665 4002 4034 4404 4454 4620 4560 4620 4623 1.indd 1.8 71.57 0.82 3.85 2.3 57.07 2.51 2.2 21.9 38.78 0.9 23.1 n2 [rpm] M2 [Nm] i FR [N] fB 11 12 14 16 17 19 22 9.44 1.75 3.6 33.02 1.2 Selection tables Helical geared motors Single speed 2031512c_en_300812.97 1.43 3.0 29.69 1.38 2.69 1) Weight DGV with oil filling in mounting position B3.50TD ZBA 90 A 4 ZBE 90 A 4 B020 51 52 D.5 144 128 116 103 93.95 1.04 3.96 3.7 11 12 14 15 18 20 22 24 29 32 36 40 18 19 23 26 28 31 35 39 42 47 54 60 66 31 34 38 42 48 59 65 75 82 95 104 116 127 48 54 61 66 74 86 97 109 122 135 151 975 870 758 677 609 544 476 1080 960 870 773 704 591 536 475 431 363 329 292 265 578 539 460 410 381 339 300 267 248 221 195 174 158 341 309 278 252 220 179 160 139 126 110 99 90 82 218 194 173 158 142 122 109 96 85 77 69 130 116 101 90. Dimension sheets section 2. 06 1.81 3.25 1.81 3.7 12.15 3.98 5.39 1.46 1.32 1.72 4.32 3.1 5.90TD ZBA 112 A 8 B050 329 D.6 4.98 1.35 3.4 5.07 4.7 6.34 2.68 1.25 2.93 3.31DD ZBA 90 A 4 ZBE 90 A 4 B020 26 27 D.02 2.41 1.09 3.68 Gearbox Motor Brake Weight [kg] 1) D.19 3.41 3.6 5.23 18.84 6.89 4.94 6.97 4.64 2.80TD ZBA 112 A 8 B050 226 1) Weight DGV with oil filling in mounting position B3.95 2.88 220 198 173 156 138 124 220 198 173 156 173 161 143 124 111 101 4741 4791 4663 4687 4706 4680 4654 4497 2440 2904 3024 3545 3612 3920 3983 3966 3871 3844 3846 3772 3768 3721 3707 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 28000 28000 28000 28000 28000 28000 3.45 2. motor with standard brake.09 3..28 2.3 11.63 3.3 9.11DD ZBA 90 A 4 ZBE 90 A 4 B020 24 25 D.63 12.86 2.24 4.39 5.1 9.47 6.53 1.42 0.3 14.0 59 53 48 40 38 33 31 24 136 122 110 92 83 72 65 57 51 48 46 36 35 28 27 92 83 72 65 57 51 49 46 37 35 29 27 23 21 19 17 14 11 4400 3960 3460 3120 2760 2480 2200 1980 1730 1560 3460 3220 2860 2480 2220 2020 8.59 3.0 5.59 8.66 3..59 8. Dimension sheets section 2.84 4.45 5.84 6..98 1.61 6.2.53 5.16 6.41 4.4 7.2 4.2 8.16 4.50 2.58 3.19 1.89 4.5.7 6.11DD ZBA 80 B 2 B007 23 D.66 3.85 1.1 4.89 4.08 1.25 2.02 7.5 7.3 11.2 Selection tables Helical geared motors Single speed 2 1.18 4.1 1.06 1.31 3.81 3.66 3.5 54 n2 [rpm] M2 [Nm] i FR [N] fB 175 196 214 257 270 317 334 433 77 86 95 114 126 146 162 184 205 216 227 286 300 367 386 114 126 146 162 184 205 216 227 286 300 367 386 464 486 559 587 718 950 3.37 0.5..61 6..5 2031512c_en_300812.10 2..58 1.75 1.2 3.97 1.47 6.21DD ZBA 90 A 4 ZBE 90 A 4 B020 24 25 D.1 9.1 4.81 2.indd P1 [kW] .81 2.62 7.62 7.96 1..90TD ZBA 90 B 4 ZBE 90 B 4 B020 295 295 D.37 1.88 4.56 1.81 2.01 2.72 0.1 16.16 4.18 1. 06 1.8 71.37 2.51 3.60DD ZBA 90 B 4 ZBE 90 B 4 B020 83 83 D.3 54.3 57.01 1.76 1.66 1) Weight DGV with oil filling in mounting position B3.26 2.50 3.0 14.4 8.1 179 161 144 130 116 101 90.6 15.6 29.5 56..40 1.78 1.0 8.38 1.0 35..12 1.99 2.3 31.85 2.1 33.9 10 12 13 14 16 8.60TD ZBA 90 B 4 ZBE 90 B 4 B020 96 96 D.83 3.54 1.12 1.7 50.1 29.3 8.0 28000 28000 28000 28000 28000 28000 28000 28000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 9976 9976 9703 10000 10000 10000 9931 10000 10000 10000 10000 9970 9991 4760 5344 5924 5799 5839 5823 5831 5769 5724 5651 1.70TD ZBA 90 B 4 ZBE 90 B 4 B020 128 128 D.5 26.11 2.01 1.6 18.3 28. motor with standard brake.0 23.90 0.2 72.48 2.37 3.97 1.41DD ZBA 90 B 4 ZBE 90 B 4 B020 35 35 2 P1 [kW] 55 .66 1.12 3.8 103 93..3 45.74 2.9 38.22 1.2 21.86 2.8 13.5 48.5 63.39 1.22 2.6 33.80TD ZBA 90 B 4 ZBE 90 B 4 B020 192 192 D..97 2.38 1.95 1.5 Gearbox Motor Brake Weight [kg] 1) D.1 17.5.4 12.27 1.52 3.07 2..52 1.19 3.8 21. Dimension sheets section 2.25 1.48 2.7 14.9 11 12 14 16 18 20 23 25 28 31 14 15 18 20 23 25 30 33 37 41 46 50 57 26 28 32 36 40 43 48 55 62 68 81 91 101 43 49 60 66 76 84 97 107 118 130 1930 1730 1610 1430 1240 1110 1010 901 1790 1610 1440 1300 1160 1010 903 812 725 635 567 513 458 1030 939 788 715 633 575 484 439 389 353 313 284 253 547 508 452 400 356 331 295 260 232 211 176 157 141 336 294 238 215 186 169 147 133 120 109 193 173 161 143 124 111 101 90.1 11.2 Selection tables Helical geared motors Single speed 2031512c_en_300812.58 1.50DD ZBA 90 B 4 ZBE 90 B 4 B020 53 53 D.7 51.73 1.12 2.3 81.5.4 25.38 2.74 3.7 17.4 23..9 78.55 1.93 0.5 63.77 1.08 1.57 2.98 1.4 43.83 3.61 3.70DD ZBA 90 B 4 ZBE 90 B 4 B020 108 108 D..28 2.9 35.2.8 45.indd 1.06 3.5 n2 [rpm] M2 [Nm] i FR [N] fB 7.2 40.9 9.10 2.17 3. 01 2.64 2.40 3.59 Gearbox Motor Brake Weight [kg] 1) D.18 4.83 7.77 3.00 0.47 6.80 2.59 8.5 10.1 9.30 2.16 4.81 3.60 7.00 2.47 6.02 7.45 5.24 1.44 2.3 14.5.5 12.03 2.81 3.23 1.89 4.62 7.95 1.8 11.95 3.27 2.1 16.31DD ZBA 90 B 4 ZBE 90 B 4 B020 33 33 D.2.41 4.7 12.16 3.63 3.13 2.indd P1 [kW] .62 7.34 5.89 3..56 1.2 Selection tables Helical geared motors Single speed 2 1.64 0.47 2. Dimension sheets section 2.9 16.1 18. motor with standard brake.21DD ZBA 90 A 2 B020 24 D.84 6..18 1.6 5.87 2.11DD ZBA 90 A 2 B020 24 D.54 3.73 0.3 20.14 1.16 4.2 56 n2 [rpm] M2 [Nm] i FR [N] fB 151 166 183 195 68 76 88 99 112 124 138 154 178 200 219 262 276 324 341 421 443 106 118 136 151 168 186 223 247 286 318 360 401 423 445 560 588 151 168 186 223 247 286 318 360 401 423 445 560 588 719 755 907 3.5 2031512c_en_300812.1 9.59 8.86 4.94 2.89 4.1 4.41 1.64 3.53 5.38 1.7 94 86 78 73 211 189 162 145 128 114 104 92 80 71 65 54 52 44 42 34 32 135 121 105 94 85 76 63 57 49 44 39 35 33 31 25 24 94 85 76 64 58 50 45 40 36 34 32 25 24 19 19 15 5841 5104 4602 4071 3658 9.99 1.61 6.56 1.4 9.64 4.53 1.96 1.97 1.06 1.27 3.67 2.25 3.70 2.41DD ZBA 90 B 4 ZBE 90 B 4 B020 35 35 D.68 1.2 14.68 2.34 4.1 18.90TD ZBA 132 A 8 B050 330 1) Weight DGV with oil filling in mounting position B3.26 1.02 198 173 156 138 124 5567 5490 5429 5395 2675 2826 3387 3511 3884 3956 4189 4227 4351 4373 4153 4260 4301 4395 4421 4485 4496 2085 2265 2832 2941 3264 3327 3681 3590 3663 3615 3648 3598 3552 3547 3499 3481 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 55000 55000 55000 55000 55000 3..55 3.16 6.61 6..06 1.28 8.7 12.48 8.1 5.38 1.3 14.5 2.19 2.03 3.09 0.33 21.5.42 1.3 11.30 2.66 18.1 16.07 1.19 3.53 2.9 23..23 25.84 6.3 11.6 4.66 3. 18 1.19 1.3 57.92 2.5.7 6.69 0.95 1.2 21.1 29.6 15.93 1.04 1.26 1.54 1.20 1..12 1.50 3.3 8.40 1.4 25.3 45.37 2.74 1.98 2. motor with standard brake.7 55000 55000 55000 55000 55000 55000 55000 55000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 8354 8150 8770 9062 9400 9227 9573 10000 9855 1.2 130 116 101 90.16 3.5 Gearbox Motor Brake Weight [kg] 1) D.27 2.6 33.50 1.3 17.68 1.1 8.07 2.2 9.60DD ZBA 100 AL 4 ZBE 100 A 4 B050 89 89 D.5 26.7 51.15 2.0 19.60TD ZBA 100 AL 4 ZBE 100 A 4 B050 102 102 D.2 69.1 10 11 13 15 5.04 1.8 9.03 0.1 36.7 33.11 2.80TD ZBA 100 AL 4 ZBE 100 A 4 B050 198 198 D.3 81.43 1.4 7.0 23.5 63.indd 2.0 35.70TD ZBA 100 AL 4 ZBE 100 A 4 B050 134 134 D.67 2.5.9 11 13 14 16 18 20 23 11 12 14 16 17 20 22 25 28 31 34 39 43 20 22 25 29 32 36 40 45 50 56 62 73 81 35 40 43 48 54 61 67 80 90 3256 2930 2560 2309 2042 1835 1598 1439 3658 3275 2856 2560 2383 2116 1835 1643 1495 1333 1157 1035 921 1924 1717 1495 1336 1202 1073 940 839 759 678 608 543 491 1058 937 851 716 650 576 522 463 420 374 340 286 259 592 527 490 437 385 343 312 260 232 220 198 173 156 138 124 108 97.66 0.5 40.3 31.37 1) Weight DGV with oil filling in mounting position B3.05 1..33 1.94 1..2 72.66 2.94 3.84 3.4 7..35 1.8 41.16 2.1 78. Dimension sheets section 2..94 3.9 38.63 4.2 71.3 23.86 0.2 n2 [rpm] M2 [Nm] i FR [N] fB 6.80TD ZBA 132 A 8 B050 227 D.78 1.55 2.5 48.1 17.50DD ZBA 100 AL 4 ZBE 100 A 4 B050 59 59 2 P1 [kW] 57 .5 56.61 1.70DD ZBA 100 AL 4 ZBE 100 A 4 B050 114 114 D.85 2.96 3.91 2.38 2.4 43...07 1.76 2.2 Selection tables Helical geared motors Single speed 2031512c_en_300812.9 62.43 1.2 8.2.5 63..3 28.51 2.9 35.2 124 111 193 173 161 143 124 111 101 90.90TD ZBA 100 AL 4 ZBE 100 A 4 B050 301 301 D.29 3.27 2.31 3.60 1.93 1. 23 5.95 3.67 1.85 4.5 5.53 2.31DD ZBA 90 B 2 B020 33 D.1 5.31DD ZBA 100 AL 4 ZBE 100 A 4 B050 39 39 D.27 1.indd P1 [kW] .83 7.81 2.5.1 12.99 3. Dimension sheets section 2.02 7..67 14.7 17.5 12.26 1.0 14.36 1.28 2.53 5.8 13.05 2.90TD ZBA 100 B 4 ZBE 100 B 4 B050 301 302 D.8 11 209 186 164 146 352 317 275 250 217 197 178 161 139 126 115 108 95 86 70 58 54 215 189 169 153 136 118 105 96 80 76 65 62 50 47 40 38 32 30 23 6396 5658 5084 4510 4059 3547 3198 2829 2542 2214 1993 1773 1597 3547 3301 2932 2542 14.19 3.92 3.88 2.91 3.45 5..4 9.79 2.6 6.43 1.64 2.5 2031512c_en_300812.22 2.28 8.60 7.2 3.80TD ZBA 100 B 4 ZBE 100 B 4 B050 198 199 1) Weight DGV with oil filling in mounting position B3.35 3.1 8.14 1.06 1.63 0.33 6.68 1.94 4.5 77.06 2.9 173 161 143 124 9826 9683 9790 9899 3350 3768 4489 4747 5104 5125 5222 5227 5279 5224 5192 5172 5144 5108 4971 4908 4882 1695 2339 2540 2954 3087 3470 3544 3204 3466 3548 3753 3812 3990 4027 4127 4148 4193 4204 4092 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 28000 28000 28000 28000 2.27 3.62 2.91 1.94 1.41 4.14 2.03 1.0 9.53 1.80 3.45 5.17 1.03 1.62 2.16 6.29 1.7 9.16 1.4 7.81 1.19 3.5 10. motor with standard brake.71 3.0 10 11 13 14 16 18 8.41DD ZBA 100 AL 4 ZBE 100 A 4 B050 41 41 D.1 9.21 2.64 1.03 1.92 0.14 1.4 12.75 3..8 21..2 86.74 3.44 5.2.56 1.1 9.5.90TD ZBA 132 B 8 B140 349 D.23 156 138 124 220 198 173 156 138 124 108 97..43 1.80 2...27 3.40 3.1 11.56 1.48 8.72 0.34 Gearbox Motor Brake Weight [kg] 1) D.6 18.93 1.6 11.38 3.2 Selection tables Helical geared motors Single speed 2 2.21 3.1 8.50DD ZBA 100 AL 4 ZBE 100 A 4 B050 59 59 D.18 4.87 23.41 2.8 11.77 0.0 58 n2 [rpm] M2 [Nm] i FR [N] fB 100 112 127 143 59 66 76 83 96 106 117 129 149 165 181 193 220 242 298 361 386 98 111 123 136 152 176 198 217 260 273 321 338 416 438 525 552 649 683 885 4.41 4.96 1.18 4. 2 Selection tables Helical geared motors Single speed 2031512c_en_300812.71 1.1 29.5 49.11 1.97 1.33 28000 28000 28000 28000 28000 28000 28000 28000 28000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 5828 7019 7232 8054 8637 8889 9404 9219 9295 9240 9511 9687 9919 9765 2438 3322 3681 4199 4440 4687 4712 4800 4840 1.72 0.01 1.5 14.3 23.27 1.5 15.0 n2 [rpm] M2 [Nm] i FR [N] fB 13 14 16 18 20 23 25 28 32 16 17 19 22 25 27 31 34 38 42 47 54 61 29 32 36 40 45 49 55 61 73 80 90 99 47 54 60 66 80 89 99 111 126 142 165 185 203 246 82 95 104 116 127 148 163 179 191 2276 2071 1847 1603 1433 1275 1138 1015 906 1851 1665 1486 1302 1162 1052 939 843 752 681 609 529 472 992 900 797 724 642 582 519 472 396 359 318 289 605 533 476 433 361 322 289 258 228 202 174 153 140 115 344 300 272 245 223 192 174 159 149 111 101 90.72 1.8 23.83 7.3 28.79 3.92 2.7 33.56 1.70DD ZBA 100 B 4 ZBE 100 B 4 B050 114 115 D.13 2.1 12.2 90.8 13.50DD ZBA 100 B 4 ZBE 100 B 4 B050 59 60 D.91 1.91 1.52 1.4 25.5.84 2.53 2..42 2.96 3.7 51.1 11..64 1.2 29.3 45.5.55 1.03 1.99 3.indd 3..82 1.5 63.1 9.38 1.75 0.71 1.12 2.90 2.7 14.1 36.37 2.11 1.1 17.0 14.16 3.93 2.2 21.2 55.38 1.69 17...40 3. Dimension sheets section 2.0 23.4 12.3 17.0 48.87 8.70TD ZBA 100 B 4 ZBE 100 B 4 B050 134 135 D.49 7.51 3.80DD ZBA 100 B 4 ZBE 100 B 4 B050 167 168 D.0 9.2 72.49 1.5 26.16 1.2 69.90 5.60DD ZBA 100 B 4 ZBE 100 B 4 B050 89 90 D.9 35.31 1.5 44.5 56.46 0.41DD ZBA 100 B 4 ZBE 100 B 4 B050 41 42 2 P1 [kW] 59 .86 3.03 1.74 1.8 41.4 43.80TD ZBA 100 B 4 ZBE 100 B 4 B050 198 199 D.64 2.72 3.3 81.6 11.25 1.57 6.15 3.3 31.83 1) Weight DGV with oil filling in mounting position B3.08 1.49 1.67 2.22 1.9 38.39 2. motor with standard brake.60 7..60 1.7 25.12 2..1 78.6 15.2.21 1.48 8.0 19.5 Gearbox Motor Brake Weight [kg] 1) D.35 3.14 2.9 62. 3 9.85 4.75 3.40 1.80DD ZBA 112 A 4 ZBE 112 A 4 B050 195 195 D.70TD ZBA 112 A 4 ZBE 112 A 4 B050 162 162 D.3 8.indd P1 [kW] .94 1.81 3.1 4913 4895 4772 4743 4728 4726 4585 4471 4433 1493 1735 2345 2503 2082 2526 2659 2992 3093 3405 3472 3662 3708 3817 3848 3930 3947 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 20000 20000 20000 20000 20000 20000 2.27 1.36 1.45 2.03 1.5 2031512c_en_300812.45 3.90TD ZBA 112 A 4 ZBE 112 A 4 B050 329 329 D.16 6.84 3.0 60 n2 [rpm] M2 [Nm] i FR [N] fB 217 239 295 357 381 485 598 724 774 135 151 175 196 214 257 270 317 334 412 433 521 548 644 678 835 879 6..59 4.5.19 3.0 4.11 1.31DD ZBA 100 B 4 ZBE 100 B 4 B050 39 40 D.55 1.5 77.41 4.97 1.28 8.21 1.2 86.98 1. Dimension sheets section 2..18 4.59 2.44 5..53 5.13 1.16 1.59 1.5 55.5 63.02 2.42 0.45 5..5 56.70DD ZBA 112 A 4 ZBE 112 A 4 B050 142 142 1) Weight DGV with oil filling in mounting position B3.92 0.65 Gearbox Motor Brake Weight [kg] 1) D.4 9.07 1.40 3.13 1.30 3.71 2.2 69.64 1...67 5.5 63.3 45.75 3.31 1.5 49.1 78.5 7.96 2.50 0.75 2..40 3. motor with standard brake.2 55.1 36..67 10.92 3.2 10 12 13 15 17 18 20 23 26 12 13 14 16 18 21 23 26 29 33 35 39 20 23 25 28 31 35 130 119 96 79 74 59 48 39 37 211 188 162 145 132 110 105 89 85 69 65 55 52 44 42 34 32 5830 5247 4585 4134 3657 3286 2862 2576 2292 2064 1868 1683 1460 3286 2942 2677 2388 2072 1852 1648 1471 1312 1171 1089 973 1921 1683 1503 1359 1214 1089 6.9 62.99 1.85 4.32 1.45 5.2 Selection tables Helical geared motors Single speed 2 3.02 7.92 3.37 2.06 2.16 2.90 1.41DD ZBA 100 B 4 ZBE 100 B 4 B050 41 42 D.23 5.31 2.7 72.32 2.42 1.61 1.18 4.20 1..1 124 111 101 90.53 2.12 3.77 2.41DD ZBA 100 B 2 B020 37 D.31DD ZBA 100 B 2 B020 35 D.5 44.84 2.11 4.80 0.03 2.90 3.85 3.9 70.7 51.19 3.41 4.63 4.8 41.27 1.5.48 1.80TD ZBA 112 A 4 ZBE 112 A 4 B050 226 226 D.2 41.25 2.23 220 198 173 156 138 124 108 97.2.10 3. 3 17.93 1.42 2.07 2.90DD ZBA 132 AL 4 ZBE 132 A 4 B140 300 300 D.18 1.28 3.90TD ZBA 132 AL 4 ZBE 132 A 4 B140 349 349 D.66 1.2 29.1 11.49 1.6 9.2 Selection tables Helical geared motors Single speed 4.29 2.95 3.12 8.5 Gearbox Motor Brake Weight [kg] 1) D.49 1.90 6..6 11.1 17.5 n2 [rpm] M2 [Nm] i FR [N] fB 39 43 48 56 63 70 78 37 41 46 51 57 63 75 82 93 102 123 136 157 68 82 92 102 114 130 146 170 190 209 234 253 323 421 518 650 848 1043 8.65 1..97 1.1 51.3 31..70DD ZBA 112 A 4 ZBE 112 A 4 B050 142 142 D.30 1.49 4.0 2031512c_en_300812.33 1.96 3.93 1.00 0.70 1) Weight DGV with oil filling in mounting position B3.98 1.05 2.57 6.87 8.5 14.68 3.14 3.1 12.32 1.00 0.42 2.5.23 3.46 3.28 2.5 63.4 25.69 2.52 1.43 2.1 78.indd 5.17 1.0 19.86 2.85 3.11 0.10 7.64 1.5 38.60DD ZBA 112 A 4 ZBE 112 A 4 B050 117 117 D.3 28.2.93 6..03 1.2 69.5 15.2 55.19 21.15 5.35 1. Dimension sheets section 2.7 33.2 101 90.5 77..67 0.56 4.7 25.9 35.85 2.87 2.16 2.7 14.2 46.80TD ZBA 132 AL 4 ZBE 132 A 4 B140 246 246 2 P1 [kW] 61 .1 9.78 173 156 138 124 108 97.0 20.5 55.7 18.5.3 11 12 13 15 17 19 21 23 26 28 32 36 14 16 19 21 23 26 973 880 787 684 610 549 490 1031 935 829 753 670 610 511 464 411 374 310 281 244 559 466 416 374 334 294 262 225 200 182 163 150 118 90 74 59 45 37 6235 5622 4974 4469 3892 3503 3118 2808 2541 2289 1986 1845 1662 1449 3640 3247 2818 2519 2242 2000 36.05 1.. motor with standard brake.9 62.69 4.63 2.7 10.47 1.8 23.16 2.21 1.1 40.9 70.45 4.21 1.53 2.78 4.50DD ZBA 112 A 4 ZBE 112 A 4 B050 87 87 D.4 9.5 20000 20000 20000 20000 20000 20000 20000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 5708 6817 7077 7837 7978 8569 8546 8830 8912 9216 9364 8959 9259 9304 9068 8721 8516 8083 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 28000 28000 28000 28000 28000 28000 1.07 1.3 23.6 15.23 4.46 3..10 2.92 3.49 7.96 2.44 2.50DD ZBA 112 A 2 B050 87 D.2 86. 21 1.42 2.41 2.7 14.1 36.07 1.3 17.66 0.11 Gearbox Motor Brake Weight [kg] 1) D.57 6.90TD ZBA 132 B 4 ZBE 132 B 4 B140 349 349 1) Weight DGV with oil filling in mounting position B3.44 1.81 0..2 86.50 1.13 2.60DD ZBA 132 AL 4 ZBE 132 A 4 B140 137 137 D.2 14.97 1.15 5.94 2.5 63.5 15.5 16.09 1.70DD ZBA 132 AL 4 ZBE 132 A 4 B140 162 162 D.8 41.1 11.6 28.7 10.69 4.78 4.5 62 n2 [rpm] M2 [Nm] i FR [N] fB 29 33 35 40 46 51 56 28 32 35 40 44 49 56 63 70 79 90 100 115 51 58 63 75 83 94 103 124 137 158 174 205 93 103 115 131 147 171 192 211 237 256 326 425 523 648 845 1040 12 13 15 17 18 20 23 26 1784 1593 1481 1323 1143 1020 930 1849 1651 1481 1323 1197 1070 930 829 746 667 584 523 454 1024 912 829 696 631 559 508 422 382 331 301 256 566 508 454 400 356 306 273 249 222 205 161 123 100 81 62 51 6200 5400 4860 4325 3895 3525 3175 2755 49.80DD ZBA 132 AL 4 ZBE 132 A 4 B140 215 215 D.37 1.5.21 1.57 2.3 25.7 33.5 7.1 12.50DD ZBA 132 A 2 B050 87 D. Dimension sheets section 2.94 1.4 25.1 36. motor with standard brake.43 5.10 15.50DD ZBA 132 AL 4 ZBE 132 A 4 B140 107 107 D.34 1.98 3.10 3.3 45.5 44.6 11.53 3.98 1.49 7.79 1.83 2.5 77.10 1.0 19.62 3.5.7 31.17 2.46 3.7 25.70 3.44 3.34 7.91 2.6 9.09 2.08 1.0 20.55 1.30 2.08 3.17 2.9 70.33 3.5 14.97 1..97 2.59 1.7 18.90 6.5 55.37 2..68 1.2 29.1 9.61 4.33 3.19 8.97 2.2 41.22 1.2 Selection tables Helical geared motors Single speed 2 5.8 51.19 1.96 0.36 1..1 28000 28000 28000 28000 28000 28000 28000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 19999 15000 15000 15000 15000 15000 15000 15000 15000 15000 14963 14925 14958 4196 5346 5666 6608 6835 7587 7696 8122 8264 7707 8277 8669 8846 8721 8516 8083 55000 55000 55000 55000 55000 55000 55000 55000 1.7 28.8 23.5 2031512c_en_300812.87 8.65 1.78 124 108 97.17 5.80 1.2.32 2.42 2.49 1..5 12.46 3.3 23..84 0.indd P1 [kW] .02 3. 7 33.21 1.3 17.5 55000 55000 55000 55000 55000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 20000 20000 20000 20000 20000 20000 20000 20000 20000 19941 19812 19870 15000 15000 15000 15000 14968 14943 14905 14753 14681 14533 3738 4185 5392 5689 6403 6654 5908 6867 7588 7968 8275 8438 8083 55000 55000 55000 55000 2.20 3.2 55.60DD ZBA 132 B 4 ZBE 132 B 4 B140 137 137 D.95 1.1 36.84 4.5 n2 [rpm] M2 [Nm] i FR [N] fB 28 31 36 40 45 21 23 26 29 32 35 39 45 51 56 62 72 80 39 43 48 56 62 69 78 89 99 114 127 144 74 82 93 102 123 135 156 172 202 223 129 145 169 190 208 233 252 322 420 516 650 848 1043 15 17 18 20 2560 2305 2010 1810 1600 3495 3110 2775 2475 2210 2055 1835 1585 1415 1290 1150 1000 895 1835 1660 1485 1290 1150 1035 925 810 725 630 565 499 965 875 775 705 585 530 460 417 354 321 555 493 425 377 344 306 284 222 170 139 109 84 68 6124 5450 4908 4442 51.42 1.83 2.96 3.80TD ZBA 132 B 4 ZBE 132 B 4 B140 246 246 D.52 2.97 1.5 14.2 29..19 8.8 23.95 2.57 6.54 1.14 1.9 70.7 25.04 1.30 1.90DD ZBA 132 B 4 ZBE 132 B 4 B140 300 300 D.29 1.08 1.49 7..9 62.63 0..6 11.5 15.0 69.69 4.40 2.44 11.89 2.34 7.80DD ZBA 132 B 4 ZBE 132 B 4 B140 215 215 D.89 3.61 1.2 Selection tables Helical geared motors Single speed 7.15 2.5 12.0 17.85 2.87 8.50DD ZBA 132 B 2 B050 101 D.5 77.46 3.42 2.1 9.48 2.78 2.40 2.09 1.2 32.7 10.19 3.64 2.98 19. motor with standard brake.98 0.90TD ZBA 132 C 4 B140 350 2 P1 [kW] 63 .24 2.1 40.5 16.31 1) Weight DGV with oil filling in mounting position B3.99 1.40 3.74 1.42 2.5 44.40 1.3 9.7 31..5.2 36.50DD ZBA 132 B 4 ZBE 132 B 4 B140 107 107 D.57 1.61 3.68 1.70DD ZBA 132 B 4 ZBE 132 B 4 B140 162 162 D.31 0.22 2.2 14.78 97.46 3.indd 9..11 1.2 86.. Dimension sheets section 2.15 5.29 3.2 46.51 1.1 11.0 20.80 0.5.06 1.2.65 1..7 18.71 1.43 1.37 1.8 23.0 20.18 2.7 28.98 1.6 9.10 6.5 49.9 36.27 2.5 Gearbox Motor Brake Weight [kg] 1) D.86 3.78 4..5 2031512c_en_300812.57 1.18 1.90 6.3 25.2 41.23 1. 8 23.33 1.00 2..3 25.96 1.20 3.47 1.54 2.5 44.7 10.5.57 6.10 6.86 3.34 7.0 17.36 1.7 25.21 3.5 49.0 28.46 3.78 86.9 14.19 8.9 15.56 2.14 Gearbox Motor Brake Weight [kg] 1) D.46 3.3 9.20 1.5 55000 55000 55000 55000 55000 55000 55000 55000 55000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 20000 20000 20000 20000 20000 20000 19981 19888 19571 19577 19324 19106 15000 15000 14912 14911 14684 14664 14557 14420 14293 3347 3792 4738 5112 4207 5535 6567 7138 7563 7892 7799 55000 55000 55000 1.7 18.indd P1 [kW] .36 1.91 1.5 11 64 n2 [rpm] M2 [Nm] i FR [N] fB 23 26 28 31 36 40 45 50 57 26 29 33 35 39 45 51 56 63 72 80 91 101 48 56 63 70 78 89 99 114 127 144 162 187 82 93 102 123 136 157 173 203 224 170 190 209 234 253 323 421 518 648 845 1040 17 19 21 4000 3471 3226 2904 2533 2281 2016 1814 1581 3497 3118 2785 2589 2312 1997 1783 1625 1449 1260 1128 1002 895 1871 1625 1449 1304 1166 1021 914 794 712 629 561 486 1103 977 888 737 668 579 525 446 405 535 476 434 387 358 280 215 175 140 108 87 6228 5609 5076 63.2 46.1 36.70 0.5 2031512c_en_300812.91 7.2 36.97 1.02 1.42 2.13 1.01 3.2 29.07 2.13 1.49 7..80TD ZBA 132 C 4 B140 247 D.5 77.5 16.5 15.1 40.8 23.39 3.90 6.2 32.78 4.53 2.45 1.76 1.7 28.1 11.91 2..97 2..50DD ZBA 132 C 2 B140 108 D.24 1.45 1.88 3.54 1.5.90 2.44 8.99 3.09 1.2 Selection tables Helical geared motors Single speed 2 9.60DD ZBA 132 C 4 B140 138 D.2.38 1.70 1.6 11.11 1. Dimension sheets section 2.80DD ZBA 132 C 4 B140 216 D.03 1.0 20.80 2.80 0.31 1.36 0.. motor with standard brake.7 31.0 20.90DD ZBA 132 C 4 B140 301 D.98 8.1 55.72 17.8 25.27 2.35 2.90TD ZBA 132 C 4 B140 350 D.5 14.69 4.2 14.1 51.09 2.2 41.15 5.42 2.67 0..93 1.24 1.03 1.20 2..5 55.5 12.50 1.6 9.22 1.67 1.50DD ZBA 132 C 4 B140 108 D.29 2.9 70.70DD ZBA 132 C 4 B140 163 D.78 2..90TD ZBA 160 AL 4 ZBE 160 A 4 B140 431 431 1) Weight DGV with oil filling in mounting position B3.70 3..73 1. .5 44.67 1.75 0.1 51.27 1.90 6.21 2.69 4.1 51.70DD ZBA 160 AL 4 ZBE 160 A 4 B140 244 244 D.06 0.97 3.80DD ZBA 160 AL 4 ZBE 160 A 4 B140 297 297 D.15 1..90TD ZBA 160 AL 4 ZBE 160 A 4 B140 431 431 D.34 7.63 0.2 12.92 2.1 22.0 20.24 3.06 1.8 25.23 2.8 23.46 3.51 2.7 10.49 1.50DD ZBA 160 AL 4 ZBE 160 A 4 B140 189 189 D.5 55.1 40.90TD ZBA 160 B 4 ZBE 160 B 4 B280 439 439 D.5 Gearbox Motor Brake Weight [kg] 1) D.36 2.1 40.29 1.75 2.2 Selection tables Helical geared motors Single speed 11 2031512c_en_300812.27 1.7 31.52 2.19 8.9 15.5 12.8 23.09 1.98 2.81 3.05 2.90DD ZBA 160 AL 4 ZBE 160 A 4 B140 382 382 D.92 1.9 14.60DD ZBA 160 AL 4 ZBE 160 A 4 B140 219 219 D.80 3.5.6 9.90DD ZBA 160 B 4 ZBE 160 B 4 B280 390 390 2 P1 [kW] 65 .83 2.57 1.35 1.46 1.64 2..8 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 20000 20000 20000 20000 20000 19796 19837 19405 19374 19136 18949 18698 14831 14645 14491 14430 14342 14236 14124 2461 3569 4030 3013 4599 5850 6555 55000 55000 55000 55000 55000 55000 55000 55000 1.97 1.91 7.16 1.. Dimension sheets section 2.10 6.09 1.72 6.99 1.0 20.56 0.2 14.46 1.78 63.05 1..62 1.0 28.57 6.27 1.15 5.2 32.3 25.99 1.3 9.2 32..1 36.0 17.2 41.19 1. motor with standard brake.21 1.2 46.67 1.7 18.2.31 1.2 46.51 1.5 16.6 49.5.0 28.42 2.98 8.2 36.44 7.indd 15 n2 [rpm] M2 [Nm] i FR [N] fB 23 26 28 31 36 40 45 50 58 64 29 33 35 40 46 51 56 63 73 81 91 102 115 56 63 70 78 90 100 115 128 145 163 188 210 103 124 137 158 174 204 225 192 210 236 255 325 424 522 23 26 28 31 36 40 45 50 4572 3967 3686 3319 2894 2606 2304 2074 1807 1627 3564 3182 2959 2642 2282 2038 1858 1656 1440 1289 1145 1022 907 1858 1656 1490 1332 1166 1044 907 814 719 642 556 496 1015 842 763 662 600 511 464 545 497 443 410 321 246 200 6287 5455 5069 4564 3980 3584 3168 2851 63.89 14.14 1..81 0.95 1.2 36.03 1) Weight DGV with oil filling in mounting position B3.21 3.33 3..7 28.07 1.6 25.83 2.72 1.6 11.00 2.1 11.55 1.54 1.5 55. 95 2.59 2.61 2.49 1.5 66 n2 [rpm] M2 [Nm] i FR [N] fB 58 64 72 80 88 99 40 46 51 56 63 73 81 91 102 115 128 148 166 78 90 100 115 128 145 163 188 210 137 158 174 204 225 325 424 522 28 31 36 40 45 50 57 64 72 80 88 98 113 51 56 63 72 80 91 101 114 2485 2237 1990 1792 1624 1455 3633 3138 2802 2554 2277 1980 1772 1574 1406 1247 1119 969 865 1832 1604 1435 1247 1119 988 882 764 682 1049 910 826 703 638 442 339 275 6298 5670 4945 4453 3936 3542 3087 2780 2472 2226 2017 1808 1574 3481 3173 2829 2460 2202 1956 1747 1550 25.61 1.9 14.5 12.51 3.5.0 17.64 0.98 8.91 7.94 1.21 3.0 17.60DD ZBA 160 B 4 ZBE 160 B 4 B280 227 227 D..68 0.54 1.24 3.2 36.3 25.indd P1 [kW] .89 10.09 2.1 22.4 14.9 15.79 8.8 23.6 20.44 1.4 14.2 12.6 55000 55000 55000 55000 55000 55000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 19470 19443 19160 19068 18749 18765 18570 18478 18260 13670 13668 13547 13695 13626 1835 3731 4833 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 28000 28000 28000 28000 28000 28000 28000 28000 2.2 32.04 3. Dimension sheets section 2.10 6.40 1.64 1.3 9.9 15.13 1.5.30 1.25 1.7 28.74 1.46 3.6 11.. motor with standard brake.2 12.99 0.17 1.19 8.08 1.73 3.72 1.16 2.1 16.92 1.3 9.9 14.7 31.3 25..50DD ZBA 160 B 4 ZBE 160 B 4 B280 197 197 D.57 3.38 1.80DD ZBA 180 A 4 ZBE 180 A 4 B280 306 333 1) Weight DGV with oil filling in mounting position B3.82 2.2 14.88 3.70DD ZBA 160 B 4 ZBE 160 B 4 B280 252 252 D.19 Gearbox Motor Brake Weight [kg] 1) D.1 18.98 1.42 2.20 1.90DD ZBA 180 A 4 ZBE 180 A 4 B280 391 418 D.33 2.8 28.7 12.6 9.50 0.34 7.72 6.91 3.6 20.0 20.21 1.1 40.44 4.04 2.80DD ZBA 160 B 4 ZBE 160 B 4 B280 305 305 D.92 2.32 0.07 1.0 20.8 25.2.36 2.74 18.92 1.35 2.2 Selection tables Helical geared motors Single speed 2 15 18.1 22.8 23.21 1...90DD ZBA 160 B 4 ZBE 160 B 4 B280 390 390 D.10 1.5 2031512c_en_300812.1 16.5 16.88 2.33 1.78 51.47 1..7 36.42 2.93 0..95 1.12 1.6 11.2 46.98 1.02 1.1 18.0 28. 26 1.79 8. Dimension sheets section 2.47 1.26 1.87 7.3 9.03 12.97 1.4 28000 28000 28000 28000 28000 18591 18342 18384 18111 18224 18067 18059 17872 12578 13028 13071 1870 3321 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 55000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 17795 17562 17758 17635 17699 17537 55000 55000 54938 54868 55000 55000 54898 2.42 2.98 8.50DD ZBA 180 A 4 ZBE 180 A 4 B280 198 225 D. motor with standard brake.9 15.81 1) Weight DGV with oil filling in mounting position B3.0 20.8 25.40 1..5 12.03 16.16 1.7 12.49 1.5.1 18.2 14.90DD ZBA 200 A 4 ZBE 200 A 4 B680 536 536 2 P1 [kW] 67 .0 28.3 9.16 3.3 9.5 10.1 16.93 0.98 8..72 6.18 1.74 7.31 1.88 2.82 0.13 1.61 1.90 2.51 3.60DD ZBA 180 A 4 ZBE 180 A 4 B280 228 255 D.18 1.2..74 7.03 1.21 0.0 28.1 22.47 3.99 1.82 3.2 12.3 9.37 0.64 1.6 11.15 3.09 2.91 7.5.79 8.11 1.10 6.4 14.12 0.0 17.46 2.78 40.8 23.72 6.12 1.34 7.90DD ZBA 180 B 4 ZBE 180 B 4 B280 445 515 D.30 1.91 7.64 1.62 1.6 20.1 22.42 2.1 18.23 2.71 3.00 1..89 32.01 2.2 32.5 Gearbox Motor Brake Weight [kg] 1) D.06 1.2 Selection tables Helical geared motors Single speed 18.32 25.93 1.1 16..6 11.44 3.89 8..5 22 2031512c_en_300812.75 3.80DD ZBA 180 A 4 ZBE 180 A 4 B280 306 333 D.8 25.90 1.01 1.56 0.87 7.45 2.6 11.92 1..01 3.32 1.03 1.83 4.indd 30 n2 [rpm] M2 [Nm] i FR [N] fB 127 147 165 183 205 89 99 114 127 144 162 187 209 173 203 224 421 518 37 41 46 51 59 65 73 81 90 100 115 128 140 177 57 64 74 82 92 104 117 130 150 168 187 209 117 130 147 165 190 213 46 51 59 65 73 81 90 1390 1204 1075 968 865 1993 1784 1550 1390 1228 1096 950 847 1026 871 790 420 341 5775 5200 4597 4137 3606 3247 2887 2600 2356 2112 1839 1652 1508 1195 3706 3304 2873 2571 2284 2040 1810 1623 1406 1256 1131 1010 1810 1623 1434 1280 1109 990 6269 5642 4917 4427 3937 3546 3213 11.5 8.67 1.8 11.91 1.70DD ZBA 180 A 4 ZBE 180 A 4 B280 253 280 D.79 2.2 36.9 14.80DD ZBA 180 B 4 ZBE 180 B 4 B280 360 430 D.70DD ZBA 180 B 4 ZBE 180 B 4 B280 307 377 D.41 1..6 20.47 1. 81 3.20 1.07 2.1 22.12 1.03 1.47 1.92 1..5 9.66 Gearbox Motor Brake Weight [kg] 1) D.80DD ZBA 225 AL 4 ZBE 225 A 4 B680 535 535 D.10 1.97 1.8 11.89 20.4 14.1 16.6 20.79 8.89 2.01 0.01 2.indd P1 [kW] .33 1.08 0.00 3.80DD ZBA 225 B 4 ZBE 225 B 4 B680 535 535 1) Weight DGV with oil filling in mounting position B3.19 1.34 1.25 1.7 12.9 15.56 1.79 8. Dimension sheets section 2.44 8.3 9.87 7.32 7.61 1.28 2.2 Selection tables Helical geared motors Single speed 2 30 37 45 68 n2 [rpm] M2 [Nm] i FR [N] fB 100 115 128 140 156 177 196 82 92 104 117 130 150 168 187 209 147 165 190 213 59 65 73 81 90 100 115 128 140 156 177 196 104 117 130 150 168 187 209 190 213 73 81 90 100 115 128 140 156 177 196 117 130 150 168 187 209 2880 2507 2253 2057 1849 1630 1467 3506 3115 2782 2468 2214 1918 1712 1542 1377 1955 1745 1512 1350 6052 5449 4846 4364 3954 3544 3086 2773 2532 2276 2006 1806 3424 3038 2724 2360 2107 1897 1695 1861 1661 5856 5273 4778 4283 3729 3350 3059 2750 2424 2182 3671 3292 2852 2546 2293 2048 14.48 1.89 25.25 2.90DD ZBA 225 B 4 ZBE 225 B 4 B680 620 620 D.5 9.1 18.1 18.44 8.31 2.79 8.93 1.2 12.43 2.80DD ZBA 200 A 4 ZBE 200 A 4 B680 451 451 D.49 14.99 2.97 1.5.5 2031512c_en_300812.5.4 14.74 7.19 1.44 8.72 2.3 9.90DD ZBA 200 A 4 ZBE 200 A 4 B680 536 536 D.90 0.99 1.88 2.35 1.02 2.8 11.54 1.7 12.35 3.5 9.6 11.74 7.22 1.77 1.7 12.49 12.5 10.21 2.03 7.6 11.70DD ZBA 200 A 4 ZBE 200 A 4 B680 398 398 D.87 7.71 1.03 55000 55000 55000 55000 54789 54768 54755 28000 28000 27656 28000 28000 28000 27999 28000 28000 16580 16540 16787 16691 54813 53124 53848 54946 54655 53900 54518 55000 55000 54596 54440 54235 26703 27064 27345 28000 27967 27959 28000 15999 15958 51504 51422 52831 52638 52853 53275 54347 54380 54075 53656 25851 25214 26805 27932 27878 27477 2.47 0.49 17.96 1.03 1. motor with standard brake.3 9.6 11.87 7.03 9.8 11...5 10..9 14.99 1.57 0.91 7.2.74 7.33 0..40 0.1 16.79 2.98 8.09 1.64 1..72 6..72 6.38 1.21 1.2 12..44 1.70DD ZBA 225 AL 4 ZBE 225 A 4 B680 482 482 D.06 1.32 7.32 7.90DD ZBA 225 AL 4 ZBE 225 A 4 B680 620 620 D.5 10.54 2. 6 88.91/2.39/3.56/1.0/20 5.42/1.1/28 2..54 1.98/3.97/0.11DD ZBA 63 B 8/2 B003 13 D.08 2.91 0.08 2031512d_en_300812.21DD ZBA 63 B 8/2 B003 13 D.3/25 7.9 44.8 49.42/2.46 3.indd 0.63/2.09 1.62/2.46/1.99 4.97/0.28/1..35 7.8 41.8 25.0/8.17/2.5.24 2.6 253 226 211 188 165 134 119 107 106 86.73 3.72 6.3 14.34 3.63/1.7/15 4.9/12 3.9/11 3.3 7.43/1.89 1.79 3.41 9.04 2.99 3.0 28.3 Selection tables Helical geared motors pole-changing 8/2 n2 [rpm] M2 [Nm] i FR [N] fB 0.2/13 3.37 2.97 3.78/2.5 6500 6500 6500 6500 6500 6500 6500 6500 6500 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 4600 4600 4600 4600 4600 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 1.2.36/2.2/13 3.06/0.91/3.80/1.19/3.95/0.14/2.2 37.41TD ZBA 63 B 8/2 B003 19 D..5 59.8/31 199/209 181/190 154/162 140/147 126/132 115/120 100/105 91/95 81/85 210/220 188/197 175/184 156/164 137/144 111/117 99/104 89/93 88/92 72/75 64/67 55/58 51/54 46/48 55/58 50/52 41/43 37/39 34/36 55/58 50/52 41/43 37/39 34/36 31/32 27/28 24/25 21/23 19/20 17/17 15/16 14/14 12/13 10/11 9.41TD ZBA 71 B 8/2 B003 20 2 P1 [kW] 69 .9/35 10/41 11/44 13/50 10/41 12/46 14/55 15/61 17/66 10/41 12/46 14/55 15/61 17/66 19/74 22/85 24/95 27/105 30/117 34/136 38/151 42/167 47/186 56/222 62/246 72/285 80/317 91/359 2.03 1.14/2.8 41.09/0.80 2.37 2.8/23 6.56 1.25 2.45 4.75 3.23 3.5 Weight [kg] 1) Gearbox Motor Brake D.95/1.7/11 3.6 77.6 55.2/7.17 2.70/2.4/26 6.77/9.59 8.0 14.9 23.0/20 5.2/9.2 66.1/16 4.44 5.93 0.1/16 4.7/23 6.61 240 218 186 169 152 138 121 110 97.31TD ZBA 63 B 8/2 B003 17 D.13 3.6/12.0/32 8.27/2.92 2.3 66.72 2.3/6.50 2.63/3.5 6.74/1.99/5.0 66. motor with standard brake.14/1.38/7.43/1.62 7..5/18 5.5 59.1 32.15 5.3 20.07/3.7 8.03 0.50 3.29/3.70 1.61 2.81/1.77/3.7 12.35/2.65/6. Dimension sheets section 2.39 1.80/3.31DD ZBA 63 B 8/2 B003 15 D.39/5.3/10.2/13.82/8.5/18 5.98/3.18/2..5.6 300/276 273/251 233/214 211/194 190/175 173/159 151/139 138/126 122/112 111/100 240 218 186 169 152 138 121 110 97.40/2.02/1.5/26 8.65/4.9 44.3 11.36 1.32 11.1/12 3.88/2.22 1.04 8.3/25 7.51 2.1 9.1/20 5..73 2.6 0.07 2.3/13 3.31 2.1 16.1/28 7.94 2.89 0.8 12.61/3.95/1.8 49.59 4.2/17 5.7/15 4.12/2.65 3.63 1.1 18.62/2.50/3.34 1) Weight DGV with oil filling in mounting position B3.25 2.7/15 4.7/23 6.92 1.92/2.4 61. 1 11.30 1.27 2.53 3.6/19 5.44/3.3 10. motor with standard brake..62 2.82/1.51/8.30 1.41/2.6 55.98/4.08 9.5/11.1 377/377 336/336 312/312 278/278 246/246 203/203 182/182 159/159 142/142 279/279 254/254 228/228 207/207 182/182 76..36 6.59 8.09/0.7/7.7/12.80/3.4 7.3/18 5.72 2.4/30 3.34 9.64/1.52 2.5 2031512d_en_300812..5.8 8.62 7.3 Selection tables Helical geared motors pole-changing 8/2 M2 [Nm] i FR [N] fB 0.25 2.64/2.8 49.49/7.19/1.75 1.80 4.1/12.05 1.2/17 5.42/4.8/15 4.31 1.16 251 224 208 185 164 135 121 106 94.64 1.8 69.31TD ZBA 71 B 8/2 B003 18 D.25/3.20/1.47 6.5/7.72/2.60/2.4/14 3.1 32.24 2.0/36 9.08/2.44/1.6 77.indd n2 [rpm] 2 P1 [kW] .11/0.38 3.5/8..45 70 Weight [kg] 1) Gearbox Motor Brake D.46 3.85/2.9 8.9 23.8/24 6.8 41.46 1.18 1.46/10.11DD ZBA 71 B 8/2 B003 14 D.84 6.05 3.32 5.72 0.46/1.57 1.6/27 7.2.56/1.25/2.0 66.1/21 5.9 9.1 16.9 44.75/1.7 186 169 152 138 121 6500 6500 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 4600 4600 4600 4600 4600 4600 4600 4599 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 10000 10000 10000 10000 10000 10000 10000 10000 10000 6500 6500 6500 6500 6500 3.87 1.32/2.18/1. Dimension sheets section 2.1/21 5.2 37..64 1.59/1.61 6.24/2.97/1.41TD ZBA 80 A 8/2 B007 26 1) Weight DGV with oil filling in mounting position B3.74/1..34/1.89 2.7 1.3 20.8 66.7 12.1/17 4.72 3.76 1.8 25.50/2.50TD ZBA 80 A 8/2 B007 47 D.8/23 6.21DD ZBA 71 B 8/2 B003 14 D.5 59.4 61.5/26 8.8 41.79/3.9 44.1 18.9/36 10/42 11/45 13/51 13/54 15/60 10/42 12/46 14/56 15/62 17/67 19/75 22/87 24/97 10/42 12/46 14/56 15/62 17/67 19/75 22/87 24/97 27/107 30/119 34/138 38/154 42/171 47/189 56/226 62/250 72/290 80/323 91/365 101/406 107/430 112/451 2.45 2.05 7.09/3.3 66.5 46.31DD ZBA 71 B 8/2 B003 16 D.11/3.89 3.1 9.16 8.03/3.5.87/3.8/16 4.90/5.03 3.87 3.72 3.35/9.41TD ZBA 71 B 8/2 B003 20 D..0 28.08/1.45 1.36 3.3 11.9/40 4.45/1.30/1.1/7.0 28.76/1.01 2.98/1.78 1.7 165 134 119 106 86.2/21 5.59 1.18 1.90 1.1/13 3.78/3.82 0.11 2.61/1.98 2.61/3.4 11.1 32.02 3.2 37.8/24 96/87 87/79 206/190 168/154 149/137 133/122 108/100 97/89 83/76 77/71 69/63 64/59 58/53 83/76 75/69 62/57 56/52 52/47 46/43 40/37 36/33 83/76 75/69 62/57 56/52 52/47 46/43 40/37 36/33 32/30 29/27 25/23 23/21 20/19 18/17 15/14 14/13 12/11 11/9.8 49.74 2.58/3.52/2.51/1.93 1.0 51.3 14.8/11 3.82 2.70 1.85/6.46 1.46/3.0/32 8.94/2.5 59.48/3.32 4.07/2. 30 1.41 6.62 1.1 16.32/3.indd pole-changing 8/2 n2 [rpm] M2 [Nm] i FR [N] fB 0.34/2.1 32.0 28.3/7.5 Weight [kg] 1) Gearbox Motor Brake D.3 11.2/9.0/7.88 2.11/0.6 53.0 40.01/2.77 9.64/3..32 3.72 0.5 46.00 2.32/2.2..5. motor with standard brake.99/2.08/2..88/7.45 6.90 3.30/1.27 4.31/3.2/21 5.45 1.2 7.47 6.9 66.74 12.26/1.3 14.01/3.34/1.08 4.34 2.74/9.35 3.10 2.41DD ZBA 80 A 8/2 B007 24 D.66 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 4569 4600 4600 4582 4600 4600 4600 4583 4573 4557 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 2.71 3.5.5 59.93/1.8 25.35/3.9 23.93 2.2 37.6/27 8.01 2.7 60. Dimension sheets section 2.0 110 97.96/6.44/3.8 25.8 41.4 1) Weight DGV with oil filling in mounting position B3.88/4.24 3.12 1.20/2.72 2.8 49.77/8.31TD ZBA 80 A 8/2 B007 24 D.59/2.9 49.90/0.20/1.1/37 11/43 11/47 13/52 14/56 15/63 17/72 19/80 11/43 12/48 14/58 16/64 17/70 19/78 22/90 24/100 27/111 30/124 11/43 12/48 14/58 16/64 17/70 19/78 22/90 24/100 27/111 30/124 35/143 39/159 43/177 48/196 57/234 63/259 73/300 81/334 92/378 102/421 108/445 114/468 143/589 150/618 165/165 146/146 133/132 115/115 105/104 91/91 82/82 74/74 88/88 80/80 201/201 179/179 159/159 130/130 116/116 100/100 92/92 83/83 77/77 69/69 60/60 54/54 100/100 90/90 75/75 67/67 62/62 56/56 48/48 43/43 39/39 35/35 100/100 90/90 75/75 67/67 62/62 56/56 48/48 43/43 39/39 35/35 30/30 27/27 24/24 22/22 18/18 17/17 14/14 13/13 11/11 10/10 9.58 2.71/2.25 1.72/3.26 6.3 20.27 9.88 5.16/2.61 6.62/1.34 1.8 49.01/3.89 4.2 134 119 106 86.00 1.26 1.8 69.5 59.1 32.5 54.3/12.11DD ZBA 80 A 8/2 B007 20 2 P1 [kW] 71 .45/1.08 2.49/2.62 7.5 58.41TD ZBA 80 A 8/2 B007 26 D..7 9.25/2.82 3.00 1.54/1.8 41.08/4.16/2.86/2.1/33 9.9 44.10/2.25/3.96 7.71 1.2/30 7.24/3.74/1.25 2.90/2.68 4.21DD ZBA 80 A 8/2 B007 20 D.58/2.72/1.3 7.16 2.3 66.3 66.5 76.46 1.0 51.1 9.01 3.71/3.32 2.16 4.68/3.88 8.6 88.7/9.27/9.0 28.3 12.12/1.31 3.41/5..88/1.7 12.90 1.27 4.74 1.00/1.9/24 6.82 3.6 77.59 2.54 1.2 35.2 37.59 8.20 1.84 6.00/1..33 2.00/2.9/12.99 3.6 55.26/6.46/1.9 23.9 44.20 2.3 Selection tables Helical geared motors 2031512d_en_300812.31DD ZBA 80 A 8/2 B007 22 D.9/33 9.1/38 10/41 12/48 13/52 14/58 12/49 13/54 5.71 3.4/26 7.1 18.4 61. 69/1.36/1.94 Weight [kg] 1) Gearbox Motor Brake D.59 1.50TD ZBA 90 A 8/2 B007 50 D.1/21 5.50 1.47 0.8 25.4/18 4.18/1.50/1.52/1.1 59.8 69.2 35.6 29.32/1.12/1.22 3.17 1.2.05/2.1/38 11/44 11/47 13/53 14/57 15/63 18/72 20/81 22/89 24/100 27/112 31/126 12/49 14/58 16/65 17/71 19/78 22/91 24/101 27/112 30/125 35/145 433/434 394/394 350/350 317/317 282/282 255/255 552/553 493/493 458/458 407/407 361/361 297/297 266/267 233/233 208/209 190/190 169/170 158/158 334/335 304/304 266/267 242/242 215/215 195/195 169/169 153/154 133/133 121/121 109/109 129/129 117/117 100/100 91/91 82/82 191/191 170/170 146/146 136/136 121/121 113/113 101/101 88/89 79/79 72/72 64/64 57/57 51/51 132/132 110/110 99/99 91/91 82/82 70/70 63/63 57/57 51/51 44/44 197 179 159 144 128 116 251 224 208 185 164 135 121 106 94.54/2.98/1.28 2.43 1.9 44.64/2.3 66.16/0.52 2.99 1.7/27 7.5 54.36 1.06 2.9/20 5.97 1.99 1.48/2.54 1.43/1.60 4.89/2..31/2.37 1. motor with standard brake.6 55.51/3.24/1.55 3.73/2.0 51.22 2.91 2.35 1.2 37.4/14 3.36 2.48/3.4 61.2/38 10/42 12/48 13/53 14/59 12/50 13/55 16/64 17/71 19/78 8.4/31 8.91 1.4 41.24 3.86 0.30/3..2/34 9.indd 2 pole-changing 8/2 .9 23.9/16 4.28/2..12 3.31DD ZBA 90 A 8/2 B007 25 D.4 77.60TD ZBA 90 A 8/2 B007 88 D.21/2.95/1.18 1.79 3.99/0.89 3.6 88.59/1.52 1.92/3.86 3..30 2.1/34 9.03/2.91 2.5/23 6.7 60.0 40.1 15000 15000 15000 15000 15000 15000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6500 6471 6468 6497 4688 4658 5000 5000 5000 4902 4980 5000 5000 4980 4913 4943 4977 3687 4180 4289 4353 4262 4462 4550 4497 4430 4362 2.6/15 3.41DD ZBA 90 A 8/2 B007 27 D.3/18 5.97 2.86/2.12/3.24 1..21/2.0 28.85/1.41TD ZBA 90 A 8/2 B007 29 D.76 1.3 Selection tables Helical geared motors 72 P1 [kW] n2 [rpm] M2 [Nm] i FR [N] fB 0.30 3. Dimension sheets section 2.3 20.9 32.36/2.09/1.16/3.26/2.5.1 86.20 1.25/3.9 49.26 2.85/1.8 41.1 25.7 86.8/12 3.5 58.77/1.66 3.6 77.51 3.59 1.99 1.05 1.18/1.2/38 9.04/3.54 2.5.0/33 9.31TD ZBA 90 A 8/2 B007 27 D.32 1.0 71.2/22 5.6/19 5.09 1.54/2.64/3.5 2031512d_en_300812.21 2.53 2.35/1.05 2.47 1.8 49.6 53..54/1.11 1.94/2.8/16 4.15 3.79/2.5 76.2 37.07/2.1/13 3.99/0.05/1.2/30 8.9 152 138 121 110 97.64 2.2 45.1/25 2.4/26 7.21DD ZBA 90 A 8/2 B007 23 1) Weight DGV with oil filling in mounting position B3.8/24 6.1 32.5 46.55/3.8/24 6..94/3.85 2.53 2.53/2.00/0.84 2.9 23.21 3.15/1.8/40 4.20/1.37/1.48/1. 74 5.2.85/3.21 2.2 37.39/2.3 11.26 3.62 7.64/6.43 10.89 4.4 54.17/2.02 2.4/8.91/0.25 1.93/1.21DD ZBA 90 A 8/2 B007 23 D.85/3.69/3.37 5..26/2.2 45.5.16 4.59 8.36 8.99/0.3/10.86 3.10 1.1 33.55 4.73 3.78/2.66 3.3 44.47/2.35/1.8 45.indd 0.7 6.49 2. motor with standard brake.6/23 6.89/3. Dimension sheets section 2.49/2.79/2.0/20 5.42/1.2 40.6/14 4.47 6.25 3.78 3.49/2.11/2.58 3.03 2.75/4.98/5.70TD ZBA 90 B 8/2 B020 129 D.60TD ZBA 90 B 8/2 B020 96 D.41/1.00 2.8 4265 4216 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 20000 20000 20000 20000 20000 20000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 10000 10000 10000 10000 10000 10000 6315 6333 6267 6216 6162 6111 6037 5880 3.7/31 9.2/11.53/3.91 0.29 2.3/6.76/1.5 Weight [kg] 1) Gearbox Motor Brake D.01/2.77 3.9 23.2 37.58/1.16/0.7/15 4.5/18 5.37/8.28/1.30 1.04/2.68 4.66 39/161 43/179 16/65 17/71 19/78 22/91 24/101 27/112 30/125 35/145 39/161 43/179 48/198 57/237 64/262 74/303 82/338 93/382 103/425 109/450 114/472 144/595 151/624 185/764 194/802 233/964 245/1010 3.27/1.29 2.42 1.50DD ZBA 90 B 8/2 B020 53 D.79/2.12 3.3 20.26 4.3 14.99 1.82/3..61 6.25 2031512d_en_300812.38/3.10/1.41 3.1 13.03 2.7/10.38/5.52 4.8 41.47/3.32 6.29/3..70/2.4 41.0 11.63/3.0/28 7.11DD ZBA 90 A 8/2 B007 23 D.75/1.78/8.5.5/22 6.41DD ZBA 90 B 8/2 B020 35 2 P1 [kW] 73 .43 1.32/6.1 32.3 Selection tables Helical geared motors pole-changing 8/2 n2 [rpm] M2 [Nm] i FR [N] fB 0.97 6.4 8.63 8.63 3.1 16.12/2.25 2.5/11.6/6.0/20 5.6 58.9 78.7 12.20 3..0/8.31/3.96/2.58 1.58 2.81 3.73/2.6 29.97 1.3 724/785 644/699 580/629 518/562 468/508 418/453 709/769 644/699 572/621 518/562 461/500 418/453 371/402 338/367 284/308 257/279 221/240 197/214 183/198 163/176 144/156 128/139 211/229 192/208 163/177 148/161 134/145 121/131 106/115 86/93 18.26/3.84 6.22/2.51 2.32 3.1/37 10/41 12/47 13/53 14/57 16/64 18/73 20/82 12/50 14/55 16/64 17/71 19/78 21/87 24/99 30/122 40/40 36/36 99/99 91/91 82/82 70/70 63/63 57/57 51/51 44/44 40/40 36/36 32/32 27/27 24/24 21/21 19/19 17/17 15/15 14/14 14/14 11/11 10/10 8.8 71.61 1.51/2.28 1.96 1.02/1.78 2.55/1.2 1) Weight DGV with oil filling in mounting position B3.2/25 7.35/1.0 6.5/18 5.1 16.8 2.1 9.0/16 4.0 28.75 2.62 0.33/3.0/16 4..88 201 179 161 144 130 116 197 179 159 144 128 116 103 93.1 18.2/25 3.86 2.24 2.8 25.4 23.0 35.8 14.72 3.27/4.58 3.6 53.26 2.5 61..7 50. 6 29.08 8.3 81.59/1.59 4..16/5.83/3.92/0.4 43.94/2.9 78.46/3. motor with standard brake.16 6.32 1.1/7.64 1.2 33/135 39/156 14/57 16/63 18/72 20/81 22/89 25/100 28/112 31/126 34/138 38/154 44/180 50/201 56/227 63/253 69/280 78/314 90/363 101/406 110/446 132/534 139/562 163/660 172/695 212/856 223/901 3.63/3.63 2.28/1.27/3.39/3.83/1.95 1.7/15 4.47/1. Dimension sheets section 2.93/5.5/23 6.4/18 4.33 11.0/29 7.5/15 4.54/2.91/1.99/2.98 1.70/7.9/32 8.1/25 6.1 21.8 11.0/16 4.1 25.24/3.70 1.02 3.73/3.65/1.34 2.03/1.65/1.60DD ZBA 100 B 8/2 B020 85 D.43/2.07 10.15 2.18 5.3 57.70TD ZBA 100 B 8/2 B020 131 D.43 1.4/18 3.60TD ZBA 100 B 8/2 B020 98 D.70/1.99 1.08/2.37 2.41/1.30 9...18 4.2 40.05/2.50 3.85/2.5 12.83 5.45 5.33 0.52 1.5 10.34/3.14/1.0/37 9.99 3.1/25 7.5/18 4.02 7.59/2..20 4.2.90/3.85 1.63/2.67 2.89 2.19 3.06 7.6/31 9.49 6.2 179 159 144 128 116 103 93.4 9.55/1.52 1.9 61.7 50.53 5.94 3.5 63.41 4.43 7.77/1.92/3.2 14.41/2.0 40.1 18.50DD ZBA 100 B 8/2 B020 56 1) Weight DGV with oil filling in mounting position B3.25/2.27/1.29 8.41DD ZBA 90 B 8/2 B020 35 D.48 12.89/2.27/2.27 1.83 1.06 1.50/6..9/20 5.9/20 5.5 2031512d_en_300812.21/1.98 3.5 48..49 4.23 193 173 161 201 179 161 144 130 116 101 90.21/6.18 1.78 2.12 2.8 71.8 74 Weight [kg] 1) Gearbox Motor Brake D.5.9/41 11/46 12/51 15/60 16/66 12/47 13/53 14/57 16/64 18/73 78/84 67/73 185/201 166/180 145/157 129/140 117/127 105/114 93/101 83/90 76/82 68/74 58/63 52/57 46/50 41/45 37/41 33/36 29/31 26/28 24/25 20/21 19/20 16/17 15/16 12/13 12/13 1177/1141 1055/1022 982/952 1226/1188 1092/1058 982/952 878/851 793/768 708/686 616/597 551/534 495/480 1092/1058 970/940 878/851 781/756 708/686 628/609 573/555 481/466 436/423 386/374 351/340 295/286 268/259 375/363 334/323 310/300 276/267 244/236 21.8 45.47/1.08/0.46 1.0 5795 5689 3353 3486 3929 3989 4270 4338 4571 4491 4552 4547 4684 4734 4873 4820 4825 4737 4672 4587 4456 4351 4326 4242 4218 4114 4092 28000 28000 28000 20000 20000 20000 20000 20000 20000 20000 20000 20000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 15000 10000 9713 9843 10000 10000 4.80TD ZBA 100 B 8/2 B020 195 D.11 1.37 3.98 2.9 23.99/4.06 2.28 8.2 35.57 3.4 54.indd n2 [rpm] 2 P1 [kW] .15/1.9/28 7.83/3.22/3.5.1/17 4.9 16.70 1.0/16 4.58/5.38/1.40 2.3 Selection tables Helical geared motors pole-changing 8/2 M2 [Nm] i FR [N] fB 0.57 1.80 2.29/2.40 3.33 3.9 32.31DD ZBA 90 B 8/2 B020 33 D.75 0.5/22 6.45/1.34/4.76 2.9/8..7 51.18 2.7/36 4.5 46.57 1.75/1.6 18.3/8. 27/2.41/3.59 1.97 1.8 13.89/2.6 18.92/1.9/16 4.15 2.31DD ZBA 100 B 8/2 B020 35 D.34 1.91/0..94 1.6/15 4.55 1..94/2.72/2.1 18.97 4.16 5.37 2.11 2.63 3.99 0..0/17 4.0/25 6.18/2.73 4.53/2.46/3.2 14.74 2.46/1.61/1.40 3.1 29.73/1.3/18 4.5.53/2.80TD ZBA 112 A 8/2 B050 226 D. Dimension sheets section 2.18/2.01 5.1 21.56/2.45/1.2/13 3.indd 0.80/1.47/3.02/4.5/14 4.76 1.18 4.3/18 4.23/3.81 3.15/1.60 7.70 2.80/3.58 4.4 23.41DD ZBA 100 B 8/2 B020 37 D.6 33.25 1.45 5.0 45.5.4 12.43 4.9 32.81 3.8/32 3.81/3.26/2.84 7.04 1.9/20 5.66/3.24/5.01 1.27/1.0 35.19 3.69/2.35 3.50 4.44 1.0 1) Weight DGV with oil filling in mounting position B3.1 33.53 3.61 2.50DD ZBA 100 B 8/2 B020 56 D.02/1.8 20/82 21/88 24/99 27/112 16/64 17/71 19/79 21/87 24/99 30/122 33/135 38/156 42/171 48/197 53/218 59/241 65/265 20/81 22/89 24/100 27/113 31/126 34/138 38/154 44/180 49/201 55/228 62/253 68/280 77/314 89/363 99/407 109/446 130/535 137/563 161/661 169/696 209/857 220/902 3.08/3.55/1.97 2.6/23 6.80 2.11 2.8 11.8 21..59 1.64/1.84/1.62/1.5 12.42/1.48 1.00/5.27/1.34 4.19/1.03/1.0 14.52/2.16 6.90TD ZBA 112 A 8/2 B050 329 D.93 3.38 1.02 7.6 29.78 2031512d_en_300812..4 41.15 3.31/1.2 37.06 3.13/1.41 4.72/4.0/17 4.85/2.23 220 198 173 156 193 173 161 143 124 111 101 90.42/2.67 5.38 2.31 2.70TD ZBA 112 A 8/2 B050 162 2 P1 [kW] 75 ..9/20 5.7 17.5 Brake Weight [kg] 1) Gearbox Motor D.2.06/3.37 3.9 23.04/3.80 2.9/28 217/210 202/196 180/174 159/154 277/268 251/243 226/219 205/199 179/174 145/141 132/128 114/111 104/100 90/87 82/79 74/72 67/65 219/212 199/193 178/172 158/153 141/137 129/125 115/112 99/96 88/86 78/76 70/68 63/61 57/55 49/47 44/42 40/39 33/32 32/31 27/26 26/25 21/20 20/19 2398/2200 2158/1980 1886/1730 1700/1560 2104/1930 1886/1730 1755/1610 1559/1430 1352/1240 1210/1110 1101/1010 982/901 1951/1790 1755/1610 1570/1440 1417/1300 1264/1160 1101/1010 35.76 3.47/3.82/3.16 1.6 29.47/3.4/22 6.58 1.1 11.9/28 7.12 1.5 10.15/2.23 1.84/4.4 9.28 8.53 5.1 179 161 144 130 116 101 10000 10000 9893 9930 5215 5395 5459 5468 5572 5573 5512 5448 5377 5307 5267 5237 5189 2119 2625 2817 3266 3393 3679 3747 4037 4050 4231 4221 4349 4369 4477 4473 4306 4351 4326 4242 4218 4114 4092 55000 55000 55000 55000 28000 28000 28000 28000 28000 28000 28000 28000 20000 20000 20000 20000 20000 20000 2.5 26.09/3.31 1. motor with standard brake.1 25.3 Selection tables Helical geared motors pole-changing 8/2 n2 [rpm] M2 [Nm] i FR [N] fB 0.50/2.72 1.9 16.01/1.77 0.19 4.93/4.64 2.42/1.5/18 3.3/26 6.09/3. 82 3..5.00 7.71/1.54 1.21/3.2 193 173 161 143 124 111 101 90.61 6.6/15 4.42 2.8 45.93 1.53 2.90 6.78 220 198 173 156 138 124 108 97.00/4.57 2.3/10.1 12.90/2.04/2.24/2.14 3..37 2.24/2.6 33.83/1.4 43.9 35.49 7.60DD ZBA 112 A 8/2 B050 117 D.52 3.06 2.25 2.80 7.5/15 4.3 81.31/6.3 45.93/3.1 9.9/29 7.6 1.6 11.90/2.52/1.26 3.5 63.41/1.17 3.4 25.95/1.5/27 7.3 50.1 29.6/23 6.87 8.57 6.2.3/26 6.6/23 6.36/2.27 4.75 5.11/5.09 5.82 9.2 40.2 20000 20000 20000 20000 20000 20000 20000 15000 15000 15000 15000 15000 15000 15000 7377 7602 8402 8564 9030 9214 9470 9215 9350 9512 9679 9942 10000 9921 9731 9674 9491 9483 9306 8967 8721 8516 8083 55000 55000 55000 55000 55000 55000 55000 55000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 28000 1.83/1.99/1..17/1.2/30 3.61 2.12/3.52/2.22/3.3 Selection tables Helical geared motors pole-changing 8/2 M2 [Nm] i FR [N] fB 0.58/3.1/21 5. motor with standard brake.59/1.60 1.67/6.indd n2 [rpm] 2 P1 [kW] ..24/3.48 2.6/35 9.5.36 8.50DD ZBA 112 A 8/2 B050 87 D.18 1.08 1.99 2.70TD ZBA 112 A 8/2 B050 162 D.83 2.32 1.83 2.43 13.48/2.58/3.0 23.98/4.3 31.28 2. Dimension sheets section 2.61/3.69 4.0/37 10/41 11/46 984/903 885/812 790/725 692/635 618/567 559/513 499/458 528/484 479/439 424/389 385/353 341/313 310/284 276/253 554/508 493/452 436/400 388/356 361/331 322/295 283/260 253/232 230/211 192/176 171/157 154/141 137/126 121/111 108/98 93/85 83/75 75/69 67/61 62/57 49/44 37/34 30/28 3300/3278 2970/2950 2595/2578 2340/2324 2070/2056 1860/1848 1620/1609 1458/1448 2895/2876 2595/2578 2415/2399 2145/2131 1860/1848 1665/1654 1515/1505 1351/1342 1173/1165 1049/1042 933/927 90.42 1.7/40 11/45 12/51 14/56 15/63 14/59 16/65 18/74 20/81 22/92 25/101 28/113 14/56 15/63 18/72 20/81 21/87 24/97 27/110 30/124 33/136 40/163 45/183 50/204 56/228 63/259 71/291 82/338 92/379 101/416 114/467 123/504 157/643 205/839 252/1032 3..86 1.94/2.5 76 Weight [kg] 1) Gearbox Motor Brake D.39/2.5/18 5.12 2.7 14.5 26.0 35.60/2.22 1.67 1.64/3.4/9.7 51.9/20 5.60 3.80TD ZBA 132 C 8/2 B050 240 1) Weight DGV with oil filling in mounting position B3.5 2031512d_en_300812.84 2.50 2.3/18 4.6 15.3 28..1/4.76/1.97 2.80/2.2 69.87/3.8/32 8.00 1.20/6.92 3.70DD ZBA 112 A 8/2 B050 142 D.9 62.90 4.9 38.55/4.91/3.51 3.2/13 3.60/2.30/8.77 1.09/2.50 3.1 78.80/3.07 2.1 17.46 3.66 1.95 0.2 72.0/17 4.2 21.22 2.5 56.42/1.68/6.0 7.38 1.0/17 4.26 2.8/32 9.94/5.26/1.17/2.28/2.90TD ZBA 132 C 8/2 B050 343 D.23/3.08 11.12/1.19 3.12 3.15 5.8 48.31/1.63/3.03/2. 2.3 17.58/4.1 36.7 51.65 2.18 3.04 1.35/2.1 17.48/1.27/3.10 1) Weight DGV with oil filling in mounting position B3.92 1.0 19.42 1.49 1.15 5.48 3.4 25.7/40 11/45 12/51 14/56 15/63 17/70 19/78 21/87 14/60 16/66 18/74 20/82 22/92 25/101 28/114 30/125 36/149 40/165 18/72 20/81 21/87 24/98 27/111 30/124 33/136 40/164 45/183 50/204 56/229 63/259 71/292 82/339 92/380 101/417 114/468 123/506 157/646 205/842 252/1036 1950/1937 1740/1728 1515/1505 1355/1345 1218/1210 1088/1080 953/946 851/845 769/764 687/682 617/612 551/547 498/495 726/721 659/654 584/580 530/526 470/466 426/423 380/377 345/343 290/288 263/261 600/596 534/530 497/493 442/440 390/387 348/346 317/314 264/262 236/234 211/210 189/187 167/165 148/147 127/126 114/113 104/103 92/91 85/85 67/66 51/51 42/41 130 116 101 90.0 35.87 8.34/2.61/3.9 38.50DD ZBA 132 C 8/2 B050 101 2 P1 [kW] 77 .64/2..02 5.90/2.9/29 7.3 Selection tables Helical geared motors 2031512d_en_300812.6/35 9.58/1.03/1.13/2.1 29.3 28.69 4.84/4.45/3.38/1.6 33.76/5.5.42 4.92/0.92/0.7 33.32 9.41/1.52/1.91/2.78 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 15000 15000 15000 15000 15000 15000 15000 15000 15000 14989 4843 5293 6124 6434 7324 7499 8055 8420 8414 8797 8980 9297 9318 9534 9491 9483 9306 8967 8721 8516 8083 0.90 6.62/2.89/1.24/1.20 1.32/3.94 3.2 48.53 1.90 2.14 2.2 72.76 4.57 6.5 40.90 2.34 1.71/3.56 5.74/1. motor with standard brake.12 1.64 1. Dimension sheets section 2.indd pole-changing 8/2 n2 [rpm] M2 [Nm] i FR [N] fB 1.28/6.1 9.46 3..35 2.67 1.3 81.4 43.36 2.34/2.57 6.73 1.3 31.13 2.25 1.5.2 21.31/4.29 3.8/32 8.86 3.89/1.64 2.84 0.5 5.04 1.9 35.39 1.30/3..12/2.5 26.8 41.42 2.5 63.4/22 6.6 11.33/1..7 14.59 1.1 12.70TD ZBA 132 C 8/2 B050 176 D.49 7.62 2.75 2.96/4.42 8.60/2.81/3.03/1.0 23.26 5.3 23.0/25 6.92 3.60DD ZBA 132 C 8/2 B050 131 D.1/4.66/1.5 Brake Weight [kg] 1) Gearbox Motor D.70DD ZBA 132 C 8/2 B050 156 D.6 15.66/7.5 56.92/2.71/1.3 45.35 2.93 1.11/1.19/1.08/2.10 2. 2031512d_en_300812.indd 78 2 . 79 .58.A 63A Z.193 7.6 – 6.3 56.220 7.5 55.23 .5 .5 .23 .4 71.58.193 23 .201 16.5 .220 – 55.51.A 80A Z.89 .56.44 .4.03 .1 .51.51.5 .48.48.3 56.89 .78 .86.66.3 – – – – – – – – – – – – – – – – – – – – – – – – – – – – – D 70DD D 70TD D 80DD D 80TD D 90DD D 90TD – – – – – – – – – – – – 33.49 .193 23 .4 – 9.A 132C – – – – Z.E motors.67 .66.45.92 .66.81.7 .6 49.6 49. The duty factor must not be less than 0.1 – 7.4 57.A 71A Z.179 6.220 – 55.220 7.6 66.5 – 2.7 .101 6.7 .197 10.48.4 2.179 6.173 7.6 – 3.40.7 .88 .6 – – 108 .220 14.5.78 .2 55.61.51.7 .5 . refer to the speed/output overviews in section 2.6 49.7 .48.67 .A 132B1) – – – – Z.9 and should not exceed 15.197 6.6 66.66.48.66 .3 56.23.1 .5 – 2.51.7 .4 – 6.16 .193 – 55.9 – 7.240 3.A 180B1) – – – Z.3 56.5 .44 .220 – 55.193 7.12.03 .61.5 .1 .03 .9 – 2.61.63 .50.53 .197 – 57.40 D 60DD D 60TD – 116 .19 .A 200A1) – – Z.2.23 .4 Selection table (direct drive input) Helical geared motors Overview D 11DD D 21DD D 31DD D 31TD 23.2 55.8 – 14.4 57.5 – 2.8 – 7.6 66.6 – 3.253 6.49 .1 .4 .8.6 – 3.2 .164 4.78 .88 .88 .51.6 3.240 17 .9.78 .indd Since the outputs and number of poles of the motors are not considered here.87 .97.59.78 .1 – 2.48.49 .49 .197 – 57.49 .74 .12.4 – 6.03 .3 6.4 – 2.6 .197 11.4 57.5 .5 – 6.03 .9 .78 .134 3.51.7 .7 6.48.A 132A(L)1) – – – – Z.5 .251 5.33.201 6.37.88 .25.49 .15.90.7 .A 160A(L)1) – – – – Z.173 7.5 .58.4 71.25.7 .5 – 3.44 .49.5 55.49.193 8.1 .7 .1 – 2.66.63.28.9 .143 7.6 49.103 6.48.5 – 2.58.193 7. the selected combination must be checked together with the relevant duty factor.89 .49 .6 49.2 .61.51.5 .2 .89 .165 3.251 2.5 .6 .35.51.51.89 .5 .3 .49 .3 56.4 71.44 .89 .89 .2 55.49.18.36.20.03 .3 56.51.25.23 .201 12.66.48.48.A 90B1) – – Z.3 56.6 – 6.5 55.6 – 6.78 .1 .2 6.7 .14.89 .58.61.88 .152 3.5 7.2 55.A 180A1) – – – – Z.88 .A 112A1) – – – – Z.33 .44 .66.5 .6 66.44 .3 56.253 11.44.2 – 7.8 – Z.31.49.5 55.3 56.5 – 2.20 – 7.46 .10.49.88 .1 .1 .A 160B1) – – – – Z.5 55.6 49.220 7.220 – 70.91 .1 .43.4 57.21.2 – 2.89 .59 .5 .1 – – 2 Possible transmission ratios for gearbox size Motor 20315044_038 The table lists the possible transmission ratio ranges for the motor/gearbox combination for direct drive input.240 7.5 – 2.51.61.91 – 6.7 – 2.2 – 7.5 – 6.58.5.7 .61.44 .03 .61.2 55.1 .4 .3 .98 – 6.A 225B1) Z.66.69 .A 100A(L)1) – – Z.51.220 7.72 – – 62.51.3 56.A 63B Z.78 .29.23 .49 .49.5 .7 .5 .5 55.1 .44 .7 – 7.61.32 – 7.197 6.66.A 80B1) Z.6 66.1 .186 3.111 7.7 .33.165 4.89 .5 .9 – D 41DD D 41TD 37.2 55.54.49.88 .179 8.A 100B1) – – Z.51.89 .201 11.A 90A1) D 50DD D 50TD 9.5 .44 .4 .220 14.61.89 .44 .3 56. 2031512e_en_300812.5 .4 .8 – 2.67 .58.5 – 4.130 6.193 11. 1) For the possible transmission ratios for the corresponding 4-pole Z.A 200B1) – Z.46 – 2.9 – 6.197 – 57.2.6 66.5 .87 .49.5 – 4.8 – 7.7 .9 .5 .6 3.5 .5 55.23 .193 – 55.5 .4 .78 .66.5 .5 .4 .78 .A 225A(L)1) Z.7.51.49.3 56.5 .7 .240 12.4 – 2.03 .4 – 6.5 55.5 .51.A 71B Z.49 .58.5 .2 55.6 49.1 .51.51.61.1 .03 .4 57.51.197 17.67 .201 20.5 55.220 – 55.4 57.5 – 2.1 – 3.5 – 3.67 .61.5 .03 .17. 8 x – A140 A160 A200 C105 C120 C140 140 160 200 105 120 140 95 110 130 70 80 95 9 9 10 14 18 18 115 130 165 85 100 115 3 3.5 3 3 9 9 11 M6 M6 M8 x – x – – x x exclusive flange plate x – X – x x x – X X X X – – – – – x – – X X X Dimensions see section 2.5.DUV 41 kG / kV qV qG 42145544.5 3.indd Flange dimensions Combined foot/flange-mounted type .5 Dimension sheets Direct drive input with cylindrical rotor motor Helical geared motors Foot-mounted type DGV 11 .1 20315044_130 42568846.2.eps Model B 35 B 34 Flange a1 b1 j6 c1 e1 f1 s1 D11 D21 D31 D41 A120 120 80 8 100 3 6.5 2.7.eps X Standard 80 x optional – not possible 2031512e_en_300812.DGV 41 kG / kV qV 2 qG 42145444.eps Combined foot/flange-mounted type DUV 11 . 0 A8 x 7 x 40 95 120 15 120 145 85 1.5 Dimension sheets Direct drive input with cylindrical rotor motor Helical geared motors Foot-mounted type DGV/DUV Solid shaft with key Gearbox WK d l / i2 i3 s4 t Gearbox dimensions u x b x l12 1) a b c e f h h1 h3 m n qG qV s w1 DIN 6885 DG 11/DU 11 V 20 20 k6 40 54 M6 22. ZB. 63 / 71 ZB.5 137 35 33 178.0 A8 x 7 x 50 100 140 20 126 170 100 – 159 34 40 V 30 30 k6 60 78 M10 33. ZN.2.5 286 20315044_126 Motor ZN.indd 20315044_110 1) Shaft code 2) For DU . ZB. 3-stage ZB. TD 90B / 100 Motor ZN. X 1.0 A8 x 7 x 40 V 30 30 k6 60 78 M10 33.5 137 35 33 188. 63 / 71 xk LB DG 31 DU 31 Motor ZN. 80 / 90A 534 493 157 590 170 ZB.5 270 223.5 A6 x 6 x 32 95 120 15 120 145 85 1.5 260 207.. 90B / 100 AC 140 140 157 157 196 AD 124 124 134 134 152 152 2xM25 2xM25 dv 196 4xM20 4xM20 4xM25 4xM25 2xM32 2xM32 LL 153 153 153 153 168 168 AG 103 103 103 103 133 (M. ZN. ZN. 275 356 314 412 – – d=30 483 563 522 619 556 662 d=25 473 553 512 609 546 652 xk 157 170 183 kV xk 157 672 170 d11 18 18 18 d11 18 18 h11max2) 185 185 198 h11max 185 185 LB 275 356 314 412 348 455 LB 275 356 314 412 kG 499 579 538 635 572 678 kV 561 642 600 698 xk 157 170 183 xk 157 d11 18 18 18 d11 18 18 h11max2) 191 194 213 h11max 191 194 LB 275 356 314 412 348 455 LB 275 170 356 314 412 2031512e_en_300812. 80 / 90A – – kV – – – – – – xk – – – – d11 18 18 – – d11 – – – – h11max2) 164 164 – – h11max – – – – – LB 275 356 314 412 – – LB – – – kG 464 544 503 600 – – kV – – – – – – xk – – – – xk 157 170 d11 18 18 – – d11 – – – – h11max2) 164 164 – – h11max – – – – LB – – – – d=30 545 626 584 682 d=25 535 616 574 kG DG 41 DU 41 ZB. 81 .5 – 9 28 9 29 11 33 DG 31/DU31 DG 41/DU 41 V 25 25 k6 50 68 M10 28. 80 / 90A ZB.5.0 A8 x 7 x 50 110 165 20 140 200 115 – 183 35 45 197. 63 / 71 ZB.5 – 9 28 DG 21/DU 21 V 25 25 k6 50 64 M10 28.5) 2 Dimension 133 20315044_132 2-stage Gearbox DD kG DG 11 DU 11 DG 21 DU 21 454 ZN.Design without connected flange. ZN. 7.5 2.5 3.indd X Standard .DFV 41 kG / kV qV 2 AG qG 42145744.2.1 20315044_131 42568846.eps 82 x optional – not possible 2031512e_en_300812.eps Flange dimensions Model B5 B 14 Flange a1 b1 j6 c1 e1 f1 s1 D11 D21 D31 D41 A120 120 80 8 100 3 6.8 x – A140 A160 A200 C105 C120 C140 140 160 200 105 120 140 95 110 130 70 80 95 9 9 10 14 18 18 115 130 165 85 100 115 3 3.5 3 3 9 9 11 M6 M6 M8 x – x – – x x exclusive flange plate x – X – x x x – X X X X – – – – – x – – X X X Dimensions see section 2.5.5 Dimension sheets Direct drive input with cylindrical rotor motor Helical geared motors Flange-mounted type DFV 11 . 5.indd 20315044_111 1) Shaft code 2) h11max without connected flange.2.0 A8 x 7 x 40 1.5 A6 x 6 x 32 1. 80 / 90A 534 493 590 ZN. 3-stage ZB.5 286. ZN.0 A8 x 7 x 50 – 97 207.5 Dimension sheets Direct drive input with cylindrical rotor motor Helical geared motors Flange-mounted type DFV Solid shaft with key Gearbox WK d l / i2 i3 Gearbox dimensions s4 t u x b x l12 1) h1 h2 qG qV DIN 6885 DF 11 V 20 20 k6 40 54 M6 22. 157 170 183 xk 157 397 698 170 d11 18 18 18 d11 18 18 h11max2) 191 194 213 h11max 191 194 LB 275 356 314 412 348 455 LB 275 356 314 412 2031512e_en_300812.5 260.5 – V 25 25 k6 50 68 M10 28. ZB.5 84 178. ZN.5) 2 Dimension 133 20315044_132 2-stage Gearbox DD 454 ZN.. 80 / 90A ZN. 63 / 71 ZB.5 84 188. 80 / 90A – – kV – – – – xk 157 170 – – xk – – – – d11 18 18 – – d11 – – – – h11max2) 164 164 – – h11max – – – – DF 11 LB 275 356 314 412 – – LB – – – – kG 464 544 503 600 – – kV – – – – – xk 157 170 – – xk – – – d11 18 18 – – d11 – – – – h11max2) 164 164 – – h11max – – – – LB DF 21 LB kG 275 356 314 412 – – d=30 483 563 522 619 556 662 d=25 473 553 512 609 546 652 xk 157 170 183 kV – – – – d=30 545 626 584 682 d=25 535 616 574 xk 157 672 170 d11 18 18 18 d11 18 18 h11max2) 185 185 198 h11max 185 185 LB 275 356 314 412 348 455 LB 275 356 314 kG 499 579 538 635 572 678 kV 561 642 600 xk DF 41 ZB.0 V 30 30 k6 60 78 M10 33. TD 90B / 100 Motor ZN. ZB. 63 / 71 ZB. 63 / 71 kG DF 31 Motor ZN.0 A8 x 7 x 40 – 97 197.5 270. ZB. 90B / 100 AC 140 140 157 157 196 AD 124 124 134 134 152 152 2xM25 2xM25 dv 196 4xM20 4xM20 4xM25 4xM25 2xM32 2xM32 LL 153 153 153 153 168 168 AG 103 103 103 103 133 (M.0 DF 31 DF 41 20315044_127 Motor ZN.0 A8 x 7 x 50 – 112 223. With flange: h11max = h2 + a1/2 83 . X 1. ZB.0 V 30 30 k6 60 78 M10 33.5 – DF 21 V 25 25 k6 50 64 M10 28. ZB. X 1. ZN. ZB. ZB.DGV 90 kG / kV qV 2 qG 42146044.5 45 DG 60 V 50 50 k6 100 M16 53.0 A12 x 8 x 70 120 210 30 159 250 150 – 253 38 57 268 337 13. 90B / 100 ZN.. 160 / 180A ZN. ZB.5 Dimension sheets Direct drive input with cylindrical rotor motor Helical geared motors Foot-mounted type DGV 50 .indd 20315044_132 . 63 / 71 ZN. ZB.0 A25 x 14 x 160 215 440 55 306 529 340 78 508 91 115 526 664 33 91 20315044_128 Motor Dimension ZN. 112 / 132 ZN.0 A18 x 11 x 110 190 290 35 250 350 240 50 359 60 75 409 521 22 65 DG 80 V 70 70 m6 140 M20 74.2.5. ZB.5 DG 90 V 90 90 m6 170 M24 95. 180B / 200 225 AC 140 140 157 157 196 196 260 260 314 314 394 394 440 440 AD 124 124 134 134 152 152 185 185 269 269 311 311 332 332 4xM20 4xM20 4xM25 4xM25 2xM25 2xM25 2xM32 2xM32 2xM40 2xM40 2xM40 2xM40 2xM40 2xM40 2xM32 2xM32 2xM40 2xM40 2xM50 2xM50 2xM50 2xM50 2xM50 2xM50 LL 153 153 153 153 168 168 273 273 273 273 273 273 273 273 AG 103 103 103 103 133 133 173 173 173 173 173 173 173 dv (M.eps DGV Solid shaft with key Gearbox WK d l / i2 s4 t Gearbox dimensions u x b x l12 1) a b c e f h h1 h3 m n qG qV s w1 DIN 6885 DG 50 V 40 40 k6 80 M16 43. 80 / 90A ZN. ZB.5 A14 x 9 x 90 185 250 35 235 300 195 43 301 50 68 368 472 18 54 DG 70 V 60 60 m6 120 M20 64.5 A20 x 12 x 125 210 350 50 283 419 275 61 413 71 91 470 600 26 79.5) 173 84 1) Shaft code 2031512e_en_300812. 5 Dimension sheets Direct drive input with cylindrical rotor motor Helical geared motors Foot-mounted type 2-stage DD kG DG 50 DG 60 DG 70 DG 80 DG 90 Motor ZN. 112 / 132 722 741 ZB. ZN. ZB. 90B / 100 749 ZB. 80 / 90A 651 ZB. ZN.indd DG 80 DG 90 TD Motor ZN. 63 / 71 ZB. ZN. 160 / 180A kV – – – – – – – – xk – – 170 – – – – – – d11 – – 18 – – – – – – h11max – – 253 – – – – – – LB – – 314 412 – – – – – – kV 747 828 786 884 820 927 – – – – – xk 157 170 183 – – – d11 18 18 18 – – – – h11max 301 301 301 – – – – LB 275 356 314 412 348 455 – – – – kV – – 835 933 869 976 994 1118 1104 1224 xk – – 170 183 238 d11 – – 18 18 18 252 29 h11max – – 359 359 359 359 LB – – 314 412 348 455 473 597 583 703 kV – – 908 1005 941 1047 1066 1189 1176 1296 xk – – 164 176 231 d11 – – 21 22 25 245 29 h11max – – 413 413 413 413 LB – – 308 406 341 448 466 590 576 696 kV – – 967 1065 1000 1107 1125 1249 1235 1355 xk – – 159 171 226 d11 – – 18 16 20 28 h11max – – 508 508 508 508 LB – – 303 401 336 443 461 240 585 571 691 20315044_113 85 . ZN. 112 / 132 ZB.2. ZN. ZN. ZB.5. 160 / 180A 864 851 ZB. 80 / 90A 582 ZB. 180B / 200 971 225 – – – – xk 170 183 238 252 – – – – d11 18 18 18 29 – – – – h11max 253 256 280 307 – – – – LB 314 412 348 455 473 597 583 703 – – – – kG 676 773 709 815 834 957 944 1064 – – – – – xk 164 176 231 245 – – – d11 21 22 25 29 – – – – h11max 302 302 325 352 – – – – LB 308 406 341 448 466 590 576 696 – – – – kG 712 809 745 851 870 993 980 1100 1093 1226 1137 1273 xk 159 171 226 240 249 d11 18 16 20 28 28 28 h11max 359 359 370 397 437 460 2 Gearbox 259 LB 303 401 336 443 461 585 571 691 684 818 728 865 kG – – 803 910 928 1052 1038 1158 1151 1285 1195 1332 xk – – 168 223 237 246 d11 – – 22 15 28 28 256 28 h11max – – 413 422 432 472 495 LB – – 333 440 458 582 568 688 681 815 725 862 kG – – – – 984 1107 1094 1214 1207 1340 1251 1387 xk – – – – 223 237 246 d11 – – – – 17 28 28 28 h11max – – – – 510 510 537 560 LB – – – – 458 582 568 688 681 256 815 725 862 20315044_112 3-stage Gearbox DG 50 DG 60 DG 70 2031512e_en_300812. ZN. ZB. 90B / 100 679 616 ZB. ZN. ZN. 90B / 100 ZN. ZB. 180B / 200 225 AC 140 140 157 157 196 196 260 260 314 314 394 394 440 440 AD 124 124 134 134 152 152 185 185 269 269 311 311 332 332 4xM20 4xM20 4xM25 4xM25 2xM25 2xM25 2xM32 2xM32 2xM40 2xM40 2xM40 2xM40 2xM40 2xM40 2xM32 2xM32 2xM40 2xM40 2xM50 2xM50 2xM50 2xM50 2xM50 2xM50 LL 153 153 153 153 168 168 273 273 273 273 273 273 273 273 AG 103 103 103 103 133 133 173 173 173 173 173 173 173 dv (M.0 A12 x 8 x 70 250 192 180 j6 15 215 4 – 147 268 337 13.eps DFV 80.5 A14 x 9 x 90 300 236 230 j6 16 265 4 43 188 368 472 13.DFV 70 kG / kV qV 2 qG 42146344.0 20315044_129 Motor Dimension ZN. ZB..2. ZN.indd 20315044_132 .5 DF 70 V 60 60 m6 120 M20 64. X 1. ZB.0 DF 90 V 90 90 m6 170 M24 95. ZB. 160 / 180A ZN.0 A25 x 14 x 160 550 – 450 h6 24 500 5 78 330 526 664 18.DFV 90 DFV 50 .0 A18 x 11 x 110 350 265 250 j6 19 300 4 50 231 409 521 18. ZB.eps DFV Solid shaft with key Gearbox WK d l / i2 s4 Gearbox dimensions t u x b x l12 1) a1 a11 b1 c1 e1 f1 h1 h2 qG qV s1 DIN 6885 DF 50 V 40 40 k6 80 M16 43. DFV 90 42146444.5 Dimension sheets Direct drive input with cylindrical rotor motor Helical geared motors Flange-mounted type DFV 50 .5) 173 86 1) Shaft code 2031512e_en_300812. ZB. 63 / 71 ZN.5.5 A20 x 12 x 125 450 – 350 h6 23 400 5 61 272 470 600 18. 112 / 132 ZN. ZB. 80 / 90A ZN.5 DF 60 V 50 50 k6 100 M16 53.0 DF 80 V 70 70 m6 140 M20 74. ZN. 160 / 180A 864 851 ZB. 112 / 132 ZB. ZN. ZN.indd DF 80 DF 90 TD Motor ZN. ZN. ZB. 160 / 180A kV – – – – – – – – xk – – 170 – – – – – – d11 – – 18 – – – – – – h11max – – 250 – – – – – – LB – – 314 412 – – – – – – kV 747 828 786 884 820 927 – – – – – xk 157 170 183 – – – d11 18 18 18 – – – – h11max 306 306 306 – – – – LB 275 356 314 412 348 455 – – – – kV – – 835 933 869 976 994 1118 1104 1224 xk – – 170 183 238 d11 – – 18 18 18 252 29 h11max – – 364 364 364 364 LB – – 314 412 348 455 473 597 583 703 kV – – 908 1005 941 1047 1066 1189 1176 1296 xk – – 164 176 231 d11 – – 21 22 25 245 29 h11max – – 497 497 497 605 LB – – 308 406 341 448 466 590 576 696 kV – – 967 1065 1000 1107 1125 1249 1235 1355 xk – – 159 171 226 d11 – – 18 16 20 28 h11max – – 605 605 605 605 LB – – 303 401 336 443 461 240 585 571 691 20315044_115 87 . 180B / 200 971 225 – – – – xk 170 183 238 252 – – – – d11 18 18 18 29 – – – – h11max 250 253 277 304 – – – – LB 314 412 348 455 473 597 583 703 – – – – kG 676 773 709 815 834 957 944 1064 – – – – – xk 164 176 231 245 – – – d11 21 22 25 29 – – – – h11max 306 306 318 345 – – – – LB 308 406 341 448 466 590 576 696 – – – – kG 712 809 745 851 870 993 980 1100 1093 1226 1137 1273 xk 159 171 226 240 249 d11 18 16 20 28 28 28 h11max 364 364 364 388 428 451 2 Gearbox 259 LB 303 401 336 443 461 585 571 691 684 818 728 865 kG – – 803 910 928 1052 1038 1158 1151 1285 1195 1332 xk – – 168 223 237 246 d11 – – 22 15 28 28 256 28 h11max – – 497 497 497 497 497 LB – – 333 401 458 582 568 688 681 815 725 862 kG – – – – 984 1107 1094 1214 1207 1340 1251 1387 xk – – – – 223 237 246 d11 – – – – 17 28 28 28 h11max – – – – 605 605 605 605 LB – – – – 458 582 568 688 681 256 815 725 862 20315044_114 3-stage Gearbox DF 50 DF 60 DF 70 2031512e_en_300812. ZN. 90B / 100 749 ZB. ZN. 63 / 71 ZB. ZN.2. 90B / 100 679 616 ZB. ZB. 80 / 90A 582 ZB. 80 / 90A 651 ZB. ZN.5. ZB. ZN. 112 / 132 722 741 ZB.5 Dimension sheets Direct drive input with cylindrical rotor motor Helical geared motors Flange-mounted type 2-stage DD kG DF 50 DF 60 DF 70 DF 80 DF 90 Motor ZN. 2031512e_en_300812.indd 88 2 . 89 .6 Helical gearbox with coupling connection KB conical rotor motors and Z cylindrical rotor motors with Demag gearbox shaft ends are mounted by means of flange.coupling Intermediate flange Conical-rotor brake motor KB71 .indd • the dimension sheets for solo gearboxes or couplingmounted geared motors with Z motors.KB225 with a Demag coupling shaft end 41653344.2. 2031512f_en_300812. Cylindrical rotor motor Z63 . 960 and 720 rpm. coupling and coupling extension. you can also find: • additional data for input speeds 2900. In Drive Designer.D90 Helical gearbox Brake B003-B680 2 Coupling connection Demag .Z225 with a Demag coupling shaft end D11 .eps Data is given for input speed n1 = 1450 rpm. 1 50 3483 32.9 1.66 32 4595 51.1 14600 5.0 14 17 Selected motor: KBA 71 A 4.6.1 Selection example Helical geared motors with coupling connection Selection example The requirement is for a geared motor with a KBA conical-rotor brake motor. 0.5 69 2952 23.76 36 4428 46 0.1 10 11 KBA 80 A 4 0. Key value table for 4-pole KBA motors. Motor selection in section 5.2 56 3393 29.5 KBA 71 B 4 0.4 13800 14.6 Nm Gearbox selection according to the following criteria: i= Motor speed 1370 rpm Output speed 25 rpm = 54.30 0.1370 rpm.9 0.50 26 5000 200 61.6 0.83 1360 5. 2 4-pole KBA motors 100% CDF Type PN nN MN IN [kW] [rpm] [Nm] 400V cosφN IA/IN MA/MN [A] JMot Z0 MBStd [kgm2 x 10-3] [h-1] [Nm] 1) 2) 4) 4.3 63 2967 25.65 3.93 45 3923 35.5 10. 1450 rpm 2) 90 i 3) P2 [kW] 2) n2 [rpm] FR [N] Gearbox 3) Weight [kg] 1) 2) 21.8 2.35 3. Required duty factor fB erf ≈ 1.8 2. 0.8 Gearbox rated torque at input speed n1 = 1450 rpm: M2N ≈ fB i MNMot.6 1.5 Weight [kg] 3) 1) 2) 9 10 KBA 71 A 4 0.60 0.69 3.3.85 40 3973 40.0 13 15 KBA 80 B 4 1. ≈ 1.50 3.31D 3) 9.55 2.6 0.25 54.0 13500 12. 100 % CDF and an output speed of approx.2. Selection tables for helical gearboxes with coupling connection.1 1.55 1355 3.4.6.6 ≈ 178 Nm Gearbox to be selected according to section 2.10 0.2. 100 % CDF.7 4.37 kW.1 1.1 1. = 2. 25 rpm.37 1370 2. MNMot.37 kW.25.20 1. 100 % CDF.9 10.70 2.95 2.59 28 5000 182 55 0.5 0.70 3.30 2..75 0.indd M2 [Nm] .72 3.2 0.0 3.00 1370 7.45 1.9 1.4 19250 7.49 24 5000 D.9 2031512f_en_300812. Output speed approx.1 Gearbox: D.indd Dimension sheet according to section 2.6..6 Nm 2 Given duty factor fB : = 1. For further options. see section 6. 91 .g. Transmission ratio: i = 55. 2031512f_en_300812.1.1. Permissible radial force: 5000 N.. 31D.: 1370 rpm / 55 = 25 rpm.Selected: Helical gearbox D.27 Coupling assignment according to section 6.9 Helical gearbox D11 / D21 D31 D41 – D50 D60 D70 D80 D90 Angular gearbox W10 W20 W30 W40 W50 W60 W70 / W 80 W90 W100 – Offset gearbox A10 A20 – A50 / A60 A70 A80 – – A90 A30 A40 – Motor frame size Z 63 / 71 KB 71 Z 80 / 90 A KB 80 Z 90 B KB 90 Z 100 KB 100 Z 112 / Z 132 A KB 112 / KB 125 Z 132 B / 132 C KB 140 Z 160 KB 160 Z 180 A KB 180 Z 180 B / 200 KB 200 Z 225 KB 225 H 1 / HT 1 H 2 / HT 2 H3 E. light coupling H1 or heavy coupling HT1.3.31D Housing and shaft design according to type designation in section 2. fB = 182 Nm 55 2. 1 118 3000 14.2.0 480 2169 84 3.84 2.8 0.47 50 3000 32 0.75 80 3000 20.9 311 2049 4.43 45 3000 37.3 0.62 1. KB112 Dimension sheets see section 2..7 0.33 35 3000 44.4 151 3000 11.27 29 3000 59.66 2.2 0.3 1.indd M2 [Nm] .59 1.37 39 3000 41.5 381 2024 90 4.3 0.31 32 3000 49.1 0.61 1.2 Selection tables helical gearboxes with coupling connection Input speed n1 ~ 1450 rpm 2 2) 92 i 3) P2 [kW] 2) n2 [rpm] FR [N] Weight [kg] 1) Gearbox 3) 2) 77 2.11D.0 212 3000 7.63 3.84 89 3000 18.1 0.1 0.47 2.1 1. without intermediate flange 2) For fitting to motors ≤ Z100.81 3.9 0.9 0.59 62 3000 25.68 72 3000 23.5 0.21 22 3000 D. without roller spider coupling. KB100 3) For fitting to motors ≥ Z112.2 235 2388 6.8 0.6 168 3000 9.8 297 2168 6.3 131 3000 12.8 191 3000 8.5 1) Weight DGV with oil filling in mounting position B3.8 0.6.6.3 3) - 2031512g_en_300812.16 2.0 503 2242 81 3.93 99 3000 16.89 2.23 24 3000 66.53 56 3000 28.88 4. 7.1 224 2530 6.5 400 2106 88 3.02 4. 1 1.3 1.4 99 2273 16. KB112 Dimension sheets see section 2.8 0.5 400 1875 88 3.81 3.indd 2) i 3) P2 [kW] 2) n2 [rpm] FR [N] Gearbox Weight [kg] 1) 3) 2) 77 2.4 235 1765 103 6..3 168 1509 9.44 32 4600 49.98 72 3047 23.2.9 0.16 2.48 35 4600 44.69 50 3647 32 0.61 2.2 0.47 2.2 89 2620 18.2 Selection tables helical gearboxes with coupling connection Input speed n1 ~ 1450 rpm 2031512g_en_300812.8 131 1859 12.76 56 3579 28.9 0.40 29 4600 59.85 62 3177 25.8 0.3 1.62 45 4063 37. without intermediate flange 2) For fitting to motors ≤ Z100.8 212 1322 130 7.3 7.5 381 1802 91 4.1 80 2659 20.6 191 1512 8.84 2.59 2. without roller spider coupling.1 0.6 118 2185 14.88 4.3 0.1 151 1827 11.1 0.0 311 1775 96 4.63 3.4 224 1694 127 6.6.5 0.53 39 4242 41.0 297 1694 98 6.62 2.0 503 1995 81 3.33 24 4600 66.30 22 4600 3) 2 M2 [Nm] D.89 3.6.8 0.21D.1 1.66 3.7 1.5 - 93 . KB100 3) For fitting to motors ≥ Z112.02 4.0 480 1930 84 3. 1) Weight DGV weight DGV with oil filling in mounting position B3. 4 5.23 6.19 4.1 1.85 40 3973 40.02 3.6 0.3 63 2967 25.14 6.26 12 5000 134 0.6 77 2539 21.8 140 1929 11.2 1.4 113 2073 14.41 4.31T. 12 - 1) Weight DGV with oil filling in mounting position B3.12 14 5000 200 119 0.4 0.0 156 1809 193 10.7 203 1696 184 8.45 4.6 0.5 222 1546 176 7.8 329 1467 143 5.1 50 3483 32.0 266 1457 150 6.28 3..0 449 1532 131 3.5 0.6 0.23 11 5000 165 0.6.46 22 5000 77.9 1.9 1.9 - D.1 100 2076 16.53 3.5 2.7 5000 3) D.50 26 5000 200 61.2.16 7.8 2.2 Selection tables helical gearboxes with coupling connection Input speed n1 ~ 1450 rpm 2 2) 94 i 3) P2 [kW] 2) n2 [rpm] FR [N] Weight [kg] 1) Gearbox 3) 2) 129 3.5 2.4 2.39 19 5000 86.1 1.9 0.8 5000 188 0.12 6.indd M2 [Nm] .35 17 5000 106 0.66 32 4595 51. without roller spider coupling.9 346 1504 139 4.8 426 1493 137 4.7 5000 211 0.49 24 5000 200 66.3 2031512g_en_300812. without intermediate flange 2) For fitting to motors ≤ Z100..1 1. KB112 Dimension sheets see section 2.6.2 280 1493 145 5.3 0.12 5.2 56 3393 29.18 8.9 5000 182 226 0.16 3. KB100 3) For fitting to motors ≥ Z112.9 90 2431 18.93 45 3923 35.5 69 2952 23.5 127 1917 200 12.29 14 5000 86 107 0.2 0.76 36 4428 46 0. 9.59 28 5000 182 55 0.4 5000 200 253 0.31D.18 4.5 181 1807 185 9. 81 24 6500 322 69.6 2.4 305 2726 257 5..46 13 6500 121 0.81 26 6500 324 60.9 0.8 85 3184 322 18.6 198 2541 277 7.30 8.36 11 6500 152 0.4 3.5 6500 169 0.0 132 2780 299 12.41D.2 225 2492 272 7.57 16 6500 97.5 0.1 61 3882 29.8 120 2908 302 13.1 32 6074 259 53.2 0.75 6.75 6.67 7.1 370 2972 202 4.2 35 5591 45.8 0..6.7 49 4563 33.2.4 1.1 3.2 Selection tables helical gearboxes with coupling connection Input speed n1 ~ 1450 rpm 2031512g_en_300812.92 29 6500 294 54.7 0.6 4. 13 - D. without roller spider coupling.5 0.18 6 6500 3) 2 M2 [Nm] D.6 0.2 1.70 21 6500 330 76.92 7.6 0.4 108 2951 310 14.33 5.7 2.5 0.1 1.4 39 5343 41.1 449 3083 185 3.41 12 6500 138 0.83 5.9 169 2595 286 9.indd 2) i 3) P2 [kW] 2) n2 [rpm] FR [N] Weight [kg] 1) Gearbox 3) 2) 172 3.6 1.74 25 6500 301 49.3 95 .27 7.41T.4 305 2726 4.18 6.7 6500 285 240 0.6 153 2712 291 11 4.7 248 2410 264 6.5 43 4878 37.4 185 2568 278 8.6.4 1.51 15 6500 110 0. KB100 3) For fitting to motors ≥ Z112.74 27 6500 285 58.23 8. without intermediate flange 2) For fitting to motors ≤ Z100.8 6500 259 218 0.65 19 6500 88.3 67 3529 330 23.7 395 2875 184 3.6 77 3348 327 21.8 3. KB112 Dimension sheets see section 2.85 6.33 9.2 98 3087 314 17 2.6 6500 186 0.44 6.48 4.8 2. 15 - 1) Weight DGV weight DGV with oil filling in mounting position B3. 32 44 D.69 12 10000 135 0.6 115 3822 14.5 8.3 93 4501 17.5 147 3099 11.3 5.9 11.9 210 2776 538 538 7.6 6.6 3.6 2.2 Selection tables helical gearboxes with coupling connection Input speed n1 ~ 1450 rpm 2) P2 [kW] n2 [rpm] 2) 3) FR [N] 301 2.49 9.3 41 7776 40 2.4 0.33 5. KB112 Dimension sheets see section 2.6 27 9975 61.7 12.4 14.6 6.45 7.9 10000 185 0.37 6.8 2.62 11 10000 164 0.8 10000 3) D.42 11.9 32 8966 50.69 8.6 4.7 1.8 16.8 9.1 5.7 1.6 424 5614 283 361 4.9 11.7 4.7 29 9966 54.0 69 5878 23.1 2.57 10.3 2031512g_en_300812.5 7.8 49 6881 33.3 325 5483 305 389 5.6 1.5 131 3831 12.2 3.indd M2 [Nm] .1 19 10000 86.1 36 8739 45.9 1. KB100 3) For fitting to motors ≥ Z112.5 44 7815 35.15 12.1 2.9 5.1 7.7 0.5 521 5756 257 328 3.97 17 10000 94.9 103 4571 15.50T.78 12. without roller spider coupling.46 9.2 3.6 63 5800 2 Weight [kg] 1) Gearbox 2) 235 550 96 i 3) 26 3.7 5.50D.7 236 2661 540 540 6.5 2.0 4..5 2.4 1.2 1.8 192 2596 550 550 8.4 24 10000 71.1 4.87 8.2.8 10.6.8 171 3067 9.8 1.5 10000 251 0.1 10.3 2.2 56 6704 29.8 10000 208 0.88 15 10000 106 0.51 8.40 7 10000 224 0.6.6 12.7 83 5268 21.9 1..4 1. without intermediate flange 2) For fitting to motors ≤ Z100.4 255 5423 514 514 6. 37 - 1) Weight DGV with oil filling in mounting position B3.2 20 10000 77 1.79 14 10000 121 0. 1 10 15000 159 0.3 13 15000 128 1.6 63 15000 25.0 21.2 Selection tables helical gearboxes with coupling connection Input speed n1 ~ 1450 rpm 2) P2 [kW] n2 [rpm] 2) 3) FR [N] Weight [kg] 1) Gearbox 2) 955 955 6.6 14.1 30 15000 57.5 158 13379 10.95 9.9 3. 78 - 2 M2 [Nm] 1) Weight DGV weight DGV with oil filling in mounting position B3.4 3.1 10..7 13.6.9 46 15000 35.8 103 14841 15.5 33 15000 48.3 6.4 5. KB100 3) For fitting to motors ≥ Z112.3 4.5 2.3 4.85 8.9 7.5 2.44 22..0 204 12558 1000 1000 8.5 22.0 124 14199 14.1 20 15000 78.3 5.8 2. without intermediate flange 2) For fitting to motors ≤ Z100.3 97 . without roller spider coupling.5 16.2 174 12703 9. KB112 Dimension sheets see section 2.3 51 15000 31.0 13.60T.19 16. 75 86 D.9 1.5 9.7 83 15000 19.3 41 15000 38.9 75 15000 23 6.6 15 15000 103 1.8 9.3 7.0 18 15000 1000 2031512g_en_300812.1 15000 179 0.1 15000 197 0.0 6.1 21.3 137 13812 11.8 94 15000 17.9 3.2 11 15000 144 1.5 8.6 6.3 14.2.3 15000 3) D.2 18.9 4.7 8.5 225 12340 982 982 7.6.1 3.3 2.60D.4 23 15000 71.9 37 15000 43.0 57 15000 28.6 25 15000 63.5 14 15000 116 1.8 10.3 4.77 7.9 3.indd i 3) 93.5 3.34 18. 8 3.2 44 20000 36.7 210 15768 1800 7.7 7.8 26 20000 1800 63.4 145 16930 11. 108 120 1) Weight DGV with oil filling in mounting position B3..91 30.4 35.8 78 19505 20. KB112 Dimension sheets see section 2.4 18 20000 2 98 P2 [kW] 2) 90.1 2.7 115 17818 14.3 5.2 Selection tables helical gearboxes with coupling connection Input speed n1 ~ 1450 rpm 2) i 3) n2 [rpm] 3) FR [N] Weight [kg] 1) Gearbox 2) 1742 1800 6.5 18.3 4.9 10 20000 161 1.0 16 20000 101 2.6 35 20000 45.6 56 20000 29.3 5.2 20000 3) D.6.2 49 20000 33.1 6.9 63 20000 25.2 8. without intermediate flange 2) For fitting to motors ≤ Z100.4 39.0 6.2 24.6 8.9 90 19013 18.2 70 20000 23 11.9 1.7 4.7 163 16412 9.7 13.8 10.8 20 20000 81.0 3.7 1.7 2.98 27.70T.3 28 20000 1762 1800 56.2 3.4 3.2 16.3 23 20000 72.7 9 20000 179 1.2.9 11. without roller spider coupling.89 38.6 6.8 6.5 4.8 100 18303 16.4 7.7 14 20000 116 2.8 14.indd M2 [Nm] .6 10.4 1.3 24.9 16.0 32 20000 51.2 129 17146 12.7 9.1 20000 201 1.72 35.4 13 20000 130 2.4 7..6 21.7 21.3 3.4 2.7 30.2 8.2 13.1 11 20000 144 1.5 14.7 4.4 27.3 2031512g_en_300812.70D. 102 131 D.6 1.4 40 20000 41.4 188 16137 8.2 9.8 18.6.5 3. KB100 3) For fitting to motors ≥ Z112. 5 91 28000 17.1 40 28000 41.3 46 28000 36. without roller spider coupling.5 10.9 28.6.6 41.74 59.2 11. - 191 D.1 5.2 9 28000 173 3.80D.2.7 148 24638 11.4 206 22150 7.2 8.0 56 28000 28.6 6.87 65.79 52.4 7.9 7.0 8.4 102 26738 15.7 129 24808 12.6 184 23411 8.9 32.2 4.8 81 28000 20 25.2 12 28000 143 3.2 36. KB112 Dimension sheets see section 2.7 4.0 115 26370 14. KB100 3) For fitting to motors ≥ Z112.7 16 28000 101 5.7 7.7 5.4 21 28000 78.7 33 28000 49.6.1 5.7 13 28000 124 4.03 73.4 29 28000 3337 3400 55.1 166 23359 9.3 18.3 23 28000 69.indd 3400 P2 [kW] 2) n2 [rpm] FR [N] Weight [kg] 1) Gearbox 3) 2) 7.2 Selection tables helical gearboxes with coupling connection Input speed n1 ~ 1450 rpm 2) i 3) 2031512g_en_300812.5 28000 3) D.2 51 28000 31.8 20.2 6.1 14 28000 111 4.0 3.80T.4 28000 193 2.6 19 28000 90.6 3.7 14.3 8.8 72 28000 23 22.1 9.3 26 28000 3400 62.. without intermediate flange 2) For fitting to motors ≤ Z100.3 45. 185 196 2 M2 [Nm] 1) Weight DGV weight DGV with oil filling in mounting position B3.6 10 28000 161 3.7 16.6 35 28000 44.1 12..2 3.5 9.7 2.3 99 .4 63 28000 25. 9 11.7 59.0 26 55000 4879 63.7 89 48779 18.3 19 55000 86.5 138 43774 5732 11.2 13 55000 124 7.2 17.2 9.8 30.2 8.5 10.1 5.2 Selection tables helical gearboxes with coupling connection Input speed n1 ~ 1450 rpm i 3) 100 P2 [kW] 2) n2 [rpm] FR [N] Weight [kg] 1) Gearbox 3) 2) 5231 7.9 98 46580 16.5 45 55000 36.2 17 55000 97.indd M2 [Nm] .7 80 49380 20.2.4 6.3 55000 220 4.1 43.1 48.3 11.4 53.1 15 55000 108 8.3 40 55000 40. - 282 D.8 72 51633 22.. KB100 3) For fitting to motors ≥ Z112. KB112 Dimension sheets see section 2.2 28 55000 4235 5800 55.44 89.6 50 55000 2 2) 32 27.90D.6.6.8 68.1 154 43014 5775 10.6 5. 289 318 1) Weight DGV with oil filling in mounting position B3. without intermediate flange 2) For fitting to motors ≤ Z100.5 83.1 7.1 12 55000 138 6.3 55000 173 5.4 4.5 174 43003 5542 9.0 4.1 19.4 7.7 16.0 6.4 55000 198 4.9 36 55000 46.1 58 54841 28.7 126 44021 5800 12.6 55000 3) D.6 39.3 2031512g_en_300812..2 24.1 32 55000 51.5 11.2 21.1 11.2 10.32 99.7 13.6 9.4 11 55000 156 5.0 64 52524 25. without roller spider coupling.7 12.90T.1 9.9 23 55000 5418 70.1 8.8 113 45496 14.5 11.49 106 194 42270 5454 8.1 35.5 21 55000 5800 77.5 75. indd 101 2 .2031512g_en_300812. eps Combined foot/flange-mounted type DUV 11 .2.7.1 20315044_130 X Standard x optional Dimensions without flange plate see section 2.indd Model .1 102 – not possible 42568846.DUV 41 kG / kV pG / pV qV qG 42569544.7.DGV 41 kG / kV pG / pV 2 qG qV 42569244.5 3.eps Flange dimensions Combined foot/flange-mounted type B 35 B 34 Flange a1 b1 j6 c1 e1 f1 s1 D11 D21 D31 D41 A120 120 80 8 100 3 6.6.3 Dimension sheets Coupling connection with conical rotor motor Helical geared motors Foot-mounted type DGV 11 .8 x – A140 A160 A200 C105 C120 C140 140 160 200 105 120 140 95 110 130 70 80 95 9 9 10 14 18 18 115 130 165 85 100 115 3 3.eps 2031512h_en_300812.5 3 3 9 9 11 M6 M6 M8 x – x – – x x exclusive flange plate x – X – x x x – X X X X – – – – – x – – X X X Dimensions see section 2.5 2. 5 – d=25 343.0 634.0 667.6.0 d=25 406.5 pG kG DG 41 DU 41 KB.5 137 35 33 188.5 20.5 365.0 pV 751.0 h11max 207 207 207 207 h11max 207 207 d11 30 30 30 30 d11 30 30 c4 15.5 690. KB.0 A8 x 7 x 50 110 165 20 140 200 115 – 183 35 45 197.5 343.5 704.0 642.5 730.0 657.5 A6 x 6 x 32 95 120 15 120 145 85 1.5 286 20315044_126 Motor KB. KB.5 137 35 33 178.5 365.5 – 9 28 DG 21/DU 21 V 25 25 k6 50 64 M10 28. KB.5 – – d=25 599.5 681.5 13.5 745.0 645.5 13.0 652. KB.0 406. KB.0 684.5 kG DG 31 DU 31 3-stage KB.0 714.5 719.5 – – pV – – h11max 165.5 17. 625.0 416.5 13. KB. KB.5 – – pV – – h11max 165.5 – d11 19 19 – c4 11.0 683.0 c4 15.5 186.5 – h11max 186.5 – – c4 – 591.5 pG 365.0 h11max 186.0 649.0 601.5 700.5 335.0 kV – d=30 671. 71 A 71 B 80 A 80 B 90 A 90 B 100 A 100 B AC 140 140 158 158 178 178 196 196 AD 134 134 143 143 153 153 176 176 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 4xM32 LL 128 128 128 128 128 128 158 158 AG 108 108 108 108 108 108 128 128 xk 77 77 82 82 92 92 103 103 LB 244 264 285 300 315 331 349 366 dv (M.5 – – h11max – – d11 19 19 – – d11 – – c4 11. kG DG 11 DU 11 KB.0 639.0 611.5 – – d=30 353. KB.5 353.0 A8 x 7 x 40 95 120 15 120 145 85 1. KB.5 353.5 – 9 28 9 29 11 33 DG 31/DU31 DG 41/DU 41 V 25 25 k6 50 68 M10 28. X 1.5 pV 428.5 734. KB.5 714.2.5 165.5) 2 Dimension 20315044_133 2-stage Gearbox D. KB.0 A8 x 7 x 50 100 140 20 126 170 100 – 159 34 40 V 30 30 k6 60 78 M10 33.5 186.0 – – – – kV – – – – – pG 335.5 189 – d11 19 19 19 c4 11.0 624.5 2031512h_en_300812.0 kV 687. 325.0 A8 x 7 x 40 V 30 30 k6 60 78 M10 33.5 260 207.5 d=25 661.5 17. 71 A 71 B 80 A 80 B – – – – 325.indd 20315044_116 1) Shaft code 103 . 71 A 71 B 80 A 80 B 90 A 90 B 100 A 100 B 581.0 428.0 629.5 13.0 698. KB.0 668.5 365.5 270 223. KB.5 – – c4 – d=30 609.5 343.5 165.5 691.5 d=30 416. pG kG DG 21 DU 21 Motor KB.5 17..0 674.5 707.0 – – – T.5 13.0 619.3 Dimension sheets Coupling connection with conical rotor motor Helical geared motors Foot-mounted type DGV/DUV Solid shaft with key Gearbox WK d l / i2 i3 s4 Gearbox dimensions t u x b x l12 1) a b c e f h h1 h3 m n qG qV s w1 DIN 6885 DG 11/DU 11 V 20 20 k6 40 54 M6 22.5 – – h11max – – d11 19 19 – – d11 – – c4 11.5 729. KB. – kV Motor KB. 1 20315044_131 X Standard 104 x optional 42568846.2.DFV 41 kG / kV pG / pV qV 2 qG 42569444.eps – not possible 2031512h_en_300812.5 2.eps Flange dimensions B5 B 14 Flange a1 b1 j6 c1 e1 f1 s1 D11 D21 D31 D41 A120 120 80 8 100 3 6.6.5 3 3 9 9 11 M6 M6 M8 x – x – – x x exclusive flange plate x – X – x x x – X X X X – – – – – x – – X X X Dimensions see section 2.5 3.3 Dimension sheets Coupling connection with conical rotor motor Helical geared motors Flange-mounted type DFV 11 .indd Model .8 x – A140 A160 A200 C105 C120 C140 140 160 200 105 120 140 95 110 130 70 80 95 9 9 10 14 18 18 115 130 165 85 100 115 3 3.7. 0 645. KB. 625. KB.5 186.5 – c4 11. 325.5 13.5 365.5 – V 25 25 k6 50 68 M10 28.0 639.0 657.5 d11 19 19 19 – d11 19 19 c4 11.5 353.5 260.0 734.0 629.5 13.0 – – – T.5 h11max2) DF 41 KB.0 204.5 13.5 700.0 416.5 13.5 kG 2031512h_en_300812. KB.0 d11 30 30 30 30 d11 30 30 c4 15. – kV Motor KB.5 84 178.0 634.0 A8 x 7 x 40 – 97 197.5 – – c4 – pG d=30 609.5 pV 428.5 365.5 – – c4 – 591.5 681.0 683.5 20.5 730. kG DF 11 KB.5 690. KB. KB. KB. KB.0 714. KB.0 210.0 V 30 30 k6 60 78 M10 33.5 691.0 751. X 1.5 – d=25 343.0 – – – – – – – kV – – – – – – – – pG 335.5 719.5 335.0 DF 31 DF 41 20315044_127 KB.0 c4 15.0 406.0 A8 x 7 x 50 – 97 207.0 428.indd KB.5 kG DF 31 3-stage KB. KB..0 674. KB.5 17. KB. KB.5 707.2.0 611.5 – – h11max – – – d11 19 19 – – d11 – c4 11.0 624.5 714.5 – – p3 h11max2) 164.0 668.5 353.0 h11max2) 204.0 642.5 20315044_117 1) Shaft code 2) h11max without connected flange.6.5 17.0 667.0 kV 687.5) 2 Motor Dimension 20315044_133 2-stage Gearbox D.0 698. 325.0 V 30 30 k6 60 78 M10 33.5 343.5 365.0 A8 x 7 x 40 1.5 – DF 21 V 25 25 k6 50 64 M10 28. 71 A 71 B 80 A 80 B 90 A 90 B 100 A 100 B 581.5 270.5 – – kV 671.0 619.5 pG 365.5 164.0 652.5 729.5 183.5 13.5 704. 71 A 71 B 80 A 80 B – – – – – – pV – h11max2) 164.0 601.5 – – h11max – – d11 19 19 – – d11 – – c4 11.3 Dimension sheets Coupling connection with conical rotor motor Helical geared motors Flange-mounted type DFV Solid shaft with key Gearbox WK d l / i2 i3 s4 Gearbox dimensions t u x b x l12 1) h1 h2 qG qV DIN 6885 DF 11 V 20 20 k6 40 54 M6 22. pG kG DF 21 Motor KB.5 286.5 84 188.5 A6 x 6 x 32 1.5 164.5 – 183.0 406.0 204.0 649.0 h11max 204.5 353.0 183.5 183. KB.5 745.5 – – d=25 599.5 d=25 661.5 17.0 A8 x 7 x 50 – 112 223.0 684.0 204.5 343. With flange: h11max = h2 + a1/2 105 . 71 A 71 B 80 A 80 B 90 A 90 B 100 A 100 B AC 140 140 158 158 178 178 196 196 AD 134 134 143 143 153 153 176 176 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 4xM32 LL 128 128 128 128 128 128 158 158 AG 108 108 108 108 108 108 128 128 xk 77 77 82 82 92 92 103 103 LB 244 264 285 300 315 331 349 366 dv (M.0 – h11max pV – d=30 d=30 d=30 d=25 416. KB.5 45 DG 60 V 50 50 k6 100 M16 53. KB. KB.DGV 90 kG / kV pG / pV qV 2 qG 41770945.5 A14 x 9 x 90 185 250 35 235 300 195 43 301 50 68 368 472 18 54 DG 70 V 60 60 m6 120 M20 64. KB.6.indd Motor Dimension . KB. 71 A 71 B 80 A 80 B 90 A 90 B 100 A 100 B 112 B 125 B 140 B 160 B 180 B 200 B 225 B AC 140 140 158 158 178 178 196 196 220 246 274 314 354 394 440 AD 134 134 143 143 153 153 176 176 189 200 269 269 293 311 332 2xM40 2xM40 2xM40 2xM40 2xM40 dv 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 4xM32 4xM32 4xM32 2xM50 2xM50 2xM50 2xM50 2xM50 LL 128 128 128 128 128 128 158 158 158 158 273 273 273 273 273 AG 108 108 108 108 108 108 128 128 128 128 173 173 173 173 173 xk LB 77 244 77 264 82 285 82 300 92 315 92 331 103 349 103 366 110 389 122 444 174 511 221 586 237 663 246 729 256 769 (M.0 A25 x 14 x 160 215 440 55 306 529 340 78 508 91 115 526 664 33 91 20315044_128 KB. KB. X 1.eps DGV Solid shaft with key Gearbox WK d l / i2 s4 t Gearbox dimensions u x b x l12 1) a b c e f h h1 h3 m n qG qV s w1 DIN 6885 DG 50 V 40 40 k6 80 M16 43.5) 20315044_133 106 1) Shaft code 2031512h_en_300812.2.5 DG 90 V 90 90 m6 170 M24 95.0 A18 x 11 x 110 190 290 35 250 350 240 50 359 60 75 409 521 22 65 DG 80 V 70 70 m6 140 M20 74. KB.0 A12 x 8 x 70 120 210 30 159 250 150 – 253 38 57 268 337 13. KB.. KB. KB.3 Dimension sheets Coupling connection with conical rotor motor Helical geared motors Foot-mounted type DGV 50 .5 A20 x 12 x 125 210 350 50 283 419 275 61 413 71 91 470 600 26 79. KB. KB. KB. KB. 5 – KB. 225B – – – – – – – – – – – – – – – 1554 699 495 41 87 1610 754 560 41 87 2 Helical geared motors Foot-mounted type 20315044_118 3-stage Gearbox DG 50 DG 60 DG 70 DG 80 2031512h_en_300812.5 761 413 24 15. KB. KB.5 1012 663 359 22 17. 90 B – – – – – 963 1151 1167 820 508 24 15.2. 90 B 758 410 253 22 17. 140B 985 436 287 32 38 1078 529 345 32 38 1189 640 415 41 38 1248 699 466 41 38 1303 754 531 41 38 KB.6.indd DG 90 T. 160B – – – – – – – – – – – – – – – 1420 761 413 32 74 1555 896 508 41 74 KB. 80 A 712 410 253 22 15.5 565 359 24 15.5 892 917 614 301 22 15.5 981 996 663 359 22 17. 200B – – – – – – – – – – – – – – – – – – – – 1711 896 508 41 87 20315044_119 107 .5 872 479 253 22 17.5 786 806 829 842 844 865 – – 859 880 – 895 – – – 911 565 359 24 15.3 Dimension sheets Coupling connection with conical rotor motor 2-stage Gearbox DG 50 DG 60 DG 70 DG 80 DG 90 D. 80 A 782 479 253 22 15.5 – – – – – – – – – 875 529 302 24 15. kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 KB. 80 B 727 – – – – – – – – – – – – – – – – Motor KB.5 941 966 663 359 22 15. 90 A 742 410 253 22 17. 160B – – – – – 1188 529 352 32 74 1300 640 415 41 74 1358 699 483 41 74 1414 754 548 41 74 KB. 80 B 797 614 301 22 17. 180B – – – – – – – – – – 1377 640 417 41 74 1435 699 483 41 74 1491 754 548 41 74 KB. 180B – – – – – – – – – – – – – – – – – – – – 1632 896 508 41 74 KB. 140B – – – – – – – – – – 1238 689 359 32 38 1310 761 413 32 38 1445 896 508 41 38 KB. 125B – – – – – – – – – – 1171 689 359 32 38 1242 761 413 32 38 1377 896 508 41 38 KB.5 – – – – – – – – – – KB. 112B – – – – – 1023 614 301 25 20 1114 689 359 32 36 1186 761 413 32 36 1321 896 508 41 36 KB. 100 A 100 B – – – – – – – – – – 983 1000 614 301 22 20 1032 1049 663 359 22 20 1127 1144 761 413 24 18 1187 1204 820 508 24 18 KB. 71 B 689 KB. 200B – – – – – – – – – – 1456 640 437 41 87 1514 699 483 41 87 1570 754 548 41 87 KB. 71 B 759 KB. 125B 917 436 275 32 38 1010 529 345 32 38 1122 640 415 41 38 1180 699 466 41 38 1236 754 531 41 38 KB. 112B 861 436 275 32 36 954 529 345 32 36 1065 640 415 41 36 1124 699 466 41 36 1179 754 531 41 36 KB.5 565 359 24 13. 71 A 739 KB.5 529 302 24 13.5 921 932 KB.5 1121 KB. kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 KB.5 – – – – KB. 71 A 669 KB.5 822 KB.5 – – – – – – – – – – 1061 1076 1091 1107 761 413 24 15. 100 A 100 B 778 795 410 253 22 20 895 912 529 302 24 18 931 948 565 359 24 18 – – – – – – – – – – – – KB.5 Motor KB.5 529 302 24 15. 90 A – – – – – 947 614 301 22 17.5 1136 820 508 24 15. KB. KB.0 DF 90 V 90 90 m6 170 M24 95.0 A18 x 11 x 110 350 265 250 j6 19 300 4 50 231 409 521 18. 71 A 71 B 80 A 80 B 90 A 90 B 100 A 100 B 112 B 125 B 140 B 160 B 180 B 200 B 225 B AC 140 140 158 158 178 178 196 196 220 246 274 314 354 394 440 AD 134 134 143 143 153 153 176 176 189 200 269 269 293 311 332 2xM40 2xM40 2xM40 2xM40 2xM40 dv 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 4xM32 4xM32 4xM32 2xM50 2xM50 2xM50 2xM50 2xM50 LL 128 128 128 128 128 128 158 158 158 158 273 273 273 273 273 AG 108 108 108 108 108 108 128 128 128 128 173 173 173 173 173 xk LB 77 244 77 264 82 285 82 300 92 315 92 331 103 349 103 366 110 389 122 444 174 511 221 586 237 663 246 729 256 769 (M. KB.2.5 A20 x 12 x 125 450 – 350 h6 23 400 5 61 272 470 600 18. DFV 90 42146444. KB.0 DF 80 V 70 70 m6 140 M20 74.5 DF 70 V 60 60 m6 120 M20 64.eps DFV 80.3 Dimension sheets Coupling connection with conical rotor motor Helical geared motors Flange-mounted type DFV 50 . KB. X 1.eps DFV Solid shaft with key Gearbox WK d l / i2 s4 Gearbox dimensions t u x b x l12 1) a1 a11 b1 c1 e1 f1 h1 h2 qG qV s1 DIN 6885 DF 50 V 40 40 k6 80 M16 43. KB.DFV 90 DFV 50 .0 A12 x 8 x 70 250 192 180 j6 15 215 4 – 147 268 337 13. KB.indd Motor Dimension . KB. KB.0 A25 x 14 x 160 550 – 450 h6 24 500 5 78 330 526 664 18.5 DF 60 V 50 50 k6 100 M16 53.5 A14 x 9 x 90 300 236 230 j6 16 265 4 43 188 368 472 13.5) 20315044_133 108 1) Shaft code 2031512h_en_300812. KB. KB.6. KB. KB.DFV 70 kG / kV pG / pV qV 2 qG 41771145. KB.0 20315044_129 KB.. 90 B – – – – – 963 1151 1167 820 605 24 15.5 565 364 24 13.5 786 806 829 842 844 865 859 875 529 306 24 15. kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 KB. 100 A 100 B 778 795 410 250 22 20 895 912 529 306 24 18 931 948 565 364 24 18 – – – – – – – – – – – – – – – – – – – – KB.5 1121 KB.5 – – – – – – – – – – 1061 1076 1091 1107 761 497 24 15.5 Motor KB.5 921 932 KB.5 761 497 24 15.3 Dimension sheets Coupling connection with conical rotor motor 2-stage Gearbox DF 50 DF 60 DF 70 DF 80 DF 90 D.5 880 895 565 364 24 15.5 1012 663 364 22 17.5 – – – – – – – – – – KB. 71 A 669 KB. KB. 180B – – – – – – – – – – – – – – – – – – – – 1632 896 605 41 74 KB. 160B – – – – – 1188 529 345 32 74 1300 640 406 41 74 1358 699 497 41 74 1414 754 605 41 74 KB.5 822 KB.indd DF 90 T. 200B – – – – – – – – – – 1456 640 428 41 87 1514 699 497 41 87 1570 754 605 41 87 KB. 100 A 100 B – – – – – – – – – – 983 1000 614 306 22 20 1032 1049 663 364 22 20 1127 1144 761 497 24 18 1187 1204 820 605 24 18 KB. 225B – – – – – – – – – – – – – – – 1554 699 497 41 87 1610 754 605 41 87 2 Helical geared motors Flange-mounted type 20315044_120 3-stage Gearbox DF 50 DF 60 DF 70 DF 80 2031512h_en_300812. 71 B 759 KB. 90 B 758 410 250 22 17.5 529 306 24 13. 80 B 797 614 306 22 17. 80 A 782 479 250 22 15.0 1377 896 605 41 38 KB. kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 KB. 71 A 739 KB. 125B – – – – – – – – – – 1171 689 364 32 38 1242 761 497 32 38. 140B 985 436 284 32 38 1078 529 338 32 38 1189 640 406 41 38 1248 699 497 41 38 1303 754 605 41 38 KB.6.5 1136 820 605 24 15.5 892 917 614 306 22 15. 90 A – – – – – 947 614 306 22 17. 140B – – – – – – – – – – 1238 689 364 32 38 1310 761 497 32 38. 112B 861 436 272 32 36 954 529 338 32 36 1065 640 406 41 36 1124 699 497 41 36 1179 754 605 41 36 KB.2. 90 A 742 410 250 22 17. 80 A 712 410 250 22 15. 125B 917 436 272 32 38 1010 529 338 32 38 1122 640 406 41 38 1180 699 497 41 38 1236 754 605 41 38 KB.5 – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – Motor KB.0 1445 896 605 41 38 KB.5 529 306 24 15. 71 B 689 KB.5 941 966 663 364 22 15.0 1321 896 605 41 36 KB.5 872 479 250 22 17. 112B – – – – – 1023 614 306 22 20 1114 689 364 32 36 1186 761 497 32 36.5 981 996 663 364 22 17. 180B – – – – – – – – – – 1377 640 408 41 74 1435 699 497 41 74 1491 754 605 41 74 KB. KB.5 – – – – – – – – – – KB.5 – – – – – – – – – – KB. 200B – – – – – – – – – – – – – – – – – – – – 1711 896 605 41 87 20315044_121 109 . 80 B 727 – – – – – – – – – – 911 565 364 24 15. 160B – – – – – – – – – – – – – – – 1420 761 497 32 74 1555 896 605 41 74 KB. indd 110 2 .2031512h_en_300812. 7.5 70 85 5.eps Gearbox L B t a0 D21 / D20 150 170 15 120 95 140 120 14 13 Ø9 M8 D31 / D30 165 200 15 130 100 165 140 17 13 Ø 11 M8 D41 / D40 165 220 15 135 110 190 165 15 15 Ø 11 2031512i_en_300812.5 20315044_122 Adapter plate to replace helical gearboxes 42576244.1 Helical gearbox DU/DF 11 .5 80 100 10.0 Gearbox DU/DF 31 l i3 s4 t u x b x l12 b2 e2 i4 s2 DIN 6885 d=30 V 25 25 50 68 M10 28.5 A6 x 6 x 32 92.0 A8 x 7 x 40 92.0 M6 x 15 DU/DF 21 V 25 25 50 64 M10 28.5 M8 x 16.41 exclusive flange plate DFV 11 .7 Further connection dimensions and coupling housing 2.5 80 100 5.5 110.2. 1) Shaft code 111 .DUV 41 42569644.indd D11 / D10 a1 b0 b1 w0 w1 s0 s1 Gearboxes are interchangeable M10 20315044_123 The adapter plate is not included in the scope of supply.0 A8 x 7 x 50 DU/DF 41 a2 M8 x 16.eps DUV/DFV Solid shaft with key Gearbox dimensions WK d 1) k6 DU/DF 11 V 20 20 40 54 M6 22.0 M6 x 15 110.5 70 85 5.0 A8 x 7 x 50 V 30 30 60 78 M10 33.DFV 41 2 DUV 11 .0 A8 x 7 x 40 d=25 V 30 30 60 78 M10 33. 0 250 224 32 280 31 M12 x 16 D 50T Z 63 .100 KB 71 .0 33 37 318 5.90B KB 71 .0 21 25 178 6.5 32 60 228.132 KB 112 .eps Coupling housing dimensions Gearbox Motor D 11/ D 21 Z 63 .D = 2-stage .2 24 51 161.0 21 25 255 6.0 21 25 204 6.0 200 180 24 224 25 M10 x 13.100 24 x 1.0 140 125 19 160 16 M8 x 20 24 x 1.5 250 224 32 280 32 M12 x 16 D 60T Z 63 .5 M16 x 21 D 70D / D 90T Z 112 .90A KB 71 .90A KB 71 .100 24 x 1.225 KB 160 .132 KB 112 .0 21 25 178 6.2 24 49 142.2 24 53 146..2 2. .100 KB 71 .0 21 25 204 6.5 53 60 400 10.0 160 140 22 180 20 M10 x 20 D 50D / D 70T Z 112 .90 D 31T Z 63 .225 60 x 2 60 70 228.T = 3-stage 2031512i_en_300812.200 KB 160 .160 KB 112 .132 KB 112 .5 32 60 168.5 33 37 400 9.80 axb d i2 l l11 DIN 471 k6 l12 a1 f5 b3 d1 d11 e1 r 19 x 1.0 160 140 22 180 20 M10 x 20 D 60D / D 80T Z 63 .0 315 280 41 355 40 D 70D / D 90T Z 160 .2 Solo gearbox coupling housing 41670144.112 24 x 1.2 24 49 142.0 315 280 41 355 40 M16 x 21 D 80D / D 90D Z 112 .0 160 140 30 180 20 M10 x 20 H7 s Mxt D 50D / D 70T Z 63 .0 33 37 318 5.80 D 31D Z 63 .0 315 280 41 355 40 M16 x 21 112 .160 32 x 1.0 21 25 204 6.0 21 25 204 6.140 32 x 1.90A KB 71 .2 19 53 147.200 60 x 2 60 70 231.0 160 140 22 180 20 M10 x 20 D 70D / D 90T Z 63 .5 D 60D / D 80T Z 112 .0 140 125 19 160 16 M8 x 20 24 x 1.100 KB 71 .100 24 x 1.140 32 x 1.2 24 51 156.5 33 37 400 10.7..0 200 180 24 224 25 M10 x 13.5 32 60 231.0 315 280 41 355 40 M16 x 21 D 80D / D 90D Z 160 .100 D 41T Z 63 .100 KB 71 .80 D 41D Z 63 .0 21 25 255 6.90A KB 71 .2 24 49 142.5 53 60 400 9. .5 32 60 161.2 24 49 142.100 KB 71 .80 24 x 1.indd 20315044_124 .140 32 x 1. 2.5 70 H7 180 j6 224 85 D 60D / D 70D / D 80T / D 90T Z 80/90A KB 80/90 715 322 44 15..eps Gearbox Motor Ident.5 80 H7 125 j6 160 100 D 31D Z 90B - 715 124 44 16 110 H7 125 j6 160 100 D 41 / D 50 / D 60T / D 70T Z 63/71 KB 71 715 220 44 15.5 70 H7 140 j6 160 85 D 41 / D 50 / D 60T / D 70T Z 80/90A KB 80 D 41T / D 50T / D 60T / D 70T - KB 90 715 222 44 17.T = 3-stage 113 .5 80 H7 140 j6 180 100 D 41D / D 50D / D 60T / D 70T Z 90B/100 KB 100 - KB 112 715 224 44 20 110 H7 140 j6 180 130 D 60T D 60D / D 70D / D 80T / D 90T Z 63/71 KB 71 715 320 44 13. .3 Motor mounting flange Motor side 2 Gearbox side 41670344. c4 Mounting flange dimensions b1 d1 d2 d3 D 11 / D 21 / D31 Z 63/71 KB 71 715 120 44 11.7.. . no.indd 20315044_125 .D = 2-stage .5 70 H7 125 j6 160 85 D 11 / D 21 / D31 Z 80/90A KB 80 715 122 44 13.5 80 H7 180 j6 224 100 D 60D / D 70D / D 80T / D 90T Z 90B/100 KB 100 715 324 44 18 110 H7 180 j6 224 130 D 50D / D 60D / D 70T / D 80T - KB 112 715 426 44 36 110 H7 224 j6 280 130 D 50D / D 60D / D 70T / D 80T Z 112A/132 KB 125/140 715 428 44 38 125 H7 224 j6 280 150 190 D 60D / D 80T Z 160 KB 160B 715 434 44 74 155 H7 224 j6 280 D 70D / D 80D / D 90 - KB 112 715 526 44 36 110 H7 280 h6 355 130 D 70D / D 80D / D 90 Z 112/132 KB 125/140 715 528 44 38 125 H7 280 h6 355 150 D 70D / D 80D / D 90 Z 160/180A KB 160B/180B 715 536 44 74 155 H7 280 h6 355 190 D 70D / D 80D / D 90 Z 180B/200 KB 200B Z 225 KB 225B 715 538 44 87 200 H7 280 h6 355 236 D 80D / D 90D 2031512i_en_300812. WUH 100 3 Universal type WGV 10 .eps 2031513a_en_300812.3 Angular geared motors Housing designs WUH 10 .WGV 100 Foot-mounted type WGV 10 .WGV 100 Foot-mounted type WFV 10 .indd Flange-mounted type .WFV 100 114 41667744. of poles 3 The motor designation comprises: For motors fitted with a brake. Type designation The gearbox designation comprises: • • • • • • gearbox type housing design output shaft type motor frame size number of stages input type • • • • • • motor type motor design application code motor frame size rating class no.indd The type designation and mounting code are combined to produce the ordering data on the basis of which the required geared motor is delivered. The relevant motor type and brake size are specified in the “Motor” and “Brake” columns. This information makes it possible to determine the price and delivery period. The type designation indicates the geared motor technical features. Mounting code The mounting code must be added to the gearbox information. speed and duty factor in the “Gearbox” column.The “Angular geared motors” selection tables (section 3. (see assembly. installation and operating instructions 214 058 44) 115 . the motor designation also indicates the brake size. The mounting code specifies the following in sequence: • • • • model and mounting position output shaft dimension motor terminal box position gearbox transmission ratio 2031513a_en_300812. The geared motor may only be used in this design.5) contain several geared motors which fulfil the criteria in terms of power. 3 . 40.61.3. 20. 30. 50.5 Input type D Direct input L Light coupling S Heavy coupling Number of stages D 2-stage T 3-stage Q 4-stage Sizes 10.1 Gearbox type designation Type designation Mounting code Refer to section 3. 80. 60.4 for explanation of the mounting code Transmission ratio Terminal box position Output shaft code 3 Model code W U H 50 D D . 100 Output shaft design V E H K B Solid shaft with key Splined solid shaft Hollow shaft with key Splined hollow shaft Hollow shaft with shrink disc U Universal design G Foot-mounted type or foot mounting at gearbox end F Flange-mounted type Gearbox type W Angular gearbox 116 2031513a_en_300812. 70.indd Housing design .B14.0 . 90.50 . C 63. 225 80. 180.3. B680 ZBF: B003. 140.indd WUH 50 DD-B14.3 Code example 2031513a_en_300812. 100. 90. 71. AL. 90. 112. 160. B050. 132 71. 132. 80. 71. 160. 90. 80. 100. KB) N Motor without brake (ZN) Motor design Z Cylindrical rotor motor K Conical rotor motor with brake (brake size not quoted) 3. 125. B280.eps 117 . 80. 200. 12/2. 90. 8/2. B140. 112. B680 ZBE: B020. B. 112. 6. 100. B140. 225 71. 180. B050. 180. 100. of poles 2.2 Motor and brake type designation Brake size ZBA: B003. B020. 4. B020.0-50-1-61. 200. 125. 80. 132. 140 3 Size ZBA/ZNA: ZBE/ZNE: ZBF: KBA: KBF: Application code A Motor for general applications in intermittent duty E Motor for general applications in efficiency class IE2 F Motor for travel applications Motor design B Motor with brake (ZB. 112. 100. B050. 8. 160. 12/4 Rating class A. B140 Z B A 100 A 4 B050 No.5 ZBA 100 A4 B050 41867444. B007. 90. 200. B280. 112. 225 63. 4. 2) No radial load permitted. B3.2 Output shaft design.1.0 and all other model codes shown in the same column below (longer delivery period).3.6 and all other model-codes shown in the same column below.3 illustrate the gearboxes in all available designs and mounting positions.3. B7.1. 118 2031513a_en_300812. an additional cost and non-standard delivery times apply. B7.6.4. The code is made up according to the model code assigned to the diagram. The code must include the corresponding code. For these shafts. The shrink disc is located on the opposite side of the shaft shown in the model code diagram (in the catalogue). B3. on both sides code Option Output shafts Hollow shaft with shrink disc 3) 2) 1) The solid shaft It can be fitted to either side of the gearbox. .2 or B5. the shrink disc shaft can also be supplied with model codes B14.indd The dimensions for the optional shafts can be found in section 6.0. As an option.4 Mounting code Model code: Sections 3.0.1 to 3. See table on page 119 for output shaft code to use W gearboxes with DRS 3) The mounting code is used to determine which side of the gearbox the shrink disc is fitted to. The standard shrink disc shaft is available for model codes B14. Output shaft code: The output shaft type is indicated by the following codes: Size W 10 W 20 W 30 W 40 W 50 W 60 W 70 W 80 W 90 W 100 V 25 25 30 40 50 50 60 70 90 110 V 11 11 11 11 11 11 11 11 11 11 E 30 35 45 50 65 65 75 90 110 – E 11 11 11 11 11 11 11 11 11 – Hollow shaft with key H 30 30 35 40 50 50 60 70 90 100 Splined hollow shaft K 25 30 35 45 50 50 65 75 90 110 B 25 28 / 30 35 40 50 50 65 70 90 100 Solid shaft without key V 125 125 130 140 150 150 160 170 190 200 Solid shaft with key in inch V 225 225 230 240 250 250 260 270 290 300 Hollow shaft with key in inch H 230 230 235 240 250 250 260 270 290 300 Solid shaft with key 1) Standard 3 Output shaft code Solid shaft with key on both sides Splined solid shaft 1) 2) Splined solid shaft.3 and B5. 30 E WU . 70 400 30 ZI ZI WU . See Demag DRS wheel block system catalogue 203 352 44 for further information on the Demag wheel range. 90 2031513a_en_300812. 40 WU . 80 K E WU . 30 WU . 20 160 Drive arrangement 3 DRS wheel block 91 110 111 11 22 110 = = = = = = 119 . Size Gearbox / Housing design Drive shaft type 1) Size Identification letter WU . 90 WU . 50/60 E WU . 20 K WU . 40 K E K WU . 20 WU . 50/60 WU . 30 200 Connection variants 1) ZI WU . 80 WU . 10 E 112 WU . 80 500 11 EA ZI K WU . inside arrangement Top connection W1 (side connection with drive on wheel block side) W2 (side connection with drive on connecting plate side) = Pin connection 76 90 91 11 22 EA 90 ZI EA ZI 46 50 EA EA 36 45 EA EA 31 35 ZI WU .indd WU . 70 EA ZI K 3) K/W1 B/W2 Output shaft code according to mounting code ZI WU . 100 1) E K 2) EA ZI 3) K W B 30 ZI EA 30 11 EA 35 ZI EA 35 11 45 ZI 45 11 50 ZI 51 65 66 11 22 EA 65 ZI EA E 66 75 76 11 22 EA EA ZI K 75 E K Splined solid shaft Splined hollow shaft Individual drive unit ZI central drive unit. 70 E 315 WU . 10 125 WU . 50/60 WU .Output shaft code: Codes for shafts with splined profile E or K for use with W angular gearboxes with the Demag DRS wheel block system. 40 250 WU . 1 to 3. Example: Terminal box position 1 0 1 3 2 41663244.4. .4.indd 3 Refer to the “Transmission ratio i” column in the “Angular geared motors” selection tables for the transmission ratio.3). 1.eps Gearbox transmission ratio: 120 2031513a_en_300812. The positions are defined as 0. 2 or 3 looking at the motor shaft end-on (see sections 3.Terminal box position: The terminal box of the motor may be fitted in four different positions. indd 121 3 .2031513a_en_300812. 1 WU gearbox model code Universal type U Model B14.eps 2031513a_en_300812.eps B14.0 B14.4.eps B14.7 Terminal box position code according to model code B14.0 41662344.1 0 0 1 3 2 2 41292644.eps 1 3 0 1 3 2 2 41662044.1 41661744.eps V18.0 V19.9 Terminal box position code according to model code B14.eps .indd V18.eps 122 1 3 View to determine the terminal box position 41292744.6 0 1 3 1 3 0 2 2 41661644.6 Terminal box position code according to model code B14.1 0 0 1 3 1 3 2 2 41292944. V18 Both output sides with centring and threaded hole. V19.6 Terminal box position code according to model code B14. connecting surfaces on gearbox end and underside with threaded hole B14.0 41662244.0 41661844.eps B14.2 B14.eps B14.eps V19.eps B14.8 0 3 41661944.3.3 41662144.eps 41292844. 0 B3.1 41663444.eps V5. B8.0 41663944.eps B8.0 41663344.0 Terminal box position code according to model code B3.1 Terminal box position code according to model code B3.eps B6. B6.0 41663744.eps 0 1 3 2 1 3 2 41666944.eps V6.1 41663844.eps 123 .0 41663544.eps B7.1 Terminal box position code according to model code B3.eps B7. V6 Foot-mounted B3.1 0 1 3 0 1 3 2 2 41665844. V5.1 0 1 3 0 1 3 2 2 41663644.eps View to determine the terminal box position 41665944.0 Terminal box position code according to model code B3.eps V5. B7.3.2 WG gearbox model code Foot-mounted type G Model B3.eps B6.eps V6.0 41666044.1 0 0 1 3 1 3 2 2 41663244.indd 3 B8.4.1 0 2031513a_en_300812. eps View to determine the terminal box position 41666244.eps B8.3 0 3 41664144.eps V6.3 0 0 1 3 1 3 2 2 41666344.2 41664344. V6 Foot-mounted B7.2 B7.eps B6.eps B3.2 41664444.2 41664544.3 0 0 1 3 1 3 2 2 41664644.3 Terminal box position code according to model code B7.eps 1 3 0 1 3 2 2 41664244.eps 124 41666444.eps B3.2 41664744.eps .3 0 0 1 3 1 3 2 2 41666144. B8.3 Terminal box position code according to model code B7. B6.3 Terminal box position code according to model code B7.3 Terminal box position code according to model code B7. V5.2 B6.eps B8.indd V5.2 41664044. B7.WG gearbox model code Foot-mounted type G Model B3.eps 2031513a_en_300812.eps V5.2 V6. eps V3.9 Terminal box position code according to model code B 5.0 41666844.eps B5.6 41662744.6 0 0 1 3 1 3 2 2 41662444.8 0 1 3 0 1 3 2 2 41662844.1 41662544. V3 Flange-mounted with through-holes B5.3 WF gearbox model code Flange-mounted type F Model B5.eps View to determine the terminal box position 41666644.0 Terminal box position code according to model code B 5.eps B5.eps 41662644.7 Terminal box position code according to model code B 5.0 41291344.indd 3 B5. V1.eps V1.3.eps V1.1 0 0 1 3 1 3 2 2031513a_en_300812.3 41662944.0 Terminal box position code according to model code B 5.eps V3.eps B5.0 B5.eps B5.6 41291244.2 2 1 3 2 41666544.4.eps 125 .1 0 1 3 0 2 41666744.eps B5. The transmission ratio range of W20 to W100 type angular gearboxes can be significantly increased by means of an intermediate stage.indd 41659545. For direct drive input. direct drive input The Demag modular system makes it possible to implement tailor-made solutions for a wide variety of tasks for drive applications.Z225 3 W10 .W100 Angular gearbox Brake B003-B680 126 2031513b_en_300812.eps . the various gearbox types are combined with Demag Z cylindrical rotor motors via end caps.3.5 Angular gearbox. Direct input Intermediate stage (W20 .W100) Cylindrical rotor motor Z63 . 3.5.1 Selection example Angular geared motors Selection example A geared brake motor of 0,18 kW with an output speed of approx. 12 revolutions per minute is required. Required duty factor fB erf ≈ 1,6. From the table in section 3.5.2: Angular gearbox W..20TD Housing and shaft type as per type designation in section 3.1 Gearbox: W..20TD Motor: ZBA 63 B4 = n2 12 rpm M2 = 125 Nm i = 114 fB = 1,59 3 Weight WUH with oil in mounting position B14,0; motor with standard brake = 19 kg 3.5.2 Selection tables angular geared motors single speed Output P1 [kW] 0,18 2031513b_en_300812.indd Output speed n2 [rpm] M2 [Nm] i FR [N] 1) fB 9,9 11 12 14 15 17 20 24 26 29 12 14 16 154 138 125 106 98 90 75 64 58 52 124 105 96 140 127 114 97,1 90,1 81,4 68,0 58,7 53,0 47,7 56,2 48,3 43,6 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4000 4000 4000 1,30 1,45 1,59 1,89 2,04 2,23 2,67 3,13 3,43 3,86 0,97 1,14 1,25 Weight [kg] 2) Gearbox Motor Brake W..20TD ZBA 63 B 4 B003 19 W..20DD ZBA 63 B 4 B003 17 W..10DD ZBA 80 A 8 B007 22 127 3.5.2 Selection tables Angular geared motors Single speed 3 0,18 128 n2 [rpm] M2 [Nm] i FR [N] 1) fB 1,7 1,9 2,1 2,4 2,6 1,8 1,9 2,2 2,4 2,7 3,0 3,3 3,6 4,0 4,4 4,9 1,8 1,9 2,1 2,4 2,7 3,0 3,3 3,6 4,2 4,6 5,7 6,1 6,8 2,8 3,2 3,5 3,7 4,2 5,1 5,7 6,5 7,2 7,9 8,8 10 11 4,9 5,4 5,9 6,6 7,5 8,3 9,3 10 12 13 15 17 7,1 7,9 9,0 998 893 800 715 648 970 878 783 708 628 568 510 485 439 391 354 840 768 694 634 546 499 452 414 355 326 264 241 220 537 468 427 403 360 294 268 234 213 190 174 149 135 311 285 254 232 202 185 163 148 128 116 98 90 212 195 169 399 357 320 286 259 388 351 313 283 251 227 204 388 351 313 283 386 349 319 288 251 227 208 188 163 148 120 111 99,9 244 215 194 371 331 270 244 215 194 175 158 137 123 286 259 234 211 186 168 150 136 118 107 90,1 81,4 195 177 155 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 2,51 2,80 3,13 3,50 3,86 1,39 1,54 1,73 1,91 2,15 2,38 2,65 2,78 3,08 3,45 3,82 0,95 1,04 1,15 1,26 1,47 1,60 1,77 1,93 2,26 2,46 3,03 3,31 3,64 0,93 1,07 1,17 1,24 1,39 1,70 1,86 2,14 2,34 2,63 2,88 3,36 3,70 1,06 1,16 1,30 1,42 1,63 1,79 2,02 2,21 2,57 2,68 3,37 3,69 0,94 1,03 1,19 Weight [kg] 2) Gearbox Motor Brake W..70QD ZBA 80 A 8 B007 147 W..60QD ZBA 80 A 8 B007 95 W..60QD ZBA 63 B 4 B003 88 W..50TD ZBA 80 A 8 B007 63 W..40TD ZBA 80 A 8 B007 36 W..40TD ZBA 63 B 4 B003 29 W..30TD ZBA 63 B 4 B003 23 W..30DD ZBA 63 B 4 B003 21 W..20TD ZBA 63 B 4 B003 19 1) FR refers to types WUV and WGV. Lower FR values are permitted for WFV, refer to the Drive Designer for these values. 2) Weight WUH with oil filling in mounting position B14.0; motor with standard brake. Dimension sheets section 3.5.5 2031513c_en_300812.indd P1 [kW] 3.5.2 Selection tables Angular geared motors Single speed 0,18 2031513c_en_300812.indd 0,25 n2 [rpm] M2 [Nm] i FR [N] 1) fB 9,9 11 12 14 15 17 20 24 26 29 12 14 16 14 15 18 20 22 25 29 32 36 39 46 51 57 63 75 83 96 106 122 134 161 1,5 1,7 1,9 2,1 2,3 1,7 1,9 2,1 2,3 2,6 2,9 3,3 3,7 1,7 1,9 2,1 2,4 2,7 3,0 3,3 3,6 3,9 4,4 154 138 125 106 98 90 75 64 58 52 124 105 96 109 100 82 75 68 62 53 48 42 39 33 30 27 24 20 18 16 14 13 11 9,6 1588 1429 1274 1148 1030 1436 1285 1152 1030 932 832 724 648 1397 1264 1127 1019 904 817 734 660 597 532 140 127 114 97,1 90,1 81,4 68,0 58,7 53,0 47,7 56,2 48,3 43,6 100 90,6 75,2 68,0 62,2 56,2 48,3 43,6 39,0 35,3 30,4 27,5 24,6 22,2 18,6 16,8 14,5 13,1 11,4 10,4 8,64 441 397 354 319 286 399 357 320 286 259 231 201 180 388 351 313 283 251 227 204 388 351 313 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 40000 40000 40000 40000 40000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 1,30 1,45 1,59 1,89 2,04 2,23 2,67 3,13 3,43 3,86 0,97 1,14 1,25 1,10 1,20 1,47 1,60 1,77 1,94 2,28 2,50 2,83 3,09 3,63 3,97 4,49 4,91 5,93 6,49 7,61 8,33 9,46 10,5 12,5 2,52 2,80 3,14 3,48 3,89 1,74 1,95 2,17 2,43 2,68 3,01 3,45 3,86 0,97 1,07 1,20 1,33 1,49 1,65 1,84 2,05 2,26 2,54 Weight [kg] 2) Gearbox Motor Brake W..20TD ZBA 63 B 4 B003 19 W..20DD ZBA 63 B 4 B003 17 W..10DD ZBA 80 A 8 B007 22 W..10DD ZBA 63 B 4 B003 14 W..80QD ZBA 80 B 8 B007 206 W..70QD ZBA 80 B 8 B007 149 W..60QD ZBA 80 B 8 B007 98 W..60QD ZBA 71 A 4 B007 89 3 P1 [kW] 1) FR refers to types WUV and WGV. Lower FR values are permitted for WFV, refer to the Drive Designer for these values. 2) Weight WUH with oil filling in mounting position B14.0; motor with standard brake. Dimension sheets section 3.5.5 129 3.5.2 Selection tables Angular geared motors Single speed 3 0,25 130 n2 [rpm] M2 [Nm] i FR [N] 1) fB 4,9 5,5 481 427 283 251 16000 16000 2,81 3,16 6,1 6,8 2,7 3,0 3,2 3,6 4,1 4,5 5,6 6,0 6,7 7,1 8,6 9,5 3,7 4,2 5,1 5,7 6,4 7,1 7,9 8,8 10 11 13 14 15 19 5,9 6,6 7,4 8,2 9,2 10 12 13 15 17 20 22 24 9,9 11 12 14 15 17 20 24 26 29 32 37 40 386 347 786 719 651 596 511 469 380 348 316 295 244 223 549 490 399 365 318 290 259 236 203 184 163 147 134 110 346 316 275 251 222 201 175 158 133 122 103 94 84 209 188 171 144 133 122 102 87 79 71 64 57 51 227 204 251 227 208 188 163 148 120 111 99,9 94,3 78,0 70,5 371 331 270 244 215 194 175 158 137 123 110 99,6 90,8 73,2 234 211 186 168 150 136 118 107 90,1 81,4 69,8 63,1 57,0 140 127 114 97,1 90,1 81,4 68,0 58,7 53,0 47,7 43,1 37,8 34,2 16000 16000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 3,50 3,89 1,02 1,11 1,23 1,34 1,57 1,71 2,10 2,30 2,53 2,71 3,27 3,58 0,91 1,02 1,25 1,37 1,57 1,72 1,93 2,12 2,47 2,72 3,07 3,27 3,72 4,57 0,95 1,05 1,20 1,31 1,49 1,62 1,89 1,97 2,48 2,71 3,20 3,50 3,91 0,95 1,06 1,17 1,39 1,50 1,64 1,97 2,30 2,52 2,83 3,14 3,54 3,95 Weight [kg] 2) Gearbox Motor Brake W..60QD ZBA 71 A 4 B007 89 W..50TD ZBA 80 B 8 B007 66 W..50DD ZBA 80 B 8 B007 61 W..40TD ZBA 71 A 4 B007 30 W..40DD ZBA 71 A 4 B007 26 W..30TD ZBA 71 A 4 B007 24 W..30DD ZBA 71 A 4 B007 22 W..20TD ZBA 71 A 4 B007 20 W..20DD ZBA 71 A 4 B007 18 1) FR refers to types WUV and WGV. Lower FR values are permitted for WFV, refer to the Drive Designer for these values. 2) Weight WUH with oil filling in mounting position B14.0; motor with standard brake. Dimension sheets section 3.5.5 2031513c_en_300812.indd P1 [kW] 3.5.2 Selection tables Angular geared motors Single speed 0,25 2031513c_en_300812.indd 0,37 n2 [rpm] M2 [Nm] i FR [N] 1) fB 18 20 22 25 29 32 36 39 46 50 56 62 74 82 96 106 121 133 160 206 259 1,5 1,7 1,9 1,5 1,7 1,9 2,1 2,3 2,6 3,0 3,4 1,7 1,9 2,1 2,3 2,6 2,9 3,3 3,7 4,2 4,7 5,3 2,4 2,7 3,0 3,3 3,5 3,9 4,4 4,9 5,5 6,1 6,7 7,5 8,9 9,8 111 102 92 84 71 65 58 53 45 41 36 33 28 25 21 20 17 16 13 10 8,1 2300 2072 1913 2337 2104 1876 1691 1516 1367 1177 1060 2115 1892 1696 1516 1373 1224 1065 954 853 763 668 1500 1330 1203 1081 1009 913 814 736 653 590 530 478 403 364 75,2 68,0 62,2 56,2 48,3 43,6 39,0 35,3 30,4 27,5 24,6 22,2 18,6 16,8 14,5 13,1 11,4 10,4 8,64 6,73 5,34 434 391 361 441 397 354 319 286 258 222 200 399 357 320 286 259 231 201 180 161 144 126 283 251 227 204 388 351 313 283 251 227 204 184 155 140 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 65000 65000 65000 40000 40000 40000 40000 40000 40000 40000 40000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 1,08 1,18 1,30 1,43 1,68 1,84 2,08 2,27 2,67 2,92 3,30 3,61 4,36 4,77 5,60 6,12 6,96 7,71 9,18 11,8 14,9 3,04 3,38 3,66 1,71 1,90 2,13 2,37 2,64 2,93 3,40 3,77 1,18 1,32 1,47 1,65 1,82 2,04 2,35 2,62 2,93 3,28 3,74 0,90 1,01 1,12 1,25 1,34 1,48 1,66 1,83 2,07 2,29 2,55 2,82 3,35 3,71 Weight [kg] 2) Gearbox Motor Brake W..10DD ZBA 71 A 4 B007 15 W..90QD ZBA 90 A 8 B020 313 W..80QD ZBA 90 A 8 B020 207 W..70QD ZBA 90 A 8 B020 150 W..60QD ZBA 90 A 8 B020 99 W..60QD ZBA 71 B 4 B007 90 3 P1 [kW] 1) FR refers to types WUV and WGV. Lower FR values are permitted for WFV, refer to the Drive Designer for these values. 2) Weight WUH with oil filling in mounting position B14.0; motor with standard brake. Dimension sheets section 3.5.5 131 3.5.2 Selection tables Angular geared motors Single speed 3 0,37 132 n2 [rpm] M2 [Nm] i FR [N] 1) fB 3,6 4,1 4,5 5,6 6,0 6,7 7,1 8,6 9,5 11 12 13 15 6,4 7,1 7,9 8,7 10 11 13 14 15 17 19 21 23 9,2 10 12 13 15 17 20 22 24 27 30 34 38 53 67 14 15 17 20 23 26 29 32 36 40 44 49 58 24 28 32 877 752 690 560 512 466 435 360 329 284 259 235 215 486 444 396 362 310 281 249 224 205 183 167 150 137 339 308 267 241 204 186 158 144 129 118 102 94 83 59 47 220 204 186 156 133 121 108 97 86 77 71 63 54 129 109 100 188 163 148 120 111 99,9 94,3 78,0 70,5 61,5 55,6 50,9 46,0 215 194 175 158 137 123 110 99,6 90,8 81,0 73,2 66,2 59,9 150 136 118 107 90,1 81,4 69,8 63,1 57,0 51,5 45,3 40,9 36,6 26,0 20,5 97,1 90,1 81,4 68,0 58,7 53,0 47,7 43,1 37,8 34,2 30,9 27,9 23,7 56,2 48,3 43,6 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4000 4000 4000 0,91 1,06 1,16 1,43 1,56 1,72 1,84 2,22 2,43 2,82 3,09 3,41 3,73 1,03 1,13 1,26 1,38 1,61 1,78 2,01 2,15 2,43 2,73 2,99 3,34 3,65 0,97 1,06 1,24 1,29 1,62 1,77 2,09 2,29 2,56 2,80 3,22 3,53 3,99 5,55 7,04 0,91 0,98 1,07 1,29 1,51 1,65 1,85 2,05 2,31 2,59 2,83 3,17 3,69 0,93 1,10 1,20 Weight [kg] 2) Gearbox Motor Brake W..50TD ZBA 90 A 8 B020 67 W..50DD ZBA 90 A 8 B020 62 W..40TD ZBA 71 B 4 B007 31 W..40DD ZBA 71 B 4 B007 27 W..30TD ZBA 71 B 4 B007 25 W..30DD ZBA 71 B 4 B007 23 W..20TD ZBA 71 B 4 B007 21 W..20DD ZBA 71 B 4 B007 19 W..10DD ZBA 71 B 4 B007 16 1) FR refers to types WUV and WGV. Lower FR values are permitted for WFV, refer to the Drive Designer for these values. 2) Weight WUH with oil filling in mounting position B14.0; motor with standard brake. Dimension sheets section 3.5.5 2031513c_en_300812.indd P1 [kW] 3.5.2 Selection tables Angular geared motors Single speed 0,37 2031513c_en_300812.indd 0,55 n2 [rpm] M2 [Nm] i FR [N] 1) fB 35 39 45 50 56 62 74 82 95 105 121 132 159 204 257 1,4 1,6 1,6 1,8 1,9 2,2 2,5 2,8 1,6 1,8 2,0 2,2 2,4 2,7 3,2 3,6 4,0 4,5 5,0 2,0 2,2 2,4 2,7 3,0 3,6 4,0 4,4 5,0 5,5 6,1 7,1 7,9 3,7 4,0 4,5 5,0 5,7 6,3 7,0 7,7 9,2 10 88 81 69 63 56 51 42 38 33 30 26 24 20 16 12 3638 3278 3255 2933 2708 2438 2085 1883 3308 2978 2655 2393 2145 1935 1632 1469 1310 1180 1058 2678 2400 2145 1943 1733 1476 1321 1184 1058 958 855 744 666 1436 1299 1158 1047 929 840 755 681 574 518 39,0 35,3 30,4 27,5 24,6 22,2 18,6 16,8 14,5 13,1 11,4 10,4 8,64 6,73 5,34 485 437 434 391 361 325 278 251 441 397 354 319 286 258 441 397 354 319 286 357 320 286 259 231 399 357 320 286 259 231 201 180 388 351 313 283 251 227 204 184 155 140 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 85000 85000 65000 65000 65000 65000 65000 65000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 1,36 1,49 1,75 1,91 2,16 2,36 2,85 3,12 3,66 4,00 4,55 5,04 6,00 7,71 9,71 3,30 3,66 2,15 2,39 2,59 2,87 3,36 3,72 1,21 1,34 1,51 1,67 1,86 2,07 2,45 2,72 3,05 3,39 3,78 0,93 1,04 1,17 1,29 1,44 1,69 1,89 2,11 2,36 2,61 2,93 3,36 3,75 0,94 1,04 1,17 1,29 1,45 1,61 1,79 1,98 2,35 2,61 Weight [kg] 2) Gearbox Motor Brake W..10DD ZBA 71 B 4 B007 16 W..100QD ZBA 90 B 8 B020 511 W..90QD ZBA 90 B 8 B020 320 W..80QD ZBA 90 B 8 B020 214 W..80QD ZBA 80 A 4 B007 204 W..70QD ZBA 90 B 8 B020 157 W..70QD ZBA 80 A 4 B007 147 W..60QD ZBA 80 A 4 B007 95 3 P1 [kW] 1) FR refers to types WUV and WGV. Lower FR values are permitted for WFV, refer to the Drive Designer for these values. 2) Weight WUH with oil filling in mounting position B14.0; motor with standard brake. Dimension sheets section 3.5.5 133 3.5.2 Selection tables Angular geared motors Single speed 3 0,55 134 n2 [rpm] M2 [Nm] i FR [N] 1) fB 11 13 5,7 6,3 6,8 7,6 8,7 9,6 12 13 14 15 18 20 9,0 10 12 13 14 16 18 19 21 24 27 33 37 16 17 20 23 25 28 31 35 39 43 49 55 21 24 27 30 33 38 42 46 51 60 66 76 84 93 36 40 47 52 463 418 808 739 670 612 525 482 391 357 325 304 251 230 514 441 400 354 322 292 261 238 213 195 170 138 126 290 265 225 205 183 168 146 133 118 108 93 85 221 189 173 154 139 123 110 101 90 77 69 61 55 49 126 115 98 90 125 113 251 227 208 188 163 148 120 111 99,9 94,3 78,0 70,5 158 137 123 110 99,6 90,8 81,0 73,2 66,2 59,9 52,7 42,9 38,7 90,1 81,4 69,8 63,1 57,0 51,5 45,3 40,9 36,6 33,1 28,8 26,0 68,0 58,7 53,0 47,7 43,1 37,8 34,2 30,9 27,9 23,7 21,4 18,8 17,0 15,2 39,0 35,3 30,4 27,5 16000 16000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4000 4000 4000 4000 2,92 3,23 0,99 1,08 1,19 1,31 1,52 1,66 2,05 2,24 2,46 2,64 3,19 3,49 0,97 1,13 1,25 1,41 1,49 1,71 1,92 2,10 2,35 2,56 2,95 3,62 3,97 1,14 1,25 1,47 1,61 1,80 1,97 2,26 2,48 2,80 3,06 3,56 3,90 0,90 1,06 1,16 1,30 1,44 1,63 1,82 1,99 2,23 2,59 2,90 3,27 3,65 4,04 0,96 1,04 1,23 1,34 Weight [kg] 2) Gearbox Motor Brake W..60QD ZBA 80 A 4 B007 95 W..50TD ZBA 80 A 4 B007 63 W..50DD ZBA 80 A 4 B007 58 W..40TD ZBA 80 A 4 B007 36 W..40DD ZBA 80 A 4 B007 32 W..30DD ZBA 80 A 4 B007 28 W..20DD ZBA 80 A 4 B007 24 W..10DD ZBA 80 A 4 B007 22 1) FR refers to types WUV and WGV. Lower FR values are permitted for WFV, refer to the Drive Designer for these values. 2) Weight WUH with oil filling in mounting position B14.0; motor with standard brake. Dimension sheets section 3.5.5 2031513c_en_300812.indd P1 [kW] 41 6.4 7.36 3.5...20 3. Lower FR values are permitted for WFV.7 1.44 2.71 Weight [kg] 2) Gearbox Motor Brake W.89 2.2 2.34 1.19 2.0 5.04 3.1 2.38 2.23 1.5.66 2.40 3.86 2.2 18.10DD ZBA 80 A 4 B007 22 W.9 7.81 3.6 22.17 1.1 79 72 60 55 47 43 38 34 28 22 18 5044 4545 3962 3567 3151 4514 4066 3754 3380 2891 2610 2213 1994 1841 4129 3682 3318 2974 2683 2249 2025 1805 1627 1459 1316 1132 1020 2694 2402 2035 1821 1632 1459 1321 1178 1025 918 821 734 643 1443 1280 1158 1040 938 790 24.07 2..7 3.72 1.04 3.90QD ZBA 100 A 8 B020 322 W..9 1.37 1.5 2.34 485 437 381 343 303 434 391 361 325 278 251 434 391 361 397 354 319 286 258 441 397 354 319 286 258 222 200 259 231 399 357 320 286 259 231 201 180 161 144 126 283 251 227 204 184 155 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 85000 85000 85000 85000 85000 65000 65000 65000 65000 65000 65000 65000 65000 65000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 1.73 5.8 1.4 10.54 4.8 2.7 3.22 2.6 3.57 2.68 3.6 4.80QD ZBA 100 A 8 B020 217 W.5 135 .93 1..71 1.9 5.30 1.2 3.1 11. refer to the Drive Designer for these values.1 7. motor with standard brake.90QD ZBA 80 B 4 ZBE 80 B 4 B020 310 313 W.4 8.98 2.00 2.100QD ZBA 100 A 8 B020 513 W.3.6 6.0 3.89 0.51 3.70QD ZBA 100 A 8 B020 160 W.80QD ZBA 80 B 4 ZBE 80 B 4 B020 205 208 W.82 2.7 9.8 14.72 3.4 2.12 2.21 1.74 3.70QD ZBA 80 B 4 ZBE 80 B 4 B020 148 151 W.2 3.46 2.5 6.8 9.2 Selection tables Angular geared motors Single speed 0.5 13..05 1.4 4.0 7.64 3.03 3.4 6..6 1.53 1.55 1.7 3.60QD ZBA 80 B 4 ZBE 80 B 4 B020 97 100 3 P1 [kW] 1) FR refers to types WUV and WGV.44 1.6 16.6 1.80 0.97 1.92 0.8 11 5.52 1.55 2031513c_en_300812..49 1.22 5.94 1. Dimension sheets section 3.9 4.53 3.0 4.9 2.0 2.09 1.42 2.4 4.0.3 1.2 6.75 n2 [rpm] M2 [Nm] i FR [N] 1) fB 58 64 76 85 98 108 125 137 164 211 266 1.1 2.64 6. 2) Weight WUH with oil filling in mounting position B14.04 1.8 8.81 1.indd 0.4 1.9 2..78 1.16 3.9 5.5 3. 48 3.03 2.89 2.0 16000 16000 16000 16000 16000 16000 16000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 1.8 63.32 1.7 21.50TD ZBA 80 B 4 ZBE 80 B 4 B020 64 67 W.50DD ZBA 80 B 4 ZBE 80 B 4 B020 59 62 W.9 94.24 1.49 1.0.30DD ZBA 80 B 4 ZBE 80 B 4 B020 29 32 W.1 57.3 188 163 148 120 111 99. motor with standard brake.5.21 3.94 1.37 3.8 17.52 1.8 26.05 1.7 42..93 3.95 1.9 46.5 61.6 69.00 0.7 9.63 2.58 2.86 2.91 2.80 2.0 123 110 99.2 30.5 45.11 1.4 30. Dimension sheets section 3.9 36.0 73.78 1..31 2.37 2..2 81.7 33.64 1. refer to the Drive Designer for these values.91 1.39 1.3 78.7 20.8 34.46 3.43 1.88 3.62 1.9 23.17 1.0 76.8 81.5.0 22..6 47.2 Selection tables Angular geared motors Single speed 3 0.3 40.4 69.60TD ZBA 80 B 4 ZBE 80 B 4 B020 83 86 W.44 1.14 2.18 1.indd P1 [kW] .40DD ZBA 80 B 4 ZBE 80 B 4 B020 33 36 W.5 12 13 14 15 18 20 23 25 28 31 11 13 14 16 17 19 21 24 27 33 36 42 47 17 20 22 25 27 31 34 39 43 49 54 62 69 76 30 33 37 41 46 51 59 66 75 83 714 638 576 485 439 391 353 844 723 664 539 493 448 418 346 316 273 250 224 205 552 488 443 403 359 329 294 269 234 190 174 148 136 365 310 283 253 231 201 184 162 149 128 117 101 92 83 212 191 170 152 139 124 106 95 84 75 140 125 113 95.65 Weight [kg] 2) Gearbox Motor Brake W.90 1.08 3.88 2.69 0.11 2.5 18.60QD ZBA 80 B 4 ZBE 80 B 4 B020 97 100 W.2 59. Lower FR values are permitted for WFV.53 2.07 1.22 2.75 136 n2 [rpm] M2 [Nm] i FR [N] 1) fB 10 11 12 15 16 18 20 7.59 4.20DD ZBA 80 B 4 ZBE 80 B 4 B020 25 28 1) FR refers to types WUV and WGV.3..6 33.88 0.6 50..28 3.5 55.0 51.6 90.0 70.5 2031513c_en_300812.34 2.83 3.9 52.02 1.12 2.9 38.2 66.78 3.1 86.70 1.1 28.1 37.9 27.30 1.82 0.20 1.4 18..08 1. 2) Weight WUH with oil filling in mounting position B14..5 8.40TD ZBA 80 B 4 ZBE 80 B 4 B020 38 41 W.7 43.62 1. indd 1.93 3..3.7 11.2 13.5 4.99 1.100QD ZBA 100 B 8 B050 517 W.39 2..1 n2 [rpm] M2 [Nm] i FR [N] 1) fB 93 103 121 51 57 64 76 84 97 108 124 136 163 210 264 318 409 515 1.6 16.2 1..36 3.54 2.0 3.20DD ZBA 80 B 4 ZBE 80 B 4 B020 25 28 W.57 3.0 4..1 11.3 3.100QD ZBA 90 A 4 ZBE 90 A 4 B020 504 505 W.9 2.59 1.07 Weight [kg] 2) Gearbox Motor Brake W.03 1.47 2.64 6.04 6.90QD ZBA 90 A 4 ZBE 90 A 4 B020 313 314 W.15 1.1 4.02 2.52 3..98 1.4 8. refer to the Drive Designer for these values.6 1..73 5.7 3.80QD ZBA 90 A 4 ZBE 90 A 4 B020 207 208 1) FR refers to types WUV and WGV.87 3.5 3 P1 [kW] 137 .4 68 61 53 123 109 100 83 75 64 59 52 47 39 31 24 20 16 12 7566 6817 5944 5351 4727 4259 3638 3278 6770 6100 5632 5070 4337 3916 3541 4904 4418 4079 3673 3141 2836 2565 2305 1989 1785 3255 2933 2708 2438 2085 1883 4025 3463 3308 2978 2655 2393 2145 1935 15.5..4 8.9 3.3 5.43 1.7 1.64 6.0 5.91 2..73 10.34 1.24 1.4 1.04 3.5.24 2.29 3.72 1.82 3.1 2.5 2.7 4.51 1.9 5.90QD ZBA 100 B 8 B050 326 W.87 2.2 3.2 18.38 1.6 2.90QD ZBA 90 B 6 B020 320 W.0 2. Dimension sheets section 3.10 1.1 2.10DD ZBA 80 B 4 ZBE 80 B 4 B020 23 26 W.6 3.2 Selection tables Angular geared motors Single speed 0.58 1.72 0. motor with standard brake.92 2.3 5.5 24.59 2.9 3.06 3.93 5.10DD ZBA 80 A 2 B007 22 W.2 2.2 3.16 1.32 2.21 1.04 2.9 4. 2) Weight WUH with oil filling in mounting position B14.0 2.6 22.4 10.9 3.81 0.30 3.23 2.0.71 1.45 1.66 1.6 3.4 2.67 1.80QD ZBA 100 B 8 B050 220 W.8 14.20 1.7 27.00 7.6 2.5 13.8 2.61 1.34 485 437 381 343 303 273 485 437 434 391 361 325 278 251 227 434 391 361 325 278 251 227 204 176 158 434 391 361 325 278 251 258 222 441 397 354 319 286 258 4100 4100 4100 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 3899 85000 85000 85000 85000 85000 85000 85000 85000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 40000 40000 40000 40000 40000 40000 40000 40000 2. Lower FR values are permitted for WFV.97 1.86 2.76 2..4 2.4 4.15 2.71 9.5 1..75 2031513c_en_300812.79 1.6 5.73 3.59 1. 16 1.30 1.23 3.16 1.8 8.5 40000 40000 40000 40000 40000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 2.50 0.0 24.6 69.1 138 n2 [rpm] M2 [Nm] i FR [N] 1) fB 6.84 0.57 1.6 50.7 33.60 2..21 1.84 3.5.64 2. refer to the Drive Designer for these values.0 7.27 3.0.0 10 11 12 15 16 18 20 23 25 28 31 12 13 14 15 18 20 23 25 28 30 35 39 43 17 19 21 23 27 33 36 42 46 52 57 62 68 1665 1500 1335 1208 1043 2678 2400 2145 1943 1733 1508 1350 1208 1080 945 848 765 683 1380 1163 1050 938 848 713 645 575 520 462 418 374 338 792 724 659 615 509 465 401 367 328 301 257 235 210 529 483 432 395 344 280 255 218 199 176 161 147 135 222 200 178 161 139 357 320 286 259 231 201 180 161 144 126 113 102 91..5 81.0 76.7 42.85 2.7 9.35 2.26 1.50DD ZBA 90 A 4 ZBE 90 A 4 B020 62 63 W.4 22.3 61.9 45.50TD ZBA 90 A 4 ZBE 90 A 4 B020 67 68 W. Dimension sheets section 3.66 0.7 11 12 14 15 7.40 2.72 1.40DD ZBA 90 A 4 ZBE 90 A 4 B020 36 37 1) FR refers to types WUV and WGV.95 3.18 2.27 3.66 1.9 4.04 1.6 20.65 2.37 2..61 3.9 5.7 49.60QD ZBA 90 A 4 ZBE 90 A 4 B020 99 100 W.80QD ZBA 90 A 4 ZBE 90 A 4 B020 207 208 W.0 73.07 2.9 38.4 4.9 94.7 10 3.92 3..79 1.39 3.1 32.44 1.9 36.29 2. 2) Weight WUH with oil filling in mounting position B14.0 184 155 140 125 113 95.89 2.98 1.5.29 1.4 6.67 3.3.10 3.17 1.1 86.5 2031513c_en_300812.03 1.0 39.70 Weight [kg] 2) Gearbox Motor Brake W.1 120 111 99.5 61.2 27.2 66.99 1.59 1.70TD ZBA 90 A 4 ZBE 90 A 4 B020 130 131 W.45 1..0 7.9 46.4 30.96 2.01 1.51 2.3 78.95 1.1 7.6 9.70QD ZBA 90 A 4 ZBE 90 A 4 B020 150 151 W. motor with standard brake. Lower FR values are permitted for WFV.9 8.10 1.9 52.5 55.00 3.93 3.2 59.3 7.0 70..2 Selection tables Angular geared motors Single speed 3 1.09 2..99 2.29 1.44 1.6 55.indd P1 [kW] .60TD ZBA 90 A 4 ZBE 90 A 4 B020 86 87 W.31 3.31 2..93 1. 3 3.27 1.0 22.39 1.6 1.6 33.7 20.10 1.3 3.96 0.7 10.6 8.75 2. 2) Weight WUH with oil filling in mounting position B14.11 5.0 340 296 270 239 218 188 172 148 135 121 111 95 87 52 48 204 182 156 140 124 111 100 89 77 69 58 121 111 95 86 76 69 58 45 36 29 23 18 9700 8740 7620 6860 6060 5460 4850 4370 3810 3430 3030 7220 6500 5560 5020 4540 4340 3910 3610 51.100QD ZBA 90 B 4 ZBE 90 B 4 B020 511 511 W.72 2.24 1.92 2.8 14.2 2.3 2..57 1..6 16.59 2...26 1.43 1.1 11.89 3.79 1.6 13.15 3.5.7 4.51 1.30 6.27 6.1 3.44 2.7 11.97 1..73 5.26 30.8 14..75 3.39 1.30DD ZBA 90 A 4 ZBE 90 A 4 B020 32 33 W.9 2.24 2.8 3.3 40.80 1.8 17.0.90QD ZBA 112 A 8 B050 354 W.6 16.64 6.5 3 P1 [kW] 139 .9 23.47 2.7 2.08 2.20DD ZBA 90 A 4 ZBE 90 A 4 B020 28 29 W.2 4.5.58 1.10DD ZBA 90 A 4 ZBE 90 A 4 B020 25 26 W.22 1.46 3.90QD ZBA 90 B 4 ZBE 90 B 4 B020 320 320 1) FR refers to types WUV and WGV.23 2.64 1.28 1.03 7.12 1.20 2.98 2. motor with standard brake.64 6. Dimension sheets section 3.79 6.9 27.97 1..4 10.1 28.2 8.4 18.2 13.1 2.08 1. refer to the Drive Designer for these values.0 15.5 n2 [rpm] M2 [Nm] i FR [N] 1) fB 27 31 34 38 42 49 54 62 68 75 83 96 106 174 193 45 50 59 65 74 82 92 102 120 132 160 75 83 97 107 123 135 162 208 262 317 406 512 1.54 1.9 3.34 8.98 3.7 21.indd 1.3.5 18.5 45.98 1.6 2.1 2031513c_en_300812.5 13.34 485 437 381 343 303 273 485 437 381 343 303 361 325 278 251 227 434 391 361 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 3899 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 65000 65000 65000 65000 65000 65000 65000 65000 0.5 1.67 3.0 2.8 26.8 4.47 0.73 5.75 1.94 Weight [kg] 2) Gearbox Motor Brake W..76 1.6 2.61 1. Lower FR values are permitted for WFV.9 36.89 0.10DD ZBA 80 B 2 B007 24 W.61 1.99 2.2 Selection tables Angular geared motors Single speed 1.38 1.73 18.37 4.50 3.99 1.08 1.4 8.100QD ZBA 112 A 8 B050 544 W.37 1. 0.55 1.40 1.55 1.1 32. Dimension sheets section 3.61 3..3 78.7 49..0 65000 65000 65000 65000 65000 65000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 2.15 2.25 2.94 0.2 7. motor with standard brake.96 0.0 4. Lower FR values are permitted for WFV.5 55.2 3.0 34.9 10 11 13 14 5.80QD ZBA 90 B 4 ZBE 90 B 4 B020 214 214 W.3 94.6 50.90QD ZBA 90 B 4 ZBE 90 B 4 B020 320 320 W.5 140 n2 [rpm] M2 [Nm] i FR [N] 1) fB 4.2 Selection tables Angular geared motors Single speed 3 1.4 5.70TD ZBA 90 B 4 ZBE 90 B 4 B020 136 136 W.08 1.80 2.45 2.5 27.19 1.48 2.54 3.1 7.75 3.3 7.9 45.5 5.3 61.9 46.77 1.3.5 61.1 86.71 2.00 2.25 1.80TD ZBA 90 B 4 ZBE 90 B 4 B020 183 183 W.42 3.18 2. 2) Weight WUH with oil filling in mounting position B14.98 2.06 3.5 2031513c_en_300812.9 11 13 14 16 18 20 22 10 11 13 15 17 19 21 23 26 29 32 38 42 15 18 20 23 26 28 31 36 40 44 53 3250 2780 2510 2270 2040 1760 4410 3970 3540 3190 2860 2580 2220 2000 1780 1610 1390 1260 1130 1010 2590 2310 2010 1800 1610 1440 1260 1130 1020 910 817 730 660 1400 1250 1130 951 860 766 693 616 557 499 451 380 343 820 679 620 535 489 441 403 346 316 281 234 325 278 251 227 204 176 441 397 354 319 286 258 222 200 178 161 139 126 113 101 259 231 201 180 161 144 126 113 102 91.9 8.5.0 39.6 69.79 3.7 73.97 2.91 1.21 2.1 3.57 1.43 3.74 1.17 3.9 36.0 76.50DD ZBA 90 B 4 ZBE 90 B 4 B020 68 68 1) FR refers to types WUV and WGV.98 1.18 1.70QD ZBA 90 B 4 ZBE 90 B 4 B020 157 157 W.08 3.96 1.55 3.9 9.01 1.42 1.6 55.64 1.7 6..0 140 125 113 95..52 2.0 8.1 38.95 2.. refer to the Drive Designer for these values.76 1...5.60TD ZBA 90 B 4 ZBE 90 B 4 B020 93 93 W.0 66.6 4.88 3.99 3.50 1.98 0.97 1.5 6.2 8.0 8.19 2.24 1.indd P1 [kW] .79 0.0 81.08 1.29 1..4 7.0 70.1 5.42 2.13 1.06 Weight [kg] 2) Gearbox Motor Brake W.0 5.39 1.60QD ZBA 90 B 4 ZBE 90 B 4 B020 106 106 W.5 6.43 2. 96 1. 2) Weight WUH with oil filling in mounting position B14.23 2..3.2 27.25 3.1 2.. Lower FR values are permitted for WFV.85 4..5 17.2 n2 [rpm] M2 [Nm] i FR [N] 1) fB 59 66 24 27 33 37 43 47 53 59 63 70 81 89 35 39 43 50 55 63 70 77 85 98 108 127 140 178 60 67 76 84 94 104 122 135 164 202 100 111 123 147 163 189 209 240 263 317 407 513 1.4 21.9 36.4 22.3 2.indd 2.64 6.100QD ZBA 132 A 8 B050 545 W.21 1.8 14.19 1.86 0..08 1.68 4.5 24.04 1.100QD ZBA 100 AL 4 ZBE 100 A 4 B050 517 517 1) FR refers to types WUV and WGV.60 2.4 30.44 1.3 10.92 1.83 2.13 2.07 27.34 437 381 343 303 273 485 437 14000 14000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4000 4000 4000 4000 4000 4000 4000 4000 4000 3964 3989 3899 85000 85000 85000 85000 85000 85000 85000 3.55 0.33 2.00 2.18 1.7 33.0.83 2.49 1.7 42.2 18.8 26.32 1.9 2..10DD ZBA 90 A 2 B020 26 W.50 1.70 0.1 28.95 1.7 10.93 1.2 8.8 17.95 1.36 3.20DD ZBA 90 B 4 ZBE 90 B 4 B020 35 35 W.9 3.7 20.6 22.07 1.43 1.13 1.4 18.54 2.35 1.0 15.42 3.5 3 P1 [kW] 141 .68 1.6 8.94 2.7 21.88 2.56 1.67 1.6 20.73 5.40DD ZBA 90 B 4 ZBE 90 B 4 B020 43 43 W..72 1.50DD ZBA 90 B 4 ZBE 90 B 4 B020 68 68 W..4 10.6 2.0 24.00 3.2 Selection tables Angular geared motors Single speed 1.8 14.52 3.6 16.5 2031513c_en_300812.0 22.30DD ZBA 90 B 4 ZBE 90 B 4 B020 39 39 W.5.84 3.86 Weight [kg] 2) Gearbox Motor Brake W.47 1.07 1. Dimension sheets section 3.17 2.73 7.5.03 23.2 214 188 527 458 373 341 291 266 235 215 197 180 154 141 360 318 291 251 229 197 180 162 148 127 116 98 90 70 209 186 165 148 134 119 103 92 77 63 126 111 102 84 77 66 60 53 48 40 31 25 12892 11240 10119 8939 8054 7178 6468 24.5 18.6 16.04 2.9 38.2 13.72 0.9 52.2 11.0 40.7 11.34 1. refer to the Drive Designer for these values.34 1.1 11.18 0.67 1.09 1.5 13.27 2. motor with standard brake.7 59.6 13.6 33.60 3.7 16.77 3.6 1.4 8. 1 38.02 2.6 23.5 2031513c_en_300812.3 61.0 76..0 81.36 2.68 1.1 86..29 3.05 1.13 2.2 142 n2 [rpm] M2 [Nm] i FR [N] 1) fB 3.9 8..32 1.60TD ZBA 100 AL 4 ZBE 100 A 4 B050 99 99 1) FR refers to types WUV and WGV.0.86 2.0 66.70 1.9 8.31 1.99 3.5..0 85000 85000 85000 85000 85000 85000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 2.86 3.68 2.8 9.4 73. Dimension sheets section 3.31 2.48 1.52 1.34 1.9 8.08 2.6 69.3 30...09 1.99 3.75 0.9 5.90QD ZBA 100 AL 4 ZBE 100 A 4 B050 326 326 W.3 45.6 3.4 81.6 3.8 11 13 14 16 17 19 21 24 28 31 15 16 18 20 23 25 28 31 37 41 46 51 62 5639 5076 4484 4040 3522 3167 6423 5787 5343 4810 4114 3715 3360 3019 2605 2338 2072 1865 4233 3818 3286 2960 2634 2383 2057 1865 1672 1495 1338 1205 1080 2664 2383 2131 1865 1672 1510 1347 1209 1080 977 873 759 678 1407 1273 1134 1026 912 824 739 667 562 508 451 408 340 381 343 303 273 238 214 434 391 361 325 278 251 227 204 176 158 140 126 286 258 222 200 178 161 139 126 113 101 90.8 10 11 13 14 16 17 19 7.99 3.30 3.80TD ZBA 100 AL 4 ZBE 100 A 4 B050 189 189 W.6 6. refer to the Drive Designer for these values.70QD ZBA 100 AL 4 ZBE 100 A 4 B050 163 163 W.96 1.06 1.38 3. motor with standard brake.83 2.5 6.7 49.32 3.indd P1 [kW] .0 34.80QD ZBA 100 AL 4 ZBE 100 A 4 B050 220 220 W.39 2.3 3.2 6.7 4.88 2.2 Selection tables Angular geared motors Single speed 3 2.0 51.1 7.7 73.0 10 11 4. 2) Weight WUH with oil filling in mounting position B14.66 2.5 27.41 3.6 55.100QD ZBA 100 AL 4 ZBE 100 A 4 B050 517 517 W.. Lower FR values are permitted for WFV.05 1.9 45.70TD ZBA 100 AL 4 ZBE 100 A 4 B050 142 142 W.69 0.4 5.21 1.49 1.97 Weight [kg] 2) Gearbox Motor Brake W.7 5.35 1.68 2.1 4.69 2.22 1.19 1.8 95.32 2.56 2.79 1.97 3.66 1.15 2.94 2.9 6.17 1.0 59.1 5.70 0.07 2.94 1.3.46 1.9 4.40 2.4 7.64 1.0 9.0 180 161 144 126 113 102 91.5.2 5.95 1. 13 1.5 143 .44 5.9 12.90 3.01 1.15 2.05 3.0 15.64 8.5.57 1. 2) Weight WUH with oil filling in mounting position B14.7 20. motor with standard brake.47 1.45 3.6 20.1 42.0 39.0 24.9 792 724 650 595 510 466 415 345 315 277 253 217 199 167 552 504 430 393 348 318 291 267 228 208 179 164 146 134 123 76 64 51 339 292 267 239 219 188 172 145 133 114 103 95 89 219 198 176 152 136 114 93 72 12423 11193 9758 61.32 2.51 2.16 1.73 7.59 7.78 17.7 19.10 1.89 0.7 11..49 3.51 1.65 1.86 3.44 1.19 2.9 46.76 1.97 1.27 2.10 3.2 Selection tables Angular geared motors Single speed 2.6 13.79 0.08 2.0 n2 [rpm] M2 [Nm] i FR [N] 1) fB 23 25 28 31 35 39 44 52 58 65 72 83 92 108 33 37 42 47 52 58 63 69 80 88 102 112 126 136 150 246 291 366 54 62 69 76 84 97 107 125 139 164 176 195 209 83 93 103 121 133 162 200 260 2.2 11.45 303 273 238 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 9810 9543 9197 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 4100 4100 4100 4100 4100 85000 85000 85000 1..6 11.23 Weight [kg] 2) Gearbox Motor Brake W.03 7.1 32.0.72 1.80 3.31 1.2 2031513c_en_300812.6 2.24 1.20 1.9 38.7 33.38 1.30DD ZBA 100 AL 4 ZBE 100 A 4 B050 45 45 W.97 1.4 13.5 55.26 6.8 14.91 0.91 1.07 5.01 1.13 1.70 0.5 17. refer to the Drive Designer for these values..77 2.2 13.indd 3.6 8.07 1.3 2.87 2.99 1.79 3..0 13..92 2.6 17.7 10.40DD ZBA 100 AL 4 ZBE 100 A 4 B050 49 49 W.5 18.76 2.2 27.48 2.2 10.6 16.76 4.3.4 9.5.81 0.9 36.0 22.34 1.2 8.43 3.0 24.5 27.73 4.0 15.87 26.50DD ZBA 100 AL 4 ZBE 100 A 4 B050 74 74 W.19 3.27 1.6 50.4 30.4 21.07 6.4 22.81 9. Lower FR values are permitted for WFV.40 2. Dimension sheets section 3.7 16.100QD ZBA 132 B 8 B140 564 3 P1 [kW] 1) FR refers to types WUV and WGV.48 1.20DD ZBA 100 AL 4 ZBE 100 A 4 B050 41 41 W.3 10. 5.49 1.93 2.1 4.8 56.21 1.42 3.8 41.70QD ZBA 100 B 4 ZBE 100 B 4 B050 163 164 W.2 69.16 2..46 2.36 1.0 7.1 38..67 2.20 1.66 2.2 9.95 1.44 2.07 1.70 0.0 59. motor with standard brake.3 45.40 2.0 8.6 55.3 61..5.40 1.21 1.95 1.14 2.70TD ZBA 100 B 4 ZBE 100 B 4 B050 142 143 W.05 1.3 5.80TD ZBA 100 B 4 ZBE 100 B 4 B050 189 190 W.10 1.78 0.80QD ZBA 100 B 4 ZBE 100 B 4 B050 220 221 W.96 3.7 73.9 3.2 36.3 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 16000 1.90TD ZBA 100 B 4 ZBE 100 B 4 B050 277 278 W.4 73.97 1.1 126 113 102 91. refer to the Drive Designer for these values.8 32.67 1.18 1.85 2.34 1.6 5.38 2.98 1.7 51.90QD ZBA 100 B 4 ZBE 100 B 4 B050 326 327 W...79 0.46 1.93 2.9 45.55 1.74 3.94 2.92 Weight [kg] 2) Gearbox Motor Brake W.71 3.73 1.3. Lower FR values are permitted for WFV.100QD ZBA 100 B 4 ZBE 100 B 4 B050 517 518 W.5 7.71 1.0 51.54 1.16 2.3 200 178 161 139 126 113 101 90.41 3.9 4. 2) Weight WUH with oil filling in mounting position B14..0 5.4 81.0 81.5 2031513c_en_300812.73 1.08 3.0 34.indd P1 [kW] .7 10 11 12 14 15 17 19 21 25 27 11 12 14 15 17 19 21 24 27 31 34 38 43 20 23 25 28 31 37 41 9943 8959 7811 7032 6212 5597 4879 4387 3895 3506 3178 7401 6662 5699 5146 4654 4182 3608 3239 2870 2583 2276 2050 1892 4100 3649 3301 2850 2583 2317 2071 1853 1669 1497 1349 1162 1048 2583 2317 2091 1866 1675 1497 1353 1210 1052 939 845 754 660 1421 1263 1142 1023 925 779 703 485 437 381 343 303 273 238 214 190 171 155 361 325 278 251 227 204 176 158 140 126 111 100 92.07 2.08 3.4 8. Dimension sheets section 3.0.60TD ZBA 100 B 4 ZBE 100 B 4 B050 99 100 1) FR refers to types WUV and WGV.0 66.34 1..6 6.31 3.9 8.9 8.7 4.50 1.44 3.9 10 11 13 14 15 7.67 1.2 Selection tables Angular geared motors Single speed 3 3.0 65..32 1.97 3.23 1.08 1.0 144 n2 [rpm] M2 [Nm] i FR [N] 1) fB 2.9 6.2 6.0 3.2 3.7 49.1 5.82 0. 61 9..73 7.79 2.64 1.2 27..0 13.64 8..86 3.15 4.4 21.16 2.52 2.73 2.25 2.0 24.39 2.9 36.6 17.6 23.03 2.20DD ZBA 100 B 4 ZBE 100 B 4 B050 41 42 W.0 24.86 3.24 7.76 5.indd 3.0 39.0.50 2.96 1.46 5.68 1.47 2.35 1.2 11.06 1.26 6.03 7.0 20.7 19.09 2.01 2.94 3.2 8. refer to the Drive Designer for these values.0 15.02 2.51 6.27 1.1 12.5 27.17 3.51 1.5 27.8 14.20 2.40DD ZBA 100 B 2 B020 46 W.46 5.5 17.8 9.86 6.2 10.28 1.92 1.78 5.95 1.7 16.14 1.09 1.1 11.5 145 .07 1.30DD ZBA 100 B 4 ZBE 100 B 4 B050 45 46 W.6 8.82 3.82 2. motor with standard brake.50DD ZBA 100 B 4 ZBE 100 B 4 B050 74 75 W.40DD ZBA 100 B 4 ZBE 100 B 4 B050 49 50 W. Lower FR values are permitted for WFV.04 1.8 18.07 5.2 Selection tables Angular geared motors Single speed 2031513c_en_300812.59 30.58 3.15 3.45 16000 16000 16000 16000 16000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 9925 9971 9995 9810 9543 8933 8766 8556 8296 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 4100 4100 4100 4100 4100 2.1 32. Dimension sheets section 3.45 8...64 8.7 10.24 4.76 4.99 1.39 1.20DD ZBA 100 B 2 B020 38 3 P1 [kW] 1) FR refers to types WUV and WGV.0 n2 [rpm] M2 [Nm] i FR [N] 1) fB 46 51 61 67 77 30 35 39 43 52 57 65 71 82 91 107 119 146 46 52 57 62 68 79 88 101 111 125 135 148 170 186 217 243 288 440 493 584 734 75 83 96 106 124 137 162 174 193 206 267 120 132 160 198 257 325 402 521 625 566 472 426 371 824 703 644 573 476 435 383 349 300 275 231 210 171 545 482 440 403 370 316 289 248 227 202 185 170 150 135 118 105 89 58 52 43 35 332 303 260 238 202 184 158 143 131 124 96 211 189 157 129 99 78 64 49 30.9 12. 2) Weight WUH with oil filling in mounting position B14.55 2.73 7.07 5.4 9.30 2.5.4 22.66 11.19 1.5.3 10.6 20.69 4.60TD ZBA 100 B 4 ZBE 100 B 4 B050 99 100 W.08 Weight [kg] 2) Gearbox Motor Brake W.44 8.76 4.87 18.24 1.3.1 46.67 3.9 0.64 0..6 11.24 11.33 3.6 13.45 0.27 1.76 0.4 13..6 16.58 1.70 2. 18 3.04 1..13 1..68 0.9 10 11 13 14 16 18 20 22 25 28 32 35 14 16 18 20 22 24 28 31 35 39 45 50 58 26 29 32 38 12853 11581 10097 9090 8030 7235 6307 5671 5035 4532 4108 3710 3207 7367 6652 6016 5406 4664 4187 3710 3339 2942 2650 2446 2202 1887 4267 3684 3339 2995 2677 2396 2157 1935 1744 1503 1354 1206 1087 2703 2412 2165 1935 1749 1564 1359 1214 1092 975 853 763 663 1476 1322 1195 1007 485 437 381 343 303 273 238 214 190 171 155 140 121 278 251 227 204 176 158 140 126 111 100 92. Dimension sheets section 3.29 2.20 1.95 3.60 1.09 1.67 1.86 3.74 0.0 66.90TD ZBA 112 A 4 ZBE 112 A 4 B050 304 304 W.7 49.2 36.34 1.1 8.1 10 11 13 14 16 17 20 8.0.2 9.3 83.92 1.64 2.1 38.5 2031513c_en_300812..29 2.07 2.0 51.3 10 12 5.60TD ZBA 112 A 4 ZBE 112 A 4 B050 127 127 1) FR refers to types WUV and WGV..95 1.91 1.43 1.29 1.06 2.0 81.90 2.9 45.7 73.0 102 91.85 2.5.0 3.3..3 7.80TD ZBA 112 A 4 ZBE 112 A 4 B050 216 216 W.05 1. refer to the Drive Designer for these values.0 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 0.1 45.3 45.8 25.70TD ZBA 112 A 4 ZBE 112 A 4 B050 170 170 W.1 6.0 146 n2 [rpm] M2 [Nm] i FR [N] 1) fB 3.93 3.28 3.50 1.89 2.8 5.4 73.5.5 41.56 2.16 1.23 3.2 28.66 2.32 1..49 1.0 55.32 3.100QD ZBA 112 A 4 ZBE 112 A 4 B050 544 544 W.49 1.67 1.4 81.84 2.2 161 139 126 113 101 90.77 0.7 7.34 Weight [kg] 2) Gearbox Motor Brake W.12 2.6 8.7 6.7 51. 2) Weight WUH with oil filling in mounting position B14.1 71.92 3.3 3.90QD ZBA 112 A 4 ZBE 112 A 4 B050 354 354 W.80QD ZBA 112 A 4 ZBE 112 A 4 B050 248 248 W.8 56.66 1.04 1. Lower FR values are permitted for WFV.indd P1 [kW] .8 4.38 2.19 1.29 1.94 1.0 65. motor with standard brake.2 Selection tables Angular geared motors Single speed 3 4.4 9.8 41.71 0..2 4.38 2.0 59.65 2.3 6.8 32.15 1.93 1.2 5.10 2.02 1. 8 18.92 0.41 9.15 2.80 0.44 8.28 3.10 1.0 15.05 1.98 1.1 11.68 4.2 4.2 Selection tables Angular geared motors Single speed 4.70 1.0.1 6. Dimension sheets section 3.09 2.87 343 303 273 238 214 190 171 155 140 121 113 101 88.10 1.75 2.75 1.95 1.15 1.7 8. Lower FR values are permitted for WFV.40 1. motor with standard brake.9 12.8 7.1 16.3 30.0 13.76 4.85 3..23 1.39 1.72 1.56 1.5.100QD ZBA 132 AL 4 ZBE 132 A 4 B140 564 564 W.36 5.95 3.8 5.5 27.76 0..91 2.40DD ZBA 112 A 2 B050 77 W.24 7.56 1.5 17.86 3.2 10 12 909 808 731 610 551 480 435 371 840 748 621 568 499 456 391 358 301 275 223 521 478 408 373 320 294 261 240 220 194 175 152 136 115 91 76 68 57 45 12362 10921 9839 8578 7713 6848 6163 5586 5046 4361 4073 3640 3190 7352 6343 5695 5046 4541 34..30 3.0 36..34 1.23 1.6 23.40DD ZBA 112 A 4 ZBE 112 A 4 B050 77 77 W.59 7.3 9.7 19.64 0.3 6.86 3.0 2031513c_en_300812.6 17.3.39 8.5 9. refer to the Drive Designer for these values.60TD ZBA 112 A 4 ZBE 112 A 4 B050 127 127 W.5 n2 [rpm] M2 [Nm] i FR [N] 1) fB 42 47 52 63 69 80 88 103 40 44 53 59 66 73 85 94 110 122 150 64 70 81 90 104 114 129 138 153 175 192 223 250 296 372 449 503 597 749 4. 2) Weight WUH with oil filling in mounting position B14.16 2.6 20.4 13.5 204 176 158 140 126 16000 16000 16000 16000 16000 16000 16000 16000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 10000 10000 10000 10000 9980 10000 10000 9794 9863 9828 9744 9543 9197 8933 8766 8556 8296 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 65000 65000 65000 65000 65000 1.4 14.81 3.67 1.0 20.90QD ZBA 132 AL 4 ZBE 132 A 4 B140 374 374 3 P1 [kW] 1) FR refers to types WUV and WGV.42 2.39 1.85 2.46 5.1 32.50DD ZBA 112 A 4 ZBE 112 A 4 B050 102 102 W.22 1.100TD ZBA 132 AL 4 ZBE 132 A 4 B140 514 514 W.27 2.95 2.38 2.97 1.2 10.96 1.51 6.5 147 .5..4 9.0 24.76 4.11 3.56 1.48 6.59 22.5 27.1 8.8 9.57 2.54 Weight [kg] 2) Gearbox Motor Brake W.46 5.6 11.4 21.indd 5.7 16.92 2.88 0.87 6.45 2...21 2.29 1.49 1.4 10 12 13 14 16 7. 10 2.02 1.91 6..68 1.15 2.09 1.7 16.94 2.0 51.0.88 2.1 11.4 81.70TD ZBA 132 AL 4 ZBE 132 A 4 B140 190 190 W..0 13.15 1.1 58.3.18 1.1 16.35 1.23 1.6 65000 65000 65000 65000 65000 65000 65000 65000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 9849 9880 1.8 25.05 1.4 13.51 1. refer to the Drive Designer for these values. Dimension sheets section 3.98 1. 2) Weight WUH with oil filling in mounting position B14.36 1.63 1.2 36.8 56.90 0.11 3.60TD ZBA 132 AL 4 ZBE 132 A 4 B140 147 147 W.0 12.8 41.5 41.26 1..6 32.52 1.1 73.95 1.0 22.80TD ZBA 132 AL 4 ZBE 132 A 4 B140 236 236 W.0 15.99 1.73 3..0 59.96 2..17 2.1 71.75 1.8 18.5 27.02 3.0 35.99 1.25 Weight [kg] 2) Gearbox Motor Brake W.2 28.6 23.92 0.5 148 n2 [rpm] M2 [Nm] i FR [N] 1) fB 13 15 16 18 20 23 25 28 13 14 16 18 20 22 26 28 32 35 41 45 20 22 25 28 32 35 40 45 51 58 65 73 82 38 42 48 53 63 70 80 89 104 115 60 67 74 86 94 111 123 152 184 240 82 91 105 115 4001 3604 3327 2995 2566 2310 2090 1881 4073 3640 3258 2934 2631 2372 2044 1842 1640 1478 1283 1157 2631 2379 2126 1849 1651 1485 1326 1161 1038 901 807 714 638 1370 1236 1099 995 829 750 652 591 505 454 774 680 622 533 488 411 374 304 254 195 555 507 436 400 111 100 92.80 0.58 1.0 34.3 83.14 1.5.4 73.80 2.50DD ZBA 132 AL 4 ZBE 132 A 4 B140 122 122 W.97 0.7 19.07 17. Lower FR values are permitted for WFV.1 45.77 2.94 1.41 2.35 3.46 0.9 12.8 17.59 7.0 66.0 65.6 17.50 3.23 1.4 21.68 2.5.10 1.44 2.12 3.10 3.2 Selection tables Angular geared motors Single speed 3 5.3 30.0 52. motor with standard brake.0 20..90TD ZBA 132 AL 4 ZBE 132 A 4 B140 324 324 W.5 2031513c_en_300812.2 113 101 90.7 38.28 2.71 3.77 3.69 1.34 2.3 45.03 3.8 32.7 51.2 64.41 1.4 19.36 1.6 24.40DD ZBA 132 AL 4 ZBE 132 A 4 B140 97 97 1) FR refers to types WUV and WGV.8 9.4 14.72 0.indd P1 [kW] .07 2. 65 0.2 28.4 9..0 6.12 1.98 1.7 7.87 6.89 3.01 1.11 1.2 Selection tables Angular geared motors Single speed 5.0.0 65..4 73.5 149 .10 2..0 35.03 4.00 1.95 2.41 2.7 24.40 1.2 36.0 52.5 2031513c_en_300812.44 8.5 41.21 4.41 3.. Dimension sheets section 3.97 1.4 63.90TD ZBA 132 B 4 ZBE 132 B 4 B140 324 324 W.11 3.53 1.9 21.67 1.25 2.12 2.46 3.74 Weight [kg] 2) Gearbox Motor Brake W.6 32.71 3.86 3.86 3.9 51.68 1.51 6.40DD ZBA 132 A 2 B050 77 W.100QD ZBA 132 B 4 ZBE 132 B 4 B140 564 564 W.12 1.40DD ZBA 132 AL 4 ZBE 132 A 4 B140 97 97 W.21 3.7 51.5.38 2.11 7.41 2.8 32.36 1. motor with standard brake.01 3.3 10 12 13 14 16 18 20 23 10 11 13 14 16 17 20 22 25 27 32 35 40 18 20 22 25 28 32 35 40 45 52 58 66 28 31 35 39 45 50 355 326 299 264 238 207 185 156 124 105 93 79 63 11900 10700 9500 8550 7750 7000 6050 5650 5050 4425 3985 3520 3175 7000 6300 5550 5000 4615 4155 3560 3205 2900 2610 2250 2025 1790 4070 3650 3290 2835 2555 2275 2050 1780 1605 1385 1245 1095 2565 2290 2060 1840 1610 1440 11.1 45.89 2.52 1.78 5.2 45..40 1.76 4. refer to the Drive Designer for these values.3.3 45.98 2.09 1.80TD ZBA 132 B 4 ZBE 132 B 4 B140 236 236 W.8 56.7 70.5 n2 [rpm] M2 [Nm] i FR [N] 1) fB 130 140 154 177 194 225 253 299 376 447 502 595 747 6.76 1.57 1.1 27.8 41.70TD ZBA 132 B 4 ZBE 132 B 4 B140 190 190 3 P1 [kW] 1) FR refers to types WUV and WGV.100TD ZBA 132 B 4 ZBE 132 B 4 B140 514 514 W.0 40.5 79.46 5.5 140 126 111 100 92.2 64.26 1.78 1.68 3.1 58. 2) Weight WUH with oil filling in mounting position B14.26 1.41 1..87 238 214 190 171 155 140 121 113 101 88.8 9811 9775 9751 9541 9691 9492 9444 9354 9197 8933 8766 8556 8296 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 64657 64493 64895 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 25000 25000 25000 25000 25000 25000 1.5 35.indd 7..55 1.6 8.24 7.36 6.55 1.2 10.71 3.1 71. Lower FR values are permitted for WFV..8 81.10 1.90QD ZBA 132 B 4 ZBE 132 B 4 B140 374 374 W.91 0.22 1.5.71 1.21 1.76 4.41 1.49 2.46 5.18 2.4 9.97 2.3 83. 17 1.5.36 1.0 22.70TD ZBA 132 B 4 ZBE 132 B 4 B140 190 190 W.11 1..5 79. refer to the Drive Designer for these values.46 5.0 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 16000 14000 14000 14000 14000 14000 14000 14000 14000 9129 9141 9218 9151 8914 9226 9001 9006 8984 8908 8836 8762 8556 8296 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 65000 65000 65000 65000 65000 64736 64805 65000 64255 2.36 1.94 12.51 6.4 9.30 1.6 8.4 19.3 10 12 13 14 16 18 20 23 26 29 13 14 16 17 20 22 25 28 32 1250 1120 990 885 765 685 1380 1150 1040 905 820 700 630 737 675 568 517 420 351 269 219 554 493 452 415 367 330 287 256 216 172 141 126 106 84 11970 10773 9765 8820 7623 7119 6363 5576 5021 4435 4001 3471 3131 6993 6300 5815 5235 4486 4038 3654 3289 2835 25.1 11.47 Weight [kg] 2) Gearbox Motor Brake W. Dimension sheets section 3.53 5.7 111 100 92.53 2.60TD ZBA 132 B 4 ZBE 132 B 4 B140 147 147 W..53 2.4 14.49 1.23 1.92 2.1 16.74 1.6 17.28 1.1 49.. motor with standard brake.27 3.0 12.15 1.5 9.00 2.5 150 n2 [rpm] M2 [Nm] i FR [N] 1) fB 57 64 72 81 94 105 52 62 69 79 88 103 114 84 93 110 122 150 181 236 290 114 128 138 152 174 191 222 249 295 371 449 503 597 749 7.40DD ZBA 132 B 2 B050 91 W.82 3.1 58.50DD ZBA 132 B 4 ZBE 132 B 4 B140 122 122 W.28 0.57 1.34 1.73 1.100QD ZBA 132 C 4 B140 565 W.3 13.95 2.91 6.14 0.11 1.23 2..0 20.2 10.98 4.5 55.59 7.01 1.69 1.91 1.100TD ZBA 132 C 4 B140 515 W.56 1. Lower FR values are permitted for WFV.20 1..18 2.55 3.40DD ZBA 132 B 4 ZBE 132 B 4 B140 97 97 W.00 1.20 1..5.39 2.7 70.75 3.0 15.86 3.11 1.indd P1 [kW] .4 63.2 64.51 1.1 71.00 1.28 1. 2) Weight WUH with oil filling in mounting position B14.7 27.71 3.3 83.3.13 2.76 4.90 3.44 8.8 17.8 9.0 52.02 1..65 1.5 2031513c_en_300812.76 4.24 7.4 9.89 2.90 1.00 3.2 Selection tables Angular geared motors Single speed 3 7.2 45.4 13.7 15.6 23.8 18.0.86 3.98 1.6 11.90TD ZBA 132 C 4 B140 325 1) FR refers to types WUV and WGV.31 2.07 4.87 6.46 5.83 1.46 3.65 0..93 2.87 190 171 155 140 121 113 101 88.15 2. 23 1.20 1.100QD ZBA 160 AL 4 ZBE 160 A 4 B140 646 646 W...2 Selection tables Angular geared motors Single speed 9. motor with standard brake.59 1.8 56.09 Weight [kg] 2) Gearbox Motor Brake W.60 0.00 2.65 1.02 1.100TD ZBA 160 AL 4 ZBE 160 A 4 B140 596 596 1) FR refers to types WUV and WGV.10 3.38 1..51 6.5 3 P1 [kW] 151 ..88 2.53 1..9 19.8 32.45 3.7 63522 63679 63581 62890 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 39810 39868 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 14000 14000 14000 14000 14000 14000 8569 8330 8763 8543 8598 8640 8634 8589 8543 8458 8296 85000 85000 85000 85000 85000 85000 85000 85000 2.40DD ZBA 132 C 2 B140 98 W.38 1. refer to the Drive Designer for these values.07 4.86 3.8 32.0 41..03 1.2 28.73 0.4 65.70TD ZBA 132 C 4 B140 191 W. Dimension sheets section 3.55 2.11 0.19 1.4 19.87 171 155 140 121 113 101 88.80TD ZBA 132 C 4 B140 237 W.90 0.91 1.90TD ZBA 132 C 4 B140 325 W.0 20.24 7.18 2.30 2.8 17.1 45.4 14.7 15.2 28.5 41.5 2031513c_en_300812.5.70 0.40 1.0.76 4.96 1.83 2.1 16.3 13.78 1.08 1.0 35.90 3.12 1.08 1.5.5 35.60TD ZBA 132 C 4 B140 148 W.7 51.8 25.29 2.76 3.24 2.91 6.10 3.87 6.24 1.31 1.46 5.0 12.73 2.21 1.18 1.0 22.6 32.98 2.86 3.38 1.44 8.50DD ZBA 132 C 4 B140 123 W.53 4.indd 11 n2 [rpm] M2 [Nm] i FR [N] 1) fB 36 40 45 51 22 25 28 32 35 40 45 52 58 66 73 85 35 39 45 50 58 64 73 81 94 105 63 69 80 88 103 114 110 122 150 182 237 291 153 175 192 223 250 296 372 447 502 595 747 8.8 18.9 21.46 5.1 27.5 9.59 2.93 1.08 1.8 17.55 1.4 10 12 13 14 16 18 2552 2255 2029 1789 4145 3572 3219 2867 2583 2243 2022 1745 1569 1380 1247 1071 2596 2318 2029 1814 1575 1411 1247 1115 964 863 1449 1310 1140 1033 882 794 716 653 530 442 340 276 523 462 416 362 323 273 217 181 161 136 108 12312 11160 10080 8712 8136 7272 6372 5738 40.77 2.5 79.76 4.97 1. Lower FR values are permitted for WFV.59 7.91 0.94 9.8 9...47 1.55 1..7 24. 2) Weight WUH with oil filling in mounting position B14.2 36.7 23.1 11.6 13.40DD ZBA 132 C 4 B140 98 W.96 1.21 3.74 3.3.96 1. 2 28.59 7.1 71.4 19.6 32.94 1.60TD ZBA 160 AL 4 ZBE 160 A 4 B140 229 229 W.27 3.5 55.09 1.21 1. refer to the Drive Designer for these values..indd P1 [kW] .5 2031513c_en_300812.91 6.34 1.1 45.0.8 25..73 2.0 40.90 2.4 25.55 1.4 14.1 49.56 1.51 1.7 70.75 1.2 64..27 12 11979 121 85000 13 14 16 18 21 23 26 29 11187 9999 8762 7890 6970 6287 5455 4920 113 101 88.52 1.7 85000 85000 85000 85000 85000 85000 85000 85000 Weight [kg] 2) Gearbox Motor Brake W.81 3. 2) Weight WUH with oil filling in mounting position B14.05 1.16 2.2 Selection tables Angular geared motors Single speed 3 11 15 152 n2 [rpm] M2 [Nm] i FR [N] 1) fB 21 23 26 29 33 15 16 17 20 23 25 28 32 36 41 45 51 57 26 28 32 35 41 45 52 58 66 73 85 95 39 45 50 58 65 73 82 95 106 70 80 88 104 115 151 183 239 294 5069 4572 3967 3578 3182 7200 6646 5983 5126 4615 4176 3758 3240 2916 2578 2318 2045 1836 4082 3679 3276 2952 2563 2311 1994 1793 1577 1426 1224 1102 2650 2318 2074 1800 1613 1426 1274 1102 986 1498 1303 1181 1008 907 608 507 389 317 70.81 0.00 W.8 17.90TD ZBA 160 AL 4 ZBE 160 A 4 B140 406 406 W.86 2.14 1.2 45.94 85000 85000 85000 85000 85000 65000 65000 64354 65000 64453 64143 64300 63977 62849 62836 62607 62059 61188 40000 40000 40000 40000 40000 39997 40000 40000 40000 39674 39583 39696 25000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 14000 14000 14000 14000 2.20 2.100QD ZBA 160 B 4 ZBE 160 B 4 B280 654 654 1.7 51.77 0..02 3.62 3.0 12.1 58.5.54 2.06 1.70TD ZBA 160 AL 4 ZBE 160 A 4 B140 272 272 W.5 41.0 52.7 15.4 63.37 1.22 1.98 1.04 1.5.2 28. Dimension sheets section 3.3..7 20.100TD ZBA 160 B 4 ZBE 160 B 4 B280 604 604 1) FR refers to types WUV and WGV.49 1.8 32.91 2.23 2.1 27.27 2.63 0..9 19.5 55.0 35..9 21.42 3.2 100 92.53 0.3 13.3 36.68 1.02 3.72 1.80TD ZBA 160 AL 4 ZBE 160 A 4 B140 318 318 W.40 2.8 32.5 79.50DD ZBA 160 AL 4 ZBE 160 A 4 B140 204 204 1.1 16. Lower FR values are permitted for WFV.37 1.3 83.4 63.5 56.7 44.07 1.72 3.0 15.07 4.37 2.7 24.8 17.08 1.90 1.44 W.01 2..52 1.96 2.0 22.1 49.8 18.5 35.39 1.6 9.100TD ZBA 160 AL 4 ZBE 160 A 4 B140 596 596 W.97 1.36 1.20 1.35 3.17 1. motor with standard brake. 100TD ZBA 160 B 4 ZBE 160 B 4 B280 604 604 W.7 15.04 2.39 1.0 32.2 64..6 7.4 25.4 28.3 13. 2) Weight WUH with oil filling in mounting position B14.80TD ZBA 160 B 4 ZBE 160 B 4 B280 326 326 W.2 39.54 1.0 32.13 1.84 0.08 1.01 3.38 2.65 0.91 6..0 40.28 1.47 3.1 25.5 3 P1 [kW] 153 .01 1.5 35.5.8 17.70TD ZBA 160 B 4 ZBE 160 B 4 B280 280 280 W.4 85000 85000 85000 85000 60959 60458 61181 60481 60691 60059 60281 59685 59564 58874 58395 57604 57122 38796 38818 39324 39210 38883 39458 39264 38729 38460 25000 25000 25000 25000 25000 25000 16000 16000 14000 14000 14000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 84889 84881 56650 56322 57176 56792 57485 57088 57346 2.75 1.5 35.8 17.10 1. Lower FR values are permitted for WFV.4 71.2 39.57 3.74 3.5 79..90TD ZBA 180 A 4 ZBE 180 A 4 B280 415 442 1) FR refers to types WUV and WGV.09 1.94 101 88..3 58.2 28..57 1.65 1.7 24.7 44.45 2.37 3.2 Selection tables Angular geared motors Single speed 15 2031513c_en_300812.41 1.8 32.96 2..49 2.00 Weight [kg] 2) Gearbox Motor Brake W.77 2.97 1.22 1.07 4.3 25.5.0 35.0 19.26 1.77 1.1 58.5 22.6 32.2 45.99 0.9 19.43 1.26 1.3.86 0..20 2.4 19.10 1..84 2.7 41. Dimension sheets section 3.4 63.77 3.74 0.7 14.60TD ZBA 160 B 4 ZBE 160 B 4 B280 237 237 W.64 1.2 45.98 2.8 36.0 52.71 3.1 49.0 40.22 1.0 22.8 36.46 1.1 27.100TD ZBA 180 A 4 ZBE 180 A 4 B280 605 632 W.5 55.8 17.0 12.10 1. refer to the Drive Designer for these values.5 n2 [rpm] M2 [Nm] i FR [N] 1) fB 33 36 40 45 20 23 25 28 32 36 41 45 51 57 66 73 82 35 41 45 52 58 66 73 85 95 58 65 73 82 95 106 104 115 183 239 294 14 16 18 20 23 26 29 33 36 40 44 51 57 25 28 32 36 40 45 51 4376 3940 3564 3208 7049 6346 5742 5168 4455 4010 3544 3188 2812 2525 2178 1960 1752 4059 3524 3178 2742 2465 2168 1960 1683 1515 2475 2218 1960 1752 1515 1356 1386 1247 697 535 435 12423 10886 9803 8659 7811 6777 6113 5437 4895 4428 3985 3456 3112 7134 6421 5535 4982 4403 3961 3493 44.90TD ZBA 160 B 4 ZBE 160 B 4 B280 414 414 W.59 1. motor with standard brake.indd 18.0 52.21 3.98 1.0 15.8 32.05 3.97 1.2 28.21 2.13 1.7 70.50DD ZBA 160 B 4 ZBE 160 B 4 B280 212 212 W.99 1.0.9 21.99 1.35 1.62 1.38 1. .94 88.31 1.7 44.6 32.58 2.3.07 4.27 0.0 32.75 3.5 22.2 28.17 1.3 13..91 2..10 2.27 1.5 35.72 1.100TD ZBA 180 B 4 ZBE 180 B 4 B280 659 729 W.32 1.70TD ZBA 180 B 4 ZBE 180 B 4 B280 335 405 W.41 1.58 0..87 3.94 1.48 1.98 1.3 23.7 24.9 19.93 1.4 28.30 3.19 1.0 19.5.7 6.50DD ZBA 180 A 4 ZBE 180 A 4 B280 213 240 W.7 70.12 1. refer to the Drive Designer for these values.23 1.3 22.03 1.7 15.9 19.5 55.1 27.1 49.7 15.89 2.32 2.8 17.96 1.91 1..8 17.64 1.51 1.90TD ZBA 180 B 4 ZBE 180 B 4 B280 469 539 W.5 79.20 1.13 0.4 19.06 1..7 44..5 3 22 30 154 n2 [rpm] M2 [Nm] i FR [N] 1) fB 56 65 73 81 91 40 45 52 58 66 73 85 94 64 73 81 94 105 237 291 17 18 21 23 27 30 33 37 41 45 52 58 64 28 33 36 41 46 52 58 67 74 83 92 53 59 67 74 86 96 83 96 107 23 27 30 33 3137 2706 2435 2177 1956 4379 3948 3407 3063 2694 2435 2091 1882 2755 2435 2177 1882 1685 663 540 12713 11449 10113 9122 7915 7140 6350 5717 5172 4654 4037 3634 3318 7499 6464 5818 5143 4626 4080 3663 3160 2844 2543 2284 3979 3577 3146 2844 2442 2198 2543 2198 1968 12439 10794 9736 8658 25.21 2.5 55.15 1.59 2.80TD ZBA 180 A 4 ZBE 180 A 4 B280 327 354 W.0 40.91 2.23 2.36 1.5 2031513c_en_300812.80TD ZBA 180 B 4 ZBE 180 B 4 B280 381 451 W.14 1.0.0 15.01 1.5.2 39.39 Weight [kg] 2) Gearbox Motor Brake W.9 35.2 56818 56677 56007 55739 55013 36892 36435 37458 37364 37764 37600 37809 37361 25000 25000 25000 25000 25000 14000 14000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 84748 84324 84531 52697 54151 53980 55079 54852 55437 55047 55199 54633 54550 53909 35380 35435 36247 36067 36534 36266 25000 25000 25000 85000 84010 83658 85000 2.8 17.2 45.64 1.7 24.01 1.11 1.9 21..70TD ZBA 180 A 4 ZBE 180 A 4 B280 281 308 W.12 1.indd P1 [kW] .1 49.0 15.90TD ZBA 180 A 4 ZBE 180 A 4 B280 415 442 W.48 1.4 25.7 15.0 19.46 2.8 36.9 21.1 52.33 0.9 27.8 17.5 22.22 3.52 1.8 32..3 13. 2) Weight WUH with oil filling in mounting position B14.100TD ZBA 200 A 4 ZBE 200 A 4 B680 750 750 1) FR refers to types WUV and WGV.2 Selection tables Angular geared motors Single speed 18. Lower FR values are permitted for WFV.7 15.62 0.08 1.1 25. Dimension sheets section 3.68 1.3 17.91 1.8 17.05 1.82 0.97 3.7 63.33 1. motor with standard brake.4 63. 90TD ZBA 200 A 4 ZBE 200 A 4 B680 560 560 W.4 25.25 1.62 1.77 1.8 32.7 25000 0.98 1.1 20.3 16.0 15.14 1.42 2.32 1.8 36.0.2 39.93 1.94 1.7 44. Lower FR values are permitted for WFV.78 1.14 1.80TD ZBA 225 AL 4 ZBE 225 A 4 B680 556 556 W.63 1.5 3 P1 [kW] 155 .70 1..5 35.00 1.18 2.27 1..90TD ZBA 225 B 4 ZBE 225 B 4 B680 644 644 1) FR refers to types WUV and WGV.2 28.97 2.3 23.2 39..35 3..71 1.0 19. refer to the Drive Designer for these values..70TD ZBA 200 A 4 ZBE 200 A 4 B680 426 426 W. motor with standard brake.5 25.1 25.11 1.5.0 15.98 2.08 0.25 0.50 0.4 28.65 2. Dimension sheets section 3.100TD ZBA 225 B 4 ZBE 225 B 4 B680 834 834 W.15 2.80 2.100TD ZBA 225 AL 4 ZBE 225 A 4 B680 834 834 W.54 1.5 22.1 25.02 1.3 16.5 22.39 2.4 25.1 20.20 1.3 83568 83721 84253 84392 82916 82752 82558 82654 81480 48993 49198 50609 50570 51459 51157 51541 51118 32094 32187 33309 33269 1.83 0. 2) Weight WUH with oil filling in mounting position B14.8 18.9 17.80TD ZBA 200 A 4 ZBE 200 A 4 B680 472 472 W.0 32.26 1.93 27 30 33 37 41 45 52 58 64 71 80 89 46 52 58 67 74 83 92 86 96 33 37 41 45 52 58 64 71 80 89 58 67 74 83 92 13285 11983 10657 9596 8680 7812 6775 6100 5569 5015 4412 3978 7763 6847 6148 5304 4774 4267 3833 4099 3689 12877 11595 10488 9439 8186 7371 6730 6060 5331 4807 7429 6409 5768 5156 4632 55.9 19.38 1..8 36.1 25.03 1.95 3.1 49..8 36.5.00 1.64 1.5 32.0 19.7 15.7 15.4 28.3 23.21 1.8 18.8 17.40 1.8 18.93 1.3 44.90 1.7 15..3 23.indd 45 n2 [rpm] M2 [Nm] i FR [N] 1) fB 37 41 45 52 58 64 71 80 89 41 46 52 58 67 74 83 92 67 74 86 96 7797 7052 6347 5505 4956 4525 4075 3585 3232 7013 6308 5563 4995 4310 3879 3467 3115 4290 3879 3330 2997 39.0 32.3.8 17.03 1.54 1.13 1.90 1.02 0.9 82635 79559 81031 81029 81743 81097 82284 81540 81213 80422 80532 79503 44303 46431 46695 48223 48148 48938 48702 30519 30674 75712 75731 77537 77372 78664 78172 78706 78025 78175 77307 42388 44627 44804 46044 46017 0.89 2.33 107 2684 13.09 1.47 1.8 17.0 32.25 2.0 19.9 21.100TD ZBA 200 A 4 ZBE 200 A 4 B680 750 750 W.02 2.72 3.1 20.8 17.4 28.90TD ZBA 225 AL 4 ZBE 225 A 4 B680 644 644 W..5 22.2 28.36 1.2 Selection tables Angular geared motors Single speed 30 37 2031513c_en_300812.47 1.3 16.51 Weight [kg] 2) Gearbox Motor Brake W. 30TD ZBA 63 B 8/2 B003 23 W.65/4.77 1.87/3.45 2.03/3.84 1.10 1.5 24.34 156 Weight [kg] 2) Gearbox Motor Brake W.04 2.94 1.68 3.7/30 8..indd n2 [rpm] 3 P1 [kW] .2/13.9 2.07 3.35/1.6/10 2.1/8.5 13..5 2031513d_en_300812.6 16.93/8.9/16 1.40/7.40/2. 2) Weight WUH with oil filling in mounting position B14.22/3.78/3.2 68.88 3.45/3.9 12.36/3.5/9.96/3.6/30 9.7/11 2.2 56.33 11..69/2.09/0.1 90.36 1.08/3.78/9.9/15 4.5 2.87/1.51 1.2 18.5.72 3.44 7.9/20 5.55/1.0/7.48 0.1/16 4.48 1.5/34 10/40 6.1/8.47/5.4 68.2/13 3.70/1.6 22.9/12 3.6/18 5.5/18 4.8 2.60QD ZBA 71 B 8/2 B003 89 W.2 2.35 1.9/7.11 2.40TD ZBA 71 B 8/2 B003 30 1) FR refers to types WUV and WGV.0 100 90.86 2.89 3.5/14 3.6 2.4 27.29 1..2 48.92/2.08 2.79/1.20DD ZBA 63 B 8/2 B003 17 W.76/6.15/1.22 5.05/2.67/2.5/12.6 39.40TD ZBA 63 B 8/2 B003 29 W.29 2.06/0.3 Selection tables Angular geared motors pole-changing 8/2 M2 [Nm] i FR [N] 1) fB 0.6/14 3.60/1.48 3.46/2.00 2. refer to the Drive Designer for these values.6/10 8.2/36 10/40 11/44 12/49 14/57 16/63 18/70 20/77 23/90 25/99 28/111 31/123 37/147 41/163 48/188 53/208 61/239 1.4/21 6.75 1.26/1.55 2.0 14.81/1.39/1.14/2.26/4.1/8.93 3.81/2.44/3. Lower FR values are permitted for WFV.95/1.4/8.0 62.42/1.42/2.5 2.34 2.0.10DD ZBA 63 B 8/2 B003 15 W.3 30.37 3.2 2. motor with standard brake.25 1.4 388 351 313 371 331 270 10000 10000 10000 10000 10000 10000 10000 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 16000 16000 16000 10000 10000 10000 1.98/0.24/1.06 8.9/7.24/1.5/10.21/2.1/24 7.70 6.20TD ZBA 63 B 8/2 B003 19 W.66 1.8/7.56/2.1/28 7.3 43.44 5.7/15 4.5.2/13 3.66/1.53/3.59 4.70 1.2 2.96/1.4 2.59 1.9/27 7.52 1.9/7.28 3.8 14.87 2.85/2.4 2.0 35.77/3..6 75.32/2.09/2.8/11 3.21 4.30 2.3/13 3.85 0.97/5.18 1.03 3.4 2.07/2.1 11.22/3.79 3.8/23 6.8 485/446 439/404 391/360 403/371 360/331 294/270 371 331 270 244 215 194 175 369 334 286 259 234 211 186 168 150 136 118 107 279 241 217 195 177 155 140 127 114 97..4/26 2.9 1.52 9.3.73 2.49 4.07 4.20 1.78 2.1 81.6/10 268/281 239/251 195/204 178/187 155/163 142/149 126/132 266/279 244/256 207/216 189/198 169/177 154/159 134/141 123/126 108/111 99/102 85/88 78/80 204/214 174/182 158/166 141/148 129/136 112/117 102/107 92/96 83/87 70/73 65/68 59/62 50/52 72/76 66/69 54/57 50/52 45/47 41/43 35/37 32/33 28/30 26/27 22/23 20/21 18/19 16/17 13/14 12/13 10/11 9.34 3.. Dimension sheets section 3.74/1.9/11 3.1/20 5.2/8.18/2.4/9. 3 10.10/1.17 2.4/18 5.08 3..05 9.77 1.6/23 2.5/18 4.56 2.1/17 4.89/2.45 Weight [kg] 2) Gearbox Motor Brake W.11/0..55 2.4 27.62 0.20DD ZBA 71 B 8/2 B003 18 W.47/1.09/3.97/4.18/3.50/2.86/2.45 6.54 1.16/1.32 2.0.48 2. Lower FR values are permitted for WFV.4 12.73 1.1 11...20 1.9/12 3.31 4.1/29 7.4 2.8/7.0 100 90.18 3.7/11 2.49/7.6/19 5.5.96/3.34/2.3.86 2.57/2.19/1.20TD ZBA 71 B 8/2 B003 20 W.2/13 3.5.03/1.9/16 4.6 16.46/10.41 1. Dimension sheets section 3.88 3.64 388 351 313 283 251 227 10000 10000 10000 10000 10000 10000 10000 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 16000 16000 16000 16000 16000 16000 1.04/2.77/1.8/11 3...22 2.5 157 .23/2.4/22 6.4 68.20/1.12 1.03 1.6 22.36 3.9/28 7.45/1.2 68.26 1.41 3.74 1.0 35.80/2.7/31 8.5 13.28/2.32 2.6/31 9.0/20 5.60/1.29 1.30TD ZBA 71 B 8/2 B003 24 W.7/15 4.13 3.33/9.63/1.72 2.2 18.0 58.91/5.06 2.59 3.4 8.65 3.5/11.6 39.61/8.2 48.93/6.0 62.2 56.87 2. refer to the Drive Designer for these values.4/26 3.6 2.96 2031513d_en_300812.31 1.06 7.09/0.11 2.17 2.94/2.95 3.1/20 5.1/13 268/247 234/215 213/196 190/175 174/160 149/137 135/123 311/286 285/262 254/234 232/211 202/186 185/168 163/148 150/136 128/116 118/107 212/195 195/179 169/155 154/142 138/127 125/115 106/97 98/90 90/82 75/69 64/59 58/54 109/100 100/92 82/75 75/69 68/62 62/57 53/48 48/44 42/39 39/36 33/30 30/28 27/25 24/22 20/19 18/17 16/15 14/13 13/12 11/11 9.indd 0.63 2.79/1.2/9. 2) Weight WUH with oil filling in mounting position B14.6/8.59 1.70/3.21/2.83/3.60QD ZBA 80 A 8/2 B007 95 3 P1 [kW] 1) FR refers to types WUV and WGV.40TD ZBA 71 B 8/2 B003 30 W.63/3.3 Selection tables Angular geared motors pole-changing 8/2 n2 [rpm] M2 [Nm] i FR [N] 1) fB 0.57 1.2/37 10/41 11/45 12/49 14/58 16/64 18/71 20/79 23/91 25/101 28/113 31/125 37/149 41/165 48/192 53/212 61/244 66/267 80/322 1.73 1.5/13.1 81.6 75.88/3.15 1.3/13 3.1/24 7.8 14.02 2.10DD ZBA 71 B 8/2 B003 15 W.4/9.1 90.2 2.06/1. motor with standard brake.2 2.30/1.6/14 3.5/10 2.43 2.5/14 3.9/16 4.30/1.02/2.5/34 10/41 12/47 13/52 6.94/1.34 2.13/3.7 53.49/4.8/11 3.42/1.93 1.14/2.9/20 5.5 24.7 2.8/24 6.36/3.8 582/582 527/527 470/470 425/425 377/377 341/341 244 215 194 175 158 137 123 286 259 234 211 186 168 150 136 118 107 195 177 155 140 127 114 97.88 4.3 30.34 5.3 43.67/2.59/1.4 10.27 8.56/2.63/2.43/3.0/8.88/2.59/3.91 3.32/2.79 1.41 1. 20TD ZBA 80 A 8/2 B007 26 W.09 2.76/3.58 3.1 81.7 43.48 1.3 43.44/2.6 39.3.16/1.65 1.19/2.40TD ZBA 80 A 8/2 B007 36 W.5/19 5.5/23 6..18/1.40 2.55/1.95/2.58/2..2/9.7 53.2 56.21 1.23 2.4/26 7.3/14 3.99 2.31 3.6/35 10/42 12/49 13/54 15/60 16/67 7.6 75.97/0.22/3.95 2.70/1.10DD ZBA 80 A 8/2 B007 22 1) FR refers to types WUV and WGV.78/1.56 0.99 1.42 1.9/12 3.86/1.97 1.19 2.16 1.5.33/1.1/21 5.9/7.1 155 140 127 114 97.42/1.4 69.36/2.2 68.08 1.58 1.02/3.80/3.0/12 3.45 1.70 1.00 1.4 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 1.3/38 10/42 11/46 12/51 14/60 16/66 18/74 20/82 23/95 504/504 461/461 416/416 380/380 328/328 300/300 271/271 248/248 213/213 484/484 432/432 352/352 322/322 281/281 256/256 228/228 209/208 179/179 162/162 144/143 131/131 342/342 305/305 279/278 243/243 222/221 196/195 180/179 154/154 141/141 118/118 107/107 91/91 83/83 202/202 185/185 166/166 150/150 127/127 118/118 107/107 90/90 77/77 70/70 62/62 56/56 131/131 120/120 98/98 90/90 81/81 74/74 63/63 58/58 51/51 47/47 40/40 386 349 319 288 251 227 208 188 163 371 331 270 244 215 194 175 158 137 123 110 99.80 3.96 0.7/15 4.indd 3 pole-changing 8/2 .59 1.3/18 1.30TD ZBA 80 A 8/2 B007 30 W.08 1.76 1.10 2.4/18 5.62 3.00/1.1/8.03/1.07 3.8/7.92 2..55 1.56/3.67 2.0/16 4.36 1.95/1. 2) Weight WUH with oil filling in mounting position B14.5 2031513d_en_300812.6/11 2.69/1.02 Weight [kg] 2) Gearbox Motor Brake W.1/25 7.61 2.5 2.34 1.20DD ZBA 80 A 8/2 B007 24 W.0/29 7. motor with standard brake.59/1.62/3.3 Selection tables Angular geared motors 158 P1 [kW] n2 [rpm] M2 [Nm] i FR [N] 1) fB 0.96/3.08/1.44 2.16 1.74 1.62/1.8/11 3.3 2.4/14 3.2 48.90 2.0/8.3/13 3.40/2.1 90.4/10 2.0 62.95 3.99 2..23/2.03 1.07/3.0 2.64 2.81/2.5/27 7.1/21 5.8 2.2/30 7.87 3.50TD ZBA 80 A 8/2 B007 63 W.78 1.58/1.4 68.92/1.14/1.30 0. refer to the Drive Designer for these values.81 3.22/1.80/2.5.90/1.84/1.1 81.0/29 2.86 2.7 2.41 1.0..7/32 9. Lower FR values are permitted for WFV.92/0.09/2.30DD ZBA 80 A 8/2 B007 28 W.67/2.99/0. Dimension sheets section 3.49/1.6 259 234 211 186 168 150 136 118 107 90.62 1.7/23 6.48/1.86/2.36 2.92 1.22 1.3 30.6/15 4.8/15 4.08/1.0 58.8 63.11/0.34/1.21/3.22 3.8/32 8.8/32 8.34/1.74/1.21/1.1 100 90.21 3.6/35 10/41 11/46 4.86 3...33 1.9/24 6.0/21 5.48/3.1/13 3.0 47.36/1.2/17 4.7/19 5.7/11 3.61/2.08/2.10/2.0 35. 5 2.2 2.30TD ZBA 90 A 8/2 B007 33 3 P1 [kW] 1) FR refers to types WUV and WGV.96/3.55 3.01/0.9 270 244 215 194 175 158 137 123 110 99.22 3.4 10.88/2.06 1.35 2031513d_en_300812.4/26 7.70QD ZBA 90 A 8/2 B007 150 W.6/27 36/36 32/32 29/29 24/24 22/22 19/19 17/17 15/15 14/14 12/12 9.74/3.3/9. 2) Weight WUH with oil filling in mounting position B14.1 2.17 2.90 2.10/4.44 2.37/2.85/2.3/18 4.7/24 6.79/2.indd 0.82/1.0/8.4/14 3.66 Weight [kg] 2) Gearbox Motor Brake W.95/3.8/15 4.70 3.0/8.31/3.6 16.96/1..33 3.58 1.6 90.4/10 2.0.8/16 4.49 1.2/9.97/3.74/8.66 1.3 2.2 18.5 13.31 1.56 2.5/14 3.11/0.8/32 8.8/7.18/3.2/21 6.43 1.6/15 4.5/18 5.40DD ZBA 90 A 8/2 B007 35 W.9/12 3.21 1.67/1.16/0.18 3.33/1.52 3.3 2.94/4.01/3.41 3.95 2.64 6..8/12 3.53/3.3 2.2/17 4.79 3.0 878/879 785/786 704/705 629/630 854/855 772/773 689/689 623/623 552/553 499/500 449/449 405/405 341/341 739/740 676/676 611/611 558/558 480/481 439/440 398/399 364/364 312/312 287/287 232/233 212/213 193/194 517/517 472/473 412/412 376/376 335/335 306/306 262/263 238/238 211/211 193/193 174/174 155/155 142/142 127/127 356/356 325/326 287/287 263/264 226/226 207/207 27.8/12 3.56/2.59/2.15/1.0 73.44/2.87 3..74 4.75 1.74 10.8 81.94 0.00 3.49/1.97 1.3.1/13 3.31/1.2/9.6/40 11/44 3.20/2.77/3.1 11.4 2.5 159 .2 66.8/7.0/9.75/1.7/19 5.01 2.6 22.1/21 5. motor with standard brake.82 2.4 8.88/7.8/16 4.88 8.95 1.46/1.84 3.18 1...0/17 4.55/3.44/3.17/2.97 1.8/7.41 6.58/1.43/1.34/6.94 7..5/10 1.01/2.23/3. Dimension sheets section 3.4/13.59/1.10 4.63 1.35 1.12 1.10DD ZBA 80 A 8/2 B007 22 W.4/10.06/1.93/0.1/29 7.94 5.56 4.96 0.22/1.3 Selection tables Angular geared motors pole-changing 8/2 n2 [rpm] M2 [Nm] i FR [N] 1) fB 0.5.18/1.1/29 2.41/5.9/24 6.14/3.8/20 5.33/3.73 399 357 320 286 388 351 313 283 251 227 204 184 155 386 349 319 288 251 227 208 188 163 148 120 111 99.08 1.12 1.20 2.70/2.63/1.1/13 3.25/1.5/19 1.60QD ZBA 90 A 8/2 B007 98 W.4/26 7..34 6. Lower FR values are permitted for WFV.3/14 3.2 186 168 150 136 118 107 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 16000 16000 16000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 5600 5600 5600 5600 5600 5600 3.6/11 2.94/6.96 1.24 2.4 13.40TD ZBA 90 A 8/2 B007 39 W.10/1.5.5 2.8 14.45 25/105 28/117 32/130 38/155 42/171 48/199 53/220 61/253 67/277 81/333 104/428 1.0/25 6.96 2.93 1.5 24.50TD ZBA 90 A 8/2 B007 66 W.97/0.5/10 2.3 2.31 3.1 2.25 2. refer to the Drive Designer for these values.0/8.08/1.33 1.91/1.7/36 9. 5/11.16/1.14/2.0/16 4.2 160 Weight [kg] 2) Gearbox Motor Brake W.2 2.06/3.2 2.97 1.3 30.7 53.79/2.19/2.0 35.58 3.0 51.55/2.75/3.95/1.56 4.73 5.34/3. motor with standard brake.86/3.6 1. Lower FR values are permitted for WFV.42/1.27 1.01/2.8 14.5/18 2.3 43.1 81.80 0.64 6.5.95/1.0 47.1 81.30/1.0 58.09 2.19 3.78/1.47 3.10 11.8/7.10 0.8/11 3.8/11 1.3 2.19 2.89/3.5.11/9.25/2.3/9.70/2.48/3.95 7.43/2.2 56.73 5.30DD ZBA 90 A 8/2 B007 31 W.2 48.08/1. Dimension sheets section 3.73/4.25 2.8 34.4 8.31/3.1 37.6 39.3/9.78 1.80/2.9 27.2 30.20DD ZBA 90 A 8/2 B007 27 W.16 1..0 62.58 4..37 5..24 2.91 1.74 0.66 7.32 4.55 2.4 68.31 3.70 3.17/2.91/0.96/5.indd n2 [rpm] 3 P1 [kW] .98 1.0/8.3 2.3.6 22.60QD ZBA 90 B 8/2 B020 106 1) FR refers to types WUV and WGV.21 3.91 2.6/14 4.61/1.06 2.5 2.1/13 3.37 3.09 9.91/0.9 68.05 3..91 1.2/26 7.6/6.32 2.73 3.69/3.07/0.1 2.60 1.10 1.42 2.01/1.32/4.31/3.8/32 8.89 3.80QD ZBA 90 B 8/2 B020 214 W.81/3.68/2.74/1.42/2.52/2.7/36 10/42 11/46 12/51 14/57 16/64 6.3/9.1 2.42 1.09/2.31/3.70QD ZBA 90 B 8/2 B020 157 W.75 2.37/3.3 114 97.69 4.2 18.3 2.3 Selection tables Angular geared motors pole-changing 8/2 M2 [Nm] i FR [N] 1) fB 0.52 1.01 1.27/1.4 10.3/30 7.47/2.8 63.7 43. 2) Weight WUH with oil filling in mounting position B14.8/7.4 27.77 3.38/5.91/1..1 90.34 441 397 354 319 286 258 399 357 320 286 259 231 201 180 161 351 313 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 4000 3899 40000 40000 40000 40000 40000 40000 25000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 1.79 3.34 3.10/1.0.3 172/173 158/158 134/134 122/122 109/109 100/100 87/87 221/221 186/186 172/173 158/158 132/132 112/112 103/103 91/91 82/83 73/73 65/66 60/60 53/53 132/132 119/119 109/109 92/93 84/85 75/75 68/68 58/58 53/53 47/47 43/43 36/36 33/33 28/28 25/25 22/22 20/20 17/17 13/13 10/10 1588/1722 1429/1550 1274/1382 1148/1246 1030/1117 929/1007 1436/1558 1285/1394 1152/1249 1030/1117 932/1011 832/902 724/785 648/703 580/629 1264/1370 1127/1222 90.79 2.5 13.95 2.5 2031513d_en_300812.5 45.06/2.7/36 10/43 12/50 13/55 15/61 16/68 19/77 21/85 23/94 25/104 10/43 11/47 13/52 15/60 16/67 18/75 20/82 23/96 26/106 29/118 32/131 38/156 42/173 49/201 54/222 62/255 68/280 82/337 105/432 132/545 1.27/1.0/8.6 16. refer to the Drive Designer for these values.00 2.1/8..09/7.5 24..5/10 2.61 1.1 11.99 1.4 69.02 3.20/1.30 1.07 1.45/3.73/2.8/32 8.10DD ZBA 90 A 8/2 B007 25 W.02/3.5/10 2.76/1.20TD ZBA 90 A 8/2 B007 29 W.52/1.47 2.1 57.16/0. 65/1.70 2.0 51.75 3.7 21.66/2.6 8.15/2.5 61.8 26.0 1019/1105 904/980 817/886 734/797 662/718 558/605 504/547 450/488 407/441 295/320 244/265 223/242 193/209 176/191 284/308 254/275 232/252 207/225 190/206 165/179 134/146 123/133 282/306 258/280 219/237 200/217 179/194 163/177 142/154 130/141 115/124 105/114 90/98 82/89 184/199 168/182 149/162 135/146 120/130 107/116 98/106 87/95 75/81 67/73 60/65 53/58 48/52 43/47 37/40 33/36 28/30 23/25 17/19 2647/2565 2385/2311 2202/2134 1983/1921 283 251 227 204 184 155 140 125 113 94..2 2.5/14 3.76/1.48/1.84/1.1 28.64/2.53/3.17/1.02/5.01/3.11 2.88 2.indd 0.62 1.55/2.82 2.30DD ZBA 90 B 8/2 B020 39 W.27/2.7 11.5/10 2.2/13 3.85/1.4 69.3 40.45/1. 2) Weight WUH with oil filling in mounting position B14.20DD ZBA 90 B 8/2 B020 35 W.66/3.0/8.65/1.69 1.5 161 .7 10.79 3.7 43.46 4. Lower FR values are permitted for WFV.93/3.51/1.2/37 10/41 12/47 13/52 7.47 3.37 1.40DD ZBA 90 B 8/2 B020 43 W.5.77 3.18 1.2 30.72/3. Dimension sheets section 3.83/8. refer to the Drive Designer for these values.42/2.27/1.50DD ZBA 90 B 8/2 B020 68 W.14 2.15/3.9 38.8/40 11/44 12/49 14/55 17/68 19/75 8.8 63.28 3.03/2.09/1.46 2.03 3.00/2.30 5.3 Selection tables Angular geared motors pole-changing 8/2 n2 [rpm] M2 [Nm] i FR [N] 1) fB 0. motor with standard brake.8/36 10/42 11/46 13/51 14/57 16/64 18/71 20/80 22/88 25/101 28/112 12/50 14/55 15/61 17/68 19/77 21/85 23/94 26/104 30/123 34/136 38/155 42/171 47/191 53/212 62/249 68/275 82/333 102/412 132/534 1.37 4.69 6.02/1.41/2.07 5.23 2.63/2.64 2031513d_en_300812.35 7.49/1.00 1.35 2.1 2.69 2.9 36.14 11.0 70.0 73..08 1.1 37.68/2.41 3.33/2.90QD ZBA 100 B 8/2 B020 322 3 P1 [kW] 1) FR refers to types WUV and WGV.23 1.88 2.34/1.43 4.87/1.54/3..5.2/9.66/4.39 1.9/32 8.54 1.0 47.4 18.88/2.9 23.10 1.99 2...2 13.60QD ZBA 90 B 8/2 B020 106 W.8 Weight [kg] 2) Gearbox Motor Brake W.36/3.9 52.9 27.6 90.9/36 9.72 2.8 81.08/3.22 1.4/26 7.6/31 9.23/6..84 3.7 90.86 2.1 81.8/23 6.76 1.8/7.5 55.32/3.0 15.49 4.6 33.88 1.0/32 8.5/10.98/2.28/1.43 3.3 78.5 45.5 2.18/3.8 17.7 1.52 1.10 3.7 42.71/2.8 34.16/1.29/2.1 57.6/19 5.7 53.65 3.6/6.9/12 3.2 66.52 1.19/1.73 2.97/1.16 4.6 2.22 2.45 434 391 361 325 16000 16000 16000 16000 16000 16000 16000 16000 16000 14000 14000 14000 14000 14000 10000 10000 10000 10000 10000 10000 10000 10000 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 65000 65000 65000 65000 1.1/21 5.83 4.2 59.90 3.04/1.76/3.67/1.40/4.58/3.3.06 2.73 7.9/16 4.33/1.15/3.38 1.0 58.04/1.0.67 8. motor with standard brake.3 61.1 57.37 2.8 81.24 1.7/40 11/44 12/49 13/55 17/68 18/75 21/87 24/97 26/108 29/119 11/46 12/51 2690/2606 2422/2346 2159/2092 1946/1885 1745/1690 1574/1525 1354/1312 1220/1182 1086/1052 2434/2358 2178/2110 1952/1891 1745/1690 1580/1531 1409/1365 1226/1188 1098/1064 982/952 878/851 769/745 689/668 1385/1342 1244/1206 1122/1087 946/916 854/827 762/739 689/668 580/562 525/508 467/453 423/410 376/364 500/485 414/401 378/367 326/316 298/289 270/262 247/239 212/205 194/188 172/167 482/467 430/416 393/381 351/340 322/312 280/271 228/221 208/201 177/172 162/157 143/139 131/127 339/328 302/293 441 397 354 319 286 258 222 200 178 399 357 320 286 259 231 201 180 161 144 126 113 227 204 184 155 140 125 113 95.82/2.66 2.50DD ZBA 100 B 8/2 B020 71 W..20 1.62 2.30DD ZBA 100 B 8/2 B020 41 1) FR refers to types WUV and WGV.49/1.31 1.95/3.00 1. refer to the Drive Designer for these values.indd 3 pole-changing 8/2 .40DD ZBA 100 B 8/2 B020 46 W.3 2. 2) Weight WUH with oil filling in mounting position B14.73 4.35 4.6/23 6.77/1.13/3.4/18 4.80 1.8/32 8.96/2.3/38 10/42 12/47 7.08/3.29/2.3.68/3.6 50.25/3.. Dimension sheets section 3.6/15 4.5 90.3 2.59 1.36 3.85/2.2 59.78/3.2 27.0 70.63 1.4 63.77/1.42/1.1/21 5.9/20 5.8/7.83 2.1 86.07 1.5/31 8.3 Selection tables Angular geared motors 162 P1 [kW] n2 [rpm] M2 [Nm] i FR [N] 1) fB 0.5.70QD ZBA 100 B 8/2 B020 160 W.63 1.96/2.05 3.5.56/1.09 2.9/16 4.71 3.2/9.64/4.48 2.71 1.7 33.1 2.45/1.02 2.9/16 4.02 3.55/2.97/1.4 30.5/14 3.30 2.7/23 6.85/1.28/1.6/19 5.01 1.04/1.60 1.2 2.5/15 3.94 0.1 2.98 3. Lower FR values are permitted for WFV.2 66.89/2.97/1..47 1.19/3.8 1.6 94.6/6.9 52.16/1..0/8.3/26 3.83 1..8/11 3.2 2.28/3.49/3.27/1.18 3.47 1.43/1.80QD ZBA 100 B 8/2 B020 217 W.18 1.12 1.0 39.9 46.6 69.38 3.20/2.3/26 7.3/34 9.7/11 3.11/2.0.5 61.91 2.91 3..0/8.48 1.0 24.0/16 1.63 2.1/37 10/41 12/47 13/52 14/57 15/63 18/73 20/81 22/90 7.43/1.06 1.93/1.24/3.54/2.5/31 9.57/2.79/1.0 76.1/13 3.9 38.5/10 2.40 2.30 3.58/1.74 0.57 2.8/7.59/3.53 1.10 2.0 40000 40000 40000 40000 40000 40000 40000 40000 40000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 10000 5600 5600 1.32 1.85 2.82/3.08/1.5 2031513d_en_300812.01 1.28/2.3 78.35 2.41/2.1/13 3.13 Brake Weight [kg] 2) Gearbox Motor W.58/1.45/2.03/1.33/2.60 3.63/3.60QD ZBA 100 B 8/2 B020 109 W.65/1.20/1.60TD ZBA 100 B 8/2 B020 95 W.27 2.2/13 3.9 36.60/1.0 73.1 32.70 1.5/10 2.06/2.8/36 9.15/1.6 1.7 42.88 2.5 55.68/2.12 2.2/9..04/2.94 3.09/1. 8/7.99/1.21/5.2 30.83 3.56/3.76/6..10 3.0/16 1.43 3.30DD ZBA 100 B 8/2 B020 41 W.4/14 4.6 1.76/1.6 16.45/1.9 27.79 1.7 11.23 2.14/1.3 40.3.31/2.92/1.5 1.44 2.45/2.36/2. Lower FR values are permitted for WFV.28/1.63/3.8 2.15 3.19/1.8/7.78 0.89/3.16/2.27/4.8 26.5 18.56/2.22/2.5/14 3.5.83/2.42/1.78/1.62 1.98/2.74/2.98/2.28/2.80QD ZBA 112 A 8/2 B050 248 W.27/2.14 1.1 2.88 2.23 1.48/1.70/1.64/1.1 28.5 163 .4/10 2.06/2.53 2. 2) Weight WUH with oil filling in mounting position B14.0.4 2.8/7.18/3.92 2..2 13.5 45.25/3.05 2.20DD ZBA 100 B 8/2 B020 38 W.50/1.70QD ZBA 112 A 8/2 B050 191 3 P1 [kW] 1) FR refers to types WUV and WGV.40 1.50 3.0 Brake Weight [kg] 2) Gearbox Motor W.91/3.0 2.0/8.08 3.4 18.5/14 3.66/3.9 36.2/9.2 2.15 2.7/11 3.6/23 6.86/1.3 Selection tables Angular geared motors pole-changing 8/2 n2 [rpm] M2 [Nm] i FR [N] 1) fB 0.13 1.2/13 3.38 6.4/5.5/10 2.29 2.17 3.6 8.0/12 3.7 20..98 2.6 33.3/9.10/1.84 3.00/3.65/1.8 34.80TD ZBA 112 A 8/2 B050 216 W.39 1..9/8.9/16 4.5 2.6 1.79 2.0 22.55 2031513d_en_300812.57/1.15/3.2/25 6.8 37.25 1.55 1.82 1..75 2.73 7.35/1.9/16 4.9 1.98 0.27/1.94 1.01 1.5.3/18 5.34/3.39 1.08 1.15/1.55 1.61 1.02 1.90QD ZBA 112 A 8/2 B050 354 W.0/21 5.3 1.80/3.42 1.04/1.53 4.47 2.21/3.80 1.54 3.99/1.8 17.3/18 276/268 240/233 220/213 194/188 178/172 153/148 140/135 120/117 110/107 99/96 90/87 203/197 181/176 166/161 148/143 127/123 114/110 101/98 90/87 82/79 73/70 63/61 56/55 47/45 38/37 30/29 5287/4850 4763/4370 4153/3810 3739/3430 3303/3030 4731/4340 4262/3910 3935/3610 3543/3250 3030/2780 2736/2510 2474/2270 2224/2040 1918/1760 4327/3970 3859/3540 3477/3190 3117/2860 2812/2580 2420/2220 2180/2000 1940/1780 1755/1610 1515/1390 1373/1260 1232/1130 1101/1010 2518/2310 2191/2010 1962/1800 1755/1610 51.48 2.2/8.7 10.0/8.75/2.0 15.64/2.96 0.96 1.indd 0.45 485 437 381 343 303 434 391 361 325 278 251 227 204 176 397 354 319 286 258 222 200 178 161 139 126 113 101 231 201 180 161 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 5600 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 4100 85000 85000 85000 85000 85000 65000 65000 65000 65000 65000 65000 65000 65000 65000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 25000 25000 25000 25000 1.52 2.8 14/57 16/64 17/71 19/80 21/88 25/101 27/112 31/128 35/142 38/157 42/174 19/77 21/85 23/94 25/104 30/123 33/136 38/155 42/171 47/192 52/213 61/249 67/275 81/334 100/412 130/535 1.6/6.21/1.63/3.8/11 3.9 23.25 2.07 5.00 2. Dimension sheets section 3.9/28 3.83/3.42/1.52/2.45 3.1/13 3.37/1.. refer to the Drive Designer for these values.100QD ZBA 112 A 8/2 B050 544 W..24 1.0 2.24 1.40 5. motor with standard brake.10 3.65/3.7 21.6/6.75 1. 76 4.33 2.82 6..9/20 5.50/1.6 11.60/2.1 13.52/5.83/1.00/1.59/1.9 45.75 10.48/3.76 4.00 1.79 5.24 7.26/3.80/3.37 4.4/30 8.14/2. Dimension sheets section 3.21 2.7 42.40DD ZBA 112 A 8/2 B050 77 W.1/37 10/41 11/47 13/52 14/58 16/64 18/76 20/84 9.2 10..01/2.44/1.79 1.9 46.6/35 9.7 19.6 69.84 2.6 20.30/1.33/2.25/2.0/37 9.75 2.15/3.4 22.09 1.5 2031513d_en_300812.44 8.57 1.72/3.88 1.1 38.37/1.4 9.7 49.18/1.7/32 8.41 6.87 485 437 381 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 10000 10000 10000 10000 10000 10000 10000 9989 9970 10000 10000 9896 9835 9661 9292 9358 8933 8766 8556 8296 85000 85000 85000 1.42 3.45 2.11 3.50DD ZBA 112 A 8/2 B050 102 W.70 8.6 55.48/2.34 1.54/2.6 1570/1440 1373/1260 1232/1130 1112/1020 992/910 891/817 796/730 719/660 1037/951 937/860 835/766 755/693 671/616 607/557 544/499 492/451 414/380 374/343 740/676 676/618 583/533 533/488 483/441 441/403 378/346 346/317 308/282 256/234 234/214 206/188 188/172 161/147 500/458 407/373 371/341 317/291 290/266 256/235 234/215 214/197 197/180 168/154 153/141 132/121 121/110 107/98 99/90 91/83 80/73 72/66 63/57 56/51 47/43 38/34 7275/7227 6555/6511 5715/5677 144 126 113 102 91.58/1.72 1.0.6 50.61 1.26/3.6/6.21 2.10/2.95/9.06 3.77 2.24 1.07/4.5 61.0 4.14/4.0 1.08/1.1 32.9/41 11/47 13/52 14/56 15/62 18/72 19/80 22/88 26/106 29/118 32/132 36/146 41/169 13/54 16/67 18/74 21/86 23/95 26/106 29/118 31/127 34/140 40/162 44/179 50/206 56/228 63/256 67/276 74/304 85/348 93/382 108/444 122/498 144/591 181/742 1.11 1.71 2.100QD ZBA 132 C 8/2 B050 558 1) FR refers to types WUV and WGV.99 3.79/4.61/3.70TD ZBA 112 A 8/2 B050 170 W.5 164 Weight [kg] 2) Gearbox Motor Brake W.73/1.0 95.11/1.37 1.1/33 9.65/4.9 38.5 55.42 1.95/2..0 24.43 4.2 27.25 3.9 1.2/25 6.indd n2 [rpm] 3 P1 [kW] ..3/13.42/3.3 61.98/3.19 2.7 73.47 1.8/7.94/6.4 21.0 39.98 2.79 3.13 2.5 27.54 2.5 17.5. refer to the Drive Designer for these values.70QD ZBA 112 A 8/2 B050 191 W.89 5.0 81. Lower FR values are permitted for WFV.52 1.3.66 1.9 12.0 66.0 34.1 86.6/23 6.37 3.98/8.11 1.62/1.51 6.65/1.0 76.79/1.42 2.66/1.25/6.3 Selection tables Angular geared motors pole-changing 8/2 M2 [Nm] i FR [N] 1) fB 0.55 3.95 2.0 13.1/4.9 36.32 7.60TD ZBA 112 A 8/2 B050 127 W.52/2.99 2.9/28 7. 2) Weight WUH with oil filling in mounting position B14.14/3.81/3.7 16.22/2.0 70.08/2.6 1.94 1.75/2.00 4.6/11.3 78.81/1.59/4..5.0 52.74 1..03/2.35/1.82/1.4/5.86 3.31/2.6 17.23/1.55 3.46 5. motor with standard brake.4 30.6/39 11/43 7.76 1.0 24.79 2.7 33. 17/1.38 2.94 Motor W.5 27.60TD ZBA 132 C 8/2 B050 141 1) FR refers to types WUV and WGV.63/1.97 3.2/8.0 66.18 1.66 0.6 1.6/35 9.04/2.04/1.9/28 7.47 1.25/3.67 1.47/1.6/23 2.9/16 4.86/1.5.5 2.31 1.19/1.5 n2 [rpm] M2 [Nm] i FR [N] 1) fB 2.6/6.9/16 4.80/1.87 2.05 1.9/20 5.6 23.68/1.4/10 2.6 69.28/3.01 2.04 1.1/4.36/3.73 0.9/8.64/2.82 2.8/7.26/3.7/32 8.0 51.93/0.28/2.30 2.29/1.95 3.62/1.0/16 4.93 2.21 1.3 30.37/2.28 3.7 49.12/2.4 73.0/8.0/21 5.33 1.4 1.6/23 6.95 1.33/2.indd 1.93/0.32/1.84 2.2/25 6..8 95.27 3.07 2.3/9.36/2.4/18 5.9 45.3/18 5.91/3..3.7/11 3.0.33/3.95/2.30 3.0/21 5. 2) Weight WUH with oil filling in mounting position B14.95/0.3/18 4.36 3.46/1.38 3.93 1.64 1.5 Brake Weight [kg] 2) Gearbox 3 P1 [kW] 165 .83/1.92/1.1/13 3.06/2.6/11 2.13 2..38 2.74/3. Dimension sheets section 3.1/38 10/42 11/47 13/52 14/58 16/64 18/76 20/84 23/94 25/104 30/125 5145/5111 4545/4515 4095/4068 3570/3546 3210/3189 6510/6467 5865/5826 5415/5379 4875/4843 4170/4142 3765/3740 3405/3382 3060/3040 2640/2622 2370/2354 2100/2086 1890/1877 4290/4261 3870/3844 3330/3308 3000/2980 2670/2652 2415/2399 2085/2071 1890/1877 1695/1684 1515/1505 1356/1347 1221/1213 1095/1088 2700/2682 2415/2399 2160/2146 1890/1877 1695/1684 1530/1520 1365/1356 1226/1217 1095/1088 990/983 885/879 769/764 687/682 1426/1417 1290/1281 1149/1141 1040/1033 924/918 836/830 749/744 677/672 570/566 515/511 458/454 414/411 345/343 343 303 273 238 214 434 391 361 325 278 251 227 204 176 158 140 126 286 258 222 200 178 161 139 126 113 101 90.66/1.0 34.48 1.4/14 4.94 1.20 1.2/25 6.66 2.69 1.80TD ZBA 132 C 8/2 B050 230 W.. refer to the Drive Designer for these values.67 2.53/2.03/1.70QD ZBA 132 C 8/2 B050 205 W.9 2.30 1.20/1.0 2.6/39 11/44 12/49 14/56 15/63 7.08 1.64/2.2/13 3.6/35 9.45 1.1 38.0 81.84 3.5.97 3.82/2.4 81.95/2. Lower FR values are permitted for WFV.6 55.0 180 161 144 126 113 102 91.0 85000 85000 85000 85000 85000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 65000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 40000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 25000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 2.6/23 6.4 2.4/30 8.7 73.90QD ZBA 132 C 8/2 B050 367 W.5/10 2.3 Selection tables Angular geared motors pole-changing 8/2 2031513d_en_300812.7/32 8.62/2..05/1.64 2.35 2.63 1.3 61.65/3.54 2.44/1.1 86.05 2.80QD ZBA 132 C 8/2 B050 262 W.00/2.0 76.17 1..51 1.5/14 3.0 59.70/3.70TD ZBA 132 C 8/2 B050 184 W.1/33 9. motor with standard brake.50/1.95/2.8/11 3.97 3.66 2.29/2.30/1.04 1.08/1.30 2.9/29 7.33/1.68 0.34 1.100QD ZBA 132 C 8/2 B050 558 W.3 45.16/1.3/13 1.6/39 3.76 1..9/12 3.93/2.64/3.65/2. 21 3.37/2.58 5.55/1.5 11/47 13/52 14/57 15/63 18/72 19/80 22/89 26/107 29/118 32/133 36/147 41/169 45/187 53/220 59/244 18/74 21/86 23/95 26/107 29/118 31/127 34/140 40/163 44/180 50/207 56/229 63/257 67/277 74/305 85/350 93/383 108/446 122/500 144/593 181/744 803/795 734/727 664/658 607/602 521/516 477/472 424/420 352/349 322/319 283/281 259/256 222/220 203/201 171/169 156/154 511/507 436/433 399/396 352/350 322/320 295/293 271/269 231/229 211/210 181/180 166/165 148/147 136/135 125/123 110/109 99/98 86/86 77/76 65/64 52/51 61.7 16.56 1.5 17.99 1.97 3.4 22.1 11.08 1.0 24.indd 3 pole-changing 8/2 .6 17.5 2031513d_en_300812.0 13.22 4.25/1. 2) Weight WUH with oil filling in mounting position B14.4 13. motor with standard brake.60 0.0 39. refer to the Drive Designer for these values.04/4.87 W.6 20. Dimension sheets section 3.76 4.70/1.55 7.68 W.1 32.68/8.68/1.1/4.08 2.01/2.01/2.98 4.76/2.47 9.59 2.24 7.89/1.4 30.0 15.86 3.84 6.5.23/1.7 33.86 2.9 36.24 5.92 1.62 4.55/4.70 Motor Brake Weight [kg] 2) ZBA 132 C 8/2 B050 116 ZBA 132 C 8/2 B050 91 1) FR refers to types WUV and WGV.00/0. Lower FR values are permitted for WFV.8 38.5 55.2 10.5 27.68/3.26 3.0 24.18 2.87 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 14000 10000 10000 9979 10000 9994 9941 9933 9960 9840 9802 9790 9741 9706 9598 9292 9358 8933 8766 8556 8296 fB Gearbox 1.20 1.44 8.5.38/3.48/2.43 1.02 1.50/6.6 50.51 6.26 1.15/1.6 11..34/2.4 21.32/1.68 3.80/5.0.9 46.70/2.50DD 2.54/1.3 Selection tables Angular geared motors 166 P1 [kW] n2 [rpm] M2 [Nm] i FR [N] 1) 1.28 4.3.7 19.9 12.71/7..46 5.98/0.4 9.15 1.71/2.33 1.48 1.2 27.42/1.16/2.09/1.20/1.18/3.38 2.01/3.52 3.71 1.68/3.40DD 3.85/1. 7 .87 . 1) For the possible transmission ratios for the corresponding 4-pole Z.3 27.251 113 .7 .5 .A1) 180A – – – Z.485 – 485 – 140 .8 .90.38 13.Motor W 10DD Possible transmission ratios for gearbox size W 40DD W 50DD W 60TD W 70TD W 40TD W 50TD W 60QD W 70QD 66.8 .94.9 – 15.68 – 5.6 .9 .1 97.1 107 .90.399 3.46 .3 .5 .434 71.7 9.87 .35.113 126 .102 – – 113 .94 .6 .441 15.371 99.90.90.33.3 .9 and should not exceed 15.434 45 .3 20.9 .5 .8 – W 30DD W 30TD 40.0 .45 .3 34.6 .102 – – – 113 .58.6 – 6.45 .388 113 .485 – 121 .A1) 132B ZBF Z.3 12.1 97.1 – 5.4 – 16.388 33.371 113 .94 .9 .A1) 16.113 121 .388 113 .397 41.24 .94.46 12.155 8.113 126 .A1) – 100A(L) ZBF Z.A1) 90A Z.6 .9 .399 3.A1) 225B – – – – Z.90.178 21.113 126 .6 .90.111 126 .371 113 .90.113 126 .94 .5 .7.8 .270 99.A 71A ZBF Z.90.8 4.2 9.90.113 126 .21.95. refer to the speed/output overviews in section 2.6 .1 107 .34 .91 12.180 4.5 .90.6 .5 – 16.95.7 .5 .6 .1 17.434 – 278 .3 .9 .388 16 .78.13.102 99.73 .2 .485 16.195 5.90.34 .399 3.8 15.A1) 180B – – – Z.8 – – – 99.66.8 36.5 .399 3.90.87 .279 10.485 – 121 .A 63A ZBF Z.68.1 13.1 107 .386 113 .6 .5 .113 121 .4 Selection table (direct input) Angular geared motors Overview 20315044_039 2031513e_en_300812.88.381 16.51 .5 .334 10.34 .388 33.90.90.371 113 .111 126 .441 45.4 .45 .91 .100 – 5.94.434 – 126 .186 5.90.102 – – – 113 .34 .45 .9 .434 45 .87 .8 7.24 .6 .7 .90.1 107 .113 126 .90.7 – – – – 13.07 .6 .126 4.5 .2 – 15.9 .3 12.23.5 .A1) 80B Z.78 .95.6 – 5.9 .52.7 .3 .7 .6 .4 12.7 .7 .286 6.1 17.2 .A1) – 100B Z.81.485 32.1 .27.17 – – – 126 .386 113 .55.113 121 .3 .3 .4 .441 24.485 70.34 .6 . 167 .1 102 99.7 – 5.114 5.90.A1) 200A – – – Z.259 9.7 .95.286 22.76 .78 .111 126 .259 5.113 121 .113 126 .485 – 303 .1 59.9 .59.58.3 20.52.41 – 15.113 126 .78.111 126 .113 126 .A1) – 112A ZBF Z.9 .A 63B Z.2 .25 – – – – 4.7 .6 .95. Since the outputs and number of poles of the motors are not considered here.100 – 5.111 126 .234 5.1 28.95.51 .386 113 .5 .24 .485 – 190 .5 .94.42.1 107 .351 113 .61.49.4 .64 .4 4.63.8 .1 107 .441 15.399 3.113 126 .A1) 160A(L) – – – Z.45 .434 15.90.388 22.111 126 .7 – 16.222 15.0 12.24.5.1 13.111 126 .441 27.9 .1 17.8 – – – 99.5 12.90.7 .113 126 .A1) 132A(L) ZBF Z.9 .87 .90.40.1 97.19.1 97.0 14.4 4.95.2 9.87 .6 .2 – 15.07 .1 97.7 .1 .95.6 .1 41.90.1 .4 .8 – 15.227 15.7 – – – – – – 13.24.90.95.7 .8 – – – 99.94 .9 .259 3.7 .95.102 – – – 113 .94 .113 126 .1 .485 – 121 .3 .195 13.371 113 .397 65.90.A – – – – – – W 80TD W 80QD W 90TD W 90QD W 100TD W 100QD – – – – – – – – – – – – – – – – – – 73 .102 – – – 113 .95.3 .94.03 .111 126 .399 22.3 55.121 16.1 107 .90.8 11.1 45.399 6.1 .5 .4 .70.6 .259 14.34 .441 35.7 .44 .388 113 .7 .94.8 .5 – – 214 .102 – – 113 .434 – 176 .7 – 15.55.90.9 .113 121 .388 42.144 3.434 – 126 .371 99.07 .102 – – 113 .78 12.3 .94 .1 .2 . The duty factor must not be less than 0.8 – – – 99.0 .94 .7 .1 97.7 .7 .111 126 .8 – – – 99.6 .102 – – 113 .102 – – 113 .1 – 8.4 .369 17.1 17.90.0 .441 – 161 .434 15.9 6.7 .351 113 .90.95.8 .3 13.222 27.1 97.45 .14 13.6 .A 71B Z.68 – – 90B ZBF – Z.9 .100 – 8.434 111 126 .111 126 .113 126 .102 99.9 .94.100 – 5.8 .69.94.0 .1 107 .441 19.90.36.A1) 200B – – – Z.102 – – – 113 .0 12.434 15.90.1 .231 3.45 .485 – 121 .90.4 – 15.24 .7 .90.113 126 .279 13.140 113 .94 .7 – – – – – – W 20DD W 20TD 27.37.94.71.113 3.6 .6 .391 52.2.39 – 5.4 .485 16.7 .6 .113 121 .1 .1 107 .5.90.1 .113 121 .78.354 15.441 15.113 126 .9 .2 .59.9 .A1) 225A(L) – – – – Z.3 20.90.6 .9 .175 99.1 – – – – – – – – – – – – – – – – – – – 132C – – – Z.434 25.111 126 .66.7 – 5.3 .1 13.6 .434 17.1 97.8 – – – 99.9 .227 113 .126 15.113 126 .102 – – – 113 .111 126 .1 – 5.102 – – – 113 .44.286 15.1 107 .369 16.140 5.7 .8 .1 28.485 28. the selected combination must be checked together with the relevant duty factor.1 97.6 .90.6 13.399 4.8 – 15.100 – 10.399 13.113 121 .6 .195 7.87 .434 15.86 .3 12.1 .8 .3 .3 .0 – 5.1 .107 5.1 .87 .5 – 15.441 101 .6 .7 – 5.113 126 .17.A1) 160B – – – Z.0 .E motors.485 16.87 .90.8 .8 21.45 .76.8 .7 13.100 – 8.361 15.388 113 .485 79.64 .9 4.24 .90.1 25.51 .388 10.6 .5 12.369 28.A 80A ZBF Z.113 121 .indd The table lists the possible transmission ratio ranges for the motor/gearbox combination for direct drive input.371 113 .371 155 .369 20.95.100 – 5.46 12.485 – 121 .388 113 .8 .102 – – – 113 .28.102 99.25.278 40.1 – 16.485 16.32.8 13.2 – 3 3.9 4.95.8 6.9 . indd 20315044_041 .0 417.5 211.5 35 40 45 50 27.3 35 42 50 55 60 qG qV s1 s2 w1 w2 w3 203.5 123.5 27.5 347. 160 / 180A 314 314 269 269 2xM40 2xM40 2xM50 2xM50 273 273 173 173 20315044_144 168 2031513e_en_300812.5 327.. 112/132 260 260 185 185 2xM32 2xM32 2xM40 2xM40 273 273 173 173 ZN.0 3. ZB.0 3. X 1.5 114 134 154 183 208 113.5 209.5 28.0 3.3 162.4 185. 50 kG/kV 3 qV qG 42145344. 63/71 AC AD dv (M.3. ZB.5 234.0 256.5 Dimension sheets Direct drive input with cylindrical rotor motor Angular geared motors Universal type WU. 80 / 90A 157 157 134 134 140 124 140 124 4xM20 4xM20 4xM25 4xM25 153 103 153 103 153 103 153 103 Motor ZN.eps Gearbox WU 10 WU 20 WU 30 WU 40 WU 50 a b1 b3 b4 b5 e1 f1 f2 f3 120 140 160 200 220 80 j6 95 j6 95 j6 110 j6 130 j6 97 115 135 158 170 70 80 95 110 120 75 90 100 120 140 100 115 115 130 165 3.WU. 90B / 100 196 196 152 152 2xM25 2xM25 2xM32 2xM32 168 168 133 133 ZN.5 178.5) LL AG ZN.5 3.5 45 50 60 70 27. ZB.0 M8x16 M10x21 M10x22 M12x25 M16x25 M8x17 M10x24 M10x25 M12x25 M12x25 37.5 143.5 35 40 45 50 Dimension ZN.5 – 296.0 370.0 Gearbox dimensions h1 h2 h3 m 21. ZB. 10 .3 24.5 299.0 264.6 33.5. ZB.3 65 80 90 105 120 139. 5 170.5 35 3.649+0.631+0.25 20.078 .25 25.293+0.0. 112/132 ZB.5 151.0 28.039 42.5 6.034 20 30 40 K 35 K 45 K 50 27.0.0 7.023 69.0.0 8.5 35 3.0 B 28 28 H 30 30 155 10.5 29.023 48.3 H 50 50 229 10.972 .3.5 6. 10 . ZN.5 30 2.042 37.0 180. ZN.0.5 30 8 72 148.5 M10 56.5 35 12 B 40 40 90 200.5 261.020 38.0 33.50 2031513e_en_300812. 90B / 100 ZB.0 2.909 .5 35 3. 50 DD / TD kG WU 10 (DD) Motor ZN.5 31.5 35 14 B 50 50 110 225.025 54.5 M10 87. 160 / 180A 479 559 518 615 – – – – – – xk 157 157 170 170 – – – – – – d11 18 18 18 18 – – – – – – LB 275 356 314 412 – – – – – – h11max 166 166 166 166 – – – – – – kG (DD) 509 590 548 646 582 689 – – – – kV (TD) 572 652 611 708 – – – – – – xk 157 157 170 170 183 183 – – – – d11 LB 18 18 18 18 18 18 – – – – 275 356 314 412 348 455 – – – – WU 20 h11max kG kV 190 190 190 190 203 203 – – – – (DD) 540 620 579 676 613 719 – – – – (TD) 602 683 641 739 – – – – – – 157 157 170 170 183 183 – – – – xk WU 30 d11 18 18 18 18 18 18 – – – – LB 275 356 314 412 348 455 – – – – h11max kG (DD) 194 194 196 196 216 216 – – – – 575 655 614 711 648 754 773 896 – – kV 645 726 684 782 – – – – – – 157 157 170 170 183 183 238 238 – – (TD) xk WU 40 d11 18 18 18 18 18 18 18 18 – – LB 275 356 314 412 348 455 473 597 – – h11max kG kV 214 214 217 217 232 232 264 264 – – (DD) – – 662 759 696 802 821 944 931 1051 (TD) – – 731 829 – – – – – – xk – – 170 170 183 183 238 238 252 252 d11 – – 18 18 18 18 18 18 29 29 LB – – 314 412 348 455 473 597 583 703 h11max – – 256 256 259 259 283 283 310 WU 50 3 2/3-stage Gearbox 310 20315044_047 Gearbox WK d l 1) WU 10 WU 20 WU 30 WU 40 WU 50 V 25 V 25 V 30 V 40 V 50 25 k6 25 k6 30 k6 40 k6 50 k6 50 50 60 80 100 WUV Solid shaft with key i2 s4 DIN 332-DR 56.186 .00 4.50 229 10.3 H 40 40 204 10. 80 / 90A ZB.50 204 10.5 Dimension sheets Direct drive input with cylindrical rotor motor Angular geared motors Universal type WU.00 4. ZN.5 30 10 B 35 35 80 168.3 B 30 30 H 35 35 175 10. ZN.75 4.indd 20315044_066 1) Shaft code 169 . ZB.0 43.5 27.5 197.00 4.3 WK 15 WUK Splined hollow shaft d2 DIN 5480 l1 l3 l8 DM Mi 1) 7H/6g K 25 N25 x 1.5.25 x 22 155 10.5 228.0.5 30 8 B 25 25 60 127.737+0.25 x 18 135 10.5 130.297+0. 63/71 ZB.028 20315044_065 Gearbox WU 10 WU 20 WU 30 WU 40 WU 50 WUH Hollow shaft with key WUB Hollow shaft with shrink disc d1 l1 l3 l7 u WK d4 d5 l2 l3 l6 1) 1) H7/k6 N9 H7/h6 H 30 30 135 10.0 53.5 277.0 M16 t 28.00 Me 33.044 l9 WK N35 x 2 x 16 N45 x 2 x 21 N50 x 2 x 24 175 10.WU.031 20 K 30 N30 x 1.25x22 W35x2x16 W45x2x21 W50x2x24 W65x2x31 WUE Splined solid shaft l4 l5 l10 DM 70 70 85 120 128 123.0 M16 107.0 34.1 24.024 .5 29 2.5 u x b x l12 DIN 6885 A8 x 7 x 40 A8 x 7 x 40 A8 x 7 x 50 A12 x 8 x 70 A14 x 9 x 90 WK 1) E 30 E 35 E 45 E 50 E 65 d3 DIN 5480 6g/7H W30x1.0 173.5 6.5 M10 66. 0 Gearbox dimensions h1 h2 h3 T Q 11.5 M16 53.5 181. 60 .028 81.5.00 6. 160 / 180A 314 314 269 269 2xM40 2xM40 2xM50 2xM50 273 273 173 173 ZN.0 4. ZB.5 M12x16 M16x21 M16x21 M20x30 M20x35 M16x21 M16x21 M20x35 M24x44 M30x50 60 65 85 110 140 50 65 100 95 120 55 60 115 115 130 20315044_042 Dimension ZN.024 .0 389. 225 440 332 2xM40 2xM50 273 173 440 332 2xM40 2xM50 273 173 20315044_079 WK d l 1) WU 60 WU 70 WU 80 WU 90 WU 100 V 50 50 k6 V 60 60 m6 V 70 70 m6 V 90 90 m6 V 110 110 m6 100 120 140 170 210 WUV Solid shaft with key i2 s4 t DIN 332-DR 107. ZN. 90B / 100 196 196 152 152 2xM25 2xM25 2xM32 2xM32 168 168 133 133 Motor ZN.0 626.0 221.944 .0 5..00 6.027 116. 112/132 260 260 185 185 2xM32 2xM32 2xM40 2xM40 273 273 173 173 ZN. ZB.0 M24 116.030 – 20315044_067 170 1) Shaft code 2031513e_en_300812.5 496.5 54.0 u x b x l12 DIN 6885 A14 x 9 x 90 A18x11x110 A20x12x125 A25x14x160 A28x16x200 WK 1) E 65 E 75 E 90 E 110 – d3 DIN 5480 6g/7H W65x2x31 W75x3x24 W90x3x28 W110x3x35 – WUE Splined solid shaft l4 l5 l10 DM 125 170 200 220 – 170.0 230 270 275 310 380 222.0 252.5 Dimension sheets Direct drive input with cylindrical rotor motor Angular geared motors Universal type WU.292 .5 548.0 M24 95. ZB. 100 kG/kV qV 3 qG 42145644.036 .0 417.0. 80 / 90A 157 157 134 134 63/71 AC AD dv (M.5 473. X 1.5 128.0 287.0 284.5 205 312 6 56 245 373 32 82 275 417 32 93 315 481 44 122 390 596 m qG qV s1 s2 w1 w2 w3 65 70 80 90 100 313.5 336.5 214.5 4.5 263.0 5.5 349.indd Gearbox . ZB.3.0 361.00 – Me 69.0 411.028 95.0 750.0.0.5) LL AG 140 124 140 124 4xM20 4xM20 4xM25 4xM25 153 103 153 103 153 103 153 103 ZN.5 612.0 150.5 – 285.00 6.5 439.5 – 4.0 M20 64.0 435. 180B / 200 394 394 311 311 2xM40 2xM40 2xM50 2xM50 273 273 173 173 ZN. ZB.0 M20 74.0. ZB. ZB.WU.eps Gearbox a b1 b3 b4 b5 e1 f1 f2 f3 WU 60 WU 70 WU 80 WU 90 WU 100 210 250 245 310 400 130 j6 180 j6 230 h6 250 h6 300 h6 205 240 240 280 350 150 175 175 210 250 210 250 245 310 400 165 215 265 300 350 3. 25 63. ZN. 100 Motor ZN.3 37.5 12.0 19. ZB.50 57.4 56. 63/71 kV xk d11 LB h11max kV xk d11 LB h11max kV xk d11 LB h11max kV xk d11 LB h11max kV xk d11 LB h11max WU 60 ZB.0 291.5 WK 1) 40 K 50 50 K 65 50 K 75 60 K 90 60 K 110 WUK Splined hollow shaft d2 DIN 5480 l1 l3 l8 DM 7H/6g N50 x 2 x 24 N65 x 2 x 31 N75 x 3 x 24 N90 x 3 x 28 N110 x 3 x 35 254 295 299 336 418 12.0 12.0 13.50 42.649+0. ZB.5 296.962 +0.4 44. 160 / 180A – – – – – – – – – – 1057 1177 252 252 29 29 583 703 373 373 1131 1251 252 252 29 29 583 703 417 417 1202 1322 245 245 29 29 576 696 481 481 1322 1442 240 240 28 28 571 691 596 596 112/132 – – – – – 947 238 18 473 373 1021 238 18 473 417 1092 231 25 466 481 1212 226 20 461 596 – – – – – 1070 238 18 597 373 1145 238 18 597 417 1216 231 25 590 481 1335 226 20 585 596 20315044_053 Gearbox WK 2031513e_en_300812. 80 / 90A 621 719 164 164 21 21 308 406 312 312 664 762 159 159 18 18 303 401 373 373 739 836 159 159 18 18 303 401 417 417 – – – – – – – – – – – – – – – – – – – – TD kG xk d11 LB h11max kG xk d11 LB h11max kG xk d11 LB h11max kG xk d11 LB h11max kG xk d11 LB h11max WU 60 WU 70 WU 80 WU 90 WU 100 ZN. ZB.0 404.136 +0.0 11.0 19.050 5.0 9.3. ZB.0 35 50 50 50 75 14 18 20 25 28 WK 1) B 50 B 65 B 70 B 90 B 100 WUB Hollow shaft with shrink disc d4 d5 l2 l3 l6 l9 H7/h6 50 65 70 90 100 110 141 155 185 230 252. 112/132 779 903 231 231 25 25 466 590 324 324 822 946 226 226 20 20 461 585 373 373 897 1020 226 226 20 20 461 585 417 417 955 1078 223 223 15 15 458 582 481 481 1070 1194 223 223 17 17 458 582 596 596 ZN. 90B / 100 654 761 176 176 22 22 341 448 312 312 697 804 171 171 16 16 336 443 373 436 772 878 171 171 16 16 336 443 417 417 830 936 168 168 22 22 333 440 481 481 – – – – – – – – – – ZN. QD WU 70 WU 80 WU 90 WU 100 ZN.0 11. ZB.049 20315044_068 1) Shaft code 171 .5 12.031+0.0 13. ZB.0 9. 80 / 90A 773 157 18 356 312 – – – – – – – – – – – – – – – – – – – – 732 170 18 314 312 788 170 18 314 373 862 170 18 314 417 934 164 21 308 481 1054 159 18 303 596 829 170 18 412 312 885 170 18 412 373 960 170 18 412 417 1032 164 21 406 481 1151 159 18 401 596 Motor ZN.25 99. ZB.0 12.5 65.0 35 45 45 45 55 Mi 3.0 34. 90B / 100 766 872 183 183 18 18 348 455 312 312 822 928 183 183 18 18 348 455 373 373 896 1003 183 183 18 18 348 455 417 417 967 1074 176 176 22 22 341 448 481 481 1087 1193 171 171 16 16 336 443 596 596 ZN. 60 . 225 – – – – – 1089 259 28 728 459 1164 259 28 728 463 1222 256 28 725 503 1337 256 28 725 596 – – – – – 1226 259 28 865 373 1300 259 28 865 463 1358 256 28 862 503 1474 256 28 862 596 3 3-stage Gearbox 20315044_050 4-stage Gearbox ZN.045 5.25 79.042 5.5.044 3.5 Dimension sheets Direct drive input with cylindrical rotor motor Angular geared motors Universal type WU. 180B / 200 – – – – – – – – – – 1045 1176 249 249 28 28 684 818 436 436 1120 1250 249 249 28 28 684 818 440 440 1178 1311 246 246 28 28 681 815 481 481 1293 1427 246 246 28 28 681 815 596 596 ZN.5 334. 693 157 18 275 312 – – – – – – – – – – – – – – – – – – – – ZB. ZB.0 9.675 +0. ZB.WU.indd 1) WU 60 WU 70 WU 80 WU 90 WU 100 WUH Hollow shaft with key d1 l1 l3 l7 u H7/k6 N9 H 50 H 60 H 70 H 90 H 100 50 60 70 90 100 254 295 299 336 418 12. 160 / 180A 889 1009 245 245 29 29 576 696 351 351 932 1052 240 240 28 28 571 691 396 396 1007 1127 240 240 28 28 571 691 417 417 1065 1185 237 237 28 28 568 688 481 481 1180 1300 237 237 28 28 568 688 596 596 ZN. 5 143. 63/71 AC AD dv (M. ZB.0 50.5 27. 80 / 90A 157 157 134 134 140 124 140 124 4xM20 4xM20 4xM25 4xM25 153 103 153 103 153 103 153 103 Motor ZN.3 157. 160 / 180A 314 314 269 269 2xM40 2xM40 2xM50 2xM50 273 273 173 173 20315044_144 172 2031513e_en_300812. 10 .2 97 70 75 115 80 90 135 95 100 158 110 120 170 120 140 18 18 20 22 22 100 115 115 130 165 168 203 238 270 295 114 134 154 183 208 113. ZB.5 28.5 45. 112/132 260 260 185 185 2xM32 2xM32 2xM40 2xM40 273 273 173 173 ZN. 90B / 100 196 196 152 152 2xM25 2xM25 2xM32 2xM32 168 168 133 133 ZN.5.5 211.0 60.6 33.indd 20315044_045 .5 178.5 234.5 a b 120 140 160 200 220 130 158 185 215 240 b1 j6 80 95 95 110 130 b3 b4 b5 c e1 f f2 f3 h h1 h3 m qG qV s s1 s2 w1 w2 w3 21.eps Gearbox dimensions Gearbox WG 10 WG 20 WG 30 WG 40 WG 50 + 0.0 9 11 11 14 14 M8x16 M10x21 M10x22 M12x25 M16x25 M8x17 M10x24 M10x25 M12x25 M12x25 37.0 281.0 83 98 110 130 145 Dimension ZN. ZB. X 1.3 39 46 54 61 65 203.5 Dimension sheets Direct drive input with cylindrical rotor motor Angular geared motors Foot-mounted type WG.0 70. 50 kG/kV qV 3 qG 42145844.0 264.5 234. ZB.0 -0. ZB.3 24.5 299.0 27.WG.5 35.3..3 180.5 347.0 417.0 45.5 123.0 370.4 205.5 327.5) LL AG ZN.0 40.5 – 296.0 50. 80 / 90A ZB.5 130.0 2.3 B 30 30 H 35 35 175 10.5 M10 87.0 8.034 20 30 40 K 35 K 45 K 50 3.0.0 33.0.5 30 2. ZN. 10 .0.5 30 10 B 35 35 80 168.5 277.25 25.indd WG 20 WG 30 WG 40 WG 50 WGH Hollow shaft with key WGB Hollow shaft with shrink disc d1 l1 l3 l7 u WK d4 d5 l2 l3 l6 1) 1) H7/k6 N9 H7/h6 H 30 30 135 10.25 x 18 135 10.972 . 63/71 ZB.5 6. ZN.5 35 20315044_074 1) Shaft code 173 .75 4.0 M16 t 28.00 Me 33.025 54.00 4.5 197.5 6.00 4.297+0.044 l9 WK N35 x 2 x 16 N45 x 2 x 21 N50 x 2 x 24 175 10.5 261.024 .186 . 160 / 180A 479 559 518 615 – – – – – – xk 157 157 170 170 – – – – – – d11 18 18 18 18 – – – – – – LB 275 356 314 412 – – – – – – h11max WG 10 kG kV (DD) Motor ZN.039 42.50 3.0 B 28 28 H 30 30 155 10.25 x 22 155 10.0 34.5 151.3.042 37.5 6.5 30 8 72 148.5.5 Dimension sheets Direct drive input with cylindrical rotor motor Angular geared motors Foot-mounted type WG.3 H 50 50 229 10.0 M16 107.909 .028 20315044_073 Gearbox WG 10 2031513e_en_300812.3 WK 15 WGK Splined hollow shaft d2 DIN 5480 l1 l3 l8 DM Mi 1) 7H/6g K 25 N25 x 1.293+0. 184 184 184 184 – – – – – – (DD) 509 590 548 646 582 689 – – – – (TD) 572 652 611 708 – – – – – – 157 157 170 170 183 183 – – – – xk WG 20 d11 18 18 18 18 18 18 – – – – LB 275 356 314 412 348 455 – – – – h11max 208 208 208 208 221 221 – – – – kG (DD) 540 620 579 676 613 719 – – – – kV (TD) 602 683 641 739 – – – – – – 157 157 170 170 183 183 – – – – xk WG 30 d11 18 18 18 18 18 18 – – – – LB 275 356 314 412 348 455 – – – – h11max kG kV 214 214 216 216 236 236 – – – – (DD) 575 655 614 711 648 754 773 896 – – (TD) 645 726 684 782 – – – – – – 157 157 170 170 183 183 238 238 – – xk WG 40 d11 18 18 18 18 18 18 18 18 – – LB 275 356 314 412 348 455 473 597 – – h11max kG kV 239 239 242 242 257 257 289 289 – – (DD) – – 662 759 696 802 821 944 931 1051 (TD) – – 731 829 – – – – – – xk – – 170 170 183 183 238 238 252 252 d11 – – 18 18 18 18 18 18 29 29 LB – – 314 412 348 455 473 597 583 703 h11max – – 281 281 284 284 308 308 335 WG 50 3 2/3-stage Gearbox 335 20315044_048 Gearbox WK d l 1) WG 10 WG 20 WG 30 WG 40 WG 50 V 25 V 25 V 30 V 40 V 50 25k6 25k6 30k6 40k6 50k6 50 50 60 80 100 WGV Solid shaft with key i2 s4 DIN 332-DR 56.078 .25 20.5 35 204 10.5 31.1 24.5 27.0 7.023 48.5 30 8 B 25 25 60 127. 50 DD / TD kG ZB. 90B / 100 ZB.50 3.0 173.5 M10 66.00 4.020 38.50 27.WG. ZN.5 35 14 B 50 50 110 225.0 53.0.5 29 2.0.031 20 K 30 N30 x 1.5 u x b x l12 DIN 6885 A8 x 7 x 40 A8 x 7 x 40 A8 x 7 x 50 A12 x 8 x 70 A14 x 9 x 90 WK 1) E 30 E 35 E 45 E 50 E 65 d3 DIN 5480 6g/7H W30x1.0 180.5 35 229 10.0 28.737+0.5 29.0 43.631+0.5 M10 56.5 35 12 B 40 40 90 200.649+0.25x22 W35x2x16 W45x2x21 W50x2x24 W65x2x31 WGE Splined solid shaft l4 l5 l10 DM 70 70 85 120 128 123.3 H 40 40 204 10. 112/132 ZB.5 228.023 69.5 170. ZN. 5 54.5 – 285.5 336.0 M24 t u x b x l12 DIN 6885 53.5 349.0 626.0.0 411.00 6. ZB. ZB.5 612.WG. 112/132 260 185 2xM32 2xM40 273 173 ZN.5 18 18 22 26 33 M12x16 M16x21 M16x21 M20x30 M20x35 w1 w2 w3 M16x21 60 50 55 M16x21 65 65 60 M20x35 85 100 115 M24x44 110 95 115 M30x50 140 120 130 20315044_046 Dimension ZN.5 439. ZB.5 496.0 417.0 A28x16x200 WK 1) E 65 E 75 E 90 E 110 – d3 DIN 5480 6g/7H W65x2x31 W75x3x24 W90x3x28 W110x3x35 – WGE Splined solid shaft l4 l5 l10 DM 125 170 200 220 – 170. 90B / 100 196 152 2xM25 2xM32 168 133 196 152 2xM25 2xM32 168 133 Motor ZN.024 .027 116.5 473.6 Gearbox a b b1 b3 b4 b5 c e1 f f2 f3 h ..5 A20x12x125 95.0 284. ZB.028 95.5 263.0 M20 150.00 – Me 69.eps Gearbox dimensions + 0.0.0 A18x11x110 74.0 235 275 315 360 450 h1 T Q 11.3 WG 60 WG 70 WG 80 WG 90 WG 100 210 250 245 310 400 265 290 320 370 430 130 j6 180 j6 230 h6 250 h6 300 h6 205 240 240 280 350 150 175 175 210 250 210 250 245 310 400 30 30 40 45 60 165 215 265 300 350 335 360 396 457 529 230 270 275 310 380 222.0 252.0 361.0.5 Dimension sheets Direct drive input with cylindrical rotor motor Angular geared motors Foot-mounted type WG.3.5 M16 128. 80 / 90A 63/71 AC AD dv (M. 160 / 180A 260 185 2xM32 2xM40 273 173 314 269 2xM40 2xM50 273 173 314 269 2xM40 2xM50 273 173 ZN.030 – 20315044_075 174 1) Shaft code 2031513e_en_300812.0 750.0 M24 221.0 M20 181. ZB. 100 kG/kV qV 3 qG 42145944. ZN.0 287.5 – 4. X 1.0.028 81.5 6 56 32 82 32 93 44 122 h3 m 342 71 403 76 457 88 526 98 656 111 qG qV s s1 s2 313.036 .0 435.944 .5 214.indd Gearbox .0. ZB.0 389.5 548.5 A14 x 9 x 90 64. 60 .0 A25x14x160 116. 225 394 311 2xM40 2xM50 273 173 440 332 2xM40 2xM50 273 173 440 332 2xM40 2xM50 273 173 20315044_079 WK d l 1) WG 60 WG 70 WG 80 WG 90 WG 100 V 50 V 60 V 70 V 90 V 110 50k6 60m6 70m6 90m6 110m6 100 120 140 170 210 WGV Solid shaft with key i2 s4 DIN 332-DR 107.00 6.00 6. ZB.5. 180B / 200 394 311 2xM40 2xM50 273 173 ZN.5) LL AG 140 124 140 124 157 134 157 134 4xM20 4xM20 4xM25 4xM25 153 103 153 103 153 103 153 103 ZN.292 . 050 79.25 N110 x 3 x 35 418 19. ZB.5 44.962 +0. 100 TD kG xk d11 LB h11max kG xk d11 LB h11max kG xk d11 LB h11max kG xk d11 LB h11max kG xk d11 LB h11max WG 60 WG 70 WG 80 WG 90 WG 100 Motor ZN.136 +0.045 63.044 57.0 65. ZB.5 Dimension sheets Direct drive input with cylindrical rotor motor Angular geared motors Foot-mounted type WG. 112/132 – – – – – 947 238 18 473 403 1021 238 18 473 457 1092 231 25 466 526 1212 226 20 461 656 – – – – – 1070 238 18 597 403 1145 238 18 597 457 1216 231 25 590 526 1335 226 20 585 656 ZN.4 B 90 90 185 334.0 9.0 11.3. ZB.0 9.675 +0. 90B / 100 654 761 176 176 22 22 341 448 342 342 697 804 171 171 16 16 336 443 403 403 772 878 171 171 16 16 336 443 457 457 830 936 168 168 22 22 333 440 526 526 – – – – – – – – – – ZN.0 9.5 37. ZB.indd Gearbox WG 60 WG 70 WG 80 WG 90 WG 100 WGH Hollow shaft with key d1 l1 l3 l7 1) H7/k6 H 50 50 254 12. ZB.049 20315044_076 1) Shaft code 175 .4 B 70 70 155 296.WG. 90B / 100 766 872 183 183 18 18 348 455 342 342 822 928 183 183 18 18 348 455 403 403 896 1003 183 183 18 18 348 455 457 457 967 1074 176 176 22 22 341 448 526 526 1087 1193 171 171 16 16 336 443 656 656 ZN. 160 / 180A 889 1009 245 245 29 29 576 696 381 381 932 1052 240 240 28 28 571 691 426 426 1007 1127 240 240 28 28 571 691 457 457 1065 1185 237 237 28 28 568 688 526 526 1180 1300 237 237 28 28 568 688 656 656 ZN. ZB. ZN. 60 .5.5 WK l9 WK 1) 40 K 50 50 K 65 50 K 75 60 K 90 60 K 110 WGK Splined hollow shaft d2 DIN 5480 l1 l3 l8 DM 7H/6g N50 x 2 x 24 254 12.0 75 WK u N9 14 18 20 25 28 WGB Hollow shaft with shrink disc d4 d5 l2 l3 l6 1) H7/h6 B 50 50 110 252. ZB.5 B 100 100 230 404. 80 / 90A 621 719 164 164 21 21 308 406 342 342 664 762 159 159 18 18 303 401 403 403 739 836 159 159 18 18 303 401 457 457 – – – – – – – – – – – – – – – – – – – – ZN.50 N75 x 3 x 24 299 12.25 Mi 42. 80 / 90A 773 157 18 356 342 – – – – – – – – – – – – – – – – – – – – 732 170 18 314 342 788 170 18 314 403 862 170 18 314 457 934 164 21 308 526 1054 159 18 303 656 829 170 18 412 342 885 170 18 412 403 960 170 18 412 457 1032 164 21 406 526 1151 159 18 401 656 ZN.3 B 65 65 141 291. ZB.0 35 3.0 56. 180B / 200 – – – – – – – – – – 1045 1176 249 249 28 28 684 818 466 466 1120 1250 249 249 28 28 684 818 480 480 1178 1311 246 246 28 28 681 815 526 526 1293 1427 246 246 28 28 681 815 656 656 ZN.0 50 H 100 100 418 19.50 N65 x 2 x 31 295 12. ZB.0 11.0 35 H 60 60 295 12.0 45 5. 112/132 779 903 231 231 25 25 466 590 354 354 822 946 226 226 20 20 461 585 403 403 897 1020 226 226 20 20 461 585 457 457 955 1078 223 223 15 15 458 582 526 526 1070 1194 223 223 17 17 458 582 656 656 ZN.0 45 5. 63/71 693 157 18 275 342 – – – – – – – – – – – – – – – – – – – – ZB.042 99.0 50 H 90 90 336 13. ZB.5 50 H 70 70 299 12.031+0.0 55 5. 160 / 180A – – – – – – – – – – 1057 1177 252 252 29 29 583 703 403 403 1131 1251 252 252 29 29 583 703 457 457 1202 1322 245 245 29 29 576 696 526 526 1322 1442 240 240 28 28 571 691 656 656 20315044_054 2031513e_en_300812. 225 – – – – – 1089 259 28 728 489 1164 259 28 728 503 1222 256 28 725 548 1337 256 28 725 656 – – – – – 1226 259 28 865 489 1300 259 28 865 503 1358 256 28 862 548 1474 256 28 862 656 20315044_051 4-stage Gearbox QD kV xk d11 LB h11max kV xk d11 LB h11max kV xk d11 LB h11max kV xk d11 LB h11max kV xk d11 LB h11max WG 60 WG 70 WG 80 WG 90 WG 100 3 3-stage Gearbox Motor ZN.649+0.5 45 3.25 N90 x 3 x 28 336 13.0 34. 63/71 AC AD dv (M.3 24.5 28.5 3.4 185.0 9. 50 kG/kV qV 3 qG 42146144.0 220.0 140. ZB.0 162.0 112.3 65 80 90 105 120 h3 m qG qV s1 s2 w1 139. ZB.5 234.0 370.5 209..0 417. 160 / 180A 314 314 269 269 2xM40 2xM40 2xM50 2xM50 273 273 173 173 20315044_144 176 2031513e_en_300812.5 – 296. ZB.5 327. 10 .3 162. X 1. ZB.6 33.0 256.0 21.5) LL AG ZN.5 M8x17 M10x24 M10x25 M12x25 M12x25 37.5 Dimension sheets Direct drive input with cylindrical rotor motor Angular geared motors Flange-mounted type WF.5 35 40 45 50 Dimension ZN.0 4. 80 / 90A 157 157 134 134 140 124 140 124 4xM20 4xM20 4xM25 4xM25 153 103 153 103 153 103 153 103 Motor ZN.0 Gearbox dimensions f2 f3 h1 h2 100.5 3.5 347.0 13.3.0 119.5 253. 90B / 100 196 196 152 152 2xM25 2xM25 2xM32 2xM32 168 168 133 133 ZN.0 150.5 45 50 60 70 w2 w3 27.5 4.0 9.0 264.5 27. ZB.3 35 42 50 55 60 203. 112/132 260 260 185 185 2xM32 2xM32 2xM40 2xM40 273 273 173 173 ZN.5 153.5 299.0 179.5 13.WF.eps Gearbox WF 10 WF 20 WF 30 WF 40 WF 50 a a1 a11 b1 b3 b4 b5 c1 c5 e1 f1 120 140 160 200 220 160 160 200 250 250 123 123 154 192 192 110 j6 110 j6 130 j6 180 j6 180 j6 97 115 135 158 170 70 80 95 110 120 75 9 43 130 90 9 45 130 100 12 42 165 120 14 49 215 140 14 49 215 3.5.0 11.indd 20315044_043 . 034 20 30 40 K 35 K 45 K 50 27.042 37.0.5 31.024 .75 4.5 u x b x l12 DIN 6885 A8 x 7 x 40 A8 x 7 x 40 A8 x 7 x 50 A12 x 8 x 70 A14 x 9 x 90 WK 1) E 30 E 35 E 45 E 50 E 65 d3 DIN 5480 6g/7H W30x1.50 204 10.1 24.00 4.5 35 3.00 4. ZN.25 x 22 155 10.3 H 50 50 229 10.5 151.25 20. 80 / 90A ZB. ZN. 166 166 166 166 – – – – – – (DD) 509 590 548 646 582 689 – – – – (TD) 572 652 611 708 – – – – – – 157 157 170 170 183 183 – – – – xk WF 20 d11 18 18 18 18 18 18 – – – – LB 275 356 314 412 348 455 – – – – h11max 190 190 190 190 203 203 – – – – kG (DD) 540 620 579 676 613 719 – – – – kV (TD) 602 683 641 739 – – – – – – 157 157 170 170 183 183 – – – – xk WF 30 d11 18 18 18 18 18 18 – – – – LB 275 356 314 412 348 455 – – – – h11max kG kV 194 194 196 196 216 216 – – – – (DD) 575 655 614 711 648 754 773 896 – – (TD) 645 726 684 782 – – – – – – 157 157 170 170 183 183 238 238 – – xk WF 40 d11 18 18 18 18 18 18 18 18 – – LB 275 356 314 412 348 455 473 597 – – h11max kG kV 214 214 217 217 232 232 264 264 – – (DD) – – 662 759 696 802 821 944 931 1051 (TD) – – 731 829 – – – – – – xk – – 170 170 183 183 238 238 252 252 d11 – – 18 18 18 18 18 18 29 29 LB – – 314 412 348 455 473 597 583 703 h11max – – 256 256 259 259 283 283 310 WF 50 3 2/3-stage Gearbox 310 20315044_049 Gearbox WK d l 1) WF 10 WF 20 WF 30 WF 40 WF 50 V 25 V 25 V 30 V 40 V 50 25 k6 25 k6 30 k6 40 k6 50 k6 50 50 60 80 100 WFV Solid shaft with key i2 s4 DIN 332-DR 50 M10 50 M10 60 M10 80 M16 100 M16 t 28.5 35 3.5 29.909 .078 .5 30 2.028 20315044_069 Gearbox WF 10 WF 20 WF 30 WF 40 WF 50 WFH Hollow shaft with key WFB Hollow shaft with shrink disc d1 l1 l3 l7 u WK d4 d5 l2 l3 l6 1) 1) H7/k6 N9 H7/h6 H 30 30 135 10.5 6. ZN.00 Me 33.3 WK 15 WFK Splined hollow shaft d2 DIN 5480 l1 l3 l8 DM Mi 1) 7H/6g K 25 N25 x 1.25x22 W35x2x16 W45x2x21 W50x2x24 W65x2x31 WFE Splined solid shaft l4 l5 l10 DM 70 70 85 120 128 123.5 30 10 B 35 35 80 168.50 2031513e_en_300812.031 20 K 30 N30 x 1.044 l9 WK N35 x 2 x 16 N45 x 2 x 21 N50 x 2 x 24 175 10.5 35 3.0 43.0 28.023 48. 10 .5 Dimension sheets Direct drive input with cylindrical rotor motor Angular geared motors Flange-mounted type WF.293+0.3.972 .297+0.0 34.0 33.3 H 40 40 204 10.5 197.5 29 2.5 261.00 4.020 38.0 7.023 69.0. 63/71 ZB. 90B / 100 ZB.25 x 18 135 10.737+0.0 173.5 228.0.649+0.indd 20315044_070 1) Shaft code 177 . 160 / 180A 479 559 518 615 – – – – – – xk 157 157 170 170 – – – – – – d11 18 18 18 18 – – – – – – LB 275 356 314 412 – – – – – – h11max WF 10 kG kV (DD) Motor ZN. 112/132 ZB. 50 DD / TD kG ZB.50 229 10.025 54.5 6.631+0.0 B 28 28 H 30 30 155 10.25 25.5. ZN.WF.5 35 14 B 50 50 110 225.5 6.5 277.5 30 8 B 25 25 60 127.5 35 12 B 40 40 90 200.5 30 8 72 148.5 130.0.186 .039 42.0 180.0 53.0 2.0 8.3 B 30 30 H 35 35 175 10.5 27.5 170.0. 5 A20x12x125 95.0 326. 60 .eps Gearbox a a1 a11 WF 60 WF 70 WF 80 WF 90 WF 100 210 250 245 310 400 300 350 450 450 550 236 265 450 450 550 b1 b3 b4 b5 c1 c5 e1 f1 230 j6 250 j6 350 h6 350 h6 450 h6 205 240 240 280 350 150 175 175 210 250 210 250 245 310 400 14 17 17 20 20 265 300 400 400 500 4 5 5 5 5 49 71 71 69 69 Gearbox dimensions f3 h1 h2 T Q 164.WF 70 3 WF 80 .5 A14 x 9 x 90 64. ZB.027 116. ZB. 160 / 180A 314 314 269 269 2xM40 2xM40 2xM50 2xM50 273 273 173 173 ZN.0 417.0 264.5 – 4.00 6. ZB. 90B / 100 196 196 152 152 2xM25 2xM25 2xM32 2xM32 168 168 133 133 Motor ZN.WF.0 361.5 14 18 18 18 18 s2 w1 w2 w3 M16x21 60 50 55 M16x21 65 65 60 M20x35 85 100 115 M24x44 110 95 115 M30x50 140 120 130 20315044_044 Dimension ZN.00 – Me 69.0 32 93 315 259.0. 180B / 200 394 394 311 311 2xM40 2xM40 2xM50 2xM50 273 273 173 173 ZN.WF 100 42146244.0 252.5 349.5) LL AG 140 124 140 124 4xM20 4xM20 4xM25 4xM25 153 103 153 103 153 103 153 103 ZN.0 A18x11x110 74.036 .0 A28x16x200 WK 1) E 65 E 75 E 90 E 110 – d3 DIN 5480 6g/7H W65x2x31 W75x3x24 W90x3x28 W110x3x35 – WFE Splined solid shaft l4 l5 l10 DM 125 170 200 220 – 170. ZB.5 473.5 – 285.5 54.0 469.028 95.024 .0 750.0 A25x14x160 116.0 389. 225 440 332 2xM40 2xM50 273 173 440 332 2xM40 2xM50 273 173 20315044_079 WK d l 1) WF 60 WF 70 WF 80 WF 90 WF 100 V 50 V 60 V 70 V 90 V 110 50 k6 60 m6 70 m6 90 m6 110 m6 100 120 140 170 210 WFV Solid shaft with key i2 s4 DIN 332-DR 100 M16 120 M20 140 M20 170 M24 210 M24 t u x b x l12 DIN 6885 53.0 435.0 626.5 548.0.00 6.5 496. X 1. ZB. ZN.5 348. ZB.0.5 Dimension sheets Direct drive input with cylindrical rotor motor Angular geared motors Flange-mounted type WF.0 6 56 245 208. 100 kG/kV qV qG WF 60 .5 32 82 275 224..3.0.0 44 122 390 f2 h3 m 312 65 373 70 417 80 481 90 596 100 qG qV s1 313.5.5 214.00 6.0 284.0 11. 112/132 260 260 185 185 2xM32 2xM32 2xM40 2xM40 273 273 173 173 ZN.944 .5 612.028 81.5 205 206.5 439.0 394.292 .indd Gearbox . 80 / 90A 157 157 134 134 63/71 AC AD dv (M.030 – 20315044_071 178 1) Shaft code 2031513e_en_300812. ZB. 0 65. 112/132 779 903 231 231 25 25 466 590 324 324 822 946 226 226 20 20 461 585 373 373 897 1020 226 226 20 20 461 585 417 417 955 1078 223 223 15 15 458 582 481 481 1070 1194 223 223 17 17 458 582 596 596 ZN.0 9. 100 TD kG xk d11 LB h11max kG xk d11 LB h11max kG xk d11 LB h11max kG xk d11 LB h11max kG xk d11 LB h11max WF 60 WF 70 WF 80 WF 90 WF 100 Motor ZN.049 20315044_072 1) Shaft code 179 . 90B / 100 654 761 176 176 22 22 341 448 312 312 697 804 171 171 16 16 336 443 373 373 772 878 171 171 16 16 336 443 417 417 830 936 168 168 22 22 333 440 481 481 – – – – – – – – – – ZN. 180B / 200 – – – – – – – – – – 1045 1176 249 249 28 28 684 818 436 436 1120 1250 249 249 28 28 684 818 440 440 1178 1311 246 246 28 28 681 815 481 481 1293 1427 246 246 28 28 681 815 596 596 ZN.5.0 45 5. 160 / 180A 889 1009 245 245 29 29 576 696 351 351 932 1052 240 240 28 28 571 691 396 396 1007 1127 240 240 28 28 571 691 417 417 1065 1185 237 237 28 28 568 688 481 481 1180 1300 237 237 28 28 568 688 596 596 ZN.0 9.4 B 90 90 185 334. ZB. ZB. ZB.962 +0.WF.044 57. ZN.25 N90 x 3 x 28 336 13. 80 / 90A 621 719 164 164 21 21 308 406 312 312 664 762 159 159 18 18 303 401 373 373 739 836 159 159 18 18 303 401 417 417 – – – – – – – – – – – – – – – – – – – – ZN.0 35 H 60 60 295 12.0 75 WK u N9 14 18 20 25 28 WFB Hollow shaft with shrink disc d4 d5 l2 l3 l6 1) H7/h6 B 50 50 110 252.0 9.0 56.045 63. ZB.0 55 5.0 34. 60 . ZB.4 B 70 70 155 296. ZB. 160 / 180A – – – – – 1057 252 29 583 373 1131 252 29 583 417 1202 245 29 576 481 1322 240 28 571 596 – – – – – 1177 252 29 703 373 1251 252 29 703 417 1322 245 29 696 481 1442 240 28 691 596 20315044_055 2031513e_en_300812.5 WK l9 WK 1) 40 K 50 50 K 65 50 K 75 60 K 90 60 K 110 WFK Splined hollow shaft d2 DIN 5480 l1 l3 l8 DM 7H/6g N50 x 2 x 24 254 12. 63/71 693 157 18 275 312 – – – – – – – – – – – – – – – – – – – – ZB. 80 / 90A 773 157 18 356 312 – – – – – – – – – – – – – – – – – – – – 732 170 18 314 312 788 170 18 314 373 862 170 18 314 417 934 164 21 308 481 1054 159 18 303 596 829 170 18 412 312 885 170 18 412 373 960 170 18 412 417 1032 164 21 406 481 1151 159 18 401 596 ZN. ZN. ZB.0 50 H 100 100 418 19.25 Mi 42.042 99.0 11.5 Dimension sheets Direct drive input with cylindrical rotor motor Angular geared motors Flange-mounted type WF.5 B 100 100 230 404.25 N110 x 3 x 35 418 19. 225 – – – – – 1089 259 28 728 459 1164 259 28 728 463 1222 256 28 725 503 1337 256 28 725 596 – – – – – 1226 259 28 865 459 1300 259 28 865 463 1358 256 28 862 503 1474 256 28 862 596 3 3-stage Gearbox 20315044_052 4-stage Gearbox QD kV xk d11 LB h11max kV xk d11 LB h11max kV xk d11 LB h11max kV xk d11 LB h11max kV xk d11 LB h11max WF 60 WF 70 WF 80 WF 90 WF 100 Motor ZN.0 50 H 90 90 336 13.50 N75 x 3 x 24 299 12.indd Gearbox WF 60 WF 70 WF 80 WF 90 WF 100 WFH Hollow shaft with key d1 l1 l3 l7 1) H7/k6 H 50 50 254 12.0 11.0 45 5. 90B / 100 766 183 18 348 312 822 183 18 348 373 896 183 18 348 417 967 176 22 341 481 1087 171 16 336 596 ZB. ZB.0 35 3.031+0. ZB.5 44.675 +0.050 79.5 45 3.5 50 H 70 70 299 12.50 N65 x 2 x 31 295 12.3.3 B 65 65 141 291.649+0. 112/132 872 183 18 455 312 928 183 18 455 373 1003 183 18 455 417 1074 176 22 448 481 1193 171 16 443 596 – – – – – 947 238 18 473 373 1021 238 18 473 417 1092 231 25 466 481 1212 226 20 461 596 – – – – – 1070 238 18 597 373 1145 238 18 597 417 1216 231 25 590 481 1335 226 20 585 596 ZN.136 +0.5 37. . In Drive Designer. Coupling connection 3 Cylindrical rotor motor Z63 .W100 Angular gearbox Brake B003-B680 Demag .Z225 with a Demag coupling shaft end W10 . coupling and coupling extension.indd • the dimension sheets for solo gearboxes or coupling-mounted geared motors with Z motors. 960 and 720 rpm. you can also find: • additional data for input speeds 2900. coupling connection KB conical rotor motors and Z cylindrical rotor motors with Demag gearbox shaft ends are mounted by means of flange.6 Angular gearbox.eps Data is given for input drive speed n1 = 1450 rpm. 180 2031513f_en_300812.coupling Intermediate flange KB71 .KB225 conical rotor brake motor with Demag coupling shaft end 41659544.3. 4-pole KBA motors 100% CDF Type PN nN MN IN [kW] [rpm] [Nm] 400V cosφN IA/IN MA / MN [A] JMot Z0 MBStd [kgm2 x 10-3] [h-1] [Nm] 1) 2) 4) 4.10 0.3.28 5.37 kW. 1370 rpm.35 6.1 10 11 KBA 80 A 4 0. Key value table for 4-pole KBA motors.0 13 15 KBA 80 B 4 1.70 2.69 13 10000 123 0.1 14600 [kg] 3) 1) 2) 9 10 KBA 71 A 4 0. 1450 rpm M2 [Nm] 3) 480 2031513f_en_300812.6.W 50 angular gearboxes. 10 rpm.6 0. Gearbox to be selected according to section 3.37 1370 2.6 1.39 7.55 1355 3.9 10.35 3. 100 % CDF.72 3.4 19250 7.0 3.5 Weight Selected motor: KBA 71 A 4.5 KBA 71 B 4 0.3 10000 194 0. = 2. 100 % CDF.20 1. 0.5 10000 215 0.indd 500 i 4) P2 [kW] 3) 99.4 10000 W.73 n2 [rpm] FR [N] 1) Weight [kg] 2) Gearbox 4) 3) 15 4) 10000 110 0.40T. Selection tables for angular gearboxes with coupling connection.85 ≈ 424 Nm Gearbox efficiency particularly needs to be considered for W 10 .75 0. η ≈ 1..23 4.43 8.9 1.4 10000 331 0.70 3.1. see section 1.60 0.55 11 10000 158 0.6. Required duty factor fB erf ≈ 1.30 0. MNMot.4 137 2.2 10000 175 0.50 3.4.9 10000 270 0.7 4.4.5 10.6 Nm Gearbox selection according to the following criteria: i= Motor speed 1370 rpm = 137 Output speed 10 rpm Gearbox rated torque at input speed n1 = 1450 rpm: M2N ≈ fB i MNMot.6 0.83 1360 5.1 Selection example Angular geared motors with coupling connection Selection example The requirement is for a geared motor with a KBA conical-rotor brake motor.2. 0. Motor selection in section 5.2.37 kW.31 5.0 13500 12. 26 - 181 .69 3.3.65 3.30 2.95 2.7 10000 244 0.4 13800 14.45 1.62 12 10000 137 0.0 14 17 3 5.8 2.55 2.00 1370 7.48 9. 100 % CDF and an output speed of approx. indd Dimension sheet according to section 3. Given duty factor fB : fB = 500 Nm 137 2..9.g.6.3..Selected: Angular gearboxes W.1.65 3 Coupling assignment according to section 6.000 N.1. Helical gearbox D11 / D21 D31 D41 – D50 D60 D70 D80 D90 Angular gearbox W10 W20 W30 W40 W50 W60 W70 / W 80 W90 W100 – Offset gearbox A10 A20 – A50 / A60 A70 A80 – – A90 A30 A40 – Motor frame size Z 63 / 71 KB 71 Z 80 / 90 A KB 80 Z 90 B KB 90 Z 100 KB 100 Z 112 / Z 132 A KB 112 / KB 125 Z 132 B / 132 C KB 140 Z 160 KB 160 Z 180 A KB 180 Z 180 B / 200 KB 200 Z 225 KB 225 H 1 / HT 1 H 2 / HT 2 H3 E. Output speed approx. Transmission ratio: i = 137. For further options. Housing and shaft type according to type designation in section 3.6 Nm 0. see section 6. Permissible radial force: 10. 40T. . light coupling H1 or heavy coupling HT1.85 = 1. 40T.: 1370 rpm / 137 = 10 rpm. 182 2031513f_en_300812.1 Gearbox: W. 8 1.3 205 4100 8.10D.4 272 3391 6.7 0.6.4 1.3 183 .5 0.8 38 4100 43.4 0.6 77 4100 21.6 0.2 - W.1 0. For fitting to motors ≤ Z100.1 0.5 1.52 41 4000 39.6 127 4000 13.6 2. KB112 Dimension sheets see section 3.24 19 4000 90.0 0. refer to the Drive Designer for these values.8 1.29 23 4000 68.57 27 4100 58.2 0.2 106 4100 15.2 2.1 52 4100 30.42 33 4000 48.38 30 4000 56. without roller spider coupling without intermediate flange.73 2.34 16 4100 4) W.6 266 4100 7.64 2.07 4.0 0.45 21 4100 81.89 42 4100 37.9 137 4100 11.98 78 4000 22.1 1.1 86 4000 18.66 53 4000 30.1 168 3757 10.2 0.4 0.32 26 4000 62.3 0.2 16 4000 100 0.34 3.2 0.3 0.6 48 4000 35.7 34 4100 47.74 59 4000 27.0 0.4 1. Weight WUH with oil fill level for mounting position B14.8 86 4100 18.9 1.6.6 0.64 30 4100 53.7 0.3 100 4000 16.0 0.20D.5 166 4100 10.0.7 216 3556 8.8 0.4 1.52 25 4100 68.4 68 4100 23.2 0.7 2.7 1.47 37 4000 43.4 111 4000 14.3 61 4100 27.6 124 4100 13..73 3.37 18 4100 90.. Lower FR values are permitted for WFV.9 0.2 Selection tables for angular gearbox with coupling connection Input speed n1 ~ 1450 rpm 3) 120 2031513g_en_ 300812.8 140 4000 11. 9.6 0.2 0.6 0.82 65 4000 24.3. KB100 For fitting to motors ≥ Z112.27 21 4000 75. 12 - 3 M2 [Nm] FR refers to types WUV and WGV.0 1.98 47 4100 34.indd 200 1) 2) 3) 4) i 4) P2 [kW] 3) n2 [rpm] FR [N] 1) Weight [kg] 2) Gearbox 4) 3) 5.0 95 4100 17.18 15 4000 5.7 2.45 5. 4 129 5600 13.6 2.11 5.7 214 5600 330 7.4 100 5600 16.2 9.1 0.20T.7 4100 241 0.2 4100 195 0.4 0.1 0.1 4.56 16 5600 4) W.2 Selection tables for angular gearbox with coupling connection Input speed n1 ~ 1450 rpm 3) i 4) 3) 3 200 184 P2 [kW] n2 [rpm] FR [N] 1) 4) 3) 97. KB112 Dimension sheets see section 3.4 4100 177 0..16 7.9 1.2 3. Lower FR values are permitted for WFV.1 1. without roller spider coupling without intermediate flange.62 18 5600 90.8 3.5 44 5600 36.2 64 5600 26.9 200 5600 329 8.3.22 10 4100 155 0.9 142 5600 11.73 8.6 3.31 15 4100 114 0. Weight WUH with oil fill level for mounting position B14.6.6.97 28 5600 57.4 40 5600 40.30D.4 71 5600 22.0.3 1.9 168 5600 330 10.72 21 5600 81.6 1.1 0.78 5.8 277 5600 234 5.3 36 5600 1) 2) 3) 4) Weight [kg] 2) Gearbox 45.8 1.4 4100 217 0. For fitting to motors ≤ Z100.2 4100 308 0.8 110 5600 14.17 8.0 0.0 56 5600 28.5 0.7 78 5600 20.24 12 4100 140 0. KB100 For fitting to motors ≥ Z112.9 4100 198 3. 14 - W.24 6.8 50 5600 33.1 32 5600 51.79 23 5600 69.3 4.0 388 5600 235 5.6 6.08 3.5 2.8 0. refer to the Drive Designer for these values.14 6.26 6.3 2031513g_en_300812.88 26 5600 63.13 6.64 4.7 2.3 259 5600 256 6.indd M2 [Nm] .. 17 - FR refers to types WUV and WGV.7 4100 369 0.27 13 4100 127 0.0 2.2 181 5600 278 8.2 4.0 86 5600 18.03 6.0 4100 279 0. Weight WUH with oil fill level for mounting position B14.21 6.76 10.86 11.8 5600 211 0.44 14 5600 330 118 0. refer to the Drive Designer for these values.5 5. KB100 For fitting to motors ≥ Z112.3 7.1 14.8 34 10000 52.3 185 .0 8.24 7.1 1.9 5600 320 409 3.84 0.42 12 5600 326 136 0.0 37 10000 42.8 2. Lower FR values are permitted for WFV.9 5.4 3.7 91 10000 17.0 154 8695 10.5 48 10000 33.3 2.19 5.0 12.8 0.2 22 10000 1) 2) 3) 4) Weight [kg] 2) Gearbox 73.0 2.1 5600 334 0.3 1.5 2.7 3.6.1 193 8313 431 8.3 5600 369 0.9 1.30T.9 1.18 5.4 11.3 43 10000 38.4 64 10000 24.3 4.2 2.0 115 9393 13.4 3.2 1.7 4.7 252 8261 401 500 6.44 8.3.0 6..7 71 10000 22.2 1. 22 25 3 M2 [Nm] FR refers to types WUV and WGV.0 375 8004 356 455 4.8 1.5 1.27 7.9 5600 234 0.87 12.0 4.9 9.5 28 10000 59.36 11 5600 330 150 0.2 176 8524 500 9.7 2.3 24 10000 66.24 6.8 54 10000 30.4 2. without roller spider coupling without intermediate flange.5 16.51 10.2 5600 259 0.8 130 9102 12.46 9.84 16 10000 4) W.5 104 9689 16. KB112 Dimension sheets see section 3.5 3.6.94 0.1 10.1 20 10000 81.33 9.1 60 10000 27.7 1..3 82 10000 20.4 7.3 8.2 Selection tables for angular gearbox with coupling connection Input speed n1 ~ 1450 rpm 3) 4) 311 2031513g_en_ 300812.6 6.6 5600 186 0.40D.1 3. 19 - W.14 3.0 2. For fitting to motors ≤ Z100.0.8 224 8306 500 7.15 4.0 0.94 18 10000 90.8 6.2 299 8126 378 482 5.3 139 8965 11.2 1.7 4.7 5600 168 0.indd i P2 [kW] 3) 107 n2 [rpm] FR [N] 1) 4) 3) 0.6 5600 286 0.6 3.2 6. 0 239 14000 446 571 7.8 14000 4) W.9 67 14000 730 730 24.8 94 14000 674 674 17. KB112 Dimension sheets see section 3.2 Selection tables for angular gearbox with coupling connection Input speed n1 ~ 1450 rpm 3) i 4) 3) 480 3 500 n2 [rpm] FR [N] 1) 3) 99.3 15 14000 1) 2) 3) 4) Weight [kg] 2) Gearbox 4) 371 800 186 P2 [kW] 99.6 1.6.2 151 14000 663 663 11.5 7.5 111 14000 687 687 15.50D.31 5.9 2.3 1.35 4.6.4 10000 331 0. without roller spider coupling without intermediate flange.6 11.2 10.9 36 14000 794 794 46.43 8.5 1.0 14000 319 0.7 4.54 6..5 74 14000 696 696 21.2 2.0 24 14000 70.5 59 14000 717 717 27.0 85 14000 709 709 19.0 4.6 32 14000 780 780 50.38 4.7 21 14000 78.0 2.91 8. KB100 For fitting to motors ≥ Z112.8 14000 288 0.6 0.indd M2 [Nm] .7 1.4 6.75 8.0 6.28 5. refer to the Drive Designer for these values.42 5.48 9.3.31 3.39 7.0 54 14000 734 734 32.5 123 14000 651 651 13.2 3. Weight WUH with oil fill level for mounting position B14. 26 - W.3 2031513g_en_300812.3 2.2 3.7 14000 208 0.3 10000 194 0.1 7.58 7.5 5. Lower FR values are permitted for WFV.9 1.94 11.3 1.6 5.. For fitting to motors ≤ Z100.0 6.5 4. 53 - FR refers to types WUV and WGV.0 14000 227 0.9 2.2 10000 175 0.3 29 14000 800 800 55.40T.9 4.9 14000 188 0.9 10000 476 4.2 14000 386 0.5 3.0. 47 57 W.73 15 10000 110 0.9 2.4 45 14000 769 769 36.8 6.1 13.4 14000 251 0.65 7.1 3.2 40 14000 755 755 39.0 183 14000 643 643 9.59 10.8 8.07 10.35 6.4 4.4 14.4 3.69 13 10000 123 0.50T.5 10000 215 0.6 294 14000 405 519 6.5 8.5 14000 349 0.23 4.6 19 14000 94.82 9.1 13 14000 120 1.48 5.0 1.7 10000 244 0.2 15 14000 111 1.0 12 14000 148 0.5 2..8 14000 163 0.4 10000 371 0.2 26 14000 61.9 10000 270 0.0 2.0 4.6 2.62 12 10000 137 0.55 11 10000 158 0.6 2. 82 5.1 11.0 8.0 14.5 4.5 6.3 11.7 26 16000 61.0 5.5 12.58 4.9 9.4 2.4 16000 251 0.65 4..6 16.9 8.7 2.0 3.3 6.1 16000 227 0.1 16000 388 0.4 53 16000 30.1 2.4 7.9 70 16000 23.6.6 14. KB100 For fitting to motors ≥ Z112.1 16000 313 0.6.6 3.1 4.7 19 16000 86.8 13 16000 125 1.3 115 16000 14.1 29 16000 55. refer to the Drive Designer for these values.3 24 16000 69.2 2.indd 1350 1) 2) 3) 4) i P2 [kW] n2 [rpm] FR [N] 1) 3) 4) 12.3 3.8 9.7 12 16000 140 1.3 16.6 104 16000 16.72 5.9 16000 204 1.1 4. Lower FR values are permitted for WFV.6 16000 351 0.6 2.4 5.8 16000 283 0.9 4.9 63 16000 27. For fitting to motors ≤ Z100.7 48 16000 34. 85 96 W. 88 - 3 M2 [Nm] FR refers to types WUV and WGV.7 3.6 7.2 Selection tables for angular gearbox with coupling connection Input speed n1 ~ 1450 rpm 3) 4) 1350 1350 2031513g_en_ 300812. without roller spider coupling without intermediate flange.4 38 16000 45.7 3.1 7.4 16000 184 1.3.7 16000 Weight [kg] 2) Gearbox 3) 4) W.0 7.9 6..5 10 16000 155 1.5 89 16000 18.2 15 16000 113 1.0 21 16000 76.0 6.60T.53 3.3 9.7 6.0.3 3.0 2. Weight WUH with oil fill level for mounting position B14.0 42 16000 38.4 17 16000 95.3 80 16000 20.60Q.5 32 16000 49.4 12.3 187 . KB112 Dimension sheets see section 3. 4 21.0 15.7 27.8 22 25000 73.0 3..2 Selection tables for angular gearbox with coupling connection Input speed n1 ~ 1450 rpm 3) i 4) 3 2500 2500 2500 2500 188 1) 2) 3) 4) P2 [kW] n2 [rpm] FR [N] 1) 3) 4) 13.4 6.1 2.6.70T.2 5. KB112 Dimension sheets see section 3.0 25000 180 2.2 58 25000 28.2 15.0 5.7 21.3 10.9 7.3 2031513g_en_300812.4 7. without roller spider coupling without intermediate flange.8 10.1 1.4 2.8 24.6 25000 4) W.2 25000 231 1.2 16 25000 102 3.3 39 25000 41..95 0. Weight WUH with oil fill level for mounting position B14.4 82 25000 19. 137 148 FR refers to types WUV and WGV.7 106 25000 15.3 24.1 8.7 4.4 25 25000 66.5 1.1 25000 320 1.8 8.1 25000 399 0.95 3.7 6.8 19.0 12 25000 144 2.6.0 4.4 16.4 5.6 25000 286 1.2 50 25000 32.2 11.4 13 25000 126 3.4 9.2 19.0 5.7 3.3 7.4 28 25000 59.9 1. refer to the Drive Designer for these values.7 14 25000 113 3.7 27.2 35 25000 45.6 10 25000 161 2. For fitting to motors ≤ Z100.5 5.2 13. 130 159 W.2 4.4 3.8 45 25000 36.2 9.8 95 25000 17.1 25000 201 1.2 20 25000 81.6 4. KB100 For fitting to motors ≥ Z112.8 5.7 1.9 65 25000 25.0.70Q.2 4.3 25000 259 1. Lower FR values are permitted for WFV.6 18 25000 91.8 11.3.9 16.6 2.3 32 25000 51.5 25000 Weight [kg] 2) Gearbox 3) 357 1.8 13.0 6.4 1.3 8.1 4.2 1.indd M2 [Nm] .2 73 25000 22.2 9. 0.3 38.7 2. For fitting to motors ≤ Z100.0 35.3 8. KB100 For fitting to motors ≥ Z112.7 95 30026 4000 17.8 30.8 35 38863 45.1 40000 200 3.2 40000 222 2.4 5.4 4. without roller spider coupling without intermediate flange.2 Selection tables for angular gearbox with coupling connection Input speed n1 ~ 1450 rpm 2031513g_en_ 300812.0 40000 178 3.8 14.2 9.7 30.0 14 40000 113 5.1 5.80T.4 58 33848 27.0 7.0 8. KB112 Dimension sheets see section 3.4 1.5 7.1 41 37746 41.8 12 40000 4000 139 4..7 10.7 4.4 10 40000 161 3.7 21.6.7 10.1 40000 319 1.5 18 40000 90.4 3.9 4.1 2.3 13.9 45 36241 35.0 3.9 24.0 14.7 26 40000 65.7 1.1 11.9 27.5 13. Lower FR values are permitted for WFV.7 73 31732 21.9 1.9 21.4 3.2 22 40000 73.6 3.7 6.3. 176 205 W.7 35.1 18.7 4.8 9.indd 3) i 4) P2 [kW] n2 [rpm] 3) 4) FR [N] 1) 3) 3862 4000 15.7 66 33147 24. Weight WUH with oil fill level for mounting position B14.4 13 40000 3906 4000 126 4. refer to the Drive Designer for these values.1 40000 397 1.7 86 30877 19.6 40000 441 1.7 16 40000 101 6.6 17.9 18.5 40000 258 2.0 6.6.80Q.9 52 35305 32.5 40000 354 1.7 27.8 3.4 8.4 6.6 40000 286 2.4 5.6 1..4 2.3 40000 1) 2) 3) 4) Weight [kg] 2) Gearbox 4) W.7 6.3 20 40000 81.3 39.9 11.3 32 40000 51.3 189 .1 17.4 24. 194 205 3 M2 [Nm] FR refers to types WUV and WGV.4 7.9 28 40000 56.8 9. 8 3.3.4 65000 251 4.8 5.4 28 54374 58.0.1 65000 227 4.indd M2 [Nm] .7 6.7 73 40663 22.1 12.6 23 58259 71.6 10 65000 158 6.0 23.6 7.7 65000 434 2. - 301 W.3 2031513g_en_300812.8 65000 278 3.2 4.90Q.5 41.7 60. KB100 For fitting to motors ≥ Z112.3 4.2 65000 176 6.0 82 40043 19. KB112 Dimension sheets see section 3.2 Selection tables for angular gearbox with coupling connection Input speed n1 ~ 1450 rpm 3) i 4) 3) 7000 3 1) 2) 3) 4) n2 [rpm] FR [N] 1) Weight [kg] 2) Gearbox 4) 3) 15.0 18.2 65000 204 5.7 41 49035 40.7 3.2 5.2 14. Lower FR values are permitted for WFV.6.4 12 65000 140 7..7 4.2 36 50006 45.7 6. 312 323 FR refers to types WUV and WGV.0 8.6 13 65000 126 8.9 2.6 32 52408 52.0 6.9 66.0 48.2 20.7 57 43830 28.1 16.0 65000 391 2.6.8 18 63458 92.3 25 57086 64.8 53.4 3. For fitting to motors ≤ Z100.4 8.9 20 61069 83. without roller spider coupling without intermediate flange.3 3.5 26.4 37.2 5.7 2. refer to the Drive Designer for these values.9 4.6 15 65000 111 7000 7000 190 P2 [kW] 9.8 29.5 16 65000 100 10.8 91 38054 17.2 33.5 65000 361 2.0 45 46870 35.3 65000 4) W.2 7.4 2.3 66 42704 25.7 9.2 65000 325 3.3 11..4 51 45934 32.90T. Weight WUH with oil fill level for mounting position B14. 2 85000 381 4.8 85000 437 4.7 6.3 99.0 50.6 85000 214 8.7 29 79527 55.8 52 68882 32.0 14 85000 16.5 20.6 16 85000 101 18.4 25.6 13. Lower FR values are permitted for WFV.7 11.9 18 85000 88. For fitting to motors ≤ Z100. Weight WUH with oil fill level for mounting position B14.8 3.3 72.8 87.4 56.3 5. 504 533 3 M2 [Nm] FR refers to types WUV and WGV.5 85000 190 9.2 3.1 64.4 85000 12000 171 10. KB112 Dimension sheets see section 3.6 7.7 36.2 45 70585 36.7 7.8 85000 238 7.2 4.8 9.6.6.5 8.7 8.7 10..9 21 85000 79. KB100 For fitting to motors ≥ Z112.1 78.7 6.8 3.3 85000 485 3.6 9..100Q.3 85000 303 6.6 70 62281 23.0 4.0.9 63 65188 25.8 36 74657 44.0 57 65902 28.1 33.8 3.indd n2 [rpm] 4) W.5 6.0 10 85000 11918 155 11.0 6.7 22.1 12 85000 10736 140 11.2 Selection tables for angular gearbox with coupling connection Input speed n1 ~ 1450 rpm 3) i 4) 12000 P2 [kW] 3) FR [N] 1) 3) 110 88 58242 18.7 5.1 85000 273 6.8 85000 343 5.1 26 83344 63.6 40 73658 39.100T.1 13 85000 9315 12000 121 11.2 33 77812 49. without roller spider coupling without intermediate flange.8 4.3.2 41.6 79 61068 20.5 28.5 113 2031513g_en_ 300812.0 85000 1) 2) 3) 4) Weight [kg] 2) Gearbox 4) 16.3 191 . refer to the Drive Designer for these values.7 23 85000 70.7 15. - 498 W.8 45.3 4. 3 162.eps Gearbox WU 10 WU 20 WU 30 WU 40 WU 50 Gearbox dimensions h1 h2 h3 m a b1 b3 b4 b5 e1 f1 f2 f3 120 140 160 200 220 80 j6 95 j6 95 j6 110 j6 130 j6 97 115 135 158 170 70 80 95 110 120 75 90 100 120 140 100 115 115 130 165 3.5 27.5 211. 50 kG/kV pG/pV qV qG 3 WUV WUE WUH WUK WUB 42058744.5 45 50 60 70 27. 90A 178 153 Motor KB.0 21. 90B 178 153 KB. 80B 158 143 KB.0 M8x16 M10x21 M10x22 M12x25 M16x25 M8x17 M10x24 M10x25 M12x25 M12x25 37.5 299.3 Dimension sheets for coupling connection with conical rotor motor Angular geared motors Universal type WU. 71A 140 134 KB.5 234.3 65 80 90 105 120 139. 112B 220 189 KB.0 3.5 347. 10 .5 – 296.0 370.5 3.0 3.5 123.4 185.5 143.5 178.0 417.5 327.5 35 40 45 50 27.indd 20315044_041 . 80A 158 143 KB.0 264.5 35 40 45 50 Dimension AC AD dv (M.5) LL AG xk LB KB. 100B 196 176 KB.3 35 42 50 55 60 qG qV s1 s2 w1 w2 w3 203.WU.3.6 33.5 114 134 154 183 208 113.0 3.5 28.6.3 24. 71B 140 134 KB.0 256. 125B 246 200 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 4xM32 4xM32 4xM32 128 108 77 244 128 108 77 264 128 108 82 285 128 108 82 300 128 108 92 315 128 108 92 331 158 128 103 349 158 128 103 366 158 128 110 389 158 128 122 444 KB.. X 1.5 209. 100A 196 176 KB. 140B 274 250 2xM40 2xM50 273 173 174 511 20315044_145 192 2031513h_en_300812. 5 200.5 15.5 17.5 35 3.5 8.5 15.WU.5 17.5 6.631+0.5 15.031 72 148.5 17.5 h11max 256 256 256 256 256 256 256 256 278 278 290 h11max 256 256 256 256 WU 20 WU 30 WU 40 WU 50 3 2-stage Gearbox 20315044_056 Gearbox WK d 1) WU 10 WU 20 WU 30 WU 40 WU 50 V 25 V 25 V 30 V 40 V 50 25 k6 25 k6 30 k6 40 k6 50 k6 WUV Solid shaft with key i2 s4 DIN 332-DR 50 56.5 11.5 35 3.5 17.5 17.5 7.indd 20315044_066 1) Shaft code 193 .5 30 35 35 8 WK 1) B 25 B 28 8 B 30 10 B 35 12 B 40 14 B 50 WUB Hollow shaft with shrink disc d4 d5 l2 l3 l6 l9 H7/h6 25 28 30 35 40 50 60 127.75 4. KB.5 170.3 20 K 30 N30 x 1.5 20 20 33 35 – c4 15.25 x 22 155 10.5 197.042 37.5 17.028 20315044_065 Gearbox WK 1) WUH Hollow shaft with key d1 l1 l3 l7 u H7/k6 N9 WU 10 H 30 30 135 10.044 N35 x 2 x 16 N45 x 2 x 21 N50 x 2 x 24 175 10.5 15.5 17.0. Motor KB. KB.5 17.00 4.023 69.25 x 18 135 10.00 4.5 17.25x22 W35x2x16 W45x2x21 W50x2x24 W65x2x31 WUE Splined solid shaft l4 l5 l10 DM 70 70 85 120 128 123.0 43. KB.5 – – – – – – – c4 – – – – h11max 168 168 168 168 – – – – – – – h11max – – – – WU 10 kG 636 656 679 694 – – – – – – – kV 698 718 741 756 pG 380 380 380 380 – – – – – – – pV 443 443 443 443 d11 19 19 19 19 – – – – – – – d11 19 19 19 19 c4 11.023 48.0 180.5 13. 10 . 71 A 71 B 80 A 80 B – kG 606 626 649 664 – – – – – – – kV – – – pG 351 351 351 351 – – – – – – – pV – – – – d11 19 19 19 19 – – – – – – – d11 – – – – c4 11.5 130.5 M10 50 56.00 4.5 15.5 13.5 29 2.50 2031513h_en_300812.5 228.5 151.186 .0.972 .0 15 WK 1) WUK Splined hollow shaft d2 DIN 5480 l1 l3 l8 DM 7H/6g K 25 N25 x 1.3 34. KB. KB. KB. KB.0 173.5 M10 80 87. 112B 125B 140B T.3.5 27.3 31.649+0.293+0. 50 D.5 6.0 225. KB.025 54.5 30 WU 20 H 30 30 155 10.3 Dimension sheets for coupling connection with conical rotor motor Angular geared motors Universal type WU.5 261.5 h11max 210 210 210 210 210 210 – – – – – h11max 210 210 210 210 kG 699 719 744 759 774 790 810 827 893 949 – kV 772 792 815 830 pG 442 442 442 442 442 442 442 442 471 471 – pV 512 512 512 512 d11 22 22 22 22 22 22 22 22 25 25 – d11 22 22 22 22 c4 15.0 53.6.297+0.5 11.0 M16 l t 28.5 10.5 – – – – – – – c4 11.5 10.5 35 3.5 30 WU 30 WU 40 WU 50 H 35 H 40 H 50 35 40 50 175 204 229 10.5 – – – – – c4 15. KB.0 6.5 30 2.50 204 10.3 20 30 40 K 35 K 45 K 50 27.5 M10 60 66. Motor KB.0 33.00 Me 33.737+0.0 28.5 17. 71 A 71 B 80 A 80 B 90 A 90 B 3-stage KB. 100 A 100 B KB.039 42.909 .5 h11max 191 191 191 191 – – – – – – – h11max 191 191 191 191 kG 666 686 709 724 739 755 – – – – – kV 729 749 772 787 pG 407 407 407 407 407 407 – – – – – pV 469 469 469 469 d11 30 30 30 30 30 30 – – – – – d11 30 30 30 30 c4 15.5 h11max 224 224 224 224 224 224 232 232 244 257 – h11max 224 224 224 224 kG 749 769 792 807 822 838 858 875 941 997 1065 kV 819 839 862 877 pG 490 490 490 490 490 490 490 490 516 516 516 pV 559 559 559 559 d11 22 22 22 22 22 22 22 22 32 32 32 d11 22 22 22 22 c4 15.5 17.5 20 20 36 38 38 c4 15.5 17.034 80 90 110 168. KB.020 38.5 13.25 25.078 . KB.5 17.5 17.5 13.0.0.5 17.5 277.5 13.5 13.5 11.0 29.0 M16 100 107.5 17.50 229 10.25 Mi 20.5 17.1 24.5 15.024 .5 17.0.0 2.5 u x b x l12 DIN 6885 A8 x 7 x 40 A8 x 7 x 40 A8 x 7 x 50 A12 x 8 x 70 A14 x 9 x 90 WK 1) E 30 E 35 E 45 E 50 E 65 d3 DIN 5480 6g/7H W30x1. 5 128.0 5. 180B 354 293 2xM40 2xM50 273 173 237 663 KB.5 54. 112B 220 189 KB. X 1.0.5 – 4.5 612.0 389. 71B 140 134 KB.0 74. 90A 178 153 KB.027 116. 125B 246 200 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 4xM32 4xM32 4xM32 128 108 77 244 128 108 77 264 128 108 82 285 128 108 82 300 128 108 92 315 128 108 92 331 158 128 103 349 158 128 103 366 158 128 110 389 158 128 122 444 KB.5) LL AG xk LB KB.5 214.00 6.0 417. 80A 158 143 KB.0 626. 100 kG/kV pG/pV qV 3 qG 42088845.944 .00 – Me 69.030 – 20315044_067 194 1) Shaft code 2031513h_en_300812.0. 140B 274 250 2xM40 2xM50 273 173 174 511 KB.0 230 270 275 310 380 222.5 473.0 284.5 – 285.0 750.5 263. 100B 196 176 KB.036 .0 Gearbox dimensions h1 h2 h3 T Q 11.0 150. 100A 196 176 Motor KB.024 .0 4.0 116.0 435. 160B 314 269 2xM40 2xM50 273 173 221 586 KB.028 81.5 4.028 95.5 439. 225B 440 332 2xM40 2xM50 273 173 256 769 20315044_080 WK d l 1) WU 60 WU 70 WU 80 WU 90 WU 100 V 50 V 60 V 70 V 90 V 110 50 k6 60 m6 70 m6 90 m6 110 m6 100 120 140 170 210 107.0 252.5 M12x16 M16x21 M16x21 M20x30 M20x35 M16x21 M16x21 M20x35 M24x44 M30x50 60 65 85 110 140 50 65 100 95 120 55 60 115 115 130 20315044_042 Dimension AC AD dv (M.5 205 312 6 56 245 373 32 82 275 417 32 93 315 481 44 122 390 596 m qG qV s1 s2 w1 w2 w3 65 70 80 90 100 313.5 496.WU.0 221.5 95.5 548.eps Gearbox a b1 b3 b4 b5 e1 f1 f2 f3 WU 60 WU 70 WU 80 WU 90 WU 100 210 250 245 310 400 130 j6 180 j6 230 h6 250 h6 300 h6 205 240 240 280 350 150 175 175 210 250 210 250 245 310 400 165 215 265 300 350 3.0.0 5.0.292 . 80B 158 143 KB.0 411. 60 .0 287.5 336.indd Gearbox WUV Solid shaft with key i2 s4 DIN 332-DR .6.5 349.00 6.00 6.0 u x b x l12 DIN 6885 WK 1) d3 DIN 5480 6g/7H A14 x 9 x 90 A18x11x110 A20x12x125 A25x14x160 A28x16x200 E 65 E 75 E 90 E 110 – W65x2x31 W75x3x24 W90x3x28 W110x3x35 – WUE Splined solid shaft l4 l5 l10 DM 125 170 200 220 – 170.0 181. 71A 140 134 KB. 200B 394 311 2xM40 2xM50 273 173 246 729 KB.3 Dimension sheets for coupling connection with conical rotor motor Angular geared motors Universal type WU.3. 90B 178 153 KB..0 M16 M20 M20 M24 M24 t 53.0 361.5 64. 50 N75 x 3 x 24 299 12.indd Gearbox WU 60 WU 70 WU 80 WU 90 WU 100 WUH Hollow shaft with key d1 l1 l3 l7 1) H7/k6 H 50 50 254 12. 100 A 100 B KB.5 1088 787 481 24 15.0 35 3.5 1207 907 596 24 15.0 11.5 908 560 312 22 17.5 50 H 70 70 299 12. 140B 1023 474 344 32 38 1142 593 414 41 38 1216 667 418 41 38 1274 725 481 41 38 1390 841 596 41 38 KB. 200B kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 819 560 312 22 15.0 50 H 100 100 418 19.5 895 616 373 22 15.5 875 616 373 22 15.5 1008 690 417 22 17.5 933 616 373 22 17.031+0.5 44.3. 80 A 775 474 312 24 15.0 9.5 928 560 312 22 20 984 616 373 22 20 1059 690 417 22 20 1154 787 481 24 18 1273 907 596 24 18 969 560 312 22 20 1067 642 373 32 36 1141 716 417 32 36 1212 787 481 32 36 1407 982 596 41 36 – – – – – 1123 642 373 32 38 1198 716 417 32 38 1269 787 481 32 38 1464 982 596 41 38 – – – – – 1191 642 373 32 38 1265 716 417 32 38 1336 787 481 32 38 1531 982 596 41 38 – – – – – – – – – – – – – – – 1447 787 481 32 74 1642 982 596 41 74 – – – – – – – – – – – – – – – – – – – – 1719 982 596 41 74 – – – – – – – – – – – – – – – – – – – – 1798 982 596 41 87 945 560 312 22 20 1001 616 373 22 20 1076 690 417 22 20 1171 787 481 24 18 1290 907 596 24 18 20315044_062 2031513h_en_300812. 125B 956 474 344 32 38 1074 593 414 41 38 1149 667 418 41 38 1207 725 481 41 38 1322 841 596 41 38 KB. 90 B 821 474 312 24 15. 112B 899 474 344 32 36 1018 593 414 41 36 1092 667 418 41 36 1150 725 481 41 36 1266 841 596 41 36 KB. 60 .5 948 616 373 22 17.5 950 690 417 22 15.962 +0.3 B 65 65 141 291. 71 A KB.042 99.5 922 592 417 24 15. 160B 1134 474 351 32 74 1252 593 414 41 74 1327 667 418 41 74 1385 725 491 41 74 1500 841 596 41 74 KB. 90 A 805 474 312 24 15. 180B – – – – – 1329 593 416 41 74 1404 667 420 41 74 1462 725 491 41 74 1577 841 596 41 74 KB.5 WK l9 WK 1) 40 K 50 50 K 65 50 K 75 60 K 90 60 K 110 WUK Splined hollow shaft d2 DIN 5480 l1 l3 l8 DM 7H/6g N50 x 2 x 24 254 12. 225B – – – – – – – – – – – – – – – 1581 725 503 41 87 1696 841 596 41 87 3 Angular geared motors Universal type WU.5 818 517 373 24 15.6.5 1134 787 481 24 15.5 37. KB. 71 B 752 474 312 24 13.0 9. 112B KB.WU. 71 B KB. 160B KB. 180B KB. 80 B KB. 100 A 841 474 312 24 18 886 517 373 24 18 958 592 417 24 18 – – – – – – – – – – Motor KB.5 777 517 373 24 13.4 B 90 90 185 334. 100 20315044_059 4-stage Gearbox WU 60 WU 70 WU 80 WU 90 WU 100 Q.25 Mi 42.5 – – – – – – – – – – KB.5 1118 787 481 24 15.5 – – – – – – – – – – 862 560 312 22 17. 125B KB.5 1222 907 596 24 15.050 79.5 918 616 373 22 17.5 45 3.5 – – – – – – – – – – KB.4 B 70 70 155 296.0 45 5.5 1039 690 417 22 17.5 – – – – – – – – – – KB.3 Dimension sheets for coupling connection with conical rotor motor 3-stage Gearbox T. 80 A KB.0 56. 80 B 790 474 312 24 15.0 34.5 877 560 312 22 17.0 11.5 – – – – – – – – – – KB.5 1237 907 596 24 15. 90 B Motor KB.136 +0.25 N90 x 3 x 28 336 13. 100 B 858 474 312 24 18 903 517 373 24 18 975 592 417 24 18 – – – – – – – – – – KB.045 63.5 795 517 373 24 13.50 N65 x 2 x 31 295 12.0 9. kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 WU 60 WU 70 WU 80 WU 90 WU 100 KB.649+0.0 65.5 970 690 417 22 15. 140B KB.5 864 517 373 24 15.5 849 592 417 24 13.5 – – – – – – – – – – KB.0 35 H 60 60 295 12. 90 A KB.5 964 616 373 22 17.049 20315044_068 1) Shaft code 195 .5 892 560 312 22 17. 200B – – – – – 1408 593 436 41 87 1483 667 440 41 87 1541 725 491 41 87 1656 841 596 41 87 KB.25 N110 x 3 x 35 418 19.5 – – – – – – – – – – KB. KB.5 B 100 100 230 404.5 848 517 373 24 15.5 833 517 373 24 15.5 1103 787 481 24 15.044 57.5 938 592 417 24 15.0 75 WK u N9 14 18 20 25 28 WUB Hollow shaft with shrink disc d4 d5 l2 l3 l6 1) H7/h6 B 50 50 110 252.5 1023 690 417 22 17.5 907 592 417 24 15.5 869 592 417 24 13.0 45 5.5 1253 907 596 24 15.5 993 690 417 22 17.0 50 H 90 90 336 13.0 55 5. 71 A 732 474 312 24 13.675 +0.5 – – – – – – – – – – 839 560 312 22 15.5 892 592 417 24 15. 5 211.3 180.eps Gearbox dimensions Gearbox WG 10 WG 20 WG 30 WG 40 WG 50 + 0.5 234.0 60.0 27.3 39 46 54 61 65 203.5 123.5 327.5 347.0 45. 100B 196 176 KB.0 50.3.0 40. 90B 178 153 KB.0 417.5) LL AG xk LB KB.5 178.6 33.5 234.0 70.6.5 – 296.5 35.indd 20315044_045 . X 1. 80A 158 143 KB. 112B 220 189 KB. 100A 196 176 KB.3 24. 90A 178 153 Motor KB.5 299.0 83 98 110 130 145 Dimension AC AD dv (M. 71B 140 134 KB.0 370. 50 kG/kV pG/pV qV qG 3 WGV WGH WGE WGB WGK 41671844.5 28.5 143. 80B 158 143 KB. 140B 274 250 2xM40 2xM50 273 173 174 511 20315044_145 196 2031513h_en_300812.5 a 120 140 160 200 220 b 130 158 185 215 240 b1 j6 80 95 95 110 130 b3 b4 b5 c e1 f f2 f3 h h1 h3 m qG qV s s1 s2 w1 w2 w3 21.3 157.5 45.0 9 11 11 14 14 M8x16 M10x21 M10x22 M12x25 M16x25 M8x17 M10x24 M10x25 M12x25 M12x25 37.0 -0.WG.0 264.3 Dimension sheets for coupling connection with conical rotor motor Angular geared motors Foot-mounted type WG. 10 .4 205. 125B 246 200 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 4xM32 4xM32 4xM32 128 108 77 244 128 108 77 264 128 108 82 285 128 108 82 300 128 108 92 315 128 108 92 331 158 128 103 349 158 128 103 366 158 128 110 389 158 128 122 444 KB.0 50. 71A 140 134 KB.5 27..2 97 70 75 115 80 90 135 95 100 158 110 120 170 120 140 18 18 20 22 22 100 115 115 130 165 168 203 238 270 295 114 134 154 183 208 113.0 281. 0 53.3 WK 15 WGK Splined hollow shaft d2 DIN 5480 l1 l3 l8 DM Mi 1) 7H/6g K 25 N25 x 1.0 33.078 .25 20. KB.028 20315044_073 Gearbox WG 10 WG 20 WG 30 WG 40 WG 50 WGH Hollow shaft with key WGB Hollow shaft with shrink disc d1 l1 l3 l7 u WK d4 d5 l2 l3 l6 1) 1) H7/k6 N9 H7/h6 H 30 30 135 10. 71 A 71 B 80 A 80 B – kG 606 626 649 664 – – – – – – – kV – – – pG 351 351 351 351 – – – – – – – pV – – – – d11 19 19 19 19 – – – – – – – d11 – – – – – c4 11.5 17.5 h11max 281 281 281 281 281 281 281 281 303 303 315 h11max 281 281 281 281 WG 50 3 2-stage Gearbox 20315044_058 Gearbox WK d l 1) WG 10 WG 20 WG 30 WG 40 WG 50 V 25 V 25 V 30 V 40 V 50 25k6 25k6 30k6 40k6 50k6 50 50 60 80 100 WGV Solid shaft with key i2 s4 DIN 332-DR 56.5 – – – – – c4 15.023 69.5 13.5 30 2.5 35 14 B 50 50 110 225.649+0.5 31.5 30 8 72 148.5 27.0.0 173.5 M10 66.293+0.5 – – – – – – – c4 – – – h11max 186 186 186 186 – – – – – – – h11max – – – – kG 636 656 679 694 – – – – – – – kV 698 718 741 756 443 WG 20 pG 380 380 380 380 – – – – – – – pV 443 443 443 d11 19 19 19 19 – – – – – – – d11 19 19 19 19 c4 11.3 H 50 50 229 10. Motor KB.5 17. KB.5 15. 112B 125B 140B T.039 42.1 24.0.5 197.5 30 10 B 35 35 80 168.5 6.5 13.0 180.5 15. KB.75 4.3 B 30 30 H 35 35 175 10.5 17.5 13.5 277.044 l9 WK N35 x 2 x 16 N45 x 2 x 21 N50 x 2 x 24 175 10.5 17.50 3.5 261.25 x 22 155 10.0. KB. KB.0 M16 107.5 17.3.042 37.5 13. 50 D.0.972 .5 20 20 36 38 38 c4 15.5 15.5 17.5 17.5 170.5 – – – – – – – c4 11.25 25.5 6.023 48.50 27. KB.indd 20315044_074 1) Shaft code 197 .5 15.WG. 10 . 71 A 71 B 80 A 80 B 90 A 90 B 3-stage KB.631+0.50 3.020 38.5 151.5 35 2031513h_en_300812.0 28.025 54.5 17.5 228.00 Me 33.5 130.5 17.5 11. KB. KB.5 17.25x22 W35x2x16 W45x2x21 W50x2x24 W65x2x31 WGE Splined solid shaft l4 l5 l10 DM 70 70 85 120 128 123.0 M16 t 28.5 13.0 43.5 17.0 2.5 u x b x l12 DIN 6885 A8 x 7 x 40 A8 x 7 x 40 A8 x 7 x 50 A12 x 8 x 70 A14 x 9 x 90 WK 1) E 30 E 35 E 45 E 50 E 65 d3 DIN 5480 6g/7H W30x1.5 17.024 .5 h11max 249 249 249 249 249 249 257 257 269 282 – h11max 249 249 249 249 kG 749 769 792 807 822 838 858 875 941 997 1065 kV 819 839 862 877 559 pG 490 490 490 490 490 490 490 490 516 516 516 pV 559 559 559 d11 22 22 22 22 22 22 22 22 32 32 32 d11 22 22 22 22 c4 15.5 17. KB.5 17.297+0.3 H 40 40 204 10. KB.0 7.5 35 229 10.5 15.3 Dimension sheets for coupling connection with conical rotor motor Angular geared motors Foot-mounted type WG.00 4.031 20 K 30 N30 x 1.5 h11max 209 209 209 209 – – – – – – – h11max 209 209 209 209 kG 666 686 709 724 739 755 – – – – – kV 729 749 772 787 469 WG 30 pG 407 407 407 407 407 407 – – – – – pV 469 469 469 d11 30 30 30 30 30 30 – – – – – d11 30 30 30 30 c4 15.5 20 20 33 35 – c4 15.6.5 17.737+0.00 4.5 13.5 11.5 11.00 4.0 B 28 28 H 30 30 155 10.5 35 12 B 40 40 90 200.5 15. KB.186 .5 17.5 29 2.5 M10 56.5 6.5 17.5 29.5 h11max 230 230 230 230 230 230 – – – – – h11max 230 230 230 230 kG 699 719 744 759 774 790 810 827 893 949 – kV 772 792 815 830 512 WG 40 pG 442 442 442 442 442 442 442 442 471 471 – pV 512 512 512 d11 22 22 22 22 22 22 22 22 25 25 – d11 22 22 22 22 c4 15.5 30 8 B 25 25 60 127.909 .5 17.0 34.0 8. WG 10 Motor KB. 100 A 100 B KB.25 x 18 135 10.5 M10 87.0.5 35 204 10.034 20 30 40 K 35 K 45 K 50 3. 00 – Me 69.030 – 20315044_075 198 1) Shaft code 2031513h_en_300812.5 349.5 – 285.00 6.5 18 18 22 26 33 M12x16 M16x21 M16x21 M20x30 M20x35 w1 w2 w3 Q 235 11.027 116.024 . 80A 158 143 KB.5 612. 71A 140 134 KB.0 M20 181. 80B 158 143 KB.3.WG.5 548. X 1.5 473.5 M16 128.0 411. 180B 354 293 2xM40 2xM50 273 173 237 663 KB.6.036 .3 Dimension sheets for coupling connection with conical rotor motor Angular geared motors Foot-mounted type WG.0 M24 t u x b x l12 DIN 6885 53.5 496. 200B 394 311 2xM40 2xM50 273 173 246 729 KB.00 6.0 287.5 – 4.0 750. 71B 140 134 KB.0 A25x14x160 116.0 361.0 389. 90A 178 153 KB.028 81.0 M20 150.0 M24 221.0 284.0 A18x11x110 74. 112B 220 189 KB.0 417.0..0 h1 T h3 m qG qV s s1 s2 313.5 275 6 56 315 32 82 360 32 93 450 44 122 342 71 403 76 457 88 526 98 656 111 M16x21 60 50 55 M16x21 65 65 60 M20x35 85 100 115 M24x44 110 95 115 M30x50 140 120 130 20315044_046 Dimension AC AD dv (M. 60 . 140B 274 250 2xM40 2xM50 273 173 174 511 KB.5) LL AG xk LB KB.6 a b b1 b3 b4 b5 c e1 f f2 f3 h .0.5 336.0 626. 100 qV kg/kV pG/pV 3 qG 42089145. 90B 178 153 KB.5 214.5 263. 100A 196 176 Motor KB.944 . 125B 246 200 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 4xM32 4xM32 4xM32 128 108 77 244 128 108 77 264 128 108 82 285 128 108 82 300 128 108 92 315 128 108 92 331 158 128 103 349 158 128 103 366 158 128 110 389 158 128 122 444 KB.0 435.028 95.5 439.292 .5 54. 225B 440 332 2xM40 2xM50 273 173 256 769 20315044_080 WK d l 1) WG 60 WG 70 WG 80 WG 90 WG 100 V 50 V 60 V 70 V 90 V 110 50k6 60m6 70m6 90m6 110m6 100 120 140 170 210 WGV Solid shaft with key i2 s4 DIN 332-DR 107.5 A14 x 9 x 90 64.0.0.eps Gearbox dimensions Gearbox + 0. 100B 196 176 KB.5 A20x12x125 95. 160B 314 269 2xM40 2xM50 273 173 221 586 KB.0.3 WG 60 WG 70 WG 80 WG 90 WG 100 210 250 245 310 400 265 290 320 370 430 130 j6 180 j6 230 h6 250 h6 300 h6 205 240 240 280 350 150 175 175 210 250 210 250 245 310 400 30 30 40 45 60 165 215 265 300 350 335 360 396 457 529 230 270 275 310 380 222.indd Gearbox .0 A28x16x200 WK 1) E 65 E 75 E 90 E 110 – d3 DIN 5480 6g/7H W65x2x31 W75x3x24 W90x3x28 W110x3x35 – WGE Splined solid shaft l4 l5 l10 DM 125 170 200 220 – 170.0 252.00 6. 5 12.5 950 690 457 22 15.136 +0. 71 B KB. 90 B 821 474 342 24 15.5 892 560 342 22 17.675 +0. 200B kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 819 560 342 22 15.5 970 690 457 22 15.5 WK 1) 40 K 50 50 K 65 50 K 75 60 K 90 60 K 110 WGK Splined hollow shaft d2 DIN 5480 l1 l3 l8 DM 7H/6g N50 x 2 x 24 N65 x 2 x 31 N75 x 3 x 24 N90 x 3 x 28 N110 x 3 x 35 254 295 299 336 418 12. 180B – – – – – 1329 593 446 41 74 1404 667 460 41 74 1462 725 536 41 74 1577 841 656 41 74 KB.WG.5 296.5 777 517 403 24 13. 100 A 100 B KB.50 57.0 35 45 45 45 55 Mi 3.5 1008 690 457 22 17. 180B KB.0 9. 90 B Motor KB.0 13.5 933 616 403 22 17.indd 1) WG 60 WG 70 WG 80 WG 90 WG 100 WGH Hollow shaft with key d1 l1 l3 l7 u H7/k6 N9 H 50 50 H 60 60 H 70 70 H 90 90 H 100 100 254 295 299 336 418 12.5 – – – – – – – – – – 862 560 342 22 17.0 12.5 833 517 403 24 15.5 928 560 342 22 20 984 616 403 22 20 1059 690 457 22 20 1154 787 526 24 18 1273 907 656 24 18 969 560 342 22 20 1067 642 403 32 36 1141 716 457 32 36 1212 787 526 32 36 1407 982 656 41 36 – – – – – 1123 642 403 32 38 1198 716 457 32 38 1269 787 526 32 38 1464 982 656 41 38 – – – – – 1191 642 403 32 38 1265 716 457 32 38 1336 787 526 32 38 1531 982 656 41 38 – – – – – – – – – – – – – – – 1447 787 526 32 74 1642 982 656 41 74 – – – – – – – – – – – – – – – – – – – – 1719 982 656 41 74 – – – – – – – – – – – – – – – – – – – – 1798 982 656 41 87 945 560 342 22 20 1001 616 403 22 20 1076 690 457 22 20 1171 787 526 24 18 1290 907 656 24 18 20315044_063 Gearbox WK 2031513h_en_300812.5 1118 787 526 24 15. 112B 899 474 374 32 36 1018 593 444 41 36 1092 667 458 41 36 1150 725 526 41 36 1266 841 656 41 36 KB. 160B KB.5 818 517 403 24 15. 80 B KB.5 – – – – – – – – – – KB.5 795 517 403 24 13.5 1237 907 656 24 15.5 892 592 457 24 15. 60 . 125B KB.5 1039 690 457 22 17.5 922 592 457 24 15.0 9.0 9.5 907 592 457 24 15. kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 WG 60 WG 70 WG 80 WG 90 WG 100 KB.044 3.25 99.5 869 592 457 24 13.5 877 560 342 22 17.0 19.5 12.5 875 616 403 22 15.0 11. 90 A KB. KB. 112B KB.049 20315044_076 1) Shaft code 199 .5 – – – – – – – – – – KB.0 19. 90 A 805 474 342 24 15.5 895 616 403 22 15.5 864 517 403 24 15. 160B 1134 474 381 32 74 1252 593 444 41 74 1327 667 458 41 74 1385 725 536 41 74 1500 841 656 41 74 KB. 71 A 732 474 342 24 13.5 – – – – – – – – – – KB.5 1103 787 526 24 15.5 964 616 403 22 17. 100 20315044_060 4-stage Gearbox WG 60 WG 70 WG 80 WG 90 WG 100 Q.5 993 690 457 22 17.962 +0. 225B – – – – – – – – – – – – – – – 1581 725 548 41 87 1696 841 656 41 87 3 Angular geared motors Foot-mounted type WG.042 5.5 1134 787 526 24 15.4 56. 80 A 775 474 342 24 15.5 – – – – – – – – – – KB.5 848 517 403 24 15. 100 B 858 474 342 24 18 903 517 403 24 18 975 592 457 24 18 – – – – – – – – – – KB.031+0.0 13. 140B 1023 474 374 32 38 1142 593 444 41 38 1216 667 458 41 38 1274 725 526 41 38 1390 841 656 41 38 KB.0 35 50 50 50 75 14 18 20 25 28 WK 1) B 50 B 65 B 70 B 90 B 100 WGB Hollow shaft with shrink disc d4 d5 l2 l3 l6 l9 H7/h6 50 65 70 90 100 110 141 155 185 230 252. 80 A KB.5 1222 907 656 24 15.5 849 592 457 24 13.5 334.0 11.5 1088 787 526 24 15.5 – – – – – – – – – – KB.4 44.649+0. 71 B 752 474 342 24 13.0 12.3.045 5.5 – – – – – – – – – – 839 560 342 22 15.6.5 908 560 342 22 17.3 37. 200B – – – – – 1408 593 466 41 87 1483 667 480 41 87 1541 725 536 41 87 1656 841 656 41 87 KB.3 Dimension sheets for coupling connection with conical rotor motor 3-stage Gearbox T.5 1253 907 656 24 15.0 34.050 5. 71 A KB.5 938 592 457 24 15.5 918 616 403 22 17. 140B KB. 100 A 841 474 342 24 18 886 517 403 24 18 958 592 457 24 18 – – – – – – – – – – Motor KB.25 63.5 65.50 42.0 291.25 79. KB.0 404.5 948 616 403 22 17.5 – – – – – – – – – – KB. 125B 956 474 374 32 38 1074 593 444 41 38 1149 667 458 41 38 1207 725 526 41 38 1322 841 656 41 38 KB. 80 B 790 474 342 24 15.5 1023 690 457 22 17.5 1207 907 656 24 15. 5 3.0 140.0 220.0 21. 10 .0 4. 71A 140 134 KB.5 327.3 35 42 50 55 60 203.0 9.3 Dimension sheets for coupling connection with conical rotor motor Angular geared motors Flange-mounted type WF.3.6 33. 100A 196 176 KB.5 234.5 28.3 162.4 185.0 162.5 45 50 60 70 w2 w3 27. 112B 220 189 KB.0 179. 80A 158 143 KB.0 264.3 65 80 90 105 120 h3 m qG qV s1 s2 w1 139. 90B 178 153 KB.5 27. 71B 140 134 KB..5 4. 80B 158 143 KB.5 M8x17 M10x24 M10x25 M12x25 M12x25 37. 125B 246 200 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 4xM32 4xM32 4xM32 128 108 77 244 128 108 77 264 128 108 82 285 128 108 82 300 128 108 92 315 128 108 92 331 158 128 103 349 158 128 103 366 158 128 110 389 158 128 122 444 KB.5 153.5 299.5 35 40 45 50 Dimension AC AD dv (M. 100B 196 176 KB.indd 20315044_043 .5 347.0 119. X 1.5 – 296.6.0 13.WF.0 Gearbox dimensions f2 f3 h1 h2 100.0 256. 50 kG/kV pG/pV qV 3 qG 42059144.5 209.eps Gearbox WF 10 WF 20 WF 30 WF 40 WF 50 a a1 a11 b1 b3 b4 b5 c1 c5 e1 f1 120 140 160 200 220 160 160 200 250 250 123 123 154 192 192 110 j6 110 j6 130 j6 180 j6 180 j6 97 115 135 158 170 70 80 95 110 120 75 9 43 130 90 9 45 130 100 12 42 165 120 14 49 215 140 14 49 215 3.5 13.3 24.5) LL AG xk LB KB. 140B 274 250 2xM40 2xM50 273 173 174 511 20315044_145 200 2031513h_en_300812.0 112.5 253. 90A 178 153 Motor KB.0 9.5 3.0 150.0 11.0 417.0 370. 5 17. KB.25 x 22 155 10. KB.0 2.0 34. KB.5 17.5 31. 71 A 71 B 80 A 80 B – kG 606 626 649 664 – – – – – – – kV – – – pG 351 351 351 351 – – – – – – – pV – – – – d11 19 19 19 19 – – – – – – – d11 – – – – – c4 11. 50 D.indd 20315044_070 1) Shaft code 201 .5 6.5 15.3 B 30 30 H 35 35 175 10.5 – – – – – – – c4 – – – h11max 168 168 168 168 – – – – – – – h11max – – – – kG 636 656 679 694 – – – – – – – kV 698 718 741 756 443 WF 20 pG 380 380 380 380 – – – – – – – pV 443 443 443 d11 19 19 19 19 – – – – – – – d11 19 19 19 19 c4 11.5 197. KB.5 35 3.3 H 50 50 229 10.5 15.5 h11max 224 224 224 224 224 224 232 232 244 257 – h11max 224 224 224 224 kG 749 769 792 807 822 838 858 875 941 997 1065 kV 819 839 862 877 559 pG 490 490 490 490 490 490 490 490 516 516 516 pV 559 559 559 d11 22 22 22 22 22 22 22 22 32 32 32 d11 22 22 22 22 c4 15.028 20315044_069 Gearbox WF 10 WF 20 WF 30 WF 40 WF 50 WFH Hollow shaft with key WFB Hollow shaft with shrink disc d1 l1 l3 l7 u WK d4 d5 l2 l3 l6 1) 1) H7/k6 N9 H7/h6 H 30 30 135 10.0. KB.5 17. KB.5 277.5 17.3 H 40 40 204 10.00 4.0 53.00 Me 33.023 69.5 h11max 210 210 210 210 210 210 – – – – – h11max 210 210 210 210 kG 699 719 744 759 774 790 810 827 893 949 – kV 772 792 815 830 512 WF 40 pG 442 442 442 442 442 442 442 442 471 471 – pV 512 512 512 d11 22 22 22 22 22 22 22 22 25 25 – d11 22 22 22 22 c4 15.5 15.5 17.0 33. 100 A 100 B KB.649+0.5 13.5 13.1 24.5 170.031 20 K 30 N30 x 1.5 17.0 8.5 228.5 15.5 h11max 256 256 256 256 256 256 256 256 278 278 290 h11max 256 256 256 256 WF 50 3 2-stage Gearbox 20315044_057 Gearbox WK d l 1) WF 10 WF 20 WF 30 WF 40 WF 50 V 25 V 25 V 30 V 40 V 50 25 k6 25 k6 30 k6 40 k6 50 k6 50 50 60 80 100 WFV Solid shaft with key i2 s4 DIN 332-DR 50 M10 50 M10 60 M10 80 M16 100 M16 t 28.5 15.024 .631+0.WF.25x22 W35x2x16 W45x2x21 W50x2x24 W65x2x31 WFE Splined solid shaft l4 l5 l10 DM 70 70 85 120 128 123.5 20 20 36 38 38 c4 15.5 27. KB.297+0.5 11.5 261.5 17.50 204 10.5 17.75 4.5 17.0.5 15.5 30 10 B 35 35 80 168. KB.6.5 30 8 72 148.5 17.5 17. WF 10 Motor KB.5 151.0 B 28 28 H 30 30 155 10.5 20 20 33 35 – c4 15.5 30 8 B 25 25 60 127.025 54.5 13.0 173.5 17.3.5 11.5 6.5 11.5 17.5 30 2.0 28.5 17. 112B 125B 140B T.00 4.5 13. 71 A 71 B 80 A 80 B 90 A 90 B 3-stage KB.50 2031513h_en_300812.5 29.909 .50 229 10.5 17.5 h11max 191 191 191 191 – – – – – – – h11max 191 191 191 191 kG 666 686 709 724 739 755 – – – – – kV 729 749 772 787 469 WF 30 pG 407 407 407 407 407 407 – – – – – pV 469 469 469 d11 30 30 30 30 30 30 – – – – – d11 30 30 30 30 c4 15.25 20.5 35 14 B 50 50 110 225.737+0.293+0.5 6.25 25. KB.0.023 48.0 180.5 17.5 – – – – – c4 15.5 130.5 35 3.3 Dimension sheets for coupling connection with conical rotor motor Angular geared motors Flange-mounted type WF. 10 . KB.5 – – – – – – – c4 11.25 x 18 135 10.972 .5 u x b x l12 DIN 6885 A8 x 7 x 40 A8 x 7 x 40 A8 x 7 x 50 A12 x 8 x 70 A14 x 9 x 90 WK 1) E 30 E 35 E 45 E 50 E 65 d3 DIN 5480 6g/7H W30x1. Motor KB.5 13.039 42. KB.3 WK 15 WFK Splined hollow shaft d2 DIN 5480 l1 l3 l8 DM Mi 1) 7H/6g K 25 N25 x 1.020 38.5 17.0.0 43.078 .5 35 12 B 40 40 90 200.5 13.186 .042 37.5 35 3.5 29 2.034 20 30 40 K 35 K 45 K 50 27.044 l9 WK N35 x 2 x 16 N45 x 2 x 21 N50 x 2 x 24 175 10.5 17.00 4.0.0 7. 944 . 60 . 90B KB.0 264.0 11.indd Gearbox .eps Gearbox a WF 60 WF 70 WF 80 WF 90 WF 100 210 250 245 310 400 a1 a11 300 350 450 450 550 236 265 450 450 550 b1 b3 b4 b5 c1 c5 e1 f1 230 j6 250 j6 350 h6 350 h6 450 h6 205 240 240 280 350 150 175 175 210 250 210 250 245 310 400 14 17 17 20 20 265 300 400 400 500 4 5 5 5 5 49 71 71 69 69 Gearbox dimensions f3 h1 h2 T Q 164. 140B KB.5 439.292 .028 95.3.. X 1.0 394. 71B KB.00 6.5 32 82 275 224.00 6. 200B KB.0 A18x11x110 74.00 – Me 69.3 Dimension sheets for coupling connection with conical rotor motor Angular geared motors Flange-mounted type WF.5 – 285.0 417.5 473.5 612.5 54.0 469.0 361. 160B KB.0 435. 225B AC AD dv (M. 100A Motor KB.0.024 .0 326.5 214.0.5 496.5 349.0 284.WF.00 6. 90A KB.0 750.5 348.0.036 .0 252.027 116.5 205 206. 80A KB.0 44 122 390 f2 h3 m 312 65 373 70 417 80 481 90 596 100 qG qV s1 313.0 389.0 6 56 245 208. 100B KB.030 – 20315044_071 202 1) Shaft code 2031513h_en_300812.5) LL AG xk LB 140 134 140 134 158 143 158 143 178 153 178 153 196 176 196 176 220 189 246 200 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 4xM32 4xM32 4xM32 128 108 77 244 128 108 77 264 128 108 82 285 128 108 82 300 128 108 92 315 128 108 92 331 158 128 103 349 158 128 103 366 158 128 110 389 158 128 122 444 274 250 2xM40 2xM50 273 173 174 511 314 269 2xM40 2xM50 273 173 221 586 354 293 2xM40 2xM50 273 173 237 663 394 311 2xM40 2xM50 273 173 246 729 440 332 2xM40 2xM50 273 173 256 769 20315044_080 WK d l 1) WF 60 WF 70 WF 80 WF 90 WF 100 V 50 V 60 V 70 V 90 V 110 50 k6 60 m6 70 m6 90 m6 110 m6 100 120 140 170 210 WFV Solid shaft with key i2 s4 DIN 332-DR 100 M16 120 M20 140 M20 170 M24 210 M24 t u x b x l12 DIN 6885 53.5 14 18 18 18 18 s2 w1 w2 w3 M16x21 60 50 55 M16x21 65 65 60 M20x35 85 100 115 M24x44 110 95 115 M30x50 140 120 130 20315044_044 Dimension KB. 71A KB.028 81.WF 70 3 WF 80 .0 626.WF 100 42089445.6.5 A14 x 9 x 90 64. 112B KB.0. 125B KB.0 A25x14x160 116. 80B KB.0 A28x16x200 WK 1) E 65 E 75 E 90 E 110 – d3 DIN 5480 6g/7H W65x2x31 W75x3x24 W90x3x28 W110x3x35 – WFE Splined solid shaft l4 l5 l10 DM 125 170 200 220 – 170. 100 kG/kV pG/pV qV qG WF 60 .5 548.5 A20x12x125 95.5 – 4. 180B KB.0 32 93 315 259. 200B kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 kV pV h11max d11 c4 819 560 312 22 15.0 35 H 60 60 295 12. 140B KB.5 869 592 417 24 13. 90 B Motor KB.5 – – – – – – – – – – 862 560 312 22 17. 71 A KB.0 34. 100 A 100 B KB.4 B 70 70 155 296.5 993 690 417 22 17.5 918 616 373 22 17.0 50 H 90 90 336 13.5 – – – – – – – – – – 839 560 312 22 15.962 +0. 60 . kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 kG pG h11max d11 c4 WF 60 WF 70 WF 80 WF 90 WF 100 KB. 140B 1023 474 344 32 38 1142 593 414 41 38 1216 667 418 41 38 1274 725 481 41 38 1390 841 596 41 38 KB.045 63.5 1253 907 596 24 15.5 1103 787 481 24 15.indd Gearbox WF 60 WF 70 WF 80 WF 90 WF 100 WFH Hollow shaft with key d1 l1 l3 l7 1) H7/k6 H 50 50 254 12.5 795 517 373 24 13. 80 B KB.5 892 592 417 24 15.5 1237 907 596 24 15.5 1134 787 481 24 15. 80 A 775 474 312 24 15.25 N90 x 3 x 28 336 13.049 20315044_072 1) Shaft code 203 .5 1222 907 596 24 15.5 933 616 373 22 17.0 11. 180B KB.0 55 5.0 50 H 100 100 418 19.5 1008 690 417 22 17. 100 A 841 474 312 24 18 886 517 373 24 18 958 592 417 24 18 – – – – – – – – – – Motor KB.5 922 592 417 24 15.5 938 592 417 24 15.50 N65 x 2 x 31 295 12.5 – – – – – – – – – – KB.5 833 517 373 24 15. 125B KB.5 45 3. 112B KB.5 907 592 417 24 15.5 875 616 373 22 15.WF.4 B 90 90 185 334. 90 A KB.5 50 H 70 70 299 12. KB. 225B – – – – – – – – – – – – – – – 1581 725 503 41 87 1696 841 596 41 87 3 Angular geared motors Flange-mounted type WF. 90 A 805 474 312 24 15.649+0.5 1088 787 481 24 15.5 – – – – – – – – – – KB.5 37.5 – – – – – – – – – – KB.5 892 560 312 22 17.50 N75 x 3 x 24 299 12.5 964 616 373 22 17.5 864 517 373 24 15. 200B – – – – – 1408 593 436 41 87 1483 667 440 41 87 1541 725 491 41 87 1656 841 596 41 87 KB.6.044 57.3 Dimension sheets for coupling connection with conical rotor motor 3-stage Gearbox T.5 908 560 312 22 17.5 950 690 417 22 15. 80 B 790 474 312 24 15. 100 20315044_061 4-stage Gearbox WF 60 WF 70 WF 80 WF 90 WF 100 Q.0 9.3.0 56. 160B KB. 160B 1134 474 351 32 74 1252 593 414 41 74 1327 667 418 41 74 1385 725 491 41 74 1500 841 596 41 74 KB.5 928 560 312 22 20 984 616 373 22 20 1059 690 417 22 20 1154 787 481 24 18 1273 907 596 24 18 969 560 312 22 20 1067 642 373 32 36 1141 716 417 32 36 1212 787 481 32 36 1407 982 596 41 36 – – – – – 1123 642 373 32 38 1198 716 417 32 38 1269 787 481 32 38 1464 982 596 41 38 – – – – – 1191 642 373 32 38 1265 716 417 32 38 1336 787 481 32 38 1531 982 596 41 38 – – – – – – – – – – – – – – – 1447 787 481 32 74 1642 982 596 41 74 – – – – – – – – – – – – – – – – – – – – 1719 982 596 41 74 – – – – – – – – – – – – – – – – – – – – 1798 982 596 41 87 945 560 312 22 20 1001 616 373 22 20 1076 690 417 22 20 1171 787 481 24 18 1290 907 596 24 18 20315044_064 2031513h_en_300812.0 9.0 45 5.050 79.5 970 690 417 22 15.5 848 517 373 24 15.0 45 5.0 35 3.675 +0.25 N110 x 3 x 35 418 19.136 +0.5 895 616 373 22 15.5 – – – – – – – – – – KB. 71 A 732 474 312 24 13.5 818 517 373 24 15.5 – – – – – – – – – – KB. 90 B 821 474 312 24 15. 80 A KB.5 WK l9 WK 1) 40 K 50 50 K 65 50 K 75 60 K 90 60 K 110 WFK Splined hollow shaft d2 DIN 5480 l1 l3 l8 DM 7H/6g N50 x 2 x 24 254 12.5 1118 787 481 24 15.0 75 WK u N9 14 18 20 25 28 WFB Hollow shaft with shrink disc d4 d5 l2 l3 l6 1) H7/h6 B 50 50 110 252. 125B 956 474 344 32 38 1074 593 414 41 38 1149 667 418 41 38 1207 725 481 41 38 1322 841 596 41 38 KB. 180B – – – – – 1329 593 416 41 74 1404 667 420 41 74 1462 725 491 41 74 1577 841 596 41 74 KB.042 99.5 877 560 312 22 17.5 1207 907 596 24 15.5 777 517 373 24 13.5 1039 690 417 22 17. 71 B KB. 112B 899 474 344 32 36 1018 593 414 41 36 1092 667 418 41 36 1150 725 481 41 36 1266 841 596 41 36 KB.0 11. KB.25 Mi 42. 71 B 752 474 312 24 13.0 9.3 B 65 65 141 291.5 44.5 1023 690 417 22 17. 100 B 858 474 312 24 18 903 517 373 24 18 975 592 417 24 18 – – – – – – – – – – KB.031+0.5 948 616 373 22 17.5 B 100 100 230 404.0 65.5 849 592 417 24 13.5 – – – – – – – – – – KB. 132 KB 112 .0 33 37 318 5 250 224 32 280 31 M12x16 Z 63 .indd .7.2 24 x 1.80 KB 71 .140 32 x 1.5 53 60 400 9 315 280 41 355 40 M16x21 Z 112 .0 21 25 204 6 160 140 22 180 20 M10x20 Z 112 .5 Z 112 .100 24 x 1.0 33 37 318 6 250 224 32 280 32 M12x16 Z 63 .200 KB 160 .90B KB 71 .0 21 33 21 25 37 25 204 255 204 6.5 33 37 400 9 315 280 41 355 40 M16x21 Z 160 .0 146.2 l e1 r Z 63 .0 21 25 204 6 160 140 30 180 20 M10x20 24 x 1.90A KB 71 .0 21 25 204 6.2 24 49 142.90B KB 71 .125 KB 71 .0 160 140 22 180 20 M10x20 Z 63 .5 32 60 161..80 Z 63 .225 KB 112 .100 Z 63 .1 Solo gearbox coupling housing 3 41670144.5 33 53 37 60 400 400 10.0 160 140 22 180 20 M10x20 Z 63 .132 Z 63 .2 d i2 k6 19 53 24 53 24 x 1.5 228.0 21 25 255 6 200 180 24 224 25 M10x13.90A Z 63 .200 60 x 2 60 70 231.112B 24 x 1.0 142.3.0 21 25 255 6 200 180 24 224 25 M10x13.2 24 51 161.0 171.225 32 x 1.140 KB 160 ..100 KB 112A .D = 2-stage .Z 90B KB 71 .2 24 51 156.T = 3-stage 204 2031513i_en_300812. .90B Z 63 .90A KB 71 .0 6.5 Z 112 .160 KB 112 .80 KB 71 .80 24 x 1.0 10.90B KB 71 .Z 132 Z 160 .0 315 315 280 280 41 41 355 40 355 40 M16x21 M16x21 20315044_077 .0 140 125 19 21 25 178 6.Z 100 Z 112 .100 24 x 1.Z 132 KB 112 .2 24 49 32 60 24 49 142.100 24 x 1.5 24 x 1.Q = 4-stage .eps Gearbox W 10 W 20 W 30D W 30T W 40D W 40D W 40T W 50D / W 70Q / W 80Q W 50D / W 70Q / W 80Q W 50T W 60T / W 80Q / W 90Q W 60T / W 80Q / W 90Q W 60Q W 70T / W 80T / W 100Q W 70T / W 80T / W 100Q W 70T / W 80T / W 100Q W 90T / W 100T W 90T / W 100T Motor 147..0 5.100 KB 71 .90 KB 71 .2 24 49 142.7 Connection dimensions Coupling housing 3.0 140 125 19 160 16 160 16 s Mxt M8x20 M8x20 24 49 142. .160 32 x 1.5 60 x 2 32 60 60 70 228.5 32 60 168.0 21 25 204 6.5 32 60 231.140 32 x 1.90A Z 63 .2 32 x 1.0 Coupling housing dimensions l11 l12 a1 f5 b3 d1 d11 H7 21 25 178 6.0 160 200 160 140 180 140 22 25 30 180 20 224 25 180 20 M10x20 M10x25 M10x20 axb DIN 471 19 x 1. .2 24 49 142. 5 715 222 44 17.5 13.3.0 36.0 74.0 200 280 h6 355 236 3 Motor side d3 85 100 100 85 20315044_078 .5 16.indd . .0 74.2 Motor mounting flange Gearbox side 41670344.0 36.Q = 4-stage 205 . c4 715 120 44 715 122 44 715 124 44 715 220 44 11.0 38.0 70 80 110 110 125 155 110 125 155 180 j6 180 j6 180 j6 224 j6 224 j6 224 j6 280 h6 280 h6 280 h6 224 224 224 280 280 280 355 355 355 85 100 130 130 150 190 130 150 190 715 538 44 87. ..0 38..5 15.eps Gearbox W 10 / W 20 W 10 / W 20 W 20D W 30 / W 40 / W 50 / W 60Q / W 70Q / W 80Q W 30 / W 40 / W 50 / W 60Q / W 70Q / W 80Q W 30T / W 40T / W 50T / W 60Q / W 70Q / W 80Q W 30D / W 40D / W 50D / W 60Q / W 70Q / W 80Q W 60Q W 60T / W 70T / W 80T / W 90Q / W 100Q W 60T / W 70T / W 80T / W 90Q / W 100Q W 60T / W 70T / W 80T / W 90Q / W 100Q W 70Q / W 80Q / W 90Q W 50D / W 60T / W 70Q / W 80Q / W 90Q W 60T / W 90Q W 70T / W 80T / W 90T / W 100 W 70T / W 80T / W 90T / W 100 W 70T / W 80T / W 90T / W 100 W 70T / W 80T / W 90T / W 100 W 90T / W 100T Motor Z 63/71 Z 80/90A Z 90B Z 63/71 Z 80/90A Z 90B/100 Z 63/71 Z 80/90A Z 90B/100 Z 112/132 Z 160 Z 112/132 Z 160/180A Z 180B/200 Z 225 KB 71 KB 80 KB 71 KB 80 KB 90 KB 100 KB 112 KB 71 KB 80/90 KB 100 KB 112 KB 125/140 KB 160B KB 112 KB 125/140 KB 160B/180B KB 200B KB 225B Mounting flange dimensions b1 d1 d2 H7 70 125 j6 160 80 125 j6 160 110 125 j6 160 70 140 j6 180 Ident.5 80 140 j6 180 100 715 224 44 20.T = 3-stage 2031513i_en_300812..D = 2-stage .5 18.0 110 140 j6 180 130 715 320 44 715 322 44 715 324 44 715 426 44 715 428 44 715 434 44 715 526 44 715 528 44 715 536 44 13. no.7.0 15. . eps 2031514a_en_300812.AFV 90 Flange-mounted type AME 10 .AGV 90 4 Foot-mounted type AFV 20 .AUH 90 Universal type AGV 30 .indd Torque bracket type .AME 40 ADK 40 .4 Offset geared motors Housing designs AUH 20 .ADK 80 Torque bracket type 206 41670644. The type designation indicates the geared motor technical features. The geared motor may only be used in this design. of poles For motors fitted with a brake. Type designation The gearbox designation comprises: • • • • • • gearbox type housing design output shaft type motor frame size number of stages input type The motor designation comprises: • • • • • • motor type motor design application code motor frame size rating class no. This information makes it possible to determine the price and delivery period.5) contain several geared motors which fulfil the criteria in terms of power. The mounting code specifies the following in sequence: • • • • 4 Mounting code model and mounting position output shaft dimension motor terminal box position gearbox transmission ratio 2031514a_en_300812. speed and duty factor in the “Gearbox” column. The mounting code must be added to the gearbox information. The relevant motor type and brake size are specified in the “Motor” and “Brake” columns. (see operating instructions 214 206 44) 207 .The “Offset geared motors” selection tables (section 4.indd The type designation and mounting code are combined to produce the ordering data on the basis of which the required geared motor is delivered. the motor designation also indicates the brake size. 90 Housing design U Universal type G Foot-mounted type F Flange-mounted type M Torque bracket type (integrated torque bracket.40 . 50.0 .indd Output shaft design V Solid shaft with key E Splined solid shaft H Hollow shaft with key K Splined hollow shaft B Hollow shaft with shrink disc (motor side) .B14. AD40 – AD 80) Gearbox type A Offset gearboxes 208 2031514a_en_300812. 30. 70.4. AM10 – AM40) D Torque bracket type (centring for flange-mounted torque bracket). 60.1 Gearbox type designation Type designation Mounting code Refer to section 4. 40.4 for explanation of the mounting code Transmission ratio Terminal box position Output shaft code Model code U H 40 D D . 80. 20.1 22.7 Input type D Direct input L Light coupling S Heavy coupling 4 A Number of stages D 2-stage T 3-stage Sizes 10. 0-40-1-22.2 Motor and brake type designation Brake size ZBA: B003. 4. 80. 225 63. 225 71. 125. 225 80. B. 90. 80. B020. 112. 180. B280. 112. 71. 200. 140. 12/4 Rating class A. B050. 100. 180.7 ZBA 100 A4 B050 41605246.4. 132. 112. 8/2. 12/2. 6. B680 ZBE: B020. B020. KB) N Motor without brake (ZN) Motor type Z Cylindrical rotor motor K Conical rotor motor with brake (brake size not quoted) 4. 112. AL.eps 209 . 200. 100. 8. 80. 132. B140. 112. 180. 140 Application code 4 A Motor for general applications in intermittent duty E Motor for general applications in efficiency class IE2 F Motor for travel applications Motor design B Motor with brake (ZB. B140 Z B A 100 A 4 B050 No.3 Code example 2031514a_en_300812. 80. 90. B680 ZBF: B003. B140. C Size ZBA/ZNA: ZBE/ZNE: ZBF: KBA: KBF: 63. B280. B050. 100. B007. 100. 160. 125. 100.indd AUH 40 DD-B14. 90. of poles 2. 71. 160. 160. 90. 90. 132 71. 200. B050. on both sides1) E 11 11 11 11 11 11 11 11 – Hollow shaft with key H 22 24 35 40 50 60 70 90 100 Splined hollow shaft K 25 30 30 / 35 35 / 45 45 / 50 65 75 90 110 Hollow shaft with shrink disc. Output shaft code: The output shaft type is indicated by the following codes: Standard Option Output shaft code 4 Output shaft code Size A 10 A 20 A 30 A 40 A 50 A 60 A 70 A 80 A 90 Solid shaft with key. motor side B – 28 / 30 2) 35 3) 40 3) 50 3) 60 70 90 100 Solid shaft with key on both sides V – – 11 11 11 11 11 11 11 Solid shaft with key. an additional cost and non-standard delivery times apply. cover side1) E 30 35 45 50 65 75 90 110 – Splined solid shaft.4 Mounting code Model code: Sections 4.indd The dimensions for the optional shafts can be found in section 6. The code must include the corresponding model code.4. See table on page 211 for output shaft code to use W gearboxes with DRS 2) Not possible for motor frame size Z90B/100 3) Not possible for motor frame size Z112/132 2031514a_en_300812.4.1. motor side V – – 12 12 12 12 12 12 12 Solid shaft without key. . cover side V – 25 30 40 50 60 70 90 110 Splined solid shaft. For these shafts.5 illustrate the gearboxes in all available designs and mounting positions. cover side V – 125 130 140 150 160 170 190 210 Solid shaft with key.2 Output shaft design.4.4.1 to 4. cover side in inch V – 225 230 240 250 260 270 290 310 Hollow shaft with key in inch H 222 224 235 240 250 260 270 290 300 210 1) No radial load permitted. 90 1) E K 2) EA ZI 3) K W B 11 EA 30 ZI EA 30 11 35 ZI EA 35 11 45 ZI 45 K 11 50 ZI 50 51 65 66 11 22 EA 65 ZI EA 66 75 76 11 22 EA 75 ZI EA 76 90 91 11 22 EA 90 ZI EA E K Splined solid shaft Splined hollow shaft Individual drive unit ZI central drive unit. 20 AM . 20 K 112 AM . 30 E AM . 70 500 30 ZI ZI AD . 10 125 AM . 60 AD . 40 250 Connection variant K/W1 ZI AM . 80 2031514a_en_300812. 70 Output shaft code according to mounting code ZI K 3) B/W2 EA ZI AD . 20 160 Drive arrangement 4 DRS wheel block 111 22 110 = = = = = = 211 . 60 AD . 80 K E AD . 50 AD . 30 200 2) ZI AM . 40 K E AM . Gearbox/ Housing design Drive shaft type Size Size Identification letter 1) AM . 30 AM . 40 AD .indd AU . 50 315 AD .Output shaft code: Codes for shafts with involute splined profile E or K for use with A offset gearboxes with the Demag DRS wheel block system. 50 K E K AD . 10 E AM . inside arrangement Top connection W1 (side connection with drive on wheel block side) W2 (side connection with drive on connecting plate side) = Pin connection 91 EA 110 ZI 11 ZI 46 50 EA EA 36 45 EA EA 31 35 EA ZI AD . 60 E AD . 70 E 400 AD . See Demag DRS wheel block system catalogue 203 352 44 for further information on the Demag wheel range. 2 or 3 looking at the motor shaft end-on (see sections 4. D1.Terminal box position: The terminal box of the motor may be fitted in four different positions. the terminal box is coded according to model code B14.4.4.eps For vertical motor mounting positions. M0. 212 Refer to the “Transmission ratio i” column in the “Offset geared motors” selection tables for the transmission ratio.0.5). The positions are defined as 0.0 or B6.0. B5. 1.1 to 4. 2031514a_en_300812. Example: Terminal box position 1 0 1 3 2 41605244.indd 4 Gearbox transmission ratio: . indd Terminal box position code according to model code B14.0 0 1 3 2 B14.eps 0 1 3 2 V18 41605544.eps V19 2031514a_en_300812. V18 Gearbox front side with centring and internal thread.3 4 1 3 41605444. sections on both connecting plate sides machined.eps 0 1 3 2 41605344.1 AU gearbox model code Universal type U Model B14.A90 B14. V19.eps 213 .4.0 View to determine the terminal box position 41605245.4.eps B14.eps 41605245.1 41605245.2 0 2 B14. bore holes with internal thread Size A20 . eps .0 B7.eps B7.1 0 0 1 4 3 1 3 2 2 41607044.1 41607344.eps B3. B7.eps B6.indd 3 214 41607144.0 B3. V5.eps 2031514a_en_300812.0 V5.eps 41607544. B3. B8. V6 Foot mounting arrangement Size A30 .0 V6.1 0 0 1 3 1 3 2 2 41606844.1 Terminal box position code according to model code B6.A90 B6.eps View to determine the terminal box position 1 3 V5.eps 41607444.0 41606744.eps B8.4.eps B8.1 0 0 1 2 2 41606944.1 0 0 1 3 1 3 2 2 41606644.0 41606544.2 AG gearbox model code Foot-mounted type G Model B6.eps V6.eps 41606444.4.0 41607244.1 Terminal box position code according to model code B7. eps 2 B5.eps B5.4.eps 215 . V1 Flange-mounted with through-holes Size A20 .1 0 1 3 2 41605944.3 AF gearbox model code Flange-mounted type F Model B5.0 View to determine the terminal box position 41605844.0 0 1 3 2 41605844.3 0 1 3 2 V1 41606144.4. V3.eps V3 2031514a_en_300812.2 1 4 3 41606044.eps 41605844.eps 0 B5.A90 B5.indd Terminal box position code according to model code B5. eps 41607644.eps M4 M5 View to determine the terminal box position 216 41607644.indd Terminal box position code according to model code B 0 .eps M2 0 1 4 3 2 M3 41607844.4.eps 0 3 1 2 41607944.4 AM gearbox model code Torque bracket type M Torque bracket mounting arrangement Sizes A10 .4.A40 0 M0 3 1 2 41607644.eps M1 0 1 3 2 41607744.eps 2031514a_en_300812. 1 42092644.eps 0 1 3 2 42092744.5 2031514a_en_300812.eps 42092644.A80 0 D1.eps D1.3 4 3 42092844.4.eps 217 .eps D1.4 D1.0 3 1 2 D1.5 AD gearbox model code Torque bracket type D Gearbox front side with centring and internal thread Sizes A40 .indd Terminal box position code according to model code D1.eps 0 3 1 2 42092944.4.2 0 1 2 D1.0 View to determine the terminal box position 42092644. eps 2031514b_en_300812. For direct drive input.A90 Offset gearbox . Direct drive input 218 Cylindrical rotor motor Z63 . the various gearbox types are combined with Demag Z cylindrical rotor motors via end caps.4.Z225 Brake B003-B680 41685545.indd 4 A10 .5 Offset gearboxes in direct drive input The Demag modular system makes it possible to implement tailor-made solutions for a wide variety of tasks for drive applications. motor with standard brake = 24 kg P1 [kW] 0.80 2.30DD Housing and shaft design according to type designation in section 4.0.4 82.9 62.39 1.20 3...00 1.21 1..0 109 99.2 55.5 73.7 48.5.1 31.55 Output 2031514b_en_300812.8 61.3 fB = 2.5 39.7 49. Required duty factor fB erf ≈ 2.07 Weight AUH with oil in mounting position B14.8 86.42 3.4 36.77 3.55 kW with an output speed of approx.19 2.07 2.30DD ZBA 80 A 4 B007 24 4 4.61 1.2: Offset gearboxes A.1 Gearbox: A.77 1. From the table in section 4.1 81.42 2.20 2.1 Selection example offset geared motors Selection example A geared brake motor of 0.92 Gearbox Motor Brake Weight [kg] 2) A.4 71.indd Output speed n2 [rpm] M2 [Nm] i FR [N] 1) fB 12 14 16 17 19 23 25 29 13 14 16 17 20 23 25 29 31 36 39 45 49 56 426 374 337 302 273 228 206 181 403 369 320 305 266 230 206 179 168 146 134 116 108 93 115 101 91.92 1..4.40TD ZBA 80 A 4 B007 30 A.40DD ZBA 80 A 4 B007 29 A.19 3.64 0.30DD Motor: ZBA 80 A 4 = n2 29 rpm M2 = 179 Nm i = 48.6 55.3 45. 30 revolutions per minute is required.2 25.3 29.5.3 8000 8000 8000 8000 8000 8000 8000 8000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 1...90 3.96 2.2 Selection tables Offset geared motors single speed 219 .54 2.0.16 1.5.55 1.30TD ZBA 80 A 4 B007 24 A. 30TD ZBA 80 A 8 B007 24 A.5 45.95 1.10DD ZBA 63 B 4 B003 12 1) FR refers to types AUV and AGV.50TD ZBA 80 A 8 B007 56 A.43 1.59 0.06 1..3 2.19 2.72 2.3 4.97 3.80 2.4 6..1 3.10 1.40TD ZBA 80 A 8 B007 30 A.0..4 156 135 126 109 99.0 123 112 98..8 3.35 2.0 32.20TD ZBA 63 B 4 B003 14 A. refer to the Drive Designer for these values.4 6.9 8.1 40. Dimension sheets section 4.60 2.84 1.5 4..40 3.85 2.15 1.5 4.2 Selection tables Offset geared motors Single speed 4 0.49 1.12 2.0 6.34 2.7 4.1 44. Lower FR values are permitted for AFV.80 1.33 1.7 2.17 3.1 52.46 1.58 1...4 2.0 4.99 1.2 6.59 1.4 82.83 3.4 88.1 20000 20000 20000 20000 12500 12500 12500 12500 12500 12500 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 - 2.1 3.95 3.8 35.6 8.87 3.30TD ZBA 63 B 4 B003 17 A.20TD ZBA 80 A 8 B007 21 A.5 52.06 2.62 1.6 2.24 3.52 0.11 2.8 5.indd P1 [kW] .5 77.03 1.98 2.5 77.18 3.5 2031514c_en_300812.90 2.8 7.40TD ZBA 63 B 4 B003 23 A..8 86.9 28.76 2.31 Weight [kg] 2) Gearbox Motor Brake A.0 88.69 3.4 9.5 45.4 82.0 61.36 2. motor with standard brake.4 70.30 1.8 86.7 8.4 5.3 8.4 55..4.3 3.5.15 3.43 3.03 3.8 7.29 2.8 9.9 3.4 70. 2) Weight AUH with oil filling in mounting position B14.1 4.67 2.7 11 12 14 16 18 20 23 25 27 32 13 15 17 19 21 24 26 31 743 663 618 553 545 488 428 380 355 318 640 578 508 460 415 375 320 289 254 230 208 188 390 338 315 273 249 216 206 195 169 158 136 125 108 103 221 194 175 154 140 123 111 97 88 77 69 65 55 131 113 102 88 82 71 66 56 297 265 247 221 218 195 171 152 142 127 256 231 203 184 166 150 256 231 203 184 166 150 156 135 126 109 99.72 0.17 1.36 1.18 220 n2 [rpm] M2 [Nm] i FR [N] 1) fB 2.48 1.9 10 11 13 14 16 17 7.3 52.5 5.5.93 1.27 1.14 1..71 1.10DD ZBA 80 A 8 B007 19 A.60TD ZBA 80 A 8 B007 85 A.17 1.0 5.67 1. 06 3.3 3.4 6.40TD ZBA 80 B 8 B007 33 A..5 2.55 2. Lower FR values are permitted for AFV.85 3.8 8.52 2.6 1069 954 889 796 716 637 562 785 702 616 547 511 457 403 359 315 731 662 598 540 435 393 345 313 282 255 216 196 172 155 392 359 311 297 265 229 214 185 170 147 140 40.05 4.5 12.10 2.18 2031514c_en_300812.6 13.3 9.7 5.2 10.28 9.90 1..10 1..47 1. 2) Weight AUH with oil filling in mounting position B14.73 5.87 2.9 28.0 3.40 1.69 8.74 1.9 10 11 13 14 16 17 51 44 41 35 32 28 26 22 20 17 15 13 12 10 8.32 13.4..3 6.indd 0.4 156 135 126 109 99.4 82..6 4.36 2.8 86.19 1.4 4.1 6.64 1.91 2.30TD ZBA 80 B 8 B007 27 A.16 3.10DD ZBA 63 A 2 B003 12 A.5.70 8.00 2.4 20000 20000 20000 20000 20000 20000 20000 12500 12500 12500 12500 12500 12500 12500 12500 12500 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 2.84 6.0 11.4 203 184 166 150 256 231 203 184 166 150 127 115 101 91.59 3.93 3.94 1.1 8.25 n2 [rpm] M2 [Nm] i FR [N] 1) fB 34 40 42 49 54 63 67 78 89 103 114 132 143 167 204 225 2.64 Weight [kg] 2) Gearbox Motor Brake A.5 12.30 3.00 1.20 2.84 4.26 0. refer to the Drive Designer for these values.62 7.7 3.30TD ZBA 71 A 4 B007 18 4 P1 [kW] 1) FR refers to types AUV and AGV.5 221 .0 4.2 297 265 247 221 199 177 156 218 195 171 152 142 127 112 99.1 3.40TD ZBA 71 A 4 B007 24 A.9 4.7 22.73 2.6 87.5 5.0 20.10DD ZBA 63 B 4 B003 12 A.52 2.58 10. motor with standard brake.4 3.5 9..61 1.4 82.68 1.25 1.8 4.11 2.7 13.0 6.7 7.97 3.50TD ZBA 80 B 8 B007 59 A.3 2.25 2.38 3.3 25.4 1.0.52 1.18 2.4 3.5 8.3 3.34 2.21 3.96 2. Dimension sheets section 4.2 Selection tables Offset geared motors Single speed 0..8 15.0 32.7 3.60TD ZBA 80 B 8 B007 88 A.5..67 4.8 86.03 1.00 5.8 14.8 35.8 17.1 109 99.0 6.22 1.7 7.65 0.8 7.4 7.2 11 12 14 15 6.64 2. 4 70.60 1.7 3.3 36.8 5.33 1.9 28.30 4.3 52.30DD ZBA 71 A 4 B007 18 A.07 3.8 15.indd P1 [kW] .18 2.3 6.10 7.0 8..45 3.70 3.0.4 2.8 17.6 122 106 95 82 61 209 190 167 150 132 119 104 94 89 75 68 60 53 126 118 102 89 77 69 59 56 48 44 37 35 30 27 23 20 18 16 14 12 10 9.37 8. Lower FR values are permitted for AFV.56 1.7 22.7 48.3 25.5.91 4.69 8..24 2.5 52.36 1.1 44.4 14. 2) Weight AUH with oil filling in mounting position B14.50 1.53 10.98 3.32 2.0 31.10DD ZBA 71 A 4 B007 13 A.2 10.70 1..2 Selection tables Offset geared motors Single speed 4 0.62 1.5 2031514c_en_300812.05 7.7 35.9 28.0 61.5.87 5.70 2.73 3.5 12.69 8..5 2.51 6.2 55.10DD ZBA 63 B 2 B003 12 A.4 55.46 1..3 7.4.37 222 n2 [rpm] M2 [Nm] i FR [N] 1) fB 19 22 25 29 38 11 12 14 16 18 20 23 25 27 31 35 40 44 19 20 24 26 31 34 40 42 49 54 63 67 78 88 103 114 132 143 166 203 224 260 282 329 2.8 4.5 2.54 2.5 12.32 13.70TD ZBA 90 A 8 B020 140 A.17 2.99 2.08 1.20TD ZBA 71 A 4 B007 15 A.4 3.31 2.5 45.72 1.2 6.96 2.5 9.0 3.5 2.92 Weight [kg] 2) Gearbox Motor Brake A.5 12.98 1. motor with standard brake.9 35.60TD ZBA 90 A 8 B020 89 1) FR refers to types AUV and AGV.3 2.9 62.0 32.61 2.1 1415 1272 1140 1023 1574 1404 1309 1171 1055 938 827 737 684 567 535 71.0 32.87 2.10 1.1 39.79 1.0 10. Dimension sheets section 4.91 3.23 1.5 9.79 1.0 20.1 40.1 3.03 3.02 3..5 77.25 3.8 35.68 4.10DD ZBA 80 B 8 B007 22 A.2 10.1 123 112 98.1 12.50 3.66 6.85 3.48 3.32 267 240 215 193 297 265 247 221 199 177 156 139 129 107 101 5000 5000 5000 5000 5000 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 31500 31500 31500 31500 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 3. refer to the Drive Designer for these values.0 88.03 0.03 1.7 13.3 4.28 1..25 0.8 3. 4 3.40 3.53 1.10DD ZBA 71 B 4 B007 14 4 P1 [kW] 1) FR refers to types AUV and AGV.7 7.9 62.40TD ZBA 71 B 4 B007 25 A.indd 0.50TD ZBA 90 A 8 B020 60 A.23 1.5 45.10 1.7 48.02 1.91 1. Dimension sheets section 4.00 2.03 3.38 1.4 70.61 3.11 1.11 3.00 1.. Lower FR values are permitted for AFV.1 39.4 71.43 1.0 25.2 Selection tables Offset geared motors Single speed 2031514c_en_300812.7 28.43 1.98 2.4 78..3 22.6 9..29 2.94 2.9 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 - 1.55 3.5.25 1.4 6.4 10 12 5.13 1.4 55.98 2.79 1.43 1.25 2.1 40.13 3.0.4 82.18 2.5 223 .12 3.48 2..2 55.8 10 11 13 14 16 17 19 22 25 28 30 35 38 18 20 22 25 26 31 34 39 43 49 54 62 68 26 30 34 39 42 1155 1034 906 806 753 673 594 528 463 413 379 339 299 666 601 528 478 432 390 330 299 263 237 212 192 406 351 328 283 259 225 214 187 162 145 126 118 102 94 201 182 160 144 135 115 104 91 81 73 66 57 51 137 117 106 91 86 218 195 171 152 142 127 112 99.52 Weight [kg] 2) Gearbox Motor Brake A.8 156 135 126 109 99.30TD ZBA 71 B 4 B007 19 A.2 11 12 14 15 17 19 8.1 77.9 56.79 3..1 81.8 35.2 20.8 7.95 3.55 2.27 1.50DD ZBA 90 A 8 B020 59 A.30DD ZBA 71 B 4 B007 19 A.3 45.5 52.71 1.20TD ZBA 71 B 4 B007 16 A.5.42 1.73 1.0 6.21 2.6 87.0 31.0 71. 2) Weight AUH with oil filling in mounting position B14.0 61.3 6.5 8.99 1.4 36.1 44.7 8.05 1.9 35.94 1.51 1.11 1.85 0.4 4.53 1.65 1..13 1.0 32.1 3.51 2.4 256 231 203 184 166 150 127 115 101 91.1 52..0 6.9 4..48 2.31 1. refer to the Drive Designer for these values.69 2.6 63. motor with standard brake.78 3.4.95 1.82 3.3 9.5 73.5 39.7 5.28 1.44 0.37 n2 [rpm] M2 [Nm] i FR [N] 1) fB 3.78 0.8 86.20DD ZBA 71 B 4 B007 16 A. 80TD ZBA 90 B 8 B020 229 A.27 2.21 3.6 4.06 2..50TD ZBA 90 B 8 B020 67 A.10DD ZBA 71 A 2 B003 13 A.6 2.2 10.27 1.62 4. motor with standard brake.00 1.5 12.83 5.3 9.0 4.06 1.12 3.69 8.5 2.indd P1 [kW] .01 1..56 3.5.40TD ZBA 80 A 4 B007 30 1) FR refers to types AUV and AGV.60TD ZBA 90 B 8 B020 95 A.81 3.7 8.56 2.2 Selection tables Offset geared motors Single speed 0.5.9 3.89 0.08 1.10DD ZBA 71 B 4 B007 14 A.5 9.4 2.05 3.5 6.04 2.8 15.97 1.48 4.19 2. Lower FR values are permitted for AFV.2 2.57 2.1 4.9 5.3 3.77 1.4 7.55 224 n2 [rpm] M2 [Nm] i FR [N] 1) fB 49 54 63 66 77 88 102 113 131 142 165 204 225 262 284 331 2.4.78 3.91 2.64 1.70 4.85 3.82 2.37 4 0.0 9.5 4.59 1.94 1.3 8.40 Weight [kg] 2) Gearbox Motor Brake A.31 9.2 3.5 7.69 8.8 5.7 6.13 3.8 3.95 2.3 4.13 1.5 9.3 25.70TD ZBA 90 B 8 B020 147 A.58 1.21 1.8 17.79 1..0.87 3.2 10.70 7.40 2.... refer to the Drive Designer for these values.1 4.18 3.14 2.4 78.29 2.8 3..30 2.7 13.4 5.0 184 166 150 127 50000 50000 50000 31500 31500 31500 31500 31500 31500 31500 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 8000 8000 8000 8000 1.5 12.63 3.8 2.43 1.50TD ZBA 80 A 4 B007 56 A.6 87.85 2.00 8..59 6.6 4.38 0.32 281 253 220 267 240 215 193 172 162 146 297 265 247 221 199 177 156 297 265 247 221 199 177 156 152 142 127 218 195 171 152 142 127 112 99.7 22.5 4.3 10 11 13 14 16 18 7.19 1. Dimension sheets section 4.32 13.00 4.60TD ZBA 80 A 4 B007 85 A.5 11 74 67 57 54 46 41 35 31 27 25 21 17 16 13 12 11 2108 1898 1650 2003 1800 1613 1448 1290 1215 1095 2228 1988 1853 1658 1493 1328 1170 1099 981 914 818 736 655 577 1140 1065 953 807 722 633 562 525 470 414 369 323 287 681 614 555 470 28. 2) Weight AUH with oil filling in mounting position B14.1 8.6 2.6 9.41 1.45 2.07 1.5 2031514c_en_300812..0 20.10 8. 2 25.06 1.4 13.96 2.26 1.42 3.10 3.4 71.7 48.93 10. refer to the Drive Designer for these values..07 2.55 1.98 2.2 Selection tables Offset geared motors Single speed 2031514c_en_300812.44 Weight [kg] 2) Gearbox Motor Brake A.24 1.51 4.49 2.4 1.5 8000 8000 8000 8000 8000 8000 8000 8000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 2982 2877 2833 - 1.1 44.77 3.3 22.8 15.90 3.20 2.97 2. Dimension sheets section 4.80 2.4 55.5.8 11.4. 2) Weight AUH with oil filling in mounting position B14.19 2.1 18.78 3.60 1.63 2.61 1.3 25.19 3.40DD ZBA 80 A 4 B007 29 A.69 1.94 3.21 35.1 31.0.7 13.39 1..0 32.20DD ZBA 71 B 2 B007 16 A.30DD ZBA 80 A 4 B007 24 A.16 1.7 49.55 n2 [rpm] M2 [Nm] i FR [N] 1) fB 12 14 16 17 19 23 25 29 13 14 16 17 20 23 25 29 31 36 39 45 49 56 23 26 27 32 36 41 45 51 56 64 71 78 87 102 113 159 301 391 432 41 43 50 55 65 68 80 90 105 116 135 147 171 199 220 256 426 374 337 302 273 228 206 181 403 369 320 305 266 230 206 179 168 146 134 116 108 93 227 205 193 163 148 130 116 104 93 82 74 67 60 51 46 33 17 13 12 130 122 105 95 81 77 66 58 50 45 39 36 31 26 23 20 115 101 91.86 5.7 22.1 16.4 36.0 109 99.5 73.8 61.21 3.9 12.37 1..5 52.69 8.91 6.10DD ZBA 80 A 4 B007 19 A.4 82.90 1.3 29.00 1.58 1.0 31.73 1..66 3.0 20.2 55.20TD ZBA 80 A 4 B007 21 A.42 2.07 1.3 45..91 8.20 3.36 3.3 61. Lower FR values are permitted for AFV.54 2.5 225 .7 28.9 35.8 17.8 86.1 81.89 4. motor with standard brake.1 39.32 13.40TD ZBA 80 A 4 B007 30 A.6 8.00 1.26 8.5 12.9 28.24 2.77 1.indd 0.30TD ZBA 80 A 4 B007 24 A.2 10..5 9.5 39..19 2.20DD ZBA 80 A 4 B007 21 A.92 0..64 0.5.92 1.2 20.70 5.21 1.87 6.2 10.0 25.60 2..39 1.10DD ZBA 71 B 2 B007 14 4 P1 [kW] 1) FR refers to types AUV and AGV.5 12.00 1.6 55.9 62. Dimension sheets section 4.1 8.59 1..1 81.29 1.9 3.96 3.51 2.72 3.5...84 2.5 2031514c_en_300812.83 3.01 2.0 44.70TD ZBA 100 A 8 B020 149 A.67 1. refer to the Drive Designer for these values.0 10 11 13 6.70TD ZBA 80 B 4 ZBE 80 B 4 B020 137 140 A.76 0.5 3.92 3..3 5.7 49.13 1.50TD ZBA 80 B 4 ZBE 80 B 4 B020 57 60 A.9 6.9 36.32 1.4 78.28 1.71 1.86 2.4.42 1.00 1.4 7.4 4.0 71.64 2.0 9.7 5.91 1.7 6.26 2.20 2.60TD ZBA 100 A 8 B020 98 A.3 4.24 3.1 3.1 50000 50000 50000 50000 50000 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 5.3 39. motor with standard brake.2 3.9 4.33 1.58 2.88 3.3 5..3 3.10DD ZBA 71 B 2 B007 14 A.75 2.55 1.47 2.40DD ZBA 80 B 4 ZBE 80 B 4 B020 30 33 1) FR refers to types AUV and AGV.59 1.4 127 115 101 91.01 1.6 4.5 7.7 5.85 1.6 63.19 3.39 1.52 Weight [kg] 2) Gearbox Motor Brake A.60TD ZBA 80 B 4 ZBE 80 B 4 B020 86 89 A.65 1.02 3.78 2.75 226 n2 [rpm] M2 [Nm] i FR [N] 1) fB 277 323 2.80TD ZBA 100 A 8 B020 232 A.6 7.1 3.16 1.5 73.10 2.indd P1 [kW] .21 3.5 4.03 1. Lower FR values are permitted for AFV.64 2.2 8.26 2. 2) Weight AUH with oil filling in mounting position B14.15 3.07 2.59 6..8 61.07 2.6 2.55 4 0.33 2.40TD ZBA 80 B 4 ZBE 80 B 4 B020 31 34 A.37 3.32 281 253 220 198 171 267 240 215 193 172 162 146 267 240 215 193 221 199 177 156 297 265 247 221 199 177 156 139 129 107 218 195 171 152 142 127 112 99.0.3 9....32 2.53 4..9 56.9 11 13 14 16 18 20 22 25 11 12 14 15 17 19 23 25 29 32 35 39 18 16 2922 2631 2288 2059 1778 2777 2496 2236 2007 1789 1685 1518 1362 1224 1097 984 2298 2070 1841 1622 1515 1351 1260 1127 1015 903 796 709 658 546 1112 994 872 775 724 648 571 508 446 394 365 326 288 648 587 515 465 416 376 314 284 250 226 203 182 9.14 1.0 4.44 2.6 55.5.2 9.2 Selection tables Offset geared motors Single speed 0.48 1.69 8.6 87.5 2.02 1.48 1.7 3.0 2.50DD ZBA 80 B 4 ZBE 80 B 4 B020 56 59 A. 5 9.30 1.74 4.69 2.83 3.8 15.44 1. 2) Weight AUH with oil filling in mounting position B14.10DD ZBA 80 A 2 B007 19 A.99 1.50 1..3 5.90 0..03 8.35 3.22 3.9 12.2 55.6 11.21 28.1 n2 [rpm] M2 [Nm] i FR [N] 1) fB 20 23 25 29 31 36 39 45 48 56 61 71 78 95 32 35 40 44 50 56 64 70 78 86 101 112 128 142 158 309 400 443 50 55 64 68 79 90 104 116 134 146 169 204 225 262 284 331 2.00 Weight [kg] 2) Gearbox Motor Brake A.81 2.48 4.4.30DD ZBA 80 B 4 ZBE 80 B 4 B020 25 28 A.85 3.20TD ZBA 80 B 4 ZBE 80 B 4 B020 22 25 A.3 29.05 4..01 1.4 36.7 22.26 2..5 227 .59 1.66 2.91 1.80 3..14 2.84 2. refer to the Drive Designer for these values.34 2.0 9.73 3.0.26 1. Lower FR values are permitted for AFV.2 10.44 2.7 48.2 20.48 0.81 1.10 3.32 2.1 3.4 3.69 8.90TD ZBA 100 B 8 B050 363 A.32 274 247 218 197 173 156 281 253 220 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 3150 3150 3150 3150 3150 3150 3150 3149 3150 3150 3150 3150 3143 3132 3142 2982 2877 2833 85000 85000 85000 85000 85000 85000 50000 50000 50000 1.50 3.5 9.0 19.7 13.75 2031514c_en_300812.5 6.50 4.0 20.5 39.8 17.1 31.5 2.80TD ZBA 90 A 4 ZBE 90 A 4 B020 223 224 4 P1 [kW] 1) FR refers to types AUV and AGV.4 367 317 284 246 232 201 184 160 149 128 116 101 91 75 225 203 178 160 143 129 112 102 91 83 70 64 56 50 45 23 18 16 144 131 112 106 91 80 69 62 53 49 42 34 31 27 25 21 4274 3853 3401 3073 2699 2434 2108 1898 1650 71.3 45.1 18.9 35.5 12.0 31.20DD ZBA 80 B 4 ZBE 80 B 4 B020 22 25 A.9 62.1 14.26 4.15 1.3 25.91 2.01 2.32 13.2 10.3 23.10DD ZBA 80 B 4 ZBE 80 B 4 B020 20 23 A.16 4.81 4.20DD ZBA 80 A 2 B007 21 A.0 5.43 1.7 3.01 1.0 25.17 1.91 6.83 6.5 12.98 3.87 6.69 8..40 3.4 13.5. Dimension sheets section 4.59 1.91 8.7 28. motor with standard brake.23 1..indd 1.9 18.9 4.89 2.52 0.8 44.2 25.5.16 1..62 1.38 3.1 39.95 8.65 8.02 2.3 22.13 3.48 2.2 Selection tables Offset geared motors Single speed 0.1 16. 97 1..21 2.78 3.54 1.02 1.5 7..68 0.9 77.9 31500 31500 31500 31500 31500 31500 31500 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 8000 8000 8000 8000 8000 8000 7998 8000 8000 7940 7880 7879 7893 7916 7803 5000 5000 5000 5000 5000 5000 5000 5000 5000 1.60TD ZBA 90 A 4 ZBE 90 A 4 B020 89 90 A.72 3.6 55.93 2.05 3.30DD ZBA 90 A 4 ZBE 90 A 4 B020 28 29 1) FR refers to types AUV and AGV.28 3.0 10 11 13 14 16 18 9..7 6.1 228 n2 [rpm] M2 [Nm] i FR [N] 1) fB 5.50TD ZBA 90 A 4 ZBE 90 A 4 B020 60 61 A.70TD ZBA 90 A 4 ZBE 90 A 4 B020 140 141 A.40TD ZBA 90 A 4 ZBE 90 A 4 B020 34 35 A.58 1.58 1.0 19.93 3.29 2.13 1.77 3.1 8.2 9.4 36.7 21.3 23.37 1.9 36.7 41.0 48.2 Selection tables Offset geared motors Single speed 4 1.5 73.5 39.56 2.indd P1 [kW] .5 2031514c_en_300812.28 3.08 1.8 6.6 9..06 1.38 0.46 3.4 78. 2) Weight AUH with oil filling in mounting position B14. refer to the Drive Designer for these values.87 3.3 39.50DD ZBA 90 A 4 ZBE 90 A 4 B020 59 60 A.79 2.08 1.3 46.63 1.80 1.5.99 2.14 2.0.9 11 13 14 16 18 20 22 25 28 30 34 15 17 19 23 25 29 32 35 39 45 50 56 62 67 74 29 31 36 39 45 48 55 61 70 2003 1800 1613 1448 1290 1215 1095 2228 1988 1853 1658 1493 1328 1170 1043 968 803 758 674 579 1140 1065 953 840 747 656 578 537 479 423 377 350 313 683 611 554 462 418 368 332 299 268 231 208 186 168 156 141 362 341 295 271 235 219 188 170 148 267 240 215 193 172 162 146 297 265 247 221 199 177 156 139 129 107 101 89.1 22.08 1.2 25..41 1.3 5.3 8.19 1.1 81.06 2.38 Weight [kg] 2) Gearbox Motor Brake A.6 4. Dimension sheets section 4.40 2.75 1.2 5.5. Lower FR values are permitted for AFV.01 1.4 50.4.6 87.05 3..1 25.69 1.94 1.7 5.7 49.85 2.0 71.40 2.0 44.9 9.3 7.25 1.17 2.0 7. motor with standard brake.27 1.11 3.3 45.58 1.37 1.01 2.0 19.8 61.1 31.98 1.77 2.3 29.12 2.40DD ZBA 90 A 4 ZBE 90 A 4 B020 33 34 A.21 1.62 2.6 63.2 152 142 127 112 99.1 28.1 31.9 56.43 1..94 2.7 91. 30 2.54 1.69 8.8 3.87 6.8 11.38 1.2 Selection tables Offset geared motors Single speed 1.7 4.70TD ZBA 112 A 8 B050 181 4 P1 [kW] 1) FR refers to types AUV and AGV.76 3.50 1.30DD ZBA 90 A 4 ZBE 90 A 4 B020 28 29 A.4 4.6 5.7 14. Lower FR values are permitted for AFV.90TD ZBA 112 A 8 B050 391 A.20DD ZBA 80 B 2 B007 24 A.40 2.33 3.0 25.23 1.4 3.6 2.60 2.08 1.4 13.6 11.6 28.69 8.14 2.0.79 0. Dimension sheets section 4.17 1.46 1.6 4.1 4.08 3.5.80TD ZBA 112 A 8 B050 263 A.96 1.indd 1.33 2.59 1.30 1.81 1.1 5.05 6.1 18.30 2.66 1.64 2.32 274 247 218 197 173 156 281 253 220 198 171 154 281 253 220 198 171 193 172 162 146 5000 5000 5000 5000 5000 3048 2956 3063 3108 3096 3059 3098 3120 3125 3074 3059 3041 3075 3070 3062 2982 2877 2833 85000 85000 85000 85000 85000 85000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 31500 31500 31500 31500 2.61 3.9 12.2 4.2 3.6 2.0 9.0 8.1 15. refer to the Drive Designer for these values.9 3.56 5.21 3.95 8.2 20.5 229 .61 2.10 2..30 1.3 3.86 0.08 1.92 3.5 12.80TD ZBA 90 B 4 ZBE 90 B 4 B020 229 229 A.1 16.5 12.98 1.7 13.1 4.97 1.4. 2) Weight AUH with oil filling in mounting position B14.5 9.8 12...5 7.78 2.9 134 116 110 95 86 210 189 165 149 134 122 103 93 82 74 66 60 51 46 41 33 26 23 134 118 101 90 78 72 62 50 45 39 36 31 5480 4940 4360 3940 3460 3120 5620 5060 4400 3960 3420 3080 2810 2530 2200 1980 1710 3860 3440 3240 2920 18.90 4.5 n2 [rpm] M2 [Nm] i FR [N] 1) fB 77 89 95 109 121 50 55 63 70 77 85 101 111 127 141 157 174 204 225 249 307 398 440 79 89 104 115 133 144 168 203 224 260 282 329 2.21 17.20DD ZBA 90 A 4 ZBE 90 A 4 B020 25 26 A.00 3.27 Weight [kg] 2) Gearbox Motor Brake A.6 4.21 11.85 3.20 2.2 10..35 2.28 1.7 6.2 10.5.39 3.92 3..8 15..2 8..32 3.91 2.10DD ZBA 90 A 4 ZBE 90 A 4 B020 23 24 A.32 2.3 22.51 5.93 2.87 6.69 1.91 6.81 0..10 1. motor with standard brake.14 1.67 1..47 3.1 2031514c_en_300812.10DD ZBA 80 B 2 B007 22 A.5 2.91 8.5 9.93 2.32 13. 32 1.79 2.7 127 112 99.80 2.54 1.76 0.4 50.60TD ZBA 90 B 4 ZBE 90 B 4 B020 95 95 A.4 8.4 78.61 1.22 3.72 3.95 1.58 2.86 4.94 1.5 14.18 2.9 77.1 31.19 1.07 1.1 25.32 1.8 11 12 15 6.39 1.30DD ZBA 90 B 4 ZBE 90 B 4 B020 35 35 1) FR refers to types AUV and AGV.34 2.46 2.5 2031514c_en_300812.70TD ZBA 90 B 4 ZBE 90 B 4 B020 147 147 A.54 0.1 31.4 6.1 28.02 1.40DD ZBA 90 B 4 ZBE 90 B 4 B020 40 40 A.0 6.1 22.91 1.84 0..3 46.03 1.43 1.44 2. Dimension sheets section 4.5.7 29.. 2) Weight AUH with oil filling in mounting position B14.18 1.9 36.3 221 199 177 156 139 129 107 101 89.7 32.3 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 20000 20000 20000 20000 20000 20000 20000 20000 20000 20000 19845 19796 19924 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 12409 12385 12460 12277 7956 7850 8000 7887 7823 7846 7872 7726 7649 7622 7632 7543 7430 7332 5000 5000 5000 5000 5000 1.0 16. Lower FR values are permitted for AFV.7 7.4 36.8 9..63 1.0 44.06 2.2 Selection tables Offset geared motors Single speed 4 1.6 54.47 3.7 49.7 21.35 1.5 7.. refer to the Drive Designer for these values.3 39.0 71.indd P1 [kW] .52 3.18 1.2 25.06 1.1 9.6 61.2 67.6 55.92 2..08 2.9 56.6 87..7 41.15 1.35 1.28 2.2 10 11 13 14 16 19 21 24 26 11 13 14 16 18 20 22 25 28 31 34 39 44 48 54 23 26 29 32 36 40 46 51 57 63 68 75 87 96 36 40 46 49 57 2670 2400 2150 1930 1720 1620 1460 1270 1150 983 2210 1990 1770 1560 1390 1290 1070 1010 899 772 679 606 547 1270 1120 996 874 776 716 639 564 503 467 417 367 327 298 266 616 557 490 443 399 359 310 280 250 226 209 189 164 148 394 361 313 292 252 267 240 215 193 172 162 146 127 115 98.5 230 n2 [rpm] M2 [Nm] i FR [N] 1) fB 5.45 Weight [kg] 2) Gearbox Motor Brake A.9 60.5.81 2.49 1.7 36.2 8.76 3.0.50TD ZBA 90 B 4 ZBE 90 B 4 B020 67 67 A.36 3.6 63.09 3.60DD ZBA 90 B 4 ZBE 90 B 4 B020 93 93 A.53 2.0 19.97 3.3 8.3 29.65 1.15 2.13 3.9 39..72 1.27 1.4.8 26. motor with standard brake.04 2.51 1.29 2.96 2.50DD ZBA 90 B 4 ZBE 90 B 4 B020 66 66 A.91 3. 35 1.95 8.90TD ZBA 100 AL 4 ZBE 100 A 4 B050 363 363 A.5 231 .1 8.20DD ZBA 90 A 2 B020 25 A.03 2.0 20.02 1.15 1.94 1.80TD ZBA 132 A 8 B050 264 A.0.0 9.2 n2 [rpm] M2 [Nm] i FR [N] 1) fB 62 72 79 91 97 112 123 142 159 184 64 71 79 87 103 113 130 144 160 178 208 230 249 275 308 340 399 441 107 125 132 154 175 203 225 261 283 329 2.73 1.68 1.6 4.97 1.05 6.5 12.95 8.13 1.10DD ZBA 90 A 2 B020 23 A.94 2.2 10.90TD ZBA 132 A 8 B050 392 A.6 4.58 1.05 6.2 20..32 274 247 218 197 173 156 274 247 218 197 220 198 171 154 281 253 220 198 171 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 2679 2674 2803 2803 2907 2887 2956 2931 2959 2921 2943 2936 2938 2916 2919 2894 2877 2833 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 50000 50000 50000 50000 50000 50000 50000 50000 50000 1.93 2.0 19.7 22.2 4.16 1.1 18.6 11.7 6..25 2.5 7.13 1.91 8.33 3.80TD ZBA 100 AL 4 ZBE 100 A 4 B050 235 235 4 P1 [kW] 1) FR refers to types AUV and AGV.indd 2..91 8.6 6.4.5 2031514c_en_300812..92 0.5.20DD ZBA 90 B 4 ZBE 90 B 4 B020 31 31 A.42 1.2 Selection tables Offset geared motors Single speed 1..2 3.45 1.35 1.30DD ZBA 90 B 4 ZBE 90 B 4 B020 35 35 A.61 Weight [kg] 2) Gearbox Motor Brake A.87 6.21 25. Dimension sheets section 4.24 0.6 5.99 7.3 3.9 12. motor with standard brake.1 8.29 2.09 1.0 5.8 11.6 5.98 2.58 2..75 2. Lower FR values are permitted for AFV.49 3.64 1.1 4.56 3..25 2.2 5.6 2.8 15.42 1.45 1.1 16.4 13.39 2.59 1.85 3.78 1.03 2.52 4.6 10. 2) Weight AUH with oil filling in mounting position B14. refer to the Drive Designer for these values.87 6.3 229 198 180 156 147 127 115 101 89 77 221 200 180 163 138 125 109 99 89 80 68 62 56 51 45 41 35 32 131 112 106 91 80 69 62 54 49 42 8083 7287 6431 5812 5104 4602 4055 3656 3226 2916 6490 5841 5045 4543 4159 3744 3256 2930 2531 23.1 15.7 13.15 3.84 3.8 17.21 11.7 14.78 22.01 3.9 3.5.79 1.97 1.08 2.92 0.9 18.41 1.58 1.31 1.17 2.4 7.8 12.15 3.5 9.76 2.02 4.69 8.2 3.05 2.0 9.50 2.53 2.82 3.. 97 20 22 25 28 30 34 39 43 47 53 57 64 71 29 32 35 39 45 50 56 62 67 74 86 95 110 1060 946 835 744 691 617 543 484 441 394 367 327 295 725 656 591 530 457 413 368 333 308 279 242 219 189 71. 2) Weight AUH with oil filling in mounting position B14.01 2.22 3.9 77.52 3.91 1..7 29.60TD ZBA 100 AL 4 ZBE 100 A 4 B050 101 101 A.90 3.84 2.54 1.17 2.7 21.5 2031514c_en_300812.48 1.54 2.50TD ZBA 100 AL 4 ZBE 100 A 4 B050 73 73 A.0 16.09 2.40 1.8 22.7 48.0 19..9 12.2 10 12 12 5.82 3.45 1.33 1.02 1.7 36.1 22.0 44.3 5.4 50..6 24.99 18 1145 78.3 88.61 2.9 36.70TD ZBA 100 AL 4 ZBE 100 A 4 B050 153 153 A.0.62 3.9 12500 12313 12500 12262 12258 12327 12208 11926 11917 11805 11776 11586 11487 6979 6969 7067 7090 7132 7092 7113 7089 7102 7058 7014 6952 6881 1.9 6.5 14.6 7.6 50000 50000 50000 50000 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 20000 20000 20000 20000 20000 20000 20000 19516 19063 19015 18610 18357 17934 17675 2.66 0.86 2.4.8 44.1 31.16 1.8 26.04 1.30 1.1 25.7 32.3 46.2 Selection tables Offset geared motors Single speed 4 2.94 1.10 1..91 2. Dimension sheets section 4.2 67.7 9.5 78.30 3.38 1.66 1.3 8.71 1.12 2.2 35..6 63.66 1.5.74 Weight [kg] 2) Gearbox Motor Brake A.7 11 12 14 16 18 9.01 1.09 1.54 1.21 1.9 60.34 2.0 39.60DD ZBA 100 AL 4 ZBE 100 A 4 B050 99 99 A.92 3.38 2.88 3.1 19.9 49.90 0. Lower FR values are permitted for AFV.7 41..40 2.6 54.80TD ZBA 100 AL 4 ZBE 100 A 4 B050 235 235 A..28 2.40DD ZBA 100 AL 4 ZBE 100 A 4 B050 46 46 1) FR refers to types AUV and AGV.59 2.9 156 139 129 107 101 89.5.0 12500 0.3 39.2 232 n2 [rpm] M2 [Nm] i FR [N] 1) fB 9.2 8.58 1.9 56.12 1.50DD ZBA 100 AL 4 ZBE 100 A 4 B050 72 72 A. motor with standard brake.13 3. refer to the Drive Designer for these values.91 3.1 28.1 10 11 13 14 16 18 21 23 26 29 32 36 40 2279 1998 1702 1806 3952 3552 3182 2856 2546 2398 2161 1880 1702 1455 1310 1168 2309 2057 1909 1584 1495 1331 1143 1005 897 810 722 651 580 527 154 135 115 122 267 240 215 193 172 162 146 127 115 98.17 0.22 1.40 1.indd P1 [kW] .97 2.91 1.75 1. 34 3.1 8.31 1.85 3.00 2.5 6.indd 3..8 11.21 274 247 218 197 173 156 274 247 218 197 173 156 96.2 2031514c_en_300812.57 2.29 1..1 8.62 1.90TD ZBA 132 B 8 B140 411 A.1 4.30DD ZBA 100 AL 4 ZBE 100 A 4 B050 41 41 A.80 3.6 10.11 1.1 10 11 12 14 16 17 172 143 129 371 338 292 266 230 217 188 170 148 132 114 93 84 73 204 185 161 146 131 118 101 91 80 72 65 58 50 45 11234 10127 8938 8077 7093 6396 5617 5063 4469 4039 3547 3198 1974 7011 6314 5761 5187 4510 4059 3506 3157 2768 2501 2358 2112 1827 1646 11.61 4.17 1.3 23.0 15 4.14 2.2 9.40DD ZBA 100 AL 4 ZBE 100 A 4 B050 46 46 A.8 11.20DD ZBA 100 AL 4 ZBE 100 A 4 B050 37 37 A.56 1.63 1.15 1.1 9.20DD ZBA 90 B 2 B020 31 A.60 5.42 1.3 171 154 281 253 220 198 171 154 135 122 115 103 89..0.87 6.0 9.0 n2 [rpm] M2 [Nm] i FR [N] 1) fB 121 146 161 56 62 71 78 90 96 111 122 140 157 182 223 247 283 102 112 129 142 159 176 206 228 260 287 321 355 416 461 2.82 2.65 3.47 1.4 7.7 6.46 1.32 1.14 1.99 7.9 18.71 2.98 1.0 4.94 1.7 9.78 25.8 3.47 2.95 8.0 9.1 15.80TD ZBA 132 B 8 B140 283 A.21 11.38 2.13 3.24 3.11 2.51 0. refer to the Drive Designer for these values.1 8. motor with standard brake. Dimension sheets section 4.01 Weight [kg] 2) Gearbox Motor Brake A.71 8.64 2.30DD ZBA 90 B 2 B020 35 A.4 7. Lower FR values are permitted for AFV.6 11.1 5..75 1.19 3.78 12.9 12.07 1.5.5 5.83 0..91 8.7 14.36 2.91 2.92 0.90TD ZBA 100 B 4 ZBE 100 B 4 B050 363 364 A..6 10.27 1.88 2.4.88 3.39 1.0 19.1 13.95 8.20 1.0 5.97 1.2 Selection tables Offset geared motors Single speed 2.6 2.34 2..87 6.05 1.62 1.80 2.2 3.5 233 .27 2.05 2.83 0.98 1.5.1 80.8 12.3 6799 6669 6589 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 2374 2391 2530 2531 2613 2604 2686 2686 2743 2733 2761 2746 2757 2735 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 2.09 2.05 6.02 1.80TD ZBA 100 B 4 ZBE 100 B 4 B050 235 236 4 P1 [kW] 1) FR refers to types AUV and AGV..5 5.6 4.05 6.43 3. 2) Weight AUH with oil filling in mounting position B14..91 8. 88 3.82 3.14 1.60TD ZBA 100 B 4 ZBE 100 B 4 B050 101 102 A.5.74 1. refer to the Drive Designer for these values. 2) Weight AUH with oil filling in mounting position B14.61 2.42 2.2 35.40DD ZBA 100 B 2 B020 42 1) FR refers to types AUV and AGV.5.0 234 n2 [rpm] M2 [Nm] i FR [N] 1) fB 7..6 54.22 3.42 1.1 22.0.24 1.8 15.8 27.96 3.38 1.60DD ZBA 100 B 4 ZBE 100 B 4 B050 99 100 A.46 1.1 56.12 3.5 2031514c_en_300812. motor with standard brake.70TD ZBA 100 B 4 ZBE 100 B 4 B050 153 154 A..7 32.71 8.9 10.5 78.8 44.07 1...3 88.8 26.2 67.7 41.6 11 12 14 16 18 21 23 26 28 13 14 16 18 21 23 26 29 32 36 39 44 52 25 28 30 34 38 43 47 53 56 63 70 79 90 101 131 45 50 56 62 67 74 85 94 109 120 144 159 172 191 220 243 3957 3526 3321 2993 2604 2358 2015 1814 1617 1396 1257 1119 1009 2194 2071 1843 1583 1392 1242 1121 1000 902 804 730 652 556 1156 1031 957 855 752 670 611 545 508 453 408 365 320 285 217 630 569 509 460 425 385 334 302 261 237 197 178 165 149 129 117 193 172 162 146 127 115 98.69 1.65 2.24 1.04 5.94 1.40DD ZBA 100 B 4 ZBE 100 B 4 B050 46 47 A.9 12.6 24.6 9.2 107 101 89.26 2.1 19.31 3.5 14.4 50..7 29.65 1.99 2.01 1.11 1.3 8.1 25.78 16.5 14.51 1.9 11.9 11.9 68.33 2.54 2.7 21.54 2.0 16.1 61.94 3.33 1.6 13.7 48.8 22.4.12 1.11 2.0 19.04 2..78 0. Dimension sheets section 4.67 0.7 9.87 2.3 46.88 2.99 1.7 31.9 60.1 8.10 2.7 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 20000 20000 19967 19987 18272 17983 17933 17606 17478 17128 16964 16704 16480 11440 11347 11492 11352 11408 11237 11254 11132 11168 11027 10998 10831 10738 10549 9920 6207 6247 6366 6407 6477 6487 6523 6504 6497 6447 6379 6325 6332 6301 6267 6220 0..6 31.0 39.50DD ZBA 100 B 4 ZBE 100 B 4 B050 72 73 A.9 77.96 1.9 12.72 1.29 2.3 54.9 17.05 1.7 36.15 3.01 1.70DD ZBA 100 B 4 ZBE 100 B 4 B050 147 148 A.50 3. Lower FR values are permitted for AFV.68 Weight [kg] 2) Gearbox Motor Brake A.20 1.2 Selection tables Offset geared motors Single speed 4 3.60 4.20 1.84 2.57 1.35 1.08 2.27 1.1 28.6 49.53 1.indd P1 [kW] . 20 2.42 2.21 1.05 1.69 1.9 68.04 2.6 7.59 5. Dimension sheets section 4.02 3.13 1.90TD ZBA 132 B 6 B140 411 A.77 3.30DD ZBA 100 B 4 ZBE 100 B 4 B050 41 42 A. 2) Weight AUH with oil filling in mounting position B14.77 2.0 2031514c_en_300812. refer to the Drive Designer for these values.indd 4.76 1.12 0.87 6.55 1.05 2.70DD ZBA 112 A 4 ZBE 112 A 4 B050 175 175 4 P1 [kW] 1) FR refers to types AUV and AGV.8 12.5 78.5 235 .95 8.42 1.31 2.78 8.95 1.8 4.4 9..99 2.3 8.20DD ZBA 100 B 2 B020 34 A.30DD ZBA 100 B 2 B020 37 A..46 1.1 8.5 7.32 1.3 9. motor with standard brake..7 14.39 0.27 1.1 15.78 3.53 1..10 1.8 11.3 146 127 115 98.80TD ZBA 112 A 4 ZBE 112 A 4 B050 263 263 A.28 2.95 1.4 11 12 13 14 16 18 9.6 10.2 11 12 17 5.91 8..8 11.05 6.3 54..26 1.13 1.9 11 13 15 16 18 21 23 26 367 318 300 259 235 205 182 158 128 116 101 90 78 181 163 139 126 110 100 89 81 69 62 10960 9880 8720 7880 7261 6546 5777 5221 4585 4134 3551 3207 2247 6705 5830 5247 4532 4081 3578 3233 3048 2730 2361 2128 3869 3365 3048 2605 2345 2091 1805 1624 1447 18.46 1..58 1.3 5.51 2.45 1.6 10.10 0.99 7.24 1.56 Weight [kg] 2) Gearbox Motor Brake A.58 1.20DD ZBA 100 B 4 ZBE 100 B 4 B050 37 38 A.0 9..98 1.2 Selection tables Offset geared motors Single speed 3.05 2.71 1.01 1.79 2.80 3.16 1.4 4.1 80.90TD ZBA 112 A 4 ZBE 112 A 4 B050 391 391 A.5.87 6.21 274 247 218 197 274 247 218 197 173 156 134 121 84.1 61.17 2.16 1.8 253 220 198 171 154 135 122 115 103 89.8 5.07 1.8 6.99 7..24 3.48 2.4.6 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 2206 2222 2372 2392 2493 2500 2560 2557 2602 2589 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 31500 31500 31500 31500 31500 31500 31500 31500 31500 0.05 6.5 3.0.5.7 6.21 11.78 12.0 n2 [rpm] M2 [Nm] i FR [N] 1) fB 77 89 95 109 121 139 156 180 222 245 281 316 365 157 174 204 225 258 285 319 353 413 457 3.62 1.1 8.91 8. Lower FR values are permitted for AFV.38 1.17 1.3 88.92 2.84 2.3 8.96 1.70TD ZBA 112 A 4 ZBE 112 A 4 B050 181 181 A. 6 10. 2) Weight AUH with oil filling in mounting position B14.52 A.8 26.3 4.52 1.92 0.85 1.0 39.80 2.93 1.2 44.02 2.0 19.0.78 14.75 1.9 12..49 2.47 1.79 3.60 1.1 19.indd P1 [kW] .5.26 0.5 14..29 2..78 218 197 16845 16669 16783 16549 16552 16279 16216 16015 15910 15675 15572 10285 10244 10460 10366 10484 10423 10527 10438 10484 10357 10335 10190 10086 9920 5540 5651 5786 5854 5980 6008 6073 6058 6060 6033 6046 6049 6020 5981 5940 5000 5000 4950 4987 5000 4989 4989 5000 5000 5000 85000 85000 1.7 31500 31500 31500 2.46 1.94 1.1 8.1 39.9 11.9 12.31 1.6 13.17 1.45 1.27 1.60TD ZBA 112 A 4 ZBE 112 A 4 B050 129 129 21 24 26 30 33 37 40 45 53 60 66 31 35 39 44 48 54 58 65 72 81 92 104 120 135 57 63 69 76 87 97 112 123 148 164 195 225 248 299 330 113 124 143 160 185 227 250 287 323 373 4.58 0.8 1799 1606 1450 1293 1166 1039 943 843 718 641 578 1238 1105 973 867 790 705 657 586 527 472 413 368 318 283 664 600 555 502 436 394 341 309 257 232 197 170 154 128 116 338 307 267 238 206 169 153 133 119 103 12208 11032 67.99 7.0 10.33 1.19 1.92 3.11 2.99 7.1 22.2 Selection tables Offset geared motors Single speed 4 4.6 31.7 29.1 8.89 2.70DD ZBA 112 A 4 ZBE 112 A 4 B050 175 175 19 2046 77.7 36.2 21.6 24.5.2 35.44 2.8 15.71 8. Lower FR values are permitted for AFV.8 46.66 2.76 1.30DD ZBA 112 A 4 ZBE 112 A 4 B050 68 68 A.. Dimension sheets section 4.40DD ZBA 112 A 4 ZBE 112 A 4 B050 73 73 A.71 8.95 2.7 25.6 54.18 1.8 22.64 0.18 2.2 19207 1.9 12.62 1.5 Weight [kg] 2) 2031514c_en_300812.9 11.04 A.04 1.31 1..7 41.11 3.12 1.27 3.60DD ZBA 112 A 4 ZBE 112 A 4 B050 127 127 A.33 1.17 3.9 17.06 1.78 12.02 0.97 1.50DD ZBA 112 A 4 ZBE 112 A 4 B050 99 99 A.7 9.30DD ZBA 112 A 2 B050 68 A.12 3.8 11.7 48.97 1.1 24.8 44.8 27.90TD ZBA 132 C 6 B140 412 1) FR refers to types AUV and AGV.9 60.78 12.8 11.0 5..96 2.7 21..63 1.03 A.62 4.0 16.78 3.6 10..40DD ZBA 112 A 2 B050 73 A.06 1.23 2.4. motor with standard brake. refer to the Drive Designer for these values.7 32.84 3.37 2.7 9.5 236 n2 [rpm] M2 [Nm] i FR [N] 1) fB Gearbox Motor Brake 29 33 36 1304 1169 1052 49.. 5 9.8 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 14582 14954 14869 15081 14929 15025 14920 15005 14842 14844 14644 14503 14269 8980 9260 9297 9508 9502 9667 9603 1.19 1.4 8.8 26..1 19.70DD ZBA 132 AL 4 ZBE 132 A 4 B140 195 195 A.67 2.29 1.33 2. refer to the Drive Designer for these values.66 2.8 27.75 0.5.50DD ZBA 132 AL 4 ZBE 132 A 4 B140 119 119 4 P1 [kW] 1) FR refers to types AUV and AGV.6 31.28 2.50 1.9 27.44 1.1 80. Lower FR values are permitted for AFV.2 21. motor with standard brake.4 9.indd 5.16 1.5 n2 [rpm] M2 [Nm] i FR [N] 1) fB 5..5 78.64 1.4.67 1.9 68.1 57.2 35.06 2.3 68.1 24.7 29.60 1.16 1.49 1.59 2.9 6.1 39.76 4.64 2.2 Selection tables Offset geared motors Single speed 2031514c_en_300812. 2) Weight AUH with oil filling in mounting position B14.2 44.62 1.80DD ZBA 132 AL 4 ZBE 132 A 4 B140 275 275 A.99 3.8 76.5 16.07 1.46 1.3 198 171 154 135 122 115 103 89.7 7.73 0.79 Weight [kg] 2) Gearbox Motor Brake A.49 3.55 1.78 2.7 48.90TD ZBA 132 AL 4 ZBE 132 A 4 B140 411 411 A.95 3.15 2.9 17.4 14.04 1.0 39.96 1.19 1.20 3.0.3 30.98 1.6 98.32 3.07 1.31 3.38 2.8 19.7 32.60DD ZBA 132 AL 4 ZBE 132 A 4 B140 147 147 A.3 84.05 2.09 2.30 1.3 5.6 49.8 44..3 54.6 24.84 2.2 51.5 60.7 34.8 22.41 2.5.59 1.20 1...95 3.36 1.6 54.3 88.5 237 .. Dimension sheets section 4.29 1.98 3.07 1.88 2.4 11 12 13 14 16 18 21 23 25 28 15 16 18 21 24 27 30 33 37 42 47 53 24 27 30 33 37 41 46 54 60 67 75 89 99 44 49 55 59 66 73 82 9875 8902 7857 7100 6235 5622 4830 4361 3856 3471 3056 2750 7136 6163 5550 4866 4397 4145 3712 3211 2894 2483 2238 2062 1860 3543 3190 2844 2454 2209 1968 1773 1589 1431 1236 1114 991 2184 1971 1759 1586 1413 1283 1146 977 872 786 703 591 530 1179 1074 959 894 797 717 642 274 247 218 197 173 156 134 121 107 96.9 62.92 1.51 1.3 8.3 11 12 14 15 17 19 7..70TD ZBA 132 AL 4 ZBE 132 A 4 B140 201 201 A.80TD ZBA 132 AL 4 ZBE 132 A 4 B140 283 283 A.83 2.1 61.32 1.18 0. .74 8.67 18 3945 78.50 3.28 1.05 2.8 36.1 8.8 76.10 0.3 69.9 31500 21 23 26 3405 3065 2730 68. Dimension sheets section 4..8 11.78 247 218 197 173 156 134 121 107 96.5 2031514c_en_300812.6 13.93 2.25 3.47 1.90TD ZBA 132 B 4 ZBE 132 B 4 B140 411 411 A..36 1.78 12.28 1.6 10.31 2.5 238 n2 [rpm] M2 [Nm] i FR [N] 1) fB 93 105 121 136 149 167 185 208 270 88 98 113 124 150 166 194 224 247 298 329 162 187 226 249 286 321 371 5.3 9.6 31500 31500 31500 Gearbox Motor Brake Weight [kg] 2) A.7 16.5 4 7.99 3.90 2.56 2.71 3.37 0.06 1.6 13..72 1.5.70DD ZBA 132 B 4 ZBE 132 B 4 B140 195 195 1) FR refers to types AUV and AGV.50DD ZBA 132 AL 4 ZBE 132 A 4 B140 119 119 A.71 8.17 1.1 61.13 2.9 10.37 1.21 5. motor with standard brake.0 10.33 1.71 8.90DD ZBA 132 B 4 ZBE 132 B 4 B140 399 399 A.40DD ZBA 132 AL 4 ZBE 132 A 4 B140 93 93 A.39 2.15 1. refer to the Drive Designer for these values..69 15.6 7.30 2.95 3.70TD ZBA 132 B 4 ZBE 132 B 4 B140 201 201 1. Lower FR values are permitted for AFV..9 12.92 2.94 A.98 1.08 1.6 44.5.0 9694 9602 9593 9470 9481 9414 9412 9270 8944 5136 5236 5413 5452 5563 5578 5646 5706 5706 5723 5704 4700 4726 4894 4919 4884 4901 4953 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 84828 84688 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 2...3 84.78 8.96 1.7 9.40DD ZBA 132 A 2 B050 73 A.17 1.9 12.99 7.12 1.15 2.80DD ZBA 132 B 4 ZBE 132 B 4 B140 275 275 0.99 7.87 0.08 1..7 9.2 11 12 13 15 17 19 21 23 11 12 12 14 16 18 21 23 25 28 33 36 40 562 501 432 386 351 313 284 253 195 595 537 465 422 350 316 271 235 213 177 160 324 280 233 211 184 163 141 12350 10900 9850 8650 7800 6700 6050 5350 4815 4240 3815 3485 3140 6750 6100 5750 5150 4455 4015 3445 3105 2860 2580 2205 1990 1800 15.3 68.03 2.80TD ZBA 132 B 4 ZBE 132 B 4 B140 283 283 A.8 135 122 115 103 89.78 14.5 14.1 39.7 9..93 1.3 8.30DD ZBA 132 AL 4 ZBE 132 A 4 B140 88 88 A.9 12.53 1.48 1.9 11.93 0.30DD ZBA 132 A 2 B050 68 A.66 1.30 3.66 2.8 6.indd P1 [kW] .36 A.0.9 62.1 57.21 1.98 1.64 1. 2) Weight AUH with oil filling in mounting position B14..66 0.3 54.7 62.50DD ZBA 132 A 2 B050 99 A.1 80.9 11.91 4.2 Selection tables Offset geared motors Single speed 5..72 1.01 3.43 1.09 1.26 2.2 51.4.32 3. 36 1.3 84.16 1..04 1.9 17.9 27.1 8.6 10..40DD ZBA 132 B 4 ZBE 132 B 4 B140 93 93 A.8 21.5.90 3.93 1.5 239 .35 2.3 8.2 35.14 2.71 1.64 0.50 1.99 7. 2) Weight AUH with oil filling in mounting position B14.86 2..60DD ZBA 132 B 4 ZBE 132 B 4 B140 147 147 A.9 12.50 1.6 13.13 2.7 12.0 39.5 n2 [rpm] M2 [Nm] i FR [N] 1) fB 29 33 36 42 46 52 58 67 74 33 37 40 45 53 59 66 74 88 98 111 125 144 58 65 72 81 92 103 120 134 147 165 186 209 242 271 148 163 176 195 225 248 299 330 227 250 287 323 373 7.40DD ZBA 132 B 2 B050 87 A.98 1.78 197 173 156 134 121 107 96.9 12.30DD ZBA 132 B 2 B050 82 A.39 0.indd 9.39 2.06 1.2 11 12 13 15 17 19 2460 2205 1985 1715 1545 1375 1236 1071 967 2200 1960 1780 1590 1355 1210 1090 972 817 732 643 573 497 1240 1105 995 890 780 695 600 533 485 433 382 341 294 262 484 437 404 365 316 287 238 215 314 284 247 220 191 12411 10899 9828 8442 7623 6741 6067 5342 4807 49.69 2.70DD ZBA 132 B 4 ZBE 132 B 4 B140 195 195 A.74 8.15 2.93 1.43 1.6 13.51 3.29 1.9 11.7 34.71 8.24 1.8 27.55 1.50DD ZBA 132 B 2 B050 113 A.82 0.90TD ZBA 132 C 4 B140 412 4 P1 [kW] 1) FR refers to types AUV and AGV.53 2. Lower FR values are permitted for AFV.2 21.3 30.50DD ZBA 132 B 4 ZBE 132 B 4 B140 119 119 A.47 1. Dimension sheets section 4.5 16.52 2. motor with standard brake.78 16.02 1.28 1.8 15.68 1.76 0.5 14.1 39.74 1.5 19.09 3.8 19.78 0.5 24.4.1 19.9 12..0.7 9.5 2031514c_en_300812.71 3.6 31.40 3.51 1.5 9.93 2.16 2.32 1.68 1..9 11.98 24.7 9.03 1.8 11.65 1.3 31500 31500 31500 31500 31500 31500 31500 31500 31500 12930 12954 13284 13319 13679 13623 13778 13673 13711 13538 13506 13340 13335 8019 8133 8471 8500 8756 8740 8871 8815 8902 8882 8988 8940 8953 8881 4849 4925 5059 5138 5272 5307 5396 5405 4349 4459 4563 4646 4698 85000 85000 85000 85000 85000 85000 85000 85000 85000 1.7 9.95 1.2 Selection tables Offset geared motors Single speed 7.0 10.0 10.33 3.14 1..69 15.95 1.8 76.8 22.5.07 1.71 8.21 1.2 44..95 3.18 1.78 12.92 2.4 14. refer to the Drive Designer for these values.90 2.39 Weight [kg] 2) Gearbox Motor Brake A.1 24.17 1.3 9.13 3.4 44.. 1 35.45 2.4 27.31 1.8 19.48 1..73 2.63 2.33 3.9 12.90DD ZBA 132 C 4 B140 400 A..5 240 n2 [rpm] M2 [Nm] i FR [N] 1) fB 21 23 26 29 13 14 16 18 21 23 25 28 33 36 40 44 52 23 26 29 33 36 42 47 52 58 67 74 86 95 40 45 53 60 66 74 88 98 112 125 144 162 72 81 92 104 120 135 148 166 185 208 241 270 297 333 4391 3956 3452 3112 7245 6489 5613 5059 4341 3912 3604 3251 2778 2507 2268 2041 1758 3862 3440 3100 2778 2501 2161 1947 1733 1559 1351 1219 1050 949 2243 2003 1707 1525 1373 1226 1031 924 811 723 627 560 1254 1121 983 876 756 673 612 546 491 437 378 337 306 273 69.38 1.7 34.91 19.4.2 44.1 39.89 3.87 2. 2) Weight AUH with oil filling in mounting position B14.8 54.26 2.4 115 103 89.02 1.7 12.8 49.9 61.9 17. motor with standard brake.98 8.. Dimension sheets section 4..8 15.50DD ZBA 132 C 4 B140 120 A.15 2.60DD ZBA 132 C 4 B140 148 A.8 21.0 10.7 15.5.9 62.9 27.5 9.3 30.52 1.6 13.3 68. Lower FR values are permitted for AFV.1 57.96 1.03 2.4 16.03 1.18 1.75 0.50DD ZBA 132 C 2 B140 120 1) FR refers to types AUV and AGV.7 62.19 1.1 39.5.7 9.6 49.91 3..57 0.08 1.indd P1 [kW] .5 19.69 1.9 12.7 9..8 36.1 24.23 3..3 54.9 11.33 1.6 31.1 80.17 1.14 2.53 1.64 3.80TD ZBA 132 C 4 B140 284 A.34 3.01 2.5 2031514c_en_300812.90 2.91 3. refer to the Drive Designer for these values.91 1.74 8.69 15.0 32.00 2.38 2.5 24.2 51.83 2.23 1.92 1.26 0.30 1.80DD ZBA 132 C 4 B140 276 A.6 44.74 8.0.2 21.34 2.70 0.70 2.14 3.0 10.6 13.71 1.43 2.5 16.69 2.4 14.70DD ZBA 132 C 4 B140 196 A.69 84572 83728 82883 81143 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 11663 11826 12444 12488 12785 12756 12962 12847 12917 12799 12880 12801 7357 7472 7883 7938 8200 8197 8356 8380 8520 8511 8593 8550 8587 8524 2.62 2.05 1.52 1.38 Weight [kg] 2) Gearbox Motor Brake A.03 3.94 1.95 3.8 27.69 1.2 Selection tables Offset geared motors Single speed 4 9. 21 0.2 21.5 4 P1 [kW] 241 .29 2.70DD ZBA 160 AL 4 ZBE 160 A 4 B140 277 277 A.9 11.4 14.1 80.9 31.48 1.83 3.4 27.8 27.04 2.99 7.3 11. Dimension sheets section 4.. refer to the Drive Designer for these values. Lower FR values are permitted for AFV.7 12.35 2.0.55 2.23 3.5 19.92 1.33 1.87 2.78 2.17 1.7 62.5.08 2.3 84.6 44.08 1.8 76.88 2.3 68.4.3 30.96 1.71 8.1 57.5.9 27.2 44.30 2.5 16.78 8.4 16.9 62.78 173 156 134 121 107 96.53 3.7 9.5 24.21 1.19 1.6 49.2 Selection tables Offset geared motors Single speed 9.12 1.04 1.80TD ZBA 160 AL 4 ZBE 160 A 4 B140 365 365 A. motor with standard brake.92 3..9 12.1 13.8 36.0 32..00 1.48 1..50 1.3 69.02 1.17 1.6 54.32 1.92 1.8 49.indd 11 n2 [rpm] M2 [Nm] i FR [N] 1) fB 175 194 224 247 298 329 321 371 8.30DD ZBA 132 C 2 B140 89 A.8 54.14 2.65 5.1 24.4 43.90DD ZBA 160 AL 4 ZBE 160 A 4 B140 481 481 A.29 1.9 11..87 2.60 1.08 0.2 51.6 89.66 1.5 2031514c_en_300812.90TD ZBA 160 AL 4 ZBE 160 A 4 B140 493 493 A.5 4447 4579 4793 4868 5036 5075 4226 4345 85000 85000 85000 85000 85000 85000 85000 85000 84395 83063 82044 80365 79034 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 49964 49681 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 10792 11590 11702 12097 12113 12437 12362 12503 12420 0.1 39.1 39.52 2.94 1.7 34.37 0.80DD ZBA 160 AL 4 ZBE 160 A 4 B140 357 357 A.29 3.03 1.3 11 12 14 15 17 19 21 23 26 29 33 16 18 21 23 25 28 33 36 40 45 52 58 82 27 29 33 37 42 47 53 58 67 75 87 96 109 122 46 54 60 67 74 88 99 112 126 519 469 406 368 306 276 283 245 12456 11232 9648 8712 7704 6934 6106 5494 5018 4522 3946 3557 3139 6415 5782 4961 4471 4118 3715 3175 2866 2592 2333 2009 1807 1267 3931 3542 3175 2858 2470 2225 1980 1786 1548 1397 1202 1087 958 857 2290 1951 1742 1570 1404 1181 1058 929 828 16.34 1.4 9.75 1.66 1..9 25.11 3.40DD ZBA 132 C 2 B140 94 A.1 17. 2) Weight AUH with oil filling in mounting position B14.49 1.91 3.30 1..5 14.14 1.94 1.54 2.8 19.60DD ZBA 160 AL 4 ZBE 160 A 4 B140 229 229 1) FR refers to types AUV and AGV.7 15.8 21.30 Weight [kg] 2) Gearbox Motor Brake A.81 0.09 2..66 1. 07 1.7 15.07 Weight [kg] 2) Gearbox Motor Brake A.5 24.4.97 1.29 1. Lower FR values are permitted for AFV. refer to the Drive Designer for these values.8 54.39 2.17 1. Dimension sheets section 4.49 1.75 0.indd P1 [kW] .0 32.57 2.79 0.9 10.02 1.. motor with standard brake.96 3..4 27.07 1..7 62.90DD ZBA 160 B 4 ZBE 160 B 4 B280 489 489 A..6 39.8 19.74 8.12 2.71 1.40 3.4 14.0 10.83 2.7 12.4 43.50DD ZBA 160 B 4 ZBE 160 B 4 B280 209 209 1) FR refers to types AUV and AGV.5.6 39.33 3.3 84.3 9..3 69.12 2.8 21.4 16.3 11.68 1.35 2.9 27.98 8.8 49.63 1.00 3.64 2.96 1.0 17.9 25.27 1.97 1.5 9.85 2.5 19.7 12560 12507 7279 7383 7736 7762 7973 8027 85000 85000 85000 85000 85000 82231 80800 79525 78032 77030 75915 74777 73626 50000 50000 50000 50000 50000 50000 50000 50000 50000 49811 49495 49439 49479 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31495 31417 10035 10212 10886 10929 11283 11299 11616 11640 6340 6479 2.36 1.66 2.07 0.2 51.90TD ZBA 160 B 4 ZBE 160 B 4 B280 501 501 A.92 2.21 1.98 8.7 9.51 1.0 10.3 30.70DD ZBA 160 B 4 ZBE 160 B 4 B280 285 285 A.1 13.26 2.77 3.66 3.69 121 107 96..33 1.6 44.85 2.36 1.52 1.2 Selection tables Offset geared motors Single speed 11 4 15 242 n2 [rpm] M2 [Nm] i FR [N] 1) fB 145 163 93 104 121 136 149 167 12 14 15 17 19 21 23 26 29 33 37 42 47 21 23 25 28 33 36 40 45 52 58 65 73 82 37 42 47 53 58 67 75 87 96 109 122 141 157 67 74 88 99 112 126 145 163 121 136 719 642 1123 1001 864 770 701 626 11979 10593 9534 8395 7554 6900 6217 5425 4891 4316 3891 3386 3049 6821 6148 5663 5108 4366 3940 3564 3208 2762 2485 2198 1980 1742 3930 3396 3059 2723 2455 2129 1921 1653 1495 1317 1178 1020 914 2158 1931 1624 1455 1277 1139 988 882 1188 1059 9.6 13.67 1..8 68.60DD ZBA 160 B 4 ZBE 160 B 4 B280 237 237 A.5.15 1.09 1.7 34.5 2031514c_en_300812.09 1.68 1.42 0.94 1.80DD ZBA 160 B 4 ZBE 160 B 4 B280 365 365 A.77 0.60DD ZBA 160 AL 4 ZBE 160 A 4 B140 229 229 A.91 12.18 3.8 36.1 39.21 1.9 62.5 16.. 2) Weight AUH with oil filling in mounting position B14.23 21.55 1.2 20.2 30.9 12.8 76.48 1.1 57.9 11.06 2.50DD ZBA 160 AL 4 ZBE 160 A 4 B140 201 201 A.84 1.91 15.1 22.97 1.37 1.3 34.0. 6 39.indd 22 n2 [rpm] M2 [Nm] i FR [N] 1) fB 149 167 15 17 19 21 23 26 29 33 37 42 47 53 58 25 28 33 36 40 44 52 57 65 72 82 91 106 47 52 58 67 74 86 95 108 121 140 156 88 98 112 125 144 162 148 166 17 19 21 23 27 30 34 37 43 48 964 860 11845 10430 9385 8573 7724 6740 6076 5363 4834 4207 3788 3370 3038 7036 6347 5424 4895 4428 3985 3432 3087 2731 2460 2165 1943 1673 3801 3383 3043 2638 2381 2049 1853 1632 1460 1264 1133 2013 1804 1583 1411 1225 1093 1195 1066 12182 10961 10013 9022 7872 7097 6263 5646 4913 4425 9.4 43.6 30.0 17.20 1.18 1.8 13.55 1.90DD ZBA 180 A 4 ZBE 180 A 4 B280 490 517 A.09 1.42 2.23 2. Dimension sheets section 4.8 76.7 15.94 1.60DD ZBA 180 A 4 ZBE 180 A 4 B280 238 265 A.73 3.10 1.49 1.10 1.2 51..84 2.94 1.34 1.79 0.04 3..27 1.50DD ZBA 160 B 4 ZBE 160 B 4 B280 209 209 A.02 1.8 21.1 39.5 19.05 1.3 11.69 96.4 43.1 22.9 27.5 2031514c_en_300812.4.97 1.0.62 1.80DD ZBA 180 A 4 ZBE 180 A 4 B280 366 393 A.07 2.04 2.40 3.7 62.66 1.6 44.04 1.35 1.70DD ZBA 180 A 4 ZBE 180 A 4 B280 286 313 A.69 84.38 1..7 12.8 6840 6985 85000 85000 84639 79384 78163 77286 75958 75248 74265 73380 72333 71485 70392 50000 50000 49752 50000 50000 49478 49789 49675 49003 48623 48556 47883 47245 31500 31500 31500 31500 31500 31500 31414 31500 31500 31489 31280 9522 9670 10211 10315 10787 10877 5846 6070 85000 83891 76932 75893 75360 74173 73715 72846 72178 71220 1..46 1. 2) Weight AUH with oil filling in mounting position B14.95 0.90DD ZBA 180 B 4 ZBE 180 B 4 B280 544 614 4 P1 [kW] 1) FR refers to types AUV and AGV.60 Weight [kg] 2) Gearbox Motor Brake A.89 2.96 1. Lower FR values are permitted for AFV.03 0.3 34..5 243 .97 1.22 1.83 2..3 84.92 2. motor with standard brake.0 32.4 27.25 1.76 1.3 9.3 34.71 1.8 49.4 14..8 49.41 3.67 0.4 16.48 1.68 3.74 8.35 1.8 54.8 27.7 57.23 16.71 1.74 8.14 2.38 2..8 76.9 25.90TD ZBA 180 B 4 ZBE 180 B 4 B280 556 626 A.50DD ZBA 180 A 4 ZBE 180 A 4 B280 210 237 A.05 3.6 15.6 39.91 9.98 8.3 69.5. refer to the Drive Designer for these values.8 36.2 20.5 24.90TD ZBA 180 A 4 ZBE 180 A 4 B280 502 529 A.2 30.4 24.34 2.14 2.49 1.23 1.9 11.7 62.5 9.8 54.5.15 1.2 Selection tables Offset geared motors Single speed 15 18.56 2.1 13..27 0.9 10.3 69.2 30. 24 3.2 Selection tables Offset geared motors Single speed 22 4 30 37 244 n2 [rpm] M2 [Nm] i FR [N] 1) fB 54 60 66 73 33 37 41 45 53 59 66 74 84 93 108 120 134 149 23 27 30 34 37 43 48 54 60 66 73 84 94 114 41 45 53 59 66 74 84 93 108 120 134 149 30 34 37 43 48 54 60 66 73 84 94 103 114 3936 3548 3203 2887 6335 5717 5172 4654 4008 3606 3189 2873 2528 2270 1954 1767 1580 1421 12302 10735 9677 8541 7699 6700 6033 5367 4839 4368 3937 3409 3076 2527 7052 6347 5465 4917 4349 3918 3448 3095 2664 2409 2155 1937 11910 10512 9475 8246 7426 6606 5955 5376 4846 4195 3785 3448 3110 27.4 15..37 3.0 9.34 3.90DD ZBA 225 AL 4 ZBE 225 A 4 B680 719 719 1) FR refers to types AUV and AGV.0 32.3 20.5 2031514c_en_300812.72 3.74 1.92 3.97 1.6 12.98 1.71 4.9 70522 69499 68815 67759 49276 48798 49547 48969 48864 48941 48580 47921 47761 47150 46631 46226 45847 45189 70155 70486 69658 69837 69253 69136 68406 68085 67242 66832 65923 65070 64100 62594 45699 45608 46226 45996 46185 45808 45751 45297 45078 44784 44714 44387 65751 66482 66144 66504 65969 65976 65289 65116 64333 63730 62859 62713 62183 2.1 22.07 2.6 39.74 4.1 17.0.49 1.7 22.7 12.48 2.7 22.55 1.45 0.80DD ZBA 180 B 4 ZBE 180 B 4 B280 420 490 A.42 1.04 3. 2) Weight AUH with oil filling in mounting position B14.3 11.92 3.91 2.52 1.38 3.89 49.28 1.19 1.35 1.94 1.9 36.4 24.3 20.04 1.8 27.07 1.1 39.68 1.2 20.3 20..63 2.0 17.14 2.2 20.3 34.9 25.6 12. refer to the Drive Designer for these values.38 2.14 4.26 0.7 14.13 2.91 3.70 Weight [kg] 2) Gearbox Motor Brake A.4 27.14 2.15 1.4.6 15.0 32.3 11..04 1.21 1.8 13.8 54.1 44.65 1.8 13.90DD ZBA 180 B 4 ZBE 180 B 4 B280 544 614 A. motor with standard brake.4 15.59 3.8 27.2 30.37 2.4 43.39 1.4 27.30 2.4 43.74 3.6 39. Lower FR values are permitted for AFV.0 9.7 22.72 1.9 25.3 34. Dimension sheets section 4.89 62.0 17.indd P1 [kW] .80DD ZBA 200 A 4 ZBE 200 A 4 B680 511 511 A.4 24.4 24.8 36.91 2.93 1.1 22.90DD ZBA 200 A 4 ZBE 200 A 4 B680 635 635 A..2 30.3 12.5.09 1.6 15.61 2..04 3.55 0.1 17.34 1.5.83 2.8 49.93 2.21 1. 56 1. Lower FR values are permitted for AFV.2 20.89 43469 43449 43992 43777 44012 43693 43734 43535 43627 43383 62754 62690 63580 63262 63633 63118 63209 62567 62242 61479 61490 61049 60874 60350 40619 41556 41522 42079 41911 42241 42148 42419 42268 0.02 1.91 1. motor with standard brake. Dimension sheets section 4.6 15.8 13.9 25.77 1.09 1.00 1.43 1.83 2.89 43.4 24.47 2.3 20.9 11.0 17.01 2.2 20..90 1.1 22.5.4.96 2.0 17. 2) Weight AUH with oil filling in mounting position B14.6 39.7 14.80DD ZBA 225 B 4 ZBE 225 B 4 B680 595 595 1) FR refers to types AUV and AGV.37 1.3 12..2 Selection tables Offset geared motors Single speed 37 2031514c_en_300812.8 27.7 22.67 1.3 10.44 1.2 30.0 9.21 2.76 3.6 12.49 3.1 22.73 2.2 25.29 1.06 3.28 1.51 2.3 34.80DD ZBA 225 AL 4 ZBE 225 A 4 B680 595 595 A.8 13.5 4 P1 [kW] 245 .3 11.4 15.19 Weight [kg] 2) Gearbox Motor Brake A.27 2..98 1.65 0.90DD ZBA 225 B 4 ZBE 225 B 4 B680 719 719 A.3 11.13 1.6 12.indd 45 n2 [rpm] M2 [Nm] i FR [N] 1) fB 53 59 66 74 84 93 108 120 134 149 34 37 43 48 54 60 66 73 84 94 103 114 130 144 59 66 74 84 93 108 120 134 149 6727 6052 5352 4822 4243 3809 3279 2966 2652 2384 12702 11449 9963 8973 7982 7196 6497 5856 5069 4574 4166 3758 3292 2972 7312 6467 5827 5127 4603 3962 3583 3205 2881 27.04 2.60 1.1 17.6 15.23 1.15 1.5. refer to the Drive Designer for these values.0.0 9.87 0. 6/23 6.53/6.5 45.04 3.01/1.34/2.0 61.1 40.8 17.1 52.06/2.8 86.3/26 6.8/15 4.4 70.. Lower FR values are permitted for AFV.44/3.34 246 Weight [kg] 2) Gearbox Motor Brake A.73 3.12/2.7 22.18/3.7 13.92 2.52/2.29/2.31 3.54 5.97/3.0/28 7.91 8.21/2.92/3.4 52.46 3.5 77. 2031514d_en_300812.5.28 6.31/2.33/1.9/12.5 12.57 2.0/12 3.72/2.1/20 5.84/3.85 3.7/11 3.0 32.30/3.8 15.66 3.79 7.02/3.60/2.4/13 3.45 1.01 2.4/34 5.09/0.90 2.3 25.43/3.40TD ZBA 71 B 8/2 B003 24 A.10 2.5 45.6/19 4.72 3.53/5.90/2.80/8.55/2.82 1.4/18 5.07 9.95 2.7/11 3.40TD ZBA 63 B 8/2 B003 23 A.25 2.20TD ZBA 71 B 8/2 B003 15 A.55 2.6/22 6.24 2.83 1.2/17 4.1 44.32/4.22 3.20TD ZBA 63 B 8/2 B003 14 A.06 2.8/31 8...3/25 5.54/3.0 88..0 320/294 289/266 254/233 230/212 208/191 188/173 195/179 169/155 158/145 136/125 125/115 108/99 103/93 154/141 140/129 123/113 111/102 97/89 88/81 77/70 69/63 65/59 55/50 66/60 56/52 51/47 44/40 256 231 203 184 166 156 135 126 109 123 112 98.0 88.9/39 11/44 13/52 15/61 17/67 20/78 21/83 24/96 27/106 31/124 33/131 39/153 44/174 51/202 57/224 66/260 2.1/21 5.4 70.76 7.90 2.76/4.5 14.90 1. 2) Weight AUH with oil filling in mounting position B14.28 3.8/10.10DD ZBA 63 B 8/2 B003 12 A.74 4.9/28 8.30 2.2/25 7.5 77.87/3.38 4.0 8000 8000 8000 8000 8000 5000 5000 5000 5000 3150 3150 3150 3150 3150 3150 3150 8000 8000 8000 8000 8000 8000 5000 5000 5000 5000 5000 5000 5000 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 - 3.59 1.0 12.09/5.8/31 8.98/8.11/2.37 4.6/10.23 0.5/22 6.66 11.0/12 3.2/16 4.98/2.12 3.4 82.4 123 112 98.27 4.19/2.46/1.12/6.5.2/24 7.47/3.9/40 11/45 12/50 13/53 16/63 13/53 15/62 17/68 20/79 212/223 192/201 168/177 153/160 138/144 129/136 112/117 105/110 90/95 102/107 93/97 81/85 73/77 64/67 58/61 51/53 44/46 37/39 34/35 29/30 27/29 23/25 21/22 18/19 17/18 15/15 13/13 11/12 10/10 8.19/3.15/3.30TD ZBA 71 B 8/2 B003 18 A.9 28.1 2.8 35..52/3.67/1. Dimension sheets section 4.06/0.98/2.12 4.97/3.4.86/2.8/15 4.15 2.79/4.indd n2 [rpm] 4 P1 [kW] . motor with standard brake.96 3.40 2.2 10.84 2.48 2.7/9.79/2..15 3.67/2.5.66 4.72/3.0 61.53/3.85/2.80 1.5 52.0 20.9/36 9.8 35.77 2..48/4.27 3.30TD ZBA 63 B 8/2 B003 17 A.4/18 5.59/3.95/3. refer to the Drive Designer for these values.11 3.55 2.35/2.9/35 9.1 40..5 256 231 203 184 166 150 156 135 126 109 99.4/14 3.38 2.09/3.51 2.0/28 7.83 2.4 55.5/22 6.3 Selection tables Offset geared motors pole-changing 8/2 M2 [Nm] i FR [N] 1) fB 0.10DD ZBA 71 B 8/2 B003 13 1) FR refers to types AUV and AGV.0/32 8.0. 23/2.52/3.2 10.5/35 9. 4 P1 [kW] 247 .9 35.43 3.4 82.6/15 2.97 2031514d_en_300812.93/2.1 44.5 12.3 25.12 10.5/23 6.97/3.83 1.70/7. motor with standard brake.31/3.07 6.72 7.7 13.5 77.17 2.7 52.09 5.0/37 10/41 11/47 13/52 13/55 16/65 18/72 20/82 22/91 13/55 16/64 17/71 20/82 21/88 25/102 27/112 32/131 34/138 39/162 45/183 52/213 57/236 41/38 35/33 32/29 28/25 26/24 22/20 20/18 17/15 15/14 13/12 12/11 10/9.8 15.5 45.8 15.26 2..7/11 3.73/5.63/2.43/3.54/1.83 1.4 71.16/3.2/21 5.50TD ZBA 80 A 8/2 B007 56 A.8 35.39/2.1/33 8.2 123 112 98.46 3.67/3.0 31.7/9.26/2.21 5.30TD ZBA 80 A 8/2 B007 24 A.9/33 9.45 Weight [kg] 2) Gearbox Motor Brake A.94/3.9 28.48 2.85/2.90/1.11 1.97 1.2/17 4.9 28.43/3.54 1.99/2.2 12500 12500 8000 8000 8000 8000 8000 8000 8000 8000 5000 5000 5000 5000 5000 5000 5000 5000 5000 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 - 3.5..09/0.72 1.5. Lower FR values are permitted for AFV.47/2.92/1.32 218 195 256 231 203 184 166 150 127 115 156 135 126 109 99.1/25 4.1 40.8 17.0 61.77 1.63 3.9 62.0/29 8.52/4.5 52.4 70.10/2.4 55.4 327/327 293/293 384/384 347/347 305/305 276/276 249/249 225/225 191/191 173/173 234/234 203/203 189/189 164/164 150/150 130/130 124/123 108/108 93/93 185/185 168/168 147/147 133/133 116/116 105/105 92/92 83/83 78/78 66/66 60/60 53/52 48/47 79/79 68/68 61/61 53/53 49/49 42/42 39/38 33/33 31/31 27/27 24/23 20/20 18/18 32.95/1.40TD ZBA 80 A 8/2 B007 30 A..0 88.37 12.47 3.44 3.35 2.8 3.0/12 3.37/3..3/26 7.69 8.30DD ZBA 80 A 8/2 B007 24 A.96/1.10/5.6/23 6.06/3.2/13 3.0.87/4.84/6.86 4. 2) Weight AUH with oil filling in mounting position B14.36 4.99 4.72/1.5/18 5.50 4.83/1.65/1.5 12.11/0.22/1.5.42/5..7 13.8 86.7/40 11/46 5.92 2.96 3.46/3.77/1.88 9.5 9.39 2.55 8.88 3.4/26 7.34 21/84 24/98 27/108 31/126 33/134 39/156 44/177 51/206 57/228 66/265 71/287 83/334 3.17/3.58/1.10DD ZBA 71 B 8/2 B003 13 A.52/7.00/5.48/2.1/29 7.90 2.0 32.4.90/9.8/16 4.10DD ZBA 80 A 8/2 B007 19 1) FR refers to types AUV and AGV.05 3.indd 0.39/1.3 25.90/3.60 5.12/2.05/4.58 1.65 1.52 3.70 1.93/3.3 Selection tables Offset geared motors pole-changing 8/2 n2 [rpm] M2 [Nm] i FR [N] 1) fB 0.11/1.5/10. refer to the Drive Designer for these values.62/6.0 20.65/2.0 20.65 2. Dimension sheets section 4.62/2.93 3.22 1.7 22.8 17.46/2..17/2.47 2.12 2.94 4.51 7.93 6.30 3.93 1.83/3.7/19 5.1 39.39 1.22 2.7/23 6.7 22.20TD ZBA 80 A 8/2 B007 21 A..85 2.95 2.96 2.06 3.4/14 3. 36 2.02/3.95 1.61/2.60TD ZBA 90 A 8/2 B007 88 A.4.25/1.1/17 4.3 45..21 52.05/1.63 1.34/2.50TD ZBA 90 A 8/2 B007 59 A.68 3.5 52.5/19 5.68 1.3 Selection tables Offset geared motors pole-changing 8/2 n2 [rpm] M2 [Nm] i FR [N] 1) fB 0.2 20.94 12.69 1.0 88.33/1.6/19 5..33/3.08/1.0/29 7.31 1.20DD ZBA 90 A 8/2 B007 24 A.0 61..4 70.86 2.51 1.48/3.5 9.05 3.40/2.9 62.9/12 3.4 55.08 1.68/1.7 28.9 20000 20000 20000 12500 12500 12500 12500 12500 12500 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3147 3148 2877 2833 - 8.1 81.30DD ZBA 90 A 8/2 B007 27 A.86/3.indd P1 [kW] .7/19 5.24 1.87 6.63/1.79 4 0.91 8.1/13 3.33 1.00/2.66 248 Weight [kg] 2) Gearbox Motor Brake A.60 3.6/23 2.97/2.25/6.5.96 2.83 1.61 2.2/34 8. Lower FR values are permitted for AFV.5 45.36/2.94/2.68 1.1/25 7.0 31.30TD ZBA 90 A 8/2 B007 27 A.44/3.7 48.6/23 6.8 35.6/15 4.9 35.16/0.54/1.17 1.0/20 5.45 1.21/3.8 2.45/1.73 4.8/40 11/47 13/52 15/60 15/64 7.41 3. 2031514d_en_300812.10DD ZBA 80 A 8/2 B007 19 A.0/9.1 40.4 71.4 82.81 2.29/3.6/23 6.1 39..68 2..33/1.7/32 8.32 297 265 247 218 195 171 152 142 127 256 231 203 184 166 150 127 115 101 91.10DD ZBA 90 A 8/2 B007 22 1) FR refers to types AUV and AGV.5/14 3.10 10.20/3.07 2.3 22.30/1. refer to the Drive Designer for these values.30 1.62 0.66/2.69/1.5 77.6/35 9.05 1.64/3.94/7.48/1.68/3.33 1.40TD ZBA 90 A 8/2 B007 33 A.69 8.25 4.11/1.1/38 10/42 11/47 13/52 14/56 16/66 18/73 20/83 22/92 25/104 28/115 32/131 35/145 103/424 114/469 13/55 16/65 17/71 20/83 21/88 16/16 15/15 12/12 653/654 583/584 543/544 480/480 429/429 376/377 334/335 312/313 279/280 563/564 508/509 447/447 405/405 365/366 330/330 279/280 253/253 222/222 200/201 179/180 343/344 297/297 277/278 240/240 220/220 190/190 181/181 158/158 137/137 123/123 106/106 100/100 216/216 195/195 170/170 154/154 135/135 122/122 115/115 97/97 88/88 77/77 70/70 62/62 56/56 49/49 44/44 15/15 14/14 116/116 99/99 90/90 77/77 72/72 10.1/29 8.68/3.29 3.5.81/1.5 156 135 126 109 99.32 12.0 32.20TD ZBA 90 A 8/2 B007 24 A.22 3.07 3.79/1.4/9.94 2..21 3.01 2.70/2.42 3..20 1. 2) Weight AUH with oil filling in mounting position B14.1 6.7/9.12 1.38 2.7/11 2.4/8.34/2.68/2.2/30 8.0/33 9.06/3.8/11 3.2/18 4.00 2.02 3.5/27 7.69/1.0.31/1.48 1.20/1.70/3. motor with standard brake.52/1.1 44.60/3..95/1.8 86.7/36 4.04/2..60 1.0 25.97 3.70 3.12/3.13/1.45 67/274 72/297 84/346 2.5.95/0.11/0.80/1.34 2.52 3.17/1.40 2.5 98.68/3.8/16 4.97 1.54 1.2 55.2/22 5. Dimension sheets section 4.2/13 3.68 4. 49 4.68 3.indd 0.7/11 2.1 81.3/13 3.86 2.8/36 9.68 3.92 2.98/2.52/2.07 2.70 6.24 2.10 1.8 86.1/29 7.6/15 4.74 3.0.67 2.16/0.30/2.85/2.58 1.5.90 3.5 12.09/2.29 2.20/2.9/32 8.1/16 4..70 3..10/1.13 3.5 9.66 25/103 27/113 32/132 34/140 40/163 45/185 52/216 58/239 67/277 73/300 85/350 2.20/3.26/2..95 1.82 7.21/2.25/1.2/29 8. 249 .8 17.30/3.8 15.84/2.69/2.64/1.1 31.10/4.01/1.32/3.3/34 8.4 82.36 4.30DD ZBA 90 B 8/2 B020 35 4 P1 [kW] 1) FR refers to types AUV and AGV.3/25 7.0 184 166 150 127 115 101 91.63/4.5.93/2.40TD ZBA 90 B 8/2 B020 41 A.9/12 3. motor with standard brake.65/3.35 4.03/0.9 99.87/1.2 Weight [kg] 2) Gearbox Motor Brake A..00/0.8 2.4/9.66 2031514d_en_300812.06 5.30TD ZBA 90 B 8/2 B020 35 A.3 23.18 2. refer to the Drive Designer for these values.2 25.32 297 265 247 221 199 177 156 139 218 195 171 152 142 127 112 99.7/35 10/40 12/47 13/52 15/60 16/64 18/74 20/81 23/93 25/100 28/115 31/127 62/62 57/57 48/48 46/46 39/39 35/35 30/30 27/27 23/23 21/21 18/18 1069/1160 954/1035 889/964 796/863 716/777 637/691 562/609 500/543 785/851 702/761 616/668 547/593 511/554 457/496 403/437 359/389 315/341 281/305 662/718 598/648 540/586 457/496 414/449 364/394 328/356 293/318 266/288 222/241 201/217 176/191 159/173 144/156 359/390 311/337 297/322 259/281 224/243 201/217 174/189 164/178 142/154 130/141 113/122 105/114 91/99 83/90 28.74/3.02 1.33 1.19 4.7/23 6.0 20.2/29 8.2/17 4.7 48.6 55.3/18 4. Lower FR values are permitted for AFV.2/21 3.5 73.13 1.09 2.7/23 6.9/16 4.52/2.47/1.99 4.10/3.62 2.3 29.3 45.07 2..3/13 3.44/1.25 2.43/1.3 Selection tables Offset geared motors pole-changing 8/2 n2 [rpm] M2 [Nm] i FR [N] 1) fB 0.2/37 3.92 1.03 2.2/33 9.48/2.13 1.49 3.3 25.50TD ZBA 90 B 8/2 B020 67 A.5 39.2 55.8/19 5.4.85/1.36/2.51 1.81 2.4/26 7.10/5.80 3.7/15 4.04 2.7 22.10DD ZBA 90 A 8/2 B007 22 A.19 1.2 10.74/3.96/1.43 2..85/2.25/2.47 1.4 78.0 20000 20000 20000 20000 20000 20000 20000 20000 12500 12500 12500 12500 12500 12500 12500 12500 12500 12500 8000 8000 8000 8000 8000 8000 8000 8000 8000 7902 7846 7862 7886 7816 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 2.32 1.65/1.8/39 12/47 13/52 15/59 16/66 18/73 7.9 62.59/3.22/1.29/2.52 1.10/1.7 49.82/1.30 2.69 8.45 4.38/3.61/2.47/3.25/2.28/2.64/2.89 4.35 1.72 2.76/3.13/1.27/1.3 39.1/20 5.7 13.88 1.5.30 4. 2) Weight AUH with oil filling in mounting position B14.0 44.59/1..6 87.4 36.40DD ZBA 90 B 8/2 B020 40 A.14/3.8 61.6/19 5.63 3.87 1.60TD ZBA 90 B 8/2 B020 95 A.04 3.06/3.84/4. Dimension sheets section 4.7/19 5.93 2.4 71.19/1.70 2. 5/23 6.3 115 101 91.37 1..20DD ZBA 90 B 8/2 B020 31 A.6/19 5.3/14 3.94/0.19/1.28 2.8/32 8.4/9.6 11.1 81.50DD ZBA 100 B 8/2 B020 68 A.47/1.7/11 3.1 18.48/3.32 3.83/3.95 8.11 2.89/1.9 36.00/2.75 3.72 2.56 2.4 13.91 8.5.2/17 4.11 2.21/2.9/12 3.49 3.63 4.71/2.48/1.6/23 6.55 2.05 3.95/3.27 1.72 5.1/33 9.76/1.35 6.6/15 4.07/1.2 26/104 28/115 32/131 36/145 40/161 44/177 52/209 57/231 65/265 72/292 81/327 89/361 105/424 116/469 2.1/21 5.71 3.91 3.35/5.7/36 9.24 3. Dimension sheets section 4.34 2.81 1.8 2.22 3.76/5. Lower FR values are permitted for AFV.30/4.5 73.63/2.6/15 4.4.26 7.5.53/3.74/3.14 1.45/3.61 2.23 1.1 16.60TD ZBA 100 B 8/2 B020 98 A.10/1.4 50..9 12. 2031514d_en_300812.47/2.5. refer to the Drive Designer for these values.9/41 11/46 13/52 14/58 6.11 1.87 6.0.75/3.74 1.33/1.9 195 171 152 142 127 112 99.82/2.7/19 5..97 1.21 267 240 215 193 172 162 297 265 247 221 199 177 156 139 129 107 101 89.3 39.61 1.32/3.87 0. 2) Weight AUH with oil filling in mounting position B14.83/2.1 3069 3089 3115 3060 3044 3022 3057 3048 3046 3017 2982 2936 2877 2833 31500 31500 31500 31500 31500 31500 20000 20000 20000 20000 20000 20000 20000 20000 20000 19840 19860 19497 12500 12500 12500 12500 12500 12500 12500 12500 12500 12302 12209 12290 12078 8000 8000 8000 8000 8000 7602 7519 7456 7423 7389 7314 7224 2.37 1.2/13 3.1/17 4.13 4 0.34/3.0/16 4.05 6.6 87.94/1.2/25 7.7/15 4.94/2.97/1.73/1.25/1.9 56.1 31.45 3.0 71.30/1.40TD ZBA 100 B 8/2 B020 43 A.95 0.20 1.93 5.44/2.6 55.96/4..70TD ZBA 100 B 8/2 B020 149 A.6 63.42/2.6/39 12/47 13/52 14/59 16/66 18/73 20/81 23/94 101/109 91/99 80/87 72/78 65/71 59/64 50/54 45/49 40/43 36/39 32/35 29/31 25/27 22/24 1629/1578 1464/1418 1311/1271 1177/1141 1049/1017 988/957 1812/1755 1617/1566 1507/1460 1348/1306 1214/1176 1080/1046 952/922 848/822 787/762 653/632 616/597 548/531 1189/1152 1043/1011 927/898 866/839 775/751 683/662 608/589 533/517 476/461 437/423 390/378 344/333 307/297 702/680 616/597 556/538 497/482 450/436 376/364 340/329 299/290 270/262 243/236 220/213 190/184 28.68/1.4/18 2.0 9.18 2.73 2.77 2.8 250 Weight [kg] 2) Gearbox Motor Brake A.91 2.15/2..3 22.41/3.9/32 3.indd P1 [kW] .0/29 7.44 1.56/1.50TD ZBA 100 B 8/2 B020 70 A.27/1.48 1.16/2.10 4.14/3..11 2.45/1.7/11 2.53/2.7 49.04/3.0 25.51 1.01 2.31 2.22/3.79 1.86 1.03/1. motor with standard brake.33/1.59 7.3/26 7.0/21 5.2 20.27 5.4 78.84 2.21/2.1/37 9.34 1.40DD ZBA 100 B 8/2 B020 42 1) FR refers to types AUV and AGV.6/27 7.0/12 3.00 1.64 3.39/1.0/29 7.1/29 8.24/1.48/2.16/1.8 61.52 3..57/2.27/2.3 Selection tables Offset geared motors pole-changing 8/2 n2 [rpm] M2 [Nm] i FR [N] 1) fB 0.10/3.67/2.0 44.57 3. 2 7137 7051 6954 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 2696 2697 2783 2769 2820 2796 2845 2834 2865 2848 2860 2839 2833 2807 50000 50000 50000 50000 50000 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 20000 19942 20000 19705 19630 19169 19054 18624 18169 3.66 2.86 0.51 1.80TD ZBA 112 A 8/2 B050 263 A.09/1.50/2.28 1.67/2.91 0.34 2.54 1.64/3.91 8.98/1.86/1.5.85/3.42/2.33 4. 2) Weight AUH with oil filling in mounting position B14.7 14.98/2.33/1.34/3.41/1.3 29.40DD ZBA 100 B 8/2 B020 42 A.3 88.74 2.48 4.51/1.65 2.53 2.14/2.49/1.32/2.39 1.47 4.61 2.76/1. 251 .92 1.35 2.26/1.95/3.52 1.1/17 4.0 9.72 2031514d_en_300812.5/23 6.9 77.12 1.8 28.9/32 3.7 48.2/13 3.10/3.85 2.9 18.2 25.1 22.91/2.74/3..87 3.97/2.6/15 4.7 62.63/2.3 Selection tables Offset geared motors pole-changing 8/2 n2 [rpm] M2 [Nm] i FR [N] 1) fB 0.47 1.84/3.31 4.42 3.31/3.5/10 2. Dimension sheets section 4.33 3.16 2.60TD ZBA 112 A 8/2 B050 129 4 P1 [kW] 1) FR refers to types AUV and AGV.20/1.8/11 3.63 1.15 2.97 3.21 281 253 220 198 171 267 240 215 193 172 162 146 127 115 98.5 39.96 1.0.87 6.30DD ZBA 100 B 8/2 B020 37 A.39/2.58/1.24/1.1 16.39 1.27/1.5/27 6.20DD ZBA 100 B 8/2 B020 34 A.6 11.5/14 4.08/1.05 6.67/1.5/18 5.08 2.91 2.54/1.5/14 4.54/3.97 2..19 1.14/2.2 55.80/1.6/11 2.1 25.9/28 7.52/2.22 2.95 8.3/13 3.3 23..15 1.72 3.8 25/104 28/116 31/128 11/47 13/52 15/60 16/64 18/74 20/81 23/93 24/100 28/115 31/127 36/146 39/161 45/186 48/197 55/228 25/104 28/115 32/131 35/145 39/161 43/178 51/210 56/231 65/265 71/293 80/327 88/362 103/424 114/469 2.1/17 2.04 4.92 1.60 3.5.3 45.35 1.0 19.00 3.58/3.33/1.4/22 6.0/21 5.75/3.68/1.72 1.21 1. Lower FR values are permitted for AFV.1/25 7.35/2.5.40/2.28 2.35 1.80/3.8/32 9.1 18..15/2.4.46 3.1/29 7.05/1.94/1.06/3.06 1.9 12.70TD ZBA 112 A 8/2 B050 181 A.45/3. motor with standard brake.3 22.indd 0.0 Brake Weight [kg] 2) Gearbox Motor A..0 25.39/1.16 3.97/1.86 1..5 199 177 156 139 129 107 101 89.2 20.70 4.76 3.10/2.09/1.1/37 171/166 153/148 138/134 379/368 340/329 295/285 278/269 240/233 220/213 191/185 178/173 154/150 140/136 121/118 110/107 96/93 90/87 78/76 171/165 154/150 135/131 123/119 110/107 100/97 85/82 77/74 67/65 61/59 54/53 49/48 42/41 38/37 3063/2810 2758/2530 2398/2200 2158/1980 1864/1710 2910/2670 2616/2400 2344/2150 2104/1930 1875/1720 1766/1620 1591/1460 1384/1270 1254/1146 1071/983 965/882 2169/1990 1929/1770 1700/1560 1515/1390 1406/1290 1166/1070 1101/1010 980/899 841/772 28.8/20 5.8 12.01 1.64 1.72/3.05 2.45/1.3/18 4.1 15.05/2.4 13.0/16 4.1 31. refer to the Drive Designer for these values.86/3.4 36.64/2.9/12 3. 88 3.13 1.07 1.87/2.50 3.5/15 4.5..10/3.33 2.94/1.60/3.7 14.6 87.80TD ZBA 132 C 8/2 B050 277 1) FR refers to types AUV and AGV.0 19..0/29 8.9 60.0 16..0 19.52 1.15/1.6 10.16/2.87/2.90TD ZBA 132 C 8/2 B050 405 A.29/2.50DD ZBA 112 A 8/2 B050 99 A.6 55.58 1.03/2.1 8.41 2.37 1.17 1. 2031514d_en_300812.7 49.3 46.75 2.0 44.41/2.20 2.6 63.9 12.98/1.16/1.5/10 2. Dimension sheets section 4.60/2.04 3.59 2.46 2.65/1.1/4.9 36.13 3.25 1.9 11.78 274 247 218 197 281 253 220 198 171 154 135 16947 16681 16545 12500 12500 12468 12425 11474 11288 11296 11165 11177 11022 10951 10781 10711 6269 6300 6428 6461 6527 6525 6552 6522 6508 6457 6440 6376 6338 6306 6271 6224 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 85000 85000 85000 85000 50000 50000 50000 50000 50000 50000 50000 2.48/1.53/2.0/37 9.25 1. motor with standard brake.87/3.50/3.57/2.80/2.47/1.7 21.28 1.09 3.41/2.98 3.15 4.61 1.61 1.1 22.26/2.8 61.0 10/42 12/47 13/52 6.35/1.7 32..21/1.0 71.88/1.76 2.10/2..65/2.96 2.76 2.8/11 3.7 29.6 54.52/3. Lower FR values are permitted for AFV.1 31.95/1.9 18.32 1. 2) Weight AUH with oil filling in mounting position B14.82 3..1 25.54 3.1 31.08/1.indd n2 [rpm] 4 P1 [kW] .7 36.5 14.50TD ZBA 112 A 8/2 B050 101 A.6/11 2.16/1.0.97 1.86 0.89/3.32 2.9 56.24 2.09/1.53 3.67 3.3 23.84 0.4 78.60DD ZBA 112 A 8/2 B050 127 A.2 25.04 2.43 1.57/1.23/3.12 3.00/2.30DD ZBA 112 A 8/2 B050 68 A.34/1.4.18/3.24/1.2/13 3.0/33 9.3 Selection tables Offset geared motors pole-changing 8/2 M2 [Nm] i FR [N] 1) fB 0.94/0..54/3.70 0.3 29.80/3.98 2.61 1.83/2.7 112 99.86 2.5 252 Weight [kg] 2) Gearbox Motor Brake A.99 7.8/12 3.52/1.7 41.06/1.3/26 7.79 3.10 1.5.07 2.1 15.1/17 4.7 36.84/3.92 1.29 2.6/15 2.10/3.8 12.93/3.74/1.80 1.8 11.2/13 3.71/1.1 28.68/1.5/19 5.40DD ZBA 112 A 8/2 B050 73 A.01 2.2/21 740/679 661/606 596/547 1221/1120 1086/993 953/871 850/777 780/716 697/639 615/564 548/503 509/467 455/417 400/367 356/327 325/298 671/614 607/555 534/488 483/441 435/398 393/360 339/310 306/280 274/250 247/226 229/209 207/189 180/164 162/148 141/129 128/117 393/360 341/312 318/291 276/252 251/229 217/198 197/180 171/156 161/147 140/128 126/116 110/101 98/90 85/78 4110/4083 3705/3680 3270/3248 2955/2935 4215/4187 3795/3770 3300/3278 2970/2950 2565/2548 2310/2295 2025/2012 67.4 50.3 39.52/3.52 3.86/2.47 3.03 1.26/3.37/1. refer to the Drive Designer for these values.8/40 11/45 12/51 14/57 15/61 17/69 19/78 21/88 23/96 11/47 13/52 14/59 16/65 18/72 19/80 23/92 25/102 28/114 31/126 33/137 37/151 42/174 47/193 54/222 60/245 19/80 22/92 24/98 28/113 30/125 35/144 39/159 45/183 47/194 55/224 60/247 69/284 78/319 90/369 2.30/3.53 4.05 1.22/2.29 1.5. 93/3.12 2.8 26.1/37 10/42 12/48 13/53 14/59 16/65 18/73 20/81 9.7 32.9 56.7 36.87/2.1/17 4.21 1.65 1.2 35.10/1.92 1.43/1..70DD ZBA 132 C 8/2 B050 189 A.81/1. 2) Weight AUH with oil filling in mounting position B14..88 0.89 3.88/2.9/37 10/42 5.63 3.5.28/1.1 19.83/3.0 16.80TD ZBA 132 C 8/2 B050 277 A.6 24.61/2.41/1.1 31.79 2.9 12.65 1.6/11 2.82/2.3/18 4.5.03/1.7/24 6.9/33 8.0 19.4/22 6.75/1.31/2.7 9.11 2.90 Brake Weight [kg] 2) Gearbox Motor A.7 21.09 1.59 2.06/2.50DD ZBA 132 C 8/2 B050 113 A.69/1.8 22.79/2.4 50.93 1.36/1.9 44.9 11.09/3.57 1.47 1. motor with standard brake.40 1.08/1.20 3.57/3.29 1.52/1.94/1.99/0.5 78.2 67.6 63.52/1.64/1.34/2.40DD ZBA 132 C 8/2 B050 87 4 P1 [kW] 1) FR refers to types AUV and AGV.0.9/29 7.20/1.08 1.8 44.24 1.3 39.84/1.70TD ZBA 132 C 8/2 B050 194 A.64/2.5 n2 [rpm] M2 [Nm] i FR [N] 1) fB 5.1/4.9 36.10 3.53 2.83 2. refer to the Drive Designer for these values.36 3.1/29 7.10 2.02 1.53 1.1/25 2.indd 1.70 1.48 3.59 3.96 2.9 68.51/2. Lower FR values are permitted for AFV.18/3.93/1.85 0.90 3.15/1.56/1.56/2.5/23 6.14/2. Dimension sheets section 4.49 3.20/1.01/1.32 1.78 50000 50000 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 18364 18390 17924 17928 17577 17299 15781 15610 15606 15400 15333 15105 15004 9964 9898 10107 10071 10192 10114 10176 10069 10082 9948 9947 9802 9753 5291 5484 5571 5740 5780 5852 5858 5891 5874 5907 5913 5934 5915 5895 5861 3.9 77.8/40 11/45 12/51 14/57 15/62 17/69 19/78 21/88 23/97 26/108 28/116 32/130 35/145 16/65 18/72 19/80 23/93 25/102 28/115 31/127 33/137 37/152 42/175 47/193 54/223 60/246 72/297 80/328 1830/1818 1725/1714 4005/3978 3600/3576 3225/3204 2895/2876 2580/2563 2430/2414 2190/2175 1905/1892 1725/1710 1475/1465 1328/1316 1184/1173 1021/1015 2085/2071 1935/1922 1605/1594 1515/1505 1349/1340 1158/1150 1019/1012 909/903 821/815 732/727 660/656 588/584 534/530 1074/1067 959/952 846/840 754/749 701/696 626/621 551/547 491/487 447/444 399/396 372/370 332/329 299/297 664/659 599/593 542/537 467/462 422/418 377/373 341/337 315/312 285/282 248/245 224/221 194/192 176/174 146/144 132/131 122 115 267 240 215 193 172 162 146 127 115 98.58 2.76 3.37 1.33 2.4.22/1..55 2.7 29.57/1.0 39.32 1.13/2.8/20 5.98/2.8/32 9.03 1.85/3.1 25.09/1.3 46.07/1.5/27 6.1 139 129 107 101 89.6 71..39/1.08 2.62/3.6/15 4.7 41.5.3/13 3.61/3.11 3.57/2.36 2.7 48.92/0.47/3.3 Selection tables Offset geared motors pole-changing 8/2 2031514d_en_300812.3 88.53 1.31/1.1/25 7.08 1.70 2.60 3.01 1..9 60.9/12 3..1 22.71 8.60DD ZBA 132 C 8/2 B050 141 A.1 28.60TD ZBA 132 C 8/2 B050 143 A.6 54.5 14.00 2.13/3.44 1.48/2.. 253 .96 1.0/21 5.09/2.85 2.15 1. 8 12.78 4991 4878 4888 4992 5000 4978 4966 4974 5000 5000 fB Gearbox 1.5.36/1. Lower FR values are permitted for AFV.9 18.68 2.30DD 1.6 10.54/2.39 A. 2031514d_en_300812.5 n2 [rpm] .24/1.32 1.5.86/2.67/1.89/1.3 Selection tables Offset geared motors pole-changing 8/2 P1 [kW] M2 [Nm] i FR [N] 1) 30/125 35/145 39/159 45/183 47/195 55/225 60/248 69/285 78/320 90/370 345/342 299/296 272/269 235/233 222/220 192/190 174/172 152/150 135/134 117/116 23.30/1.0 19.0.06/1.96 1.56 2. motor with standard brake.07/0.7 14.57/1.04 2.1 15.18 1.87 2. 2) Weight AUH with oil filling in mounting position B14.1 8.99 7.1/4..08 1. Dimension sheets section 4.8 11.5.29 Motor Brake ZBA 132 C 8/2 B050 Weight [kg] 2) 82 254 1) FR refers to types AUV and AGV.4.indd 4 1. refer to the Drive Designer for these values. 6 .32 .1 78.6 73.9 82.63.7 .9 .267 – 88.68.281 9.68.89 .6 78 .267 9.8 – 9.67.52.23 .156 8.71.281 17.267 9.7 76.8 .A 63B Z.71.1 – – – – – – – – – – – – – 132C – – Z.256 8.1 78.23 .221 8.9 77.9 – 9.6 78 .8 .A 71A ZBF Z.1 78.69 .9 – 8.89 .3 .218 8.A1) 80B Z.89 .9 .69 .69 .23 .4 .2 .8 – 10.166 8.61.A1) 160B – – – – Z.44.67.281 15.9 .4 Selection table (direct drive input) Offset geared motors Overview Possible transmission ratios for gearbox size A 10DD Z.3 .71.0 .7 76.3 .7 76.6 78 .274 – 76.68.2 .78 .8 .7 .8 .28 31.297 8.4 .9 .7 .7 .3 .115 8.3 .39.218 8.1 146 .8 .68.86.8 .21 .9 77.71.2 .256 8.2 .6 73.1 .123 9.95 .4 .221 35.7 – 8.32 .4 .7 .21.9 77.274 27.23 .267 9.6 .3 .4 .71.9 80.297 8.78 .1 78.20.99.89 .3 .7 .281 57.1 .2 .1 – 3.107 8.9 80.3 .61.8 .1 78.274 – 121 .21 .9 .274 39.1 .7 .9 80.7 76.78 .203 8.71.2 .107 14.36.78 .8 .67.1 – 6.indd The table lists the possible transmission ratio ranges for the motor/gearbox combination for direct drive input.1 146 .297 14.5 – 7.32 .127 8.61.3 .67.A1) 180A – – – – Z.39.68.2 .67.15 .281 44.6 – 4 Motor 20315044_040 2031514e_en_300812.9 82.267 30.67.1 .297 – 89.78 .69 .68.3 .7 .71.256 8.9 80.28 31.5 – 8.43.91 .8 .A1) 132B ZBF Z.156 7.8 5.61.91 .195 8.0 .8 .61.9 82.68.7 .28 – 6.297 12.A – – – – 69.9 .112 12.9 – 9.156 7.78 .68.71.7 76.68.61.267 9.9 and should not exceed 15.52.49.69.4 .267 – 146 .221 21.7 .39.28 31.8 .281 9. 255 .78 .281 9.68.5.281 44.12 – 8.218 13.A1) 180B – – – – – – – Z.8 .2 – 7.A1) – 100A(L) ZBF Z.9 80.A1) 160A(L) – – – – Z.91 .A1) 12.71.6 78 .52.9 77.9 77.6 73.9 .85 .8 .3 – 8.193 9.69.9 77.6 .8 . refer to the speed/output overviews in section 4.6 78 .8 .61.8 .A 80A ZBF Z.67.69.8 .23 .7 .9 .68.2 .1 – 3.7 .78 .2 .4.156 7.54.3 – A 50DD A 50TD A 60DD A 60TD A 70DD A 70TD A 80DD A 80TD A 90DD A 90TD – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – 19.78 .3 .78 .71.61.4 .67.112 17.281 39.3 .61.9 .9 80.9 82.8 .89 .28 31.123 6.6 73.3 .68.7 .2 .123 6.256 14.2 .281 36.5 – 8.4 .123 6.256 8.71.9 77.67.281 9.9 77.101 8.274 – 197 .99 .28 31.71.6 78 .281 – 103 .1 .69.7 76.8 .256 36.67.9 80.6 – 4.123 13.78 .218 26.5 – 8. The duty factor must not be less than 0.71.89 .2 .9 82.9 80.68.A1) 90A Z.5 .3 .9 .1 78.6 73.21 .267 61.274 15.9 82.68.61.9 80.7 – 10.7 76.9 198 .A1) 225A(L) – – – – – – – Z.4 .32 .9 .71.32 .9 77.67.7 .9 82.52.3 .98 .21 .28 31.7 76.121 10.91 .2 .7 – 9.8 .9 .218 8.78 .256 22.A 63A ZBF Z.6 78 .6 78 .3 .78 .52.274 11.89.68.123 6.61.9 9.2 .1 – 9.3 .44.5 – 8.69 .4 6.274 62.9 82.61.9 77.4 7.267 39.78 .28 – A 30DD A 30TD 39.21 . 1) For the possible transmission ratios for the corresponding 4-pole Z.55.84.8 7.123 9.8 .31.4 .4 – 8.69 .28 31.297 24.2 .4 .281 22.A1) 200B – – – – – – – Z.2 .69.61.123 6.4 .32 .2 .68.1 78.2 .274 – 274 54.115 – 198 .52.274 12.91 .267 9.6 78 .21 .69.23 .1 78.9 77.78 .68.7 – 3.7 .156 18.7 76.1 78.A 71B Z.8 .68.3 .69.195 8.3 .4 – 7.1 .91 .218 10.68.274 10.52.162 21.7 .69 .35 – 8.7 – 39.69 .3 – 7.109 7.9 80.256 36.39. the selected combination must be checked together with the relevant duty factor.156 25. Since the outputs and number of poles of the motors are not considered here.6 73.67.3 .71.78 .8 .69 .9 82.156 8.68.27.9 77.89 .2 .85 .198 9.52.2 .8 .52.67.68.69 .267 24.25.1 78.32.69.2 .98 6.4 .6 78 .5 – 8.2 .6 78 .68.28 – 6.A1) 200A – – – – – – – Z.32 .69 .22.1 78.A1) 225B – – – – – – – 112A ZBF Z.71.5 .6 8.281 – 198 .9 77.69 .7 76.99.7 .8 .61.7 .8 10.61.99 .8 – 3.1 .184 7.6 73.71.95 .45.68.274 10.2 .61.71.156 11.177 8.69.67.9 82.67.A1) – 100B Z.69.8 8.3 .78 .2 .18.5.1 .9 .9 .9 82.274 30.5 .5 – 8.A1) – A 20DD A 20TD 20.71.297 48.68.2 .4 – 10.281 68.9 82.9 77.6 73.3 .78 .21 .85 .9 .7 76.91 .71.5 – 8.297 8.28 31.78 .6 73.56.9 .4 .69.281 – 154 .9 80.3 .215 24.9 – 68.8 .4 .1 78.71.156 14.71.1 .9 .256 49.281 – 253 .89 .9 .89 .39.71.61.6 78 .4 – 3.87 .32 .28 31.61.6 73.6 – 3.4 – 9.68.69 .256 25.69.9 .28 – 6.99.71.78 .23 – A 40DD A 40TD – 73.6 73.218 46.A1) 132A(L) ZBF Z.1 146 .67.32 .6 .9 80.8 .8 .6 78 .68.21 .3 .267 24.3 .2 .71.68.85 .5 – 8.9 77.69 .3 .3 .2.5 – – 90B ZBF – Z.89 .68.1 78.E motors.7 76.297 19.6 – 8.6 73.23 .267 44.6 73.8 – 8.9 77.3 .69 .9 .28 31.3 .50.6 73.9 .91 .2 .62.9 82.21 .267 11.6 73.9 .21 .9 .156 19.31.67.12.0 .69.68.2 .71.71.4 – 3. 0 57.5 Gearbox dimensions d10 b3 110 131 158 190 20 H11 14 14 14 1) e1 h1 h2 h3 q s1 85 85 107 107 91.AM 40 kG AM 20 .0 15.5. 90B / 100 196 152 2xM25 2xM32 168 133 196 152 2xM25 2xM32 168 133 ZN. ZB. 80 / 90A 140 124 140 124 157 134 157 134 4xM20 4xM20 4xM25 4xM25 153 103 153 103 153 103 153 103 63/71 AC AD dv (M.2 148. ZB. 112/132 260 185 2xM32 2xM40 273 173 260 185 2xM32 2xM40 273 173 20315044_108 256 1) Face end bore hole. X 1.AM 40 4 AM 10 41681545.5 21.0 94.indd Dimension . ZN. suitable for torque bracket D2 2031514e_en_300812.0 87.0 21.0 90.4 104.5 132.0 106.4.5 75.0 129.5) LL AG ZN. ZB.0 76. ZB.0 205 224 284 318 102.5 Dimension sheets Direct drive input with cylindrical rotor motor Offset geared motors Torque bracket type AM 10 ..5 M8x12 M8x12 M10x18 M10x18 20315044_101 Motor ZN.0 51.5 123.5 113.eps Gearbox a2 a3 a4 a5 a7 a8 a9 AM 10 AM 20 AM 30 AM 40 – 73 80 85 18 18 20 20 132 150 182 206 30 16 16 20 – 20 22 23 13. 25 K 30 N30x1.0 8.25 AM 20 K 30 N30x1. 63/71 kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max ZB.039 3.0 8.6 48.indd 20315044_136 1) Shaft code 257 .020 2.972 -0.75 W30x1.1 33. DD / TD ZB.293 +0.5 20 AM 40 H 40 40 133.0 12.50 27. ZN.023 4.0 54.023 4.3 20 35 80 116.737 +0.5.5 29.25 27. 90B / 100 499 397 155 221 510 397 155 240 520 397 155 284 529 397 155 318 – – – – 446 332 167 260 456 332 167 302 465 332 167 336 ZB.25x22 K 35 N35 x 2 x 16 116.034 2.00 4 AMH hollow shaft with key Gearbox 20315044_135 AMK splined hollow shaft AMB hollow shaft with shrink disc Gearbox AM 10 WK d4 1) H7/h6 – – B 28 28 B 30 30 AM 30 B 35 AM 40 B 40 AM 20 d5 – l2 – l3 – l6 – l9 – 72 102.25x22 80 117.3 30 20315044_137 Gearbox WK d2 DIN5480 1) 7H/6g AM 10 K 25 N25x1.9 38.00 E 36 W35x2x16 90 141.00 E 46 W45x2x21 100 159.737 +0.AM 40 2/3-stage Gearbox AM 10 AM 20 AM 30 AM 40 Motor ZN.3 20 40 90 133.031 2.042 3.00 E 11 W45x2x21 85 130.25x22 70 105.00 E 50 W50x2x24 120 150.078 -0.5 20 6 AM 20 H 24 24 96.5 30.6 48.0 5.020 2.75 E 11 W30x1. ZN.25x22 96.5 9.00 W45x2x21 85 130.9 38.6 48.25x18 90.023 4.1 33.023 4.5 29.5 6.186 -0.25x22 70 105.5 5.909 -0.5 Dimension sheets Direct drive input with cylindrical rotor motor Offset geared motors Torque bracket type AM 10 .0 8.5 31.297 +0.909 -0.5 35. ZN.078 -0.00 E 11 E 45 W35x2x16 70 111.0 25.0 5.9 38.025 4. 80 / 90A 363 260 142 212 374 260 142 232 384 260 142 284 393 260 142 318 443 341 142 212 454 341 142 232 464 341 142 284 473 341 142 318 402 299 155 221 413 299 155 240 423 299 155 284 432 299 155 318 ZB.034 2.0 54.025 4.025 4.50 37.1 33.020 2.00 E 11 W50x2x24 120 150.186 -0.972 -0.972 -0.042 3.023 4.0 AM 30 AM 40 l1 l3 l8 Mi DM 25.5 35.909 -0.631 +0.0 K 35 N35 x 2 x 16 K 45 N45 x 2 x 21 133.078 -0. 112/132 – – – – 552 439 167 260 562 439 167 302 571 439 167 336 – – – – – – – – 581 457 222 334 590 457 222 368 – – – – – – – – 704 581 222 334 713 581 222 368 20315044_081 l1 l3 AME splined solid shaft WK d1 l7 u 1) H7/k6 AM 10 H 22 22 90.0 20.75 E 35 W35x2x16 70 111.5 27.5 20 8 AM 30 H 35 35 116.0 12.297 +0.4.5 9.5 25 Gearbox WK d3 DIN5480 1) 6g/7H E 30 E 31 10 12 N9 AM 10 20315044_134 AM 20 AM 30 AM 40 l4 l5 Me DM W30x1.50 2031514e_en_300812. 0 5.0 20.0 133.0 – 50 60 71 91 112 132 160 101.0 26.0 30.0 240. ZB.0 5.5 4.5 66.0 20315044_102 ZN.0 15.0 85.0 115.5 193.5 47.AU 90 4 AU 20 .4.5 75. 90B / 100 196 196 152 152 2xM25 2xM25 2xM32 2xM32 168 168 133 133 Motor ZN.0 224.0 50.0 5.0 284. ZB.0 35.5 Dimension sheets Direct drive input with cylindrical rotor motor Offset geared motors Universal type AU 20 .0 26.0 104 129 148 178 218 272 328 395 h2 h3 h4 q s s1 w1 57.0 674.0 29. 63/71 AC AD dv (M.5 – 190 216 257 323 400 499 580 b1 j6 70 95 110 130 180 230 250 300 b3 Gearbox dimensions b4 d10 e1 f1 h1 131 156 188 236 284 340 416 500 – 57 68 90 111 133 151 172 14 14 14 18 22 22 22 26 85 115 130 165 215 265 300 350 4. ZB.eps Gearbox a1 a2 a4 a5 a6 a7 a8 b AU 20 AU 30 AU 40 AU 50 AU 60 AU 70 AU 80 AU 90 107 152 175 220 280 324 382 445 61.0 49.0 34.0 140.AU 90 kG AU 50 . 80 / 90A 157 157 134 134 140 124 140 124 4xM20 4xM20 4xM25 4xM25 153 103 153 103 153 103 153 103 ZN. ZB.5 53.0 484.0 64.5) LL AG ZN.0 157.5.0 90.0 22. 225 440 332 2xM40 2xM50 273 173 440 332 2xM40 2xM50 273 173 20315044_108 258 2031514e_en_300812.0 318. 112/132 260 260 185 185 2xM32 2xM32 2xM40 2xM40 273 273 173 173 ZN.0 804.0 561.0 30.0 21.0 200.0 71. X 1.0 23.0 29.5 115.AU 40 41852445.0 150 182 206 255 309 366 440 520 16 16 20 20 25 32 32 40 – – – – 51. ZB. 180B / 200 394 394 311 311 2xM40 2xM40 2xM50 2xM50 273 273 173 173 ZN.5 107.0 94..0 3.5 21. ZB.0 64.5 65.0 39. ZB.0 68.5 – M8x12 M12x17 M12x18 M16x21 M20x32 M24x36 M30x50 M8x12 M10x18 M12x17 M12x18 M16x21 M16x21 M20x30 M20x35 – 30.5 220.0 246.6 40.0 51.5 38.0 4.5 32.0 165. 160 / 180A 314 314 269 269 2xM40 2xM40 2xM50 2xM50 273 273 173 173 ZN.5 34.indd Dimension .5 5.0 418. 5 29. 180B / 200 – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – 904 1038 684 818 249 249 725 725 928 1061 681 815 246 246 832 832 ZN.0 116.737 +0.4 44. 90B / 100 434 540 332 439 167 167 260 260 440 546 332 439 167 167 302 302 447 554 332 439 167 167 336 336 465 572 332 439 167 167 418 418 490 596 332 439 167 167 484 484 535 641 341 448 176 176 561 561 556 663 336 443 171 171 674 674 580 686 333 440 168 168 804 804 Motor ZN.042 37.0 34. ZB.0 15.25 20315044_094 1) Shaft code 259 .631 +0.034 2.0 25 12 AU 50 H 50 50 157 12.0 244.297 +0.5 Dimension sheets Direct drive input with cylindrical rotor motor Offset geared motors Universal type AU 20 .5 12.0 74.5 237.0 – E 35 E 45 E 50 E 65 E 75 E 90 E 110 – 20315044_093 AUH hollow shaft with key 2031514e_en_300812.0 6.036 -0.024 -0.028 95.045 63.5 30 25.0 187.023 48. 225 – – – – – – – – – – – – – – – – – – – – – – – – 948 728 259 748 972 725 256 855 – – – – – – – – – – – – – – – – – – – – – – – – 1085 865 259 748 1108 862 256 855 4 2/3-stage Gearbox 20315044_082 AUV solid shaft with key Gearbox WK d i2 l s4 50 60 80 100 120 140 170 210 DIN 332-DR M10 M10 M16 M16 M20 M20 M20 M24 1) AU 20 AU 30 AU 40 AU 50 AU 60 AU 70 AU 80 AU 90 V 25 V 30 V 40 V 50 V 60 V 70 V 90 V 110 25k6 30k6 40k6 50k6 60m6 70m6 90m6 110m6 55.0 214. 80 / 90A 401 498 299 397 155 155 240 240 407 504 299 397 155 155 284 284 414 512 299 397 155 155 318 318 432 530 299 397 155 155 418 418 457 554 299 397 155 155 484 484 502 599 308 406 164 164 561 561 523 621 303 401 159 159 674 674 – – – – – – – – 63/71 kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max AU 20 ZB.4.5 5.25 5.5 WK d2 1) DIN 5480 K 30 N30x1. 362 260 142 232 368 260 142 284 375 260 142 318 – – – – – – – – – – – – – – – – – – – – 442 341 142 232 448 341 142 284 456 341 142 318 – – – – – – – – – – – – – – – – – – – – ZN.3 20 35 80 116.972 -0.649 +0.025 54.3 30 14 B 50 50 110 167. ZB.4 56.737 +0.indd Gearbox l1 l3 l7 AUB hollow shaft with shrink disc WK d1 1) H7/k6 AU 20 H 24 24 96 -0.5 35 2. ZB.25 116 7.0 43.023 69.044 57.5 177.0 252.3 40 18 20 25 28 B 60 B 70 B 90 B 100 60 70 90 100 138 155 185 230 40 50 60 60 183.5.675 +0.0 135.25 3.909 -0.0 160.034 27.0 40 45 45 55 25.042 99.039 42.5 93.0 4.0 15.5 95.031 – 4.5 20 8 AU 30 H 35 35 116 7.292 -0.0 31.050 79.0 53.0 285.50 3.50 133 12.0 278.297 +0.50 5.0 146.0 6.5 27.0 15.0 – 38.3 12.5 27.0 7.0 DIN 6885 A8 x 7 x 40 A8 x 7 x 56 A12 x 8 x 70 A14 x 9 x 90 A18x11x110 A20x12x125 A25x14x160 A28x16x200 6g/7H W35x2x16 W45x2x21 W50x2x24 W65x2x31 W75x3x24 W90x3x28 W110x3x35 – 70 85 120 138 170 200 220 – 124.50 3.186 -0.049 3. ZB. DD / TD AU 30 AU 40 AU 50 AU 60 AU 70 AU 80 AU 90 ZN.5 27.25 5.0 37.0 335. ZB.5 65.5 AUE splined solid shaft t u x b x l12 WK d3 DIN 5480 l4 l5 Me DM 1) 28.027 116.5 20 10 B 35 AU 40 H 40 40 133 12.5 27.944 -0.3 20 B 40 40 90 133.039 37.0 30 AU 60 AU 70 AU 80 AU 90 H 60 H 70 H 90 H 100 60 70 90 100 187 240 274 332 13.962 +0.042 27.25x22 K 30 N30x1.0 35 157 12.25x22 K 35 N35 x 2 x 16 K 35 N35 x 2 x 16 K 45 N45 x 2 x 21 K 45 N45 x 2 x 21 K 50 N50 x 2 x 24 K 65 N65 x 2 x 31 K 75 N75 x 3 x 24 K 90 N90 x 3 x 28 K 110 N110 x 3 x 35 l1 l3 l8 Mi DM 96 -0.5 13.5 64.0 6.0 35 187 240 274 332 13.0 13.0 4.0 40 50 50 70 u WK N9 1) d4 H7/h6 B 28 28 B 30 30 d5 l2 l3 l6 AUK splined hollow shaft l9 72 102.AU 90 ZN.0 4. ZB. 160 / 180A – – – – – – – – – – – – – – – – – – – – – – – – 700 820 567 687 236 236 450 450 725 845 567 687 236 236 515 515 770 890 576 696 245 245 594 594 791 911 571 691 240 240 685 685 815 935 568 688 237 237 804 804 ZN.5 111.0 33.0 13.080 +0.028 81.136 +0. 112/132 – – – – – – – – 565 688 457 581 222 222 334 334 572 696 457 581 222 222 368 368 590 714 457 581 222 222 423 423 615 738 457 581 222 222 488 488 660 783 466 590 231 231 567 567 681 805 461 585 226 226 674 674 705 828 458 582 223 223 804 804 ZN.5 67.6 167.631 +0.0 13. 5 208.0 104.2 148.0 210.0 98.0 178.0 118.0 133.0 5.5 192.0 133.0 260 308 388 550 560 655 800 156 188 236 284 340 416 500 16 20 21 27 30 40 42 20.0 351.0 150.0 136.0 623.0 261.0 39.0 328.0 111.0 269.5 292 342 436 614 629 730 880 Gearbox dimensions f1 h 4.0 721.0 64.5 38.0 246.0 20315044_103 ZN.0 3. ZB. 90B / 100 196 196 152 152 2xM25 2xM25 2xM32 2xM32 168 168 133 133 Motor ZN.5 220.4. 80 / 90A 157 157 134 134 140 124 140 124 4xM20 4xM20 4xM25 4xM25 153 103 153 103 153 103 153 103 ZN.0 107.5 874.5) LL AG ZN. 225 440 332 2xM40 2xM50 273 173 440 332 2xM40 2xM50 273 173 20315044_108 260 2031514e_en_300812. 180B / 200 394 394 311 311 2xM40 2xM40 2xM50 2xM50 273 273 173 173 ZN. 63/71 AC AD dv (M.5 9 11 14 18 22 26 33 30.5 172.0 22.0 218.0 5.0 53.5 204.5 5.0 92.3 h1 h3 h4 h22 q s w1 129 148 178 218 272 328 395 310.0 395. ZB.3 0.indd Dimension .2 0.0 308. ZB. X 1.0 157.5 4.0 68.0 272.5 Dimension sheets Direct drive input with cylindrical rotor motor Offset geared motors Foot-mounted type AG 30 .0 50..0 84.2 0.0 24.0 129.2 0.AG 90 4 kG 41852745.0 5. ZB. ZB. 160 / 180A 314 314 269 269 2xM40 2xM40 2xM50 2xM50 273 273 173 173 ZN.0 ± ± ± ± ± ± ± 0.0 85.0 31.eps Gearbox AG 30 AG 40 AG 50 AG 60 AG 70 AG 80 AG 90 a b b3 c c11 e f 57.0 49.0 181.5 174.0 106.5 44.5 214.5 115.0 58. 112/132 260 260 185 185 2xM32 2xM32 2xM40 2xM40 273 273 173 173 ZN.0 235.0 270.0 149.5 193. ZB.0 34.2 0.5. ZB.0 145.0 464.0 581.2 0. 050 79.0 37.25 5.0 74.5 237.0 – 48.50 3.5 – 85 120 138 170 200 220 – 146.0 335.4.5 31.292 -0.042 99.0 46.0 135.25 1) 183.3 20 133 32.3 30 50 157 23.0 244.3 23.031 – 4.25x22 K 35 N35 x 2 x 16 K 35 N35 x 2 x 16 K 45 N45 x 2 x 21 K 45 N45 x 2 x 21 K 50 N50 x 2 x 24 K 65 N65 x 2 x 31 K 75 N75 x 3 x 24 K 90 N90 x 3 x 28 K 110 N110 x 3 x 35 157 23. 368 260 142 310 375 260 142 351 – – – – – – – – – – – – – – – – – – – – 448 341 142 310 456 341 142 351 – – – – – – – – – – – – – – – – – – – – ZN.0 53. DD / TD 63/71 kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max AG 30 AG 40 AG 50 AG 60 AG 70 AG 80 AG 90 ZB.0 160.023 69.136 +0.0 4.5 32.50 3.036 -0. ZB.0 35 187 240 274 332 36.5 177. 225 – – – – – – – – – – – – – – – – – – – – 1085 865 259 796 1108 862 256 925 AGV solid shaft with key Gearbox WK d i2 l s4 60 80 100 120 140 170 210 DIN 332-DR M10 M16 M16 M20 M20 M20 M24 1) AG 30 AG 40 AG 50 AG 60 AG 70 AG 80 AG 90 V 30 V 40 V 50 V 60 V 70 V 90 V 110 30k6 40k6 50k6 60m6 70m6 90m6 110m6 67.0 43.0 6.039 37.028 81.045 63.0 46.0 64.044 57.5 4 20315044_084 AGE splined solid shaft t u x b x l12 WK d3 DIN 5480 l3 l4 l5 Me DM 1) 33.039 42.0 4. 80 / 90A ZN.3 40 60 70 90 100 187 240 274 332 36.0 252.649 +0. 407 299 155 310 414 299 155 351 432 299 155 464 457 299 155 581 502 308 164 623 523 303 159 722 – – – – 440 332 167 328 447 332 167 369 465 332 167 464 490 332 167 581 535 341 176 623 556 336 171 722 580 333 168 874 565 457 222 360 572 457 222 401 590 457 222 469 615 457 222 585 660 466 231 629 681 461 226 722 705 458 223 874 – – – – – – – – 700 567 236 496 725 567 236 612 770 576 245 656 791 571 240 733 815 568 237 874 – – – – – – – – – – – – – – – – – – – – 904 684 249 773 928 681 246 902 – – – – – – – – – – – – – – – – – – – – 948 728 259 796 972 725 256 925 504 397 155 310 512 397 155 351 530 397 155 464 554 397 155 581 599 406 164 623 621 401 159 722 – – – – 546 439 167 328 554 439 167 369 572 439 167 464 596 439 167 581 641 448 176 623 663 443 171 722 686 440 168 874 688 581 222 360 696 581 222 401 714 581 222 469 738 581 222 585 783 590 231 629 805 585 226 722 828 582 223 874 – – – – – – – – 820 687 236 496 845 687 236 612 890 696 245 656 911 691 240 733 935 688 237 874 – – – – – – – – – – – – – – – – – – – – 1038 818 249 773 1061 815 246 902 ZB.0 29.631 +0.0 29.737 +0.737 +0.080 +0. ZB.5 11.5 20.042 37.5 25 12 B 40 40 90 133.0 116.5 64.5 65.0 32.5 93.0 34.034 27.049 2.5 23.0 64.0 187.0 6.50 3.675 +0.50 3.50 5.4 56.024 -0.0 30.027 116.962 +0.0 29. ZB.indd 20315044_098 1) Shaft code 261 .0 214.25 5.0 35 133 32. 112/132 ZN.0 29.5.042 27.5 32.25 3. 90B / 100 Motor ZN.5 111.0 6. 160 / 180A ZN. 180B / 200 ZN.5 DIN 5480 K 30 N30x1.50 3.5 95.631 +0.0 29.0 285.0 64.0 – E 45 E 50 E 65 E 75 E 90 E 110 – 20315044_097 AGH hollow shaft with key Gearbox WK d1 l1 1) H7/k6 AG 30 H 35 35 116 AG 40 H 40 40 AG 50 H 50 AG 60 AG 70 AG 80 AG 90 H 60 H 70 H 90 H 100 l3 l7 AGB hollow shaft with shrink disc WK d4 N9 1) H7/h6 30.028 95.AG 90 2/3-stage Gearbox ZN.4 44.0 46.0 20 10 B 35 35 80 116. ZB.5 Dimension sheets Direct drive input with cylindrical rotor motor Offset geared motors Foot-mounted type AG 30 .0 DIN 6885 A8 x 7 x 56 A12 x 8 x 70 A14 x 9 x 90 A18x11x110 A20x12x125 A25x14x160 A28x16x200 6g/7H W45x2x21 W50x2x24 W65x2x31 W75x3x24 W90x3x28 W110x3x35 – 22.944 -0.186 -0.0 40 45 45 55 2031514e_en_300812. ZB.0 18 20 25 28 B 60 B 70 B 90 B 100 60 70 90 100 138 155 185 230 40 50 60 60 40 50 50 70 d5 l2 l3 l6 AGK splined hollow shaft u l9 WK d2 l1 l3 l8 116 30.5 35 Mi DM 25.025 54.0 278.297 +0.909 -0.0 30 14 B 50 50 110 167.6 167. 0 200. 160 / 180A 314 314 269 269 2xM40 2xM40 2xM50 2xM50 273 273 173 173 ZN. ZB.0 13.5 75.indd Dimension .5 18.5 13. ZB.0 90.0 225.0 5.0 77.0 11.0 275.0 18.0 246.5 220..5 4.0 18.5 193.0 4.eps Gearbox a1 a11 AF 20 160 200 160 250 300 350 450 450 550 123 154 123 192 236 265 – – – AF 30 AF 40 AF 50 AF 60 AF 70 AF 80 AF 90 b1 j6 110 130 110 180 230 250 350 350 450 b3 c1 c5 131 156 156 188 242 290 346 422 500 10 12 9 14 14 17 17 20 20 23 42 45 49 49 71 71 69 69 Gearbox dimensions e1 f1 130 165 165 215 265 300 400 400 500 3.0 165.0 240.5) LL AG ZN.AF 60 4 AF 70 .0 101.5 Dimension sheets Direct drive input with cylindrical rotor motor Offset geared motors Flange-mounted type AF 20 . 180B / 200 394 394 311 311 2xM40 2xM40 2xM50 2xM50 273 273 173 173 ZN.5 107.0 96.5 225.5.0 118. 90B / 100 196 196 152 152 2xM25 2xM25 2xM32 2xM32 168 168 133 133 Motor ZN.5 115.AF 90 kG c5 AF 20 . 63/71 AC AD dv (M.5 9.0 5.0 5.0 157. ZB. ZB.0 228 286 286 324 421 477 621 699 839 61. 80 / 90A 157 157 134 134 140 124 140 124 4xM20 4xM20 4xM25 4xM25 153 103 153 103 153 103 153 103 ZN.0 132.0 115. 112/132 260 260 185 185 2xM32 2xM32 2xM40 2xM40 273 273 173 173 ZN.4.5 107. ZB.0 133.0 75. X 1.5 77.0 11.0 20315044_104 ZN. ZB.0 140.AF 90 41852945.0 18.5 3.5 3. ZB.0 h1 h2 h3 h22 q s1 104 129 129 148 178 218 272 328 395 57. 225 440 332 2xM40 2xM50 273 173 440 332 2xM40 2xM50 273 173 20315044_108 262 2031514e_en_300812.0 5. 25 5.50 3.972 -0.0 l6 AFK splined hollow shaft u 37.042 27. 90B / 100 Motor ZN.50 5.024 -0.0 18 20 25 28 B 60 B 70 B 90 B 100 60 70 90 100 138 155 185 230 40 50 60 60 40 50 50 70 d5 l2 183.186 -0.0 55.0 40 45 55 55 Mi DM 25.5 Dimension sheets Direct drive input with cylindrical rotor motor Offset geared motors Flange-mounted type AF 20 .044 57.0 31. 225 – – – – – – – – – – – – – – – – – – – – – – – – 1038 818 249 725 1061 815 246 832 – – – – – – – – – – – – – – – – – – – – – – – – 1085 865 259 748 1108 862 256 855 4 2/3-stage Gearbox 20315044_083 AFV solid shaft with key Gearbox WK d i2 l s4 50 60 80 100 120 140 170 210 DIN 332-DR M10 M10 M16 M16 M20 M20 M20 M24 1) AF 20 AF 30 AF 40 AF 50 AF 60 AF 70 AF 80 AF 90 V 25 V 30 V 40 V 50 V 60 V 70 V 90 V 110 25k6 30k6 40k6 50k6 60m6 70m6 90m6 110m6 50 60 80 100 120 140 170 210 AFE splined solid shaft t u x b x l12 WK d3 DIN 5480 l4 l5 Me DM 1) 28. ZB.0 12 B 40 40 90 133.0 56.0 104.0 335.042 99.036 -0.3 34.0 33.631 +0.indd Gearbox WK d1 l1 1) H7/k6 AF 20 H 24 24 96 AF 30 H35 35 AF 40 H40 AF 50 AF 60 AF 70 AF 80 AF 90 l3 l7 AFB hollow shaft with shrink disc WK d4 N9 1) H7/h6 23.0 4.0 143. 362 260 142 232 368 260 142 284 375 260 142 318 – – – – – – – – – – – – – – – – – – – – 442 341 142 232 448 341 142 284 456 341 142 318 – – – – – – – – – – – – – – – – – – – – ZN.5 64.0 4.25 25.50 3.5 128.0 30.0 43.5 l3 62.034 27.50 3.5 37.3 20 40 133 37.675 +0. 160 / 180A ZN. ZB.297 +0.0 74.0 29.25 3. 112/132 ZN.4 56.0 DIN 6885 A8 x 7 x 40 A8 x 7 x 56 A12 x 8 x 70 A14 x 9 x 90 A18x11x110 A20x12x125 A25x14x160 A28x16x200 6g/7H W35x2x16 W45x2x21 W50x2x24 W65x2x31 W75x3x24 W90x3x28 W110x3x35 – 70 85 120 138 170 200 220 – 101.25x22 K 30 N30x1.5 27.5 42.028 95. ZB.297 +0.25x22 K 35 N35 x 2 x 16 K 35 N35 x 2 x 16 K 45 N45 x 2 x 21 K 45 N45 x 2 x 21 K 50 N50 x 2 x 24 K 65 N65 x 2 x 31 K 75 N75 x 3 x 24 K 90 N90 x 3 x 28 K 110 N110 x 3 x 35 l1 l3 l8 96 23.3 30 H 50 50 157 37.962 +0.5 20.042 37.25 5.3 40 H 60 H 70 H 90 H 100 60 70 90 100 187 240 274 332 58. 401 299 155 240 407 299 155 284 414 299 155 318 432 299 155 418 457 299 155 484 502 308 164 561 523 303 159 674 – – – – 434 332 167 260 440 332 167 302 447 332 167 336 465 332 167 418 490 332 167 484 535 341 176 561 556 336 171 674 580 333 168 804 – – – – 565 457 222 334 572 457 222 368 590 457 222 423 615 457 222 488 660 466 231 567 681 461 226 674 705 458 223 804 – – – – – – – – – – – – 700 567 236 450 725 567 236 515 770 576 245 594 791 571 240 685 815 568 237 804 – – – – – – – – – – – – – – – – – – – – – – – – 904 684 249 725 928 681 246 832 – – – – – – – – – – – – – – – – – – – – – – – – 948 728 259 748 972 725 256 855 498 397 155 240 504 397 155 284 512 397 155 318 530 397 155 418 554 397 155 484 599 406 164 561 621 401 159 674 – – – – 540 439 167 260 546 439 167 302 554 439 167 336 572 439 167 418 596 439 167 484 641 448 176 561 663 443 171 674 686 440 168 804 – – – – 688 581 222 334 696 581 222 368 714 581 222 423 738 581 222 488 783 590 231 567 805 585 226 674 828 582 223 804 – – – – – – – – – – – – 820 687 236 450 845 687 236 515 890 696 245 594 911 691 240 685 935 688 237 804 ZB.0 56.0 4.5 35 133 32. 80 / 90A ZN.5 17.5.5 65.0 8 B 28 B 30 28 30 72 102.0 181. ZB.0 30.5 42.034 2.AF 90 ZN.0 25.0 6.0 244.5 – 38.292 -0.0 10 B 35 35 80 116.4.0 55.050 79.5 35 157 37.909 -0.944 -0.6 118.737 +0.737 +0.5 95.025 54.0 278.631 +0.023 48.0 20. DD / TD 63/71 kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max AF 20 AF 30 AF 40 AF 50 AF 60 AF 70 AF 80 AF 90 ZB.5 l9 WK d2 1) DIN 5480 K 30 N30x1.0 53.031 – 4.5 42.3 37.080 +0.0 14 B 50 50 110 167.4 44.039 37.136 +0.023 69.0 6.5 30 116 34.039 42.0 116.0 – E 35 E 45 E 50 E 65 E 75 E 90 E 110 – 20315044_095 AFH hollow shaft with key 2031514e_en_300812. 180B / 200 ZN.027 116.0 56.045 63.0 35 187 240 274 332 58.649 +0.0 6. ZB.0 55.049 2.028 81.3 20 116 30.25 20315044_096 1) Shaft code 263 .0 215. 80 / 90A 157 157 134 134 140 124 140 124 4xM20 4xM20 4xM25 4xM25 153 103 153 103 153 103 153 103 ZN. ZB. ZB.indd Dimension .6 21. 90B / 100 196 196 152 152 2xM25 2xM25 2xM32 2xM32 168 168 133 133 Motor ZN.0 29. ZB.0 30.0 5.. ZB. ZB.0 51. 63/71 AC AD dv (M. 180B / 200 394 394 311 311 2xM40 2xM40 2xM50 2xM50 273 273 173 173 ZN.0 148 178 218 272 328 90 115 140 165 200 318 418 484 561 674 115 133 158 194 220 M12x17 M12x18 M16x21 M16x21 M20x30 20315044_105 ZN.0 30.AD 80 4 AD 40 42093745.5 Dimension sheets Direct drive input with cylindrical rotor motor Offset geared motors Torque bracket type AD 40 . 225 440 332 2xM40 2xM50 273 173 440 332 2xM40 2xM50 273 173 20315044_108 264 2031514e_en_300812.eps Gearbox a1 a2 a4 a5 a6 a7 a8 AD 40 AD 50 AD 60 AD 70 AD 80 175 220 280 324 382 68.0 35. 112/132 260 260 185 185 2xM32 2xM32 2xM40 2xM40 273 273 173 173 ZN.0 29.5 32.4.0 5.0 85. 160 / 180A 314 314 269 269 2xM40 2xM40 2xM50 2xM50 273 273 173 173 ZN. ZB.5 206 255 309 366 440 20 20 25 32 32 52 65 71 23.5 53.0 26.5 5. ZB. X 1.5.5 4.5 34.5) LL AG ZN.AD 80 kG AD 50 .0 Gearbox dimensions b1 b3 d10 e1 j6 110 190 14 130 130 242 18 165 180 290 22 215 230 346 22 265 250 422 22 300 f1 h1 h2 h3 q s1 3.5 47. 0 AD 70 N9 AD 80 25 20315044_140 4 ADV solid shaft with key Gearbox 20315044_139 ADK splined hollow shaft Gearbox ADB hollow shaft with shrink disc 2031514e_en_300812.0 81.4 40 AD 60 K 65 N65 x 2 x 31 AD 70 B 70 70 155 244.0 45 63. 225 – – – – – – – – – – – – – – – – 1085 865 259 748 20315044_085 WK d i2 l s4 1) ADE splined solid shaft t u x b x l12 DIN 332-DR 93.indd Gearbox N45 x 2 x 21 K 45 N35 x 2 x 16 K 45 N50 x 2 x 24 K 50 N45 x 2 x 21 AD 40 B 40 40 90 133.3 12.0 116.0 15.045 3.25 157 12.028 4. 90B / 100 Motor ZN.0 E 11 W65x2x31 138 177.0 116.0 E 75 W75x3x24 170 214.024 -0.0 40 57.027 6.5 50 E 22 W110x3x35 260 325.0 69.5 A20x12x125 AD 80 V 90 90m6 187.3 40 AD 60 B 60 60 138 183.944 -0.031 6.027 6. DD / TD 63/71 kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max kG LB xk h11max AD 40 AD 50 AD 60 AD 70 AD 80 ZB.4 50 AD 70 K 75 N75 x 3 x 24 60 AD 80 K 90 N90 x 3 x 28 278.0 116.0 35 Mi DM 37.036 -0.962 +0.186 -0. 375 260 142 318 – – – – – – – – – – – – – – – – 456 341 142 318 – – – – – – – – – – – – – – – – ZN. ZB.027 6. ZB.186 -0.042 3.0 81.0 A18x11x110 E 65 W65x2x31 138 177.028 6.028 4.50 27.0 140 M20 74. 160 / 180A ZN.5 45 79.0 AD 60 H 60 60 187 13.649 +0.AD 80 2/3-stage Gearbox ZN.0 50 20 E 11 W110x3x35 220 285.0 E 90 W90x3x28 200 252. 112/132 ZN.0 E 91 W90x3x28 230 286.0 AD 70 H 70 70 240 15.0 95.0 44.0 95.0 AD 70 V 70 70m6 160.031 6.024 -0.0 25 12 AD 50 H 50 50 157 12.050 5.036 -0.0 34.50 240 15.024 -0.039 3.0 54.292 -0.0 E 22 W90x3x28 230 286.0 E 22 W75x3x24 205 250.028 4.0 E 22 W65x2x31 174 213.5 170 M20 95.675 +0.036 -0.5 l9 K 35 H7/h6 185 l6 DIN 5480 1) 90 l3 1) d4 B 90 l2 d2 WK AD 80 d5 WK 20315044_142 1) Shaft code AD 40 AD 50 l1 l3 l8 133 12.027 6.0 13. ZB.0 120 M20 64.0 81.028 4.0 116.023 4.0 37.631 +0.0 95.631 +0.944 -0.0 A12 x 8 x 70 AD 50 V 50 50k6 111.0 AD 80 H 90 90 274 13.0 E 76 W75x3x24 205 250.292 -0.0 40 18 E 111 W110x3x35 260 325.0 95. ZB. 180B / 200 ZN.50 42.039 3.0 81.136 +0.944 -0.0 AD 40 V 40 40k6 80 M16 43.5 56.5 54.0 E 11 W75x3x24 170 214.028 6.044 3.5 A14 x 9 x 90 AD 60 V 60 60m6 135.036 -0.5 Dimension sheets Direct drive input with cylindrical rotor motor Offset geared motors Torque bracket type AD 40 .4.50 37.0 13.5 12.292 -0. 80 / 90A ZN.0 E 11 W90x3x28 200 252.292 -0.0 31.031 6.024 -0.5 Gearbox DIN 6885 WK d3 DIN 5480 1) 6g/7H l4 l5 Me DM E 50 E 51 W50x2x24 120 167.50 187 13.028 6.944 -0.042 5.0 100 M16 53.0 W50x2x24 150 200.0 30 14 E 110 W110x3x35 220 285.3 30 AD 50 B 50 50 110 167. 414 299 155 318 432 299 155 418 457 299 155 484 502 308 164 561 523 303 159 674 447 332 167 336 465 332 167 418 490 332 167 484 535 341 176 561 556 336 171 674 572 457 222 368 590 457 222 423 615 457 222 488 660 466 231 567 681 461 226 674 – – – – 700 567 236 450 725 567 236 515 770 576 245 594 791 571 240 685 – – – – – – – – – – – – – – – – 904 684 249 725 – – – – – – – – – – – – – – – – 948 728 259 748 512 397 155 318 530 397 155 418 554 397 155 484 599 406 164 561 621 401 159 674 554 439 167 336 572 439 167 418 596 439 167 484 641 448 176 561 556 443 171 674 696 581 222 368 714 581 222 423 738 581 222 488 783 590 231 567 805 585 226 674 – – – – 820 687 236 450 845 687 236 515 890 696 245 594 911 691 240 685 – – – – – – – – – – – – – – – – 1038 818 249 725 ZB.0 69.023 4.028 6.0 69.031 6.0 35 20315044_141 265 .0 E 66 W65x2x31 174 213.737 +0.0 A25x14x160 AD 40 AD 50 20315044_138 AD 60 ADH hollow shaft with key Gearbox WK d1 l1 l3 l7 u 1) H7/k6 AD 40 H 40 40 133 12.25 274 13.5.0 69. ZB. Coupling connection A10 .indd Data is given for input speed n1 = 1450 rpm. • the dimension sheets for solo gearboxes or coupling-mounted geared motors with Z motors.A90 Offset gearbox KB71 .A60 Offset gearbox Cylindrical rotor motor Z63 .eps In Drive Designer. you can also find: • additional data for input speeds 2900.Z225 with Demag coupling shaft end Brake B003-B680 Demag .4. coupling and coupling extension.KB225 conical rotor brake motor with Demag coupling shaft end 41685544. . 266 2031514f_en_300812.6 Offset gearbox with coupling connection KB conical rotor motors and Z cylindrical rotor motors with a Demag coupling shaft end are fitted with a flange. 960 and 720 rpm.coupling 4 Intermediate flange A70 . 1 Selection example Offset geared motors with coupling connection Selection example The requirement is for a geared motor with a KBA conical-rotor brake motor.0 14 17 Selected motor: KBA 71 A 4.37 kW. 0.1 101 115 127 150 166 184 203 231 256 P2 [kW] 1.55 2.72 3.39 n2 [rpm] 20 18 16 14 13 11 9.7 8.3 1.00 1370 7.79 0.49 0.indd Gearbox to be selected according to section 4.30 0.7 FR [N] 1) 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 Gearbox A.0 13 15 KBA 80 B 4 1. Key value table for 4-pole KBA motors.50 3.60 0.75 0.55 1355 3. 0.54 0.1 14600 5.4 19250 7.10 0. ≈ 1.3. 1450 rpm.37 kW. M2 [Nm] i 660 73.37 1370 2.6 Nm Gearbox selection according to the following criteria: i= Motor speed 1370 rpm Output speed 10 rpm = 137 Gearbox rated torque at input speed n1 = 1450 rpm: M2N ≈ fB i MNMot.0 13500 12.5 KBA 71 B 4 0.83 1360 5.4 13800 14. MNMot.30 2.0 3. Selection tables for angular gearboxes with coupling connection.8 81.67 0.9 7.. 10 rpm.6.60 0. 4-pole KBA motors 100% CDF Type PN nN MN IN [kW] [rpm] [Nm] 400V cosφN IA/IN MA / MN JMot Z0 MBStd [kgm2 x 10-3] [h-1] [Nm] [A] 1) 2) 4) 4. 100 % CDF.8 137 2.8. = 2.69 3.5 91. Weight [kg] 2) 16 267 .70 3.6 ≈ 641 Nm 2031514f_en_300812.8 7.1 10 11 KBA 80 A 4 0.6 1.99 0.7 4.8 2. 40T.4.9 1.70 2. 100 % CDF and an output speed of approx.20 1.4.95 2.3 5.43 0.6.9 10.5 Weight [kg] 3) 1) 2) 9 10 KBA 71 A 4 0.5 10.65 3. 100 % CDF.4 1.87 0.45 1. Motor selection in section 5.1 0.2. 4 1370 rpm. Required duty factor fB erf ≈ 1.1 6.35 3. .: 1370 rpm / 127 = 10.g.Selected: Offset gearboxes A.6 Nm 4 Coupling assignment according to section 6. Output speed approx. see section 6.3.99 127 2.1.1. Permissible radial force: 8000 N.79 rpm.9. 40T.6..1 Gearbox: A. Helical gearbox D11 / D21 D31 D41 – D50 D60 D70 D80 D90 Angular gearbox W10 W20 W30 W40 W50 W60 W70 / W 80 W90 W100 – Offset gearbox A10 A20 – A50 / A60 A70 A80 – – A90 A30 A40 – Motor frame size Z 63 / 71 KB 71 Z 80 / 90 A KB 80 Z 90 B KB 90 Z 100 KB 100 Z 112 / Z 132 A KB 112 / KB 125 Z 132 B / 132 C KB 140 Z 160 KB 160 Z 180 A KB 180 Z 180 B / 200 KB 200 Z 225 KB 225 H 1 / HT 1 H 2 / HT 2 H3 E. 40T. Transmission ratio: i = 127.indd Dimension sheet according to section 4. Housing and shaft design according to type designation in section 4. Given duty factor fB : fB = 660 Nm = 1. . 268 2031514f_en_300812. light coupling H1 or heavy coupling HT1. For further options. 5 15.38 3..71 0.3 32. 6.9 35 40.5 2.7 28.35 1. without roller spider coupling.9 4 M2 [Nm] 1) FR refers to types AUV and AGV.5 6.8 22 25.5 12.9 16.96 0.6.9 2.0 1. Lower FR values are permitted for AFV.44 0. 5.5 98 112 123 156 164 172 171 179 187 196 194 203 205 2031514g_en_300812. 20T.25 1.4 18. without intermediate flange.1 22.1 52.5 A. 10D.32 9.3 1.56 0.8 20. Dimension sheets section 4.48 0.6 1.2 Selection tables offset gearbox with coupling connection Input speed n1 ~ 1450 rpm i 119 120 124 125 130 8.0.8 45.8 3.21 6.3 28 31..87 8.44 0.77 0. 20D.0 A.9 1.1 0.35 0.95 11 12.2 2.1 0.8 1.78 0.56 0.6 3.05 8.5 1.69 10.51 0.28 0.2 13.1 52.2 1.32 0.6.25 n2 [rpm] 174 150 138 119 108 93 81 70 66 57 51 44 41 36 32 28 234 211 180 163 146 132 116 104 89 80 72 65 57 52 46 41 36 33 28 26 24 21 19 16 15 13 12 FR [N] 1) 2135 2172 2211 2274 2319 2385 2446 2515 2601 2676 2723 2801 2874 3057 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 3150 Gearbox Weight [kg] 2) A.4 88.65 1.2 25.89 0.6 2..95 0.6 13.40 0.indd 201 205 P2 [kW] 2.91 9.3 269 .5 61. 2) Weight AUH with oil fill level for mounting position B14.7 17.60 0.4.1 55.60 0.1 20.1 2.70 0.7 35 39.4 70 77. 6.9 0.45 1. refer to the Drive Designer for these values.9 44.75 1. . 16 A.56 0.3 5.0 1.6.7 2. 40T.3 1.9 23 25.9 82..5 2.78 0. 10 A.5 3.7 2.9 2.4 5.7 62.65 0.8 1.5 48.54 0.6 12.1 2.1 4.42 0.78 8.60 0.99 0. 40D.7 61.8 109 126 135 156 8. refer to the Drive Designer for these values.2 Selection tables offset gearbox with coupling connection Input speed n1 ~ 1450 rpm i 303 312 317 326 329 338 340 348 352 361 365 370 7.1 28.6.5 1.9 3.0.1 5.9 5.39 n2 [rpm] 186 161 144 125 113 98 93 80 73 63 57 50 46 40 37 32 30 26 23 20 18 17 15 13 12 11 9.1 31.0 0. without roller spider coupling. 30D.87 0.99 10..9 14.7 8.2 71.3 49 55.8 4.9 7.3 36.78 9.7 3.3 3.4 99.67 0. 30T.7 FR [N] 1) 4608 4740 4865 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 4847 4890 5061 5122 5297 5364 5537 5610 5749 5826 6028 6162 6482 6696 6945 7268 7600 7940 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 8000 Gearbox Weight [kg] 2) A.4 6.3 3.8 7.3 2. 11 A.49 0.4.3 29.1 19.3 3.3 55.5 19 21 22.7 25.2 31.1 0.9 16.5 4.7 12.68 0.8 81.36 7.3 4.. Dimension sheets section 4.6 1.1 36.3 2.90 0.43 0.6 1.2 1.6 73.4 86.9 3.1 11.1 1.8 7. without intermediate flange.5 91.7 18.8 15.3 2031514g_en_300812.79 0.3 165 149 124 112 97 88 76 69 64 58 52 47 40 36 33 30 26 24 20 18 16 14 13 11 9.52 0.9 1.8 14. Lower FR values are permitted for AFV.1 39.9 44.4 6.71 11.1 101 115 127 150 166 184 203 231 256 4 370 452 476 494 520 526 552 561 588 582 610 639 643 660 660 270 P2 [kW] 5.3 1.8 1.4 1.4 45.1 39. 16 1) FR refers to types AUV and AGV.4 2.indd M2 [Nm] .1 6.45 0. 2) Weight AUH with oil fill level for mounting position B14. 7 2.5 21.91 9. 60D.8 4.8 5.6 13.98 11. 82 A..2 6.6 112 127 142 152 171 8.0 6.8 35.7 4.4 1.6 29.74 10.6. 50D.1 7.2 2.3 271 .0 1.6 1.2 2.3 4.6 78 87.1 1.4.0 31.6 67.7 41.2 11.9 14.9 15.1 2.6 11.2 3.8 16.2 2.0.7 36.7 50.1 FR [N] 1) 5936 6076 6133 6504 6721 7164 7345 7804 7933 8406 8448 8933 9107 9697 10044 10662 10820 11462 11854 12500 12500 12500 12500 12500 12500 12500 12500 12500 8240 8427 8523 8806 9020 9346 9690 10239 10411 11068 11477 12163 12449 13280 13637 14504 14886 15791 19116 19936 20000 20000 20000 20000 20000 20000 20000 20000 20000 Gearbox Weight [kg] 2) A.9 77.1 8..8 32.2 14.8 19.0 1.7 60.5 3.2 27. 84 4 M2 [Nm] 1) FR refers to types AUV and AGV. 46 A.6 5.2 44 48.0 9.indd 2100 P2 [kW] 19.9 101 112 129 143 160 178 199 213 239 1114 1150 1824 1898 1907 1984 2063 2075 2100 2031514g_en_300812.2 89.3 6.6.4 19. Lower FR values are permitted for AFV.6 1.5 1.7 46.9 25.0 8.5 3.8 54.9 7.2 7..1 14.2 9.8 1. without intermediate flange.7 3.2 Selection tables offset gearbox with coupling connection Input speed n1 ~ 1450 rpm i 1097 1142 1137 1150 8.1 3.8 10. 2) Weight AUH with oil fill level for mounting position B14.1 31. 45 A. refer to the Drive Designer for these values.8 6.3 4. 50T.7 16.5 12.9 22..1 16.5 8.9 71.4 2.3 1.4 20.6 39.69 9.6 12.1 28. without roller spider coupling. 60T. Dimension sheets section 4.8 7.8 26.7 12 13.8 24.8 2.2 17.5 19.9 5.8 8.4 99.1 24.4 n2 [rpm] 167 149 136 121 104 93 82 73 66 59 55 49 44 40 35 31 29 26 23 20 19 17 15 13 11 10 9.5 2.4 63.5 163 145 126 112 99 88 75 67 60 54 46 41 37 33 30 27 24 21 19 16 14 13 11 10 9.3 56.8 1.6 17.5 5.2 23. 2 32.7 44.3 68.7 27.6 21.89 11 12.8 6 5.5 3.3 2.1 45.8 17.7 11.9 35.4 35.1 68.1 16.1 6.8 23.9 30. 80D.8 3.6.8 27.8 29.9 12.9 3) P2 [kW] 35.6 15.6 2.3 29.7 4.8 44.23 10.4 38. 70D.2 8. 134 145 A.3 32..5 3.0 8. Dimension sheets section 4.9 4.1 6.9 32.4 19.8 25.9 88.7 16.8 25.7 21.4 23.0 39.2 22.3 5.3 115 127 146 162 172 193 215 240 267 9.7 4.9 12.4 17. Lower FR values are permitted for AFV.7 21.1 40.3 13.1 51..indd 4 M2 [Nm] 3) .5 n2 [rpm] 157 142 122 109 96 87 75 67 59 53 47 42 37 33 30 27 24 21 18 16 15 13 11 10 9 8.7 19.6 2.3 8.1 14.0 10.9 27.5 29.7 19.7 21.8 14.0 12.2 Selection tables offset gearbox with coupling connection Input speed n1 ~ 1450 rpm 272 4) 2155 2393 2337 2596 2541 2822 2759 3065 2884 3204 3166 3516 3121 3467 3289 3653 3365 3700 3700 2332 2591 2530 2811 2752 3056 2988 3319 3125 3471 3403 3700 3382 3700 3564 3700 3647 3700 3700 2608 2894 2864 3178 3113 3453 3393 3764 3595 3989 3800 4216 3906 4333 4078 4525 4172 4628 6320 6546 6549 6600 i 9. 2) Weight AUH with oil fill level for mounting position B14.4 56.4 12.3 5.6 57.1 78.1 39.9 35.5 24.2 10.4 35.6 25.2 7.3 2031514g_en_300812.9 4.2 54.0 10.3 2.1 27. 215 244 1) FR refers to types AUV and AGV.9 14.1 49.3 2.8 3.4 3.3 11.2 4) 38.9 50.9 34.7 17.8 73.2 62.2 7.9 2.6 25.3 39..5 98.1 97.7 15.5 6. refer to the Drive Designer for these values.3 80.1 19.8 17. without roller spider coupling.4 147 132 118 106 92 83 73 65 58 52 45 40 36 33 28 25 23 21 FR [N] 1) 29358 29379 30095 30169 31042 31239 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 31500 42880 43098 43762 43955 45257 45738 46987 47464 48965 49454 50000 50000 50000 50000 50000 50000 50000 50000 Gearbox Weight [kg] 2) 3) 4) A. 139 150 A.6 11.8 25.9 11.6.3 9.6 61.3 15.1 10.6 20 22.7 17.2 16.9 29.9 10.7 63.2 25.5 30.9 2.1 27. 70T.4.0 90.4 7.5 16.6 17.4 3.4 36 39.0.9 13.4 21.3 2.6 15. without intermediate flange. 2 7..3 8.2 142 128 113 102 92 83 72 65 59 53 47 43 37 33 29 27 23 21 19 17 15 14 12 11 9.2 39. - 376 A.8 25.5 5.4 13.6 49.8 62.4 30.6 5.3 24.1 44..0.3 89.7 17. 90T.1 16. without intermediate flange.6.0 11.4 8.6 120 120 104 105 92.4 n2 [rpm] 18 16 14 13 12 11 9. without roller spider coupling.1 6.2 7.0 51.2 77.4.7 8.7 56.3 14.7 76.2 9.4 6.6.4 54.2 Selection tables offset gearbox with coupling connection Input speed n1 ~ 1450 rpm i 6600 6600 80.6 18.4 40.5 7.5 5.3 273 .2 10.7 27.3 84.1 22.indd 11500 3) P2 [kW] 12.3 31.0 35.0 7.7 5.5 11.9 5. 2) Weight AUH with oil fill level for mounting position B14.. 80T. refer to the Drive Designer for these values.7 8.8 69.5 11.9 14.6 66.9 20. 223 252 A.4 6.9 27.3 6.1 4.0 3.3 15.6 4.3 12.1 103 115 122 135 154 171 198 220 253 281 10.3 FR [N] 1) 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 50000 51439 51237 52114 51829 52828 52883 54853 54871 56770 57643 59083 60964 62601 64800 66469 69183 71558 74399 83635 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 85000 Weight [kg] 2) Gearbox 3) 4) A.8 96. Lower FR values are permitted for AFV.1 4.4 7.0 3.2 9.6 4) 12.1 8.5 63. - 388 4 M2 [Nm] 3) 1) FR refers to types AUV and AGV.3 43.4 6.7 8.2 11.9 8.9 5.3 107 121 134 156 173 197 218 247 274 4) 8065 8952 8865 9841 9518 10565 10263 11393 10823 11500 11361 11500 2031514g_en_300812.9 5. 90D.4 20.8 34. Dimension sheets section 4.5 77.7 8.6 5.6 4.1 22.0 92. 0 90.0 205 224 284 318 102.0 106.5) LL AG xk LB KB.0 76. 71B 140 134 KB.0 87. X 1.0 51.indd 20315044_101 . 90B 178 153 KB.5 Gearbox dimensions d10 b3 110 131 158 190 20 H11 14 14 14 1) e1 h1 h2 h3 q s1 85 85 107 107 91.5 M8x12 M8x12 M10x18 M10x18 Dimension AC AD dv (M.4.eps Gearbox a2 a3 a4 a5 a7 a8 a9 AM 10 AM 20 AM 30 AM 40 – 73 80 85 18 18 20 20 132 150 182 206 30 16 16 20 – 20 22 23 13.5 132.5 113.3 Dimension sheets for coupling connection with conical rotor motor Offset geared motors Torque bracket type AM 10 .5 75..0 57. 90A 178 153 KB.AM 40 AM 10 4 kG 41773845.5 123. 71A 140 134 KB.2 148. 100A 196 176 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 128 108 77 244 128 108 77 264 128 108 82 285 128 108 82 300 128 108 92 315 128 108 92 331 158 128 103 349 20315044_109 274 1) Face end bore hole suitable for torque bracket D2 2031514h_en_300812.AM 40 AM 20 .0 15.0 94.4 104.0 129.5 21.0 21. 80B 158 143 KB.6. 80A 158 143 Motor KB. 5 30.5 318 KB.078 -0. 100A – – – – – – – – 560 191 20. 90B – – – – 523 178 13.5 31.0 25.00 E 11 E 45 W35x2x16 70 111.25 AM 20 K 30 N30x1.023 4.186 -0.1 33.9 38.1 33.5 284 497 194 17.5 35.75 E 35 W35x2x16 70 111.5 327 KB.3 20 40 90 133.5 212 454 178 11.5 20 8 AM 30 H 35 35 116.0 5.75 W30x1.0 336 20315044_086 l1 l3 AME splined solid shaft WK d1 l7 u 1) H7/k6 AM 10 H 22 22 90.5 293 527 194 17.5 221 492 178 13. 71A 432 176.5 221 477 178 13.0 8.indd 20315044_136 1) Shaft code 275 .00 E 36 W35x2x16 90 141.25 27.5 20 AM 40 H 40 40 133.042 3.025 4.5 240 509 191 17. 90A – – – – 507 178 13.00 4 AMH hollow shaft with key Gearbox 20315044_135 AMK splined hollow shaft AMB hollow shaft with shrink disc Gearbox AM 10 WK d4 1) H7/h6 – – B 28 28 B 30 30 AM 30 B 35 AM 40 B 40 AM 20 d5 – l2 – l3 – l6 – l9 – 72 102.5 212 434 178 11.00 E 11 W45x2x21 85 130.5 6.025 4.023 4.5 284 454 194 15.078 -0.020 2.186 -0.5 284 454 194 15.737 +0.0 302 580 194 20.5 9.5 20 6 AM 20 H 24 24 96.0 54.078 -0.020 2.5 27.020 2.00 E 11 W50x2x24 120 150.5 232 451 191 15.50 2031514h_en_300812.75 E 11 W30x1.039 3.50 37.5 35.031 2.972 -0.3 Dimension sheets for coupling connection with conical rotor motor Offset geared motors Torque bracket type AM 10 .5 251 524 191 17.25x22 70 105.0 12. 80B 490 176.AM 40 2/3-stage Gearbox AM 10 AM 20 AM 30 AM 40 Motor KB.5 13.5 11.25x22 80 117.00 E 46 W45x2x21 100 159.5 25 Gearbox WK d3 DIN5480 1) 6g/7H E 30 E 31 10 12 N9 AM 10 20315044_134 AM 20 AM 30 AM 40 l4 l5 Me DM W30x1.5 29.5 327 KB.042 3.0 8.909 -0. 71B 452 176.972 -0. / T.00 W45x2x21 85 130.9 38.6 48.0 12.0 284 471 194 20.5 284 512 194 17.023 4.3 30 20315044_137 Gearbox WK d2 DIN5480 1) 7H/6g AM 10 K 25 N25x1.5 240 494 191 17.5 29.631 +0.9 38.4.5 318 KB.5 251 540 191 17.50 27.25x22 70 105.25x22 96.023 4. 80A 475 176.034 2.5 318 KB.297 +0.0 8. 100B – – – – – – – – 577 191 20.3 20 35 80 116.297 +0. kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max KB.5 293 543 194 17.25x18 90.5 232 471 191 15.5 11.6.25x22 K 35 N35 x 2 x 16 116.034 2.0 336 KB.293 +0.5 318 D.909 -0.737 +0.972 -0.023 4.5 13.909 -0.0 20.6 48.0 AM 30 AM 40 l1 l3 l8 Mi DM 25.0 5.00 E 50 W50x2x24 120 150.0 K 35 N35 x 2 x 16 K 45 N45 x 2 x 21 133.5 9.25 K 30 N30x1.0 54.025 4.1 33.5 5.6 48. 0 20. 90B 178 153 KB. 200B 394 311 2xM40 2xM50 273 173 246 729 KB.0 68.0 165.5 4.0 94.0 150 182 206 255 309 366 440 520 16 16 20 20 25 32 32 40 – – – – 51. 80B 158 143 KB.0 34.5 53.0 71.0 5.5 193.0 3.0 561.4.X 1.0 64. 71B 140 134 KB. 125B 246 200 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 4xM32 4xM32 4xM32 128 108 77 244 128 108 77 264 128 108 82 285 128 108 82 300 128 108 92 315 128 108 92 331 158 128 103 349 158 128 103 366 158 128 110 389 158 128 122 444 KB.0 64.0 804.0 30. 71A 140 134 KB. 80A 158 143 KB.indd 20315044_102 .0 90.0 50.. 160B 314 269 2xM40 2xM50 273 173 221 586 KB.0 85.0 115.5 66.3 Dimension sheets for coupling connection with conical rotor motor Offset geared motors Universal type AU 20 .6 40.0 140.eps Gearbox a1 a2 a4 a5 a6 a7 a8 b AU 20 AU 30 AU 40 AU 50 AU 60 AU 70 AU 80 AU 90 107 152 175 220 280 324 382 445 61.AU 90 kG LB AUV AU 20 .0 29.0 51.0 5.5 – M8x12 M12x17 M12x18 M16x21 M20x32 M24x36 M30x50 M8x12 M10x18 M12x17 M12x18 M16x21 M16x21 M20x30 M20x35 – 30.5 32.0 284.0 4.6.5 34.5 21.0 246.5 5.0 Dimension AC AD dv (M.5 220.0 318.0 157.0 133.0 418.0 5.0 49.0 484.5) LL AG xk LB KB. 90A 178 153 KB.0 240.0 29.5 65.5 47. 225B 440 332 2xM40 2xM50 273 173 256 769 20315044_109 276 2031514h_en_300812.0 39. 100B 196 176 KB.0 104 129 148 178 218 272 328 395 h2 h3 h4 q s s1 w1 57.0 22.5 38.5 – 190 216 257 323 400 499 580 b1 j6 70 95 110 130 180 230 250 300 b3 Gearbox dimensions b4 d10 e1 f1 h1 131 156 188 236 284 340 416 500 – 57 68 90 111 133 151 172 14 14 14 18 22 22 22 26 85 115 130 165 215 265 300 350 4.0 15.0 674.0 200.5 107. 140B 274 250 2xM40 2xM50 273 173 174 511 KB.5 75. 112B 220 189 KB.5 115. 100A 196 176 Motor KB. 180B 354 293 2xM40 2xM50 273 173 237 663 KB.0 224.0 26.AU 40 AUE AUB AUK 4 AUH 41774145.0 21.0 – 50 60 71 91 112 132 160 101.0 26.0 35.0 30.0 23. 0 484 739 355 18.25x22 K 35 N35 x 2 x 16 K 35 N35 x 2 x 16 K 45 N45 x 2 x 21 K 45 N45 x 2 x 21 K 50 N50 x 2 x 24 K 65 N65 x 2 x 31 K 75 N75 x 3 x 24 K 90 N90 x 3 x 28 K 110 N110 x 3 x 35 l1 l3 l8 Mi DM 96 -0.3 12.0 703 1135 476 74.5 418 561 243 18.5 674 – – – – KB.0 35 157 12. 112B – – – – – – – – – – – – 641 219 33.0 43.5 561 677 377 15.0 335.0 18 20 25 28 B 60 B 70 B 90 B 100 60 70 90 100 138 155 185 230 40 50 60 60 40 50 50 70 183.737 +0.5 284 479 176 17. 200B – – – – – – – – – – – – – – – – – – – – – – – – 1268 452 87. 90B 511 167 13. 180B – – – – – – – – – – – – – – – – – – – – – – – – 1189 452 74.0 4.5 64.50 3.5 251 524 175 17.25x22 K 30 N30x1.0 DIN 6885 A8 x 7 x 40 A8 x 7 x 56 A12 x 8 x 70 A14 x 9 x 90 A18x11x110 A20x12x125 A25x14x160 A28x16x200 6g/7H W35x2x16 W45x2x21 W50x2x24 W65x2x31 W75x3x24 W90x3x28 W110x3x35 – 70 85 120 138 170 200 220 – 124.0 843 KB.0 13.027 116.0 13.5 484 671 355 15.0 40 45 45 55 3.5 WK d2 1) DIN 5480 K 30 N30x1.0 25 12 B 40 40 90 133.50 5.0 587 877 452 36.25 3.044 57.042 37.5 318 534 219 13.0 – E 35 E 45 E 50 E 65 E 75 E 90 E 110 – 20315044_093 AUH hollow shaft with key Gearbox 2031514h_en_300812. 71A 422 167 11.0 418 629 243 21.0 725 1291 476 87.5 13.024 -0.5 418 546 243 18. 140B – – – – – – – – – – – – 765 219 35.5 67.023 69.0 674 – – – – Motor KB. 160B – – – – – – – – – – – – – – – – – – – – 1015 355 38.indd AU 20 WK d1 1) H7/k6 H 24 24 l1 96 l3 -0.944 -0.0 302 545 176 20.0 252.0 6.962 +0.0 855 4 Offset geared motors Universal type AU 20 . / T. 80A 465 167 13.5 484 633 355 13.0 74.0 278.5 27.0 703 957 476 38.0 15.0 430 792 243 38.972 -0.036 -0.5 484 702 355 15.5 318 476 219 13.631 +0.031 – 4. 100A – – – – 544 175 20.5 327 549 219 15.0 418 612 243 21.297 +0.5 318 496 219 13.5 293 509 176 17.0 4.5 674 – – – – KB.5 111.5 30 25.5 484 613 355 13.0 561 743 377 18.0 594 1112 452 74. 225B – – – – – – – – – – – – – – – – – – – – – – – – – – – – 1331 476 87.0 418 724 243 38.0 826 KB.5 561 723 377 15.25 25.0 244.5 AUE splined solid shaft t u x b x l12 WK d3 DIN 5480 l4 l5 Me DM 1) 28.0 484 780 355 36.5 318 519 219 13.5 35 133 12.4 44.049 2.5 232 455 175 15.0 – 38.5 251 508 175 17.0 705 1212 476 74.0 826 KB.5 284 456 176 15.5 674 – – – – KB.0 484 837 355 38.045 63.0 495 904 355 38.0 187.5 l7 20 AUB hollow shaft with shrink disc u WK N9 1) 8 d4 H7/h6 B 28 28 B 30 30 d5 72 l2 l3 102.5 l6 27.AU 90 20315044_087 AUV solid shaft with key Gearbox WK d i2 l s4 50 60 80 100 120 140 170 210 DIN 332-DR M10 M10 M16 M16 M20 M20 M20 M24 1) AU 20 AU 30 AU 40 AU 50 AU 60 AU 70 AU 80 AU 90 V 25 V 30 V 40 V 50 V 60 V 70 V 90 V 110 25k6 30k6 40k6 50k6 60m6 70m6 90m6 110m6 55.5 484 656 355 15.050 79.5 177.0 30 14 B 50 50 110 167.0 285. 71B 442 167 11.737 +0.5 284 436 176 15.0 160.0 561 760 377 18.0 6. kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max AU 20 AU 30 AU 40 AU 50 AU 60 AU 70 AU 80 AU 90 KB.5 20 10 B 35 35 80 116.50 3. 90A 495 167 13.292 -0.50 116 7.5 95.5 561 692 377 15.028 81.5 561 – – – – – – – – D.028 95.0 146. 80B 480 167 13.5 293 525 176 17.034 2.5 484 686 355 15.0 302 562 176 20.25 5.25 20315044_094 1) Shaft code 277 .3 30 AU 50 H 50 50 157 12.0 4.023 48.5 418 576 243 18.0 53.675 +0.631 +0.0 587 1001 452 38.039 37.0 31.5 561 – – – – – – – – KB.0 214.0 33.0 15.909 -0.3 40 AU 60 AU 70 AU 80 AU 90 H 60 H 70 H 90 H 100 60 70 90 100 187 240 274 332 13.0 15.0 703 901 476 36.5 674 – – – – KB. 125B – – – – – – – – – – – – 697 219 35.5 65.0 336 602 219 18.3 AUK splined hollow shaft l9 20 AU 30 H35 35 116 7.5 240 493 175 17.3 Dimension sheets for coupling connection with conical rotor motor 2/3-stage Gearbox KB.025 54.0 6.649 +0.6 167.0 336 585 219 18.0 484 722 355 18.5 418 592 243 18.5 418 523 243 16.3 20 AU 40 H40 40 133 12.080 +0.5 29.0 7.5 232 435 175 15.5 237.0 35 187 240 274 332 13.4 56.0 37.5 418 503 243 16.0 826 KB.136 +0.186 -0.042 27.5 284 494 176 17.0 587 934 452 38. 100B – – – – 561 175 20.0 34.0 843 KB.5 27.5 93.0 843 KB.25 5.5 561 707 377 15.0 418 668 243 36.5 12.0 703 1025 476 38.0 116.6.039 42.4.297 +0.0 674 – – – – KB.0 13.5 27.042 99.5 5.0 135.034 27.5 327 565 219 15.5 240 478 175 17. 0 104. 71B 140 134 KB.0 84. 200B 394 311 2xM40 2xM50 273 173 246 729 KB.0 129.0 5. 71A 140 134 KB.0 133.0 5.5 292 342 436 614 629 730 880 Gearbox dimensions f1 h 4.0 39.5 204.0 24.0 351.0 395.0 272.0 721.3 h1 h3 h4 h22 q s w1 129 148 178 218 272 328 395 310.5 5.3 Dimension sheets for coupling connection with conical rotor motor Offset geared motors Foot-mounted type AG 30 .AG 90 4 kG 41774645.0 85.5 874.0 149.0 107.5 174.0 623. 100B 196 176 KB.0 218.0 269.5 44.5 208.0 64.2 148.0 31.0 235.0 53.6.0 22. 90A 178 153 KB.0 210.0 68. 90B 178 153 KB.0 34.0 260 308 388 550 560 655 800 156 188 236 284 340 416 500 16 20 21 27 30 40 42 20.X 1.0 145.5 38.5 192.0 106.5 172.0 5.0 92.0 58.0 270.5 115.0 261.0 133.0 150..5 193.0 136. 80A 158 143 KB.2 0.0 308. 100A 196 176 Motor KB.0 328. 140B 274 250 2xM40 2xM50 273 173 174 511 KB.5 220. 160B 314 269 2xM40 2xM50 273 173 221 586 KB. 180B 354 293 2xM40 2xM50 273 173 237 663 KB.0 Dimension AC AD dv (M.eps Gearbox AG 30 AG 40 AG 50 AG 60 AG 70 AG 80 AG 90 a b b3 c c11 e f 57. 225B 440 332 2xM40 2xM50 273 173 256 769 20315044_109 278 2031514h_en_300812.0 98.0 157.4.2 0.0 50.0 581.0 178.3 0.0 49.0 464. 125B 246 200 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 4xM32 4xM32 4xM32 128 108 77 244 128 108 77 264 128 108 82 285 128 108 82 300 128 108 92 315 128 108 92 331 158 128 103 349 158 128 103 366 158 128 110 389 158 128 122 444 KB.2 0.0 181. 80B 158 143 KB.0 111.5 9 11 14 18 22 26 33 30.5 214.0 246.5) LL AG xk LB KB.2 0.0 118.indd 20315044_103 .2 0.5 4.0 ± ± ± ± ± ± ± 0. 112B 220 189 KB.0 3. 631 +0.3 20 133 32. 125B – – – – – – – – 697 219 35.5 623 723 377 15.0 74.186 -0.049 2.0 6.5 623 707 377 15.0 32.5 360 549 219 15. 90B 524 175 17.6 167.5 464 523 243 16.0 214.5 237.5 23.5 177.5 11.0 6.5 32.0 30.042 37.0 335. 225B – – – – – – – – – – – – – – – – – – – – – – – – 1331 476 87.044 57.3 23.0 751 1025 476 38.0 29.0 896 KB.649 +0.031 – 4.5 581 671 355 15.0 35 187 240 274 332 36.3 30 50 157 23.5 581 633 355 13.0 4.0 – E 45 E 50 E 65 E 75 E 90 E 110 – 20315044_097 AGH hollow shaft with key Gearbox WK d1 l1 1) H7/k6 AG 30 H 35 35 116 AG 40 H 40 40 AG 50 H 50 AG 60 AG 70 AG 80 AG 90 H 60 H 70 H 90 H 100 l3 l7 AGB hollow shaft with shrink disc WK d4 N9 1) H7/h6 30.080 +0.0 244.0 896 KB. 80B 493 175 17.027 116.5 623 – – – – – – – – KB.5 319 525 176 17.025 54.962 +0. 71B 455 175 15.5 310 456 176 15. 140B – – – – – – – – 765 219 35.25 1) 183.0 592 904 355 38.028 81.5 351 496 219 13.50 3.0 623 743 377 18.5 65.292 -0.0 464 629 243 21.039 37.5 310 436 176 15.25 5.0 4.0 581 739 355 18.AG 90 2/3-stage Gearbox KB.0 581 780 355 36.4 56.136 +0.0 623 760 377 18.5 360 565 219 15.5 35 157 23.0 328 545 176 20.5 464 592 243 18.5 32.0 464 668 243 36. 180B – – – – – – – – – – – – – – – – – – – – 1189 452 74.0 40 45 45 55 Mi DM 25.5 464 503 243 16.0 649 877 452 36.5 722 – – – – KB.631 +0.5 351 476 219 13.0 925 4 20315044_089 AGV solid shaft with key Gearbox WK d i2 l s4 60 80 100 120 140 170 210 DIN 332-DR M10 M16 M16 M20 M20 M20 M24 1) AG 30 AG 40 AG 50 AG 60 AG 70 AG 80 AG 90 V 30 V 40 V 50 V 60 V 70 V 90 V 110 30k6 40k6 50k6 60m6 70m6 90m6 110m6 67.0 773 1291 476 87.0 913 KB.0 913 KB. 100B 561 175 20.5 581 656 355 15.25 5.6.5 310 479 176 17.5 581 702 355 15.0 722 – – – – KB.0 751 901 476 36.0 581 722 355 18.5 31.909 -0.0 53. 80A 478 175 17.675 +0.0 285.0 753 1212 476 74.5 DIN 5480 K 30 N30x1.0 46. 160B – – – – – – – – – – – – – – – – 1015 355 38.50 3.0 DIN 6885 A8 x 7 x 56 A12 x 8 x 70 A14 x 9 x 90 A18x11x110 A20x12x125 A25x14x160 A28x16x200 6g/7H W45x2x21 W50x2x24 W65x2x31 W75x3x24 W90x3x28 W110x3x35 – 22. 90A 508 175 17.5 464 546 243 18.737 +0.5 64.50 3.0 252.050 79.0 46.5 93.5 581 613 355 13.5 20.5 310 494 176 17. 112B – – – – – – – – 641 219 33.0 751 957 476 38.0 116.5 AGE splined solid shaft t u x b x l12 WK d3 DIN 5480 l3 l4 l5 Me DM 1) 33.0 18 20 25 28 B 60 B 70 B 90 B 100 60 70 90 100 138 155 185 230 40 50 60 60 40 50 50 70 d5 l2 l3 l6 AGK splined hollow shaft u l9 WK d2 l1 l3 l8 116 30.0 649 1001 452 38. / T.0 328 562 176 20.5 623 692 377 15.5 623 – – – – – – – – D.028 95.3 Dimension sheets for coupling connection with conical rotor motor Offset geared motors Foot-mounted type AG 30 .3 40 60 70 90 100 187 240 274 332 36.0 464 612 243 21.50 5.034 27.0 64.0 29.0 896 KB. kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max AG 30 AG 40 AG 50 AG 60 AG 70 AG 80 AG 90 KB.0 64.0 278.5 351 519 219 13.0 722 – – – – KB.0 46.944 -0.5 722 – – – – KB.5 581 686 355 15.045 63.0 29.0 37.5 464 561 243 18. 100A 544 175 20.0 30 14 B 50 50 110 167.0 369 602 219 18.5 111.5 722 – – – – Motor KB.023 69.0 476 792 243 38.0 581 837 355 38.0 64.039 42.4.5 464 576 243 18.0 187.0 464 724 243 38.25x22 K 35 N35 x 2 x 16 K 35 N35 x 2 x 16 K 45 N45 x 2 x 21 K 45 N45 x 2 x 21 K 50 N50 x 2 x 24 K 65 N65 x 2 x 31 K 75 N75 x 3 x 24 K 90 N90 x 3 x 28 K 110 N110 x 3 x 35 2031514h_en_300812.0 6.5 319 509 176 17.042 99.4 44.0 29.0 35 133 32.25 3.5 623 677 377 15.50 3.0 – 48.50 3.0 649 934 452 38.0 135. 71A 435 175 15.0 913 KB. 200B – – – – – – – – – – – – – – – – – – – – 1268 452 87.0 43.036 -0.0 20 10 B 35 35 80 116.0 34.5 95.5 25 12 B 40 40 90 133.737 +0.042 27.0 656 1112 452 74.5 – 85 120 138 170 200 220 – 146.0 160.5 722 – – – – KB.0 369 585 219 18.0 751 1135 476 74.024 -0.297 +0.0 29.5 351 534 219 13.indd 20315044_098 1) Shaft code 279 . 4.6.3 Dimension sheets for coupling connection with conical rotor motor Offset geared motors Flange-mounted type AF 20 - AF 90 kG c5 AFV AF 70 - AF 90 AFB AFK AFH 4 AFE AF 20 - AF 60 41774445.eps Gearbox a1 a11 AF 20 160 200 160 250 300 350 450 450 550 123 154 123 192 236 265 – – – AF 30 AF 40 AF 50 AF 60 AF 70 AF 80 AF 90 b1 j6 110 130 110 180 230 250 350 350 450 b3 c1 c5 131 156 156 188 242 290 346 422 500 10 12 9 14 14 17 17 20 20 23 42 45 49 49 71 71 69 69 Gearbox dimensions e1 f1 130 165 165 215 265 300 400 400 500 3,5 3,5 3,5 4,0 4,0 5,0 5,0 5,0 5,0 h1 h2 h3 h22 q s1 104 129 129 148 178 218 272 328 395 57,5 75,0 75,0 90,0 115,0 140,0 165,0 200,0 240,0 228 286 286 324 421 477 621 699 839 61,5 77,0 77,0 96,0 118,0 132,5 225,0 225,0 275,0 101,5 107,5 107,5 115,0 133,0 157,5 193,5 220,0 246,5 9,0 11,0 11,0 13,5 13,5 18,0 18,0 18,0 18,0 Dimension AC AD dv (M..X 1,5) LL AG xk LB KB. 71A 140 134 KB. 71B 140 134 KB. 80A 158 143 KB. 80B 158 143 KB. 90A 178 153 KB. 90B 178 153 KB. 100A 196 176 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 4xM32 4xM32 4xM32 128 108 77 244 128 108 77 264 128 108 82 285 128 108 82 300 128 108 92 315 128 108 92 331 158 128 103 349 158 128 103 366 158 128 110 389 158 128 122 444 KB. 112B 220 189 KB. 125B 246 200 KB. 140B 274 250 2xM40 2xM50 273 173 174 511 KB. 160B 314 269 2xM40 2xM50 273 173 221 586 KB. 180B 354 293 2xM40 2xM50 273 173 237 663 KB. 200B 394 311 2xM40 2xM50 273 173 246 729 KB. 225B 440 332 2xM40 2xM50 273 173 256 769 20315044_109 280 2031514h_en_300812.indd 20315044_104 Motor KB. 100B 196 176 4.6.3 Dimension sheets for coupling connection with conical rotor motor 2/3-stage Gearbox KB. 71A 422 167 11,5 232 435 175 15,5 284 436 176 15,5 318 476 219 13,5 418 503 243 16,5 484 613 355 13,5 561 – – – – – – – – D. / T. kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max AF 20 AF 30 AF 40 AF 50 AF 60 AF 70 AF 80 AF 90 KB. 71B 442 167 11,5 232 455 175 15,5 284 456 176 15,5 318 496 219 13,5 418 523 243 16,5 484 633 355 13,5 561 – – – – – – – – KB. 80A 465 167 13,5 240 478 175 17,5 284 479 176 17,5 318 519 219 13,5 418 546 243 18,5 484 656 355 15,5 561 677 377 15,5 674 – – – – KB. 80B 480 167 13,5 240 493 175 17,5 284 494 176 17,5 318 534 219 13,5 418 561 243 18,5 484 671 355 15,5 561 692 377 15,5 674 – – – – KB. 90A 495 167 13,5 251 508 175 17,5 293 509 176 17,5 327 549 219 15,5 418 576 243 18,5 484 686 355 15,5 561 707 377 15,5 674 – – – – KB. 90B 511 167 13,5 251 524 175 17,5 293 525 176 17,5 327 565 219 15,5 418 592 243 18,5 484 702 355 15,5 561 723 377 15,5 674 – – – – Motor KB. 100B – – – – 561 175 20,0 302 562 176 20,0 336 602 219 18,0 418 629 243 21,0 484 739 355 18,0 561 760 377 18,0 674 – – – – KB. 100A – – – – 544 175 20,0 302 545 176 20,0 336 585 219 18,0 418 612 243 21,0 484 722 355 18,0 561 743 377 18,0 674 – – – – KB. 112B – – – – – – – – – – – – 641 219 33,0 418 668 243 36,0 484 780 355 36,0 587 877 452 36,0 703 901 476 36,0 826 KB. 125B – – – – – – – – – – – – 697 219 35,0 418 724 243 38,0 484 837 355 38,0 587 934 452 38,0 703 957 476 38,0 826 KB. 140B – – – – – – – – – – – – 765 219 35,0 430 792 243 38,0 495 904 355 38,0 587 1001 452 38,0 703 1025 476 38,0 826 KB. 160B – – – – – – – – – – – – – – – – – – – – 1015 355 38,0 594 1112 452 74,0 703 1135 476 74,0 843 KB. 180B – – – – – – – – – – – – – – – – – – – – – – – – 1189 452 74,0 705 1212 476 74,0 843 KB. 200B – – – – – – – – – – – – – – – – – – – – – – – – 1268 452 87,0 725 1291 476 87,0 843 KB. 225B – – – – – – – – – – – – – – – – – – – – – – – – – – – – 1331 476 87,0 855 4 Offset geared motors Flange-mounted type AF 20 - AF 90 20315044_088 AFV solid shaft with key Gearbox WK d i2 l s4 50 60 80 100 120 140 170 210 DIN 332-DR M10 M10 M16 M16 M20 M20 M20 M24 1) AF 20 AF 30 AF 40 AF 50 AF 60 AF 70 AF 80 AF 90 V 25 V 30 V 40 V 50 V 60 V 70 V 90 V 110 25k6 30k6 40k6 50k6 60m6 70m6 90m6 110m6 50 60 80 100 120 140 170 210 AFE splined solid shaft t u x b x l12 WK d3 DIN 5480 l4 l5 Me DM 1) 28,0 33,0 43,0 53,5 64,0 74,5 95,0 116,0 DIN 6885 A8 x 7 x 40 A8 x 7 x 56 A12 x 8 x 70 A14 x 9 x 90 A18x11x110 A20x12x125 A25x14x160 A28x16x200 6g/7H W35x2x16 W45x2x21 W50x2x24 W65x2x31 W75x3x24 W90x3x28 W110x3x35 – 70 85 120 138 170 200 220 – 101,0 104,6 118,5 128,0 143,0 181,0 215,5 – 38,972 -0,023 48,909 -0,025 54,186 -0,023 69,024 -0,028 81,292 -0,028 95,944 -0,027 116,036 -0,031 – 4,0 4,0 4,0 4,0 6,0 6,0 6,0 – E 35 E 45 E 50 E 65 E 75 E 90 E 110 – 20315044_095 AFH hollow shaft with key Gearbox 2031514h_en_300812.indd AF 20 WK d1 1) H7/k6 H 24 24 l1 96 l3 l7 23,5 20,0 AFB hollow shaft with shrink disc u WK N9 1) 8 d4 H7/h6 B 28 28 B 30 30 d5 72 l2 l3 l6 102,5 17,5 27,3 AFK splined hollow shaft l9 20 AF 30 H35 35 116 30,0 20,0 10 B 35 35 80 116,0 30,0 29,3 20 AF 40 H40 40 133 37,0 25,0 12 B 40 40 90 133,5 37,0 31,3 30 AF 50 H 50 50 157 37,0 30,0 14 B 50 50 110 167,3 37,3 34,3 40 AF 60 AF 70 AF 80 AF 90 H 60 H 70 H 90 H 100 60 70 90 100 187 240 274 332 58,0 56,0 55,5 42,0 18 20 25 28 B 60 B 70 B 90 B 100 60 70 90 100 138 155 185 230 40 50 60 60 40 50 50 70 183,0 244,0 278,0 335,5 62,0 56,0 55,5 42,0 37,4 44,4 56,5 65,5 WK d2 1) DIN 5480 K 30 N30x1,25x22 K 30 N30x1,25x22 K 35 N35 x 2 x 16 K 35 N35 x 2 x 16 K 45 N45 x 2 x 21 K 45 N45 x 2 x 21 K 50 N50 x 2 x 24 K 65 N65 x 2 x 31 K 75 N75 x 3 x 24 K 90 N90 x 3 x 28 K 110 N110 x 3 x 35 l1 96 l3 l8 23,5 30 116 34,5 35 133 32,5 35 157 37,0 35 187 240 274 332 58,0 56,0 55,5 42,0 40 45 55 55 Mi DM 25,297 +0,034 2,25 25,297 +0,034 27,737 +0,042 27,737 +0,042 37,631 +0,039 37,631 +0,039 42,649 +0,044 57,675 +0,045 63,962 +0,050 79,136 +0,042 99,080 +0,049 2,25 3,50 3,50 3,50 3,50 5,25 5,25 5,25 20315044_096 1) Shaft code 281 4.6.3 Dimension sheets for coupling connection with conical rotor motor Offset geared motors Torque bracket type AD 40 - AD 80 kG LB ADV AD 40 ADH ADB ADK 4 ADE 41773345.eps Gearbox a1 a2 a4 a5 a6 a7 a8 AD 40 AD 50 AD 60 AD 70 AD 80 175 220 280 324 382 68,0 85,5 47,0 51,5 53,5 206 255 309 366 440 20 20 25 32 32 52 65 71 23,0 26,0 30,0 30,5 32,6 21,0 29,5 34,0 29,0 35,0 Gearbox dimensions b1 b3 d10 e1 j6 110 190 14 130 130 242 18 165 180 290 22 215 230 346 22 265 250 422 22 300 f1 h1 h2 h3 q s1 3,5 4,5 5,0 5,0 5,0 148 178 218 272 328 90 115 140 165 200 318 418 484 561 674 115 133 158 194 220 M12x17 M12x18 M16x21 M16x21 M20x30 Dimension AC AD dv (M..X 1,5) LL AG xk LB KB. 71A 140 134 KB. 71B 140 134 KB. 80A 158 143 KB. 80B 158 143 KB. 90A 178 153 KB. 90B 178 153 KB. 100A 196 176 Motor KB. 100B 196 176 KB. 112B 220 189 KB. 125B 246 200 4xM25 4xM25 4xM25 4xM25 4xM25 4xM25 4xM32 4xM32 4xM32 4xM32 128 108 77 244 128 108 77 264 128 108 82 285 128 108 82 300 128 108 92 315 128 108 92 331 158 128 103 349 158 128 103 366 158 128 110 389 158 128 122 444 KB. 140B 274 250 2xM40 2xM50 273 173 174 511 KB. 160B 314 269 2xM40 2xM50 273 173 221 586 KB. 180B 354 293 2xM40 2xM50 273 173 237 663 KB. 200B 394 311 2xM40 2xM50 273 173 246 729 KB. 225B 440 332 2xM40 2xM50 273 173 256 769 20315044_109 282 2031514h_en_300812.indd 20315044_105 4.6.3 Dimension sheets for coupling connection with conical rotor motor Offset geared motors Torque bracket type AD 40 - AD 80 2/3-stage D. / T. KB. 71A KB. 71B KB. 80A KB. 80B KB. 90A KB. 90B Motor KB. KB. 100A 100B KB. 112B KB. 125B KB. 140B KB. 160B KB. 180B KB. 200B kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max kG p1 c4 h11max 436 176 15,5 318 476 219 13,5 418 503 243 16,5 484 613 355 13,5 561 – – – – 456 176 15,5 318 496 219 13,5 418 523 243 16,5 484 633 355 13,5 561 – – – – 479 176 17,5 318 519 219 13,5 418 546 243 18,5 484 656 355 15,5 561 677 377 15,5 674 494 176 17,5 318 534 219 13,5 418 561 243 18,5 484 671 355 15,5 561 692 377 15,5 674 509 176 17,5 327 549 219 15,5 418 576 243 18,5 484 686 355 15,5 561 707 377 15,5 674 525 176 17,5 327 565 219 15,5 418 592 243 18,5 484 702 355 15,5 561 723 377 15,5 674 545 176 20,0 336 585 219 18,0 418 612 243 21,0 484 722 355 18,0 561 743 377 18,0 674 – – – – 641 219 33,0 418 668 243 36,0 484 780 355 36,0 587 877 452 36,0 703 – – – – 697 219 35,0 418 724 243 38,0 484 837 355 38,0 587 934 452 38,0 703 – – – – 765 219 35,0 430 792 243 38,0 495 904 355 38,0 587 1001 452 38,0 703 – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – 1189 452 74,0 705 – – – – – – – – – – – – – – – – 1268 452 87,0 725 Gearbox AD 40 AD 50 AD 60 AD 70 AD 80 562 176 20,0 336 602 219 18,0 418 629 243 21,0 484 739 355 18,0 561 760 377 18,0 674 1112 452 74,0 703 20315044_090 WK d i2 l s4 1) ADE splined solid shaft t u x b x l12 DIN 332-DR 93,5 Gearbox DIN 6885 AD 40 V 40 40k6 80 M16 43,0 A12 x 8 x 70 AD 50 V 50 50k6 111,0 100 M16 53,5 A14 x 9 x 90 AD 60 V 60 60m6 135,0 120 M20 64,0 A18x11x110 AD 70 V 70 70m6 160,0 140 M20 74,5 A20x12x125 AD 80 V 90 90m6 187,5 170 M20 95,0 A25x14x160 AD 40 AD 50 20315044_138 AD 60 ADH hollow shaft with key Gearbox WK d1 l1 1) H7/k6 l3 l7 u AD 70 54,186 -0,023 4,0 E 51 W50x2x24 150 200,0 54,186 -0,023 4,0 E 65 W65x2x31 138 177,0 69,024 -0,028 4,0 E 66 W65x2x31 174 213,0 69,024 -0,028 4,0 E 11 W65x2x31 138 177,0 69,024 -0,028 4,0 E 22 W65x2x31 174 213,0 69,024 -0,028 4,0 E 75 W75x3x24 170 214,0 81,292 -0,028 6,0 E 76 W75x3x24 205 250,0 81,292 -0,028 6,0 E 11 W75x3x24 170 214,0 81,292 -0,028 6,0 E 22 W75x3x24 205 250,0 81,292 -0,028 6,0 E 90 W90x3x28 200 252,0 95,944 -0,027 6,0 E 91 W90x3x28 230 286,0 95,944 -0,027 6,0 6,0 6,0 W110x3x35 220 285,0 116,036 -0,031 6,0 E 111 W110x3x35 260 325,0 116,036 -0,031 6,0 20 E 11 W110x3x35 220 285,0 116,036 -0,031 6,0 25 E 22 W110x3x35 260 325,0 116,036 -0,031 6,0 50 157 12,0 30 14 H 60 60 187 13,0 40 18 50 167,5 E 110 H 50 13,5 120 95,944 -0,027 AD 60 274 W50x2x24 95,944 -0,027 AD 50 90 E 50 286,0 12 H 90 DM 252,0 25 AD 80 Me 230 12,0 50 l5 200 133 15,0 l4 W90x3x28 40 240 6g/7H W90x3x28 H 40 70 1) E 11 AD 40 H 70 d3 DIN 5480 E 22 N9 AD 70 WK AD 80 4 ADV solid shaft with key Gearbox 20315044_139 20315044_140 ADK splined hollow shaft Gearbox ADB hollow shaft with shrink disc 2031514h_en_300812.indd Gearbox WK d4 d5 l2 l3 l6 l9 AD 40 WK d2 1) DIN 5480 K 35 N45 x 2 x 21 K 45 N35 x 2 x 16 K 45 N50 x 2 x 24 K 50 N45 x 2 x 21 1) H7/h6 AD 40 B 40 40 90 133,5 12,0 31,3 30 AD 50 B 50 50 110 167,3 12,0 34,3 40 AD 60 B 60 60 138 183,0 13,0 37,4 40 AD 60 K 65 N65 x 2 x 31 AD 70 B 70 70 155 244,0 15,0 44,4 50 AD 70 K 75 N75 x 3 x 24 AD 80 B 90 90 185 278,0 13,5 56,5 60 AD 80 K 90 N90 x 3 x 28 20315044_142 1) Shaft code AD 50 l1 l3 l8 133 12,0 35 Mi DM 37,631 +0,039 3,50 27,737 +0,042 3,50 42,649 +0,044 3,50 37,631 +0,039 3,50 187 13,0 40 57,675 +0,045 3,50 240 15,0 45 63,962 +0,050 5,25 274 13,5 45 79,136 +0,042 5,25 157 12,0 35 20315044_141 283 4.7 Connection dimensions Coupling housing 4.7.1 Solo gearbox coupling housing A 10 - A 60 A 70 - A 90 4 41670145.eps Gearbox A 10 A 20 A 30 A 40 A 50 A 60 A 70 A 80 A 90 Motor Z63 - 90A Z63 - 90A Z63 - 100 Z63 - 90B Z63 - 90B Z112 - 132 Z63 - 90B Z112 - 132 Z63 - 90B Z112 - 160 Z63 - 90B Z112 - 132 Z160 - 200 Z112 - 132 Z160 - 200 KB71A - 80B KB71A - 80B KB71A - 100B KB71A - 100B KB71A - 100B KB112A - 140B KB71A - 100B KB112A - 140B KB71A - 100B KB112A - 160B KB71A - 100B KB112A - 140B KB160 - 200 KB112A - 140B KB160 - 225B axb DIN 471 16 x 1 16 x 1 19 x 1,2 19 x 1,2 24 x 1,2 24 x 1,2 24 x 1,2 24 x 1,2 24 x 1,2 32 x 1,5 24 x 1,2 32 x 1,5 60 x 2 32 x 1,5 60 x 2 d k6 16 16 19 19 24 24 24 24 24 32 24 32 60 32 60 i2 l 53 53 49 49 51 63 48 60 51,0 60,0 51,0 60,0 70,0 60,0 70,0 161,0 161,0 156,0 231,5 231,5 228,5 228,5 Coupling housing dimensions l11 l12 a1 f5 b3 d1 H7 21 24 160 5,0 125 115 21 24 160 5,0 125 115 21 24 204 5,0 160 140 21 24 204 5,0 160 140 21 25 255 4,5 200 180 33 37 255 4,5 200 180 21 25 314 4,5 250 224 33 37 314 4,5 250 224 21,0 25,0 255 6,0 200 180 33,0 37,0 318 5,5 250 224 21,0 25,0 255 6,0 200 180 33,0 37,0 400 9,0 315 280 53,0 60,0 400 9,0 315 280 33,0 37,0 400 9,0 315 280 53,0 60,0 400 9,0 315 280 d11 e1 r 14 14 14 18 18 22 22 24 32 24 41 41 41 41 140,0 140,0 180,0 180,0 223,5 223,5 280,0 280,0 224,0 280,0 224,0 355,0 355,0 355,0 355,0 14,5 14,5 20,0 20,0 25,0 25,0 32,5 32,5 25,0 32,0 25,0 40,0 40,0 40,0 40,0 s Mxt M8 x 18 M8 x 18 M10 x 20 M10 x 20 M10 x 20 M10 x 20 M12 x 24 M12 x 24 M10 x 13,5 M12 x 16 M10 x 13,5 M16 x 21 M16 x 21 M16 x 21 M16 x 21 20315044_106 . ..D = 2-stage 284 2031514i_en_300812.indd . ..T = 3-stage 4.7.2 Motor mounting flange Motor side 41670344.eps Gearbox A 10 / A 20 A 10 / A 20 A 30 / A 40 A 30 / A 40 A 30 / A 40 A 50 / A 70 / A 80 A 50 / A 70 / A 80 A 50 / A 70 / A 80 / A 90 A 50 A 50 A 60 A 60 A 60 A 60 / A 70 A 60 / A 70 A 70 A 80 / A 90 A 80 / A 90 A 80 / A 90 A 80 / A 90 A 90 Z cylindrical rotor motor KB conical rotor motor Part number c4 63 / 71 80 / 90A 63 / 71 80 / 90A 90B / 100 63 / 71 80 / 90A 90B / 100 112A / 132 63 / 71 80 / 90A 90B / 100 112 / 132 160 112 / 132 160 / 180A 180B / 200B 225 71 80 / 90 71 80B / 90 100 71 80 / 90 100 112 125 / 140 71 80 / 90 100 112 125 / 140 160B 112 125/140 160B / 180B 200B 225B 715 020 44 715 022 44 715 220 44 715 222 44 715 224 44 715 320 44 715 322 44 715 324 44 715 326 44 715 328 44 715 420 44 715 422 44 715 424 44 715 426 44 715 428 44 715 434 44 715 526 44 715 528 44 715 536 44 11,5 13,5 15,5 17,5 20 13,5 15,5 18 33 35 16,5 18,5 21 36 38 74 36 38 74 715 538 44 87 Mounting flange dimensions b1 d1 d2 H7 70 115j6 140 80 115j6 140 70 140j6 180 80 140j6 180 110 140j6 180 70 180j6 224 80 180j6 224 110 180j6 224 110 180j6 224 125 180j6 224 70 224j6 280 80 224j6 280 110 224j6 280 110 224j6 280 125 224j6 280 155 224j6 280 110 280h6 355 125 280h6 355 155 280h6 355 85 100 85 100 130 85 100 130 130 150 85 100 130 130 150 190 130 150 190 200 236 280h6 355 4 Gearbox side d3 2031514i_en_300812.indd 20315044_107 . ..D = 2-stage . ..T = 3-stage 285 5 Motors 5.1 General 5.1.1 Properties of Demag AC motors 5.1.1.1 Demag Z cylindrical rotor motors Demag Z cylindrical rotor motors are designed for optimum use with the modular gearbox system and its options and are available with (ZB) and without brake (ZN). The outputs of the Z.A. motors range from 0,18 kW to 45 kW. The outputs of the 4-pole Z.E. motors range from 0,75 kW to 45 kW. The Z.A. and Z.E. motors can also be supplied with IEC mounting dimensions without a gearbox. Brake motors are used wherever driven machinery needs to be brought rapidly to a standstill. The separately controllable brake can easily be remotely released. The integrated flywheel mass of ZBF motors and their electrical rating provide for smooth acceleration and braking of travel drives in line operation. A ZBA or ZNA motor or ZBE or ZNE motor should be used if cylindrical rotor motors are to be operated with inverters. 5 ZBA / ZBE 41687744.eps ZBF 286 2031515a_en_300812.indd 41819044.eps 5.1.1.2 Demag KB conical rotor motors The Demag KB conical rotor motor range combines the electric motor and springoperated brake in one unit functioning on the sliding rotor principle. It is designed as a squirrel-cage motor. Motor outputs range from 0,48 kW to 55 kW in intermittent duty. When the motor is switched on, an axial force is produced by the magnetic field in the conical air gap, which overcomes the force of the brake spring and pulls the axially sliding rotor against the stator up to the limit defined by the bearing. The brake ring is released from the brake cap and the motor then starts running. When the motor is switched off or power fails, the motor is mechanically braked. The brake springs displace the rotor and push the brake disk and brake ring against the brake surface. This brake principle requires no special control. The sliding rotor design facilitates the implementation of microspeed drives1). Two brake motors are combined in such a way that large speed differences of up to 1:500 can be achieved even with line-fed operation, e.g. for greater positioning accuracy. Due to their electrical rating and flywheel mass (in the form of a heavy fan and/or heavy coupling), KBF motors are particularly suitable for smooth acceleration and braking of travel drives connected to the mains supply. If conical rotor motors are to be operated with inverters, KBA motors should be used. 5 KBA / KBF 41426444.eps 5.1.2 Insulation These motors feature insulation for thermal classification F as standard, therefore offering corresponding thermal protection. According to according to DIN EN 60034-1, the winding limit of temperature rise is 105 K and the maximum coolant temperature is 40 ºC, 60 ºC for Z.A motors. The temperature of temperature class F is 155 ºC according to DIN EN 60034-18-1. The standard insulation is tropic-proof and suitable for hot and dry atmospheres. Special insulation for the motor interior is available at additional cost. This includes: 2031515a_en_300812.indd • Protection against moisture (protection against high air humidity, also in the case of fluctuating-temperatures) or • Protection against acids (protection against acid fumes and gases). 1) Refer to Demag drives brochure, order no. 208 734 44. 287 circuit breakers will trip out when set to the correct rated current. as standard.2 for a description.4 Abbreviations technical data . with conical brake disk / Brake torque of Z motors for standard brake assignment Nm MBF Brake torque with flat brake disk for KB motors JMot Moment of inertia of Z motor kgm2 J1 Moment of inertia of KB motor with light brake disk.1. See section 6. Protection against voltage peaks: Owing to modern. The brake rectifiers supplied with the units also feature varistors to protect the modules and brake coil. the combination of high leakage inductance together with unfavourable supply conditions may cause high voltage peaks in the low-speed windings of motors and in the brake coils.4. The following abbreviations and units are used for the key data: 288 Abbreviations Description Unit: PN Rated power at 400 V. Motor temperature-dependent protection devices: The following motor temperature-dependent protection devices are available • PTC thermistor • temperature sensors and • temperature detectors. Under normal operating conditions with short acceleration times. 50 Hz kW nN Rated speed at 50 Hz rpm MN Rated torque Nm IN Rated current at 400 V or 380 . They are not suitable for protecting the motor against overload.400 V cosφ N Rated power factor – IE class Efficiency classification to DIN EN 60034-30 – η 1/2 η 3/4 η 4/4 Efficiency at 1/2. Since this may result in the destruction of the windings or contacts.2.400 V. 3/4 or 4/4 rated power % A IA / IN Starting torque ratio – MA / MN Starting torque ratio – MK / MN Breakdown torque ratio – MH Run-up torque Nm MB Std Standard brake torque for KB.2 and 6. Motor circuit breakers are not suitable when the motor has to start against heavy loads and for high starting frequencies. standard for KBF kgm² Z0 No-load starting frequency h-1 A Starts per hour with a start-up time of 1 second h-1 Nm 2031515a_en_300812.3 Motor protection A distinction is made between current-dependent protection and motor temperature-dependent protective devices. • motor protective switches provide adequate protection. the 8 and 12-pole windings of Demag motors up to frame size 132 are protected by varistors (voltagedependent resistors). Current-dependent protective devices: • fusible links only serve to protect the supply cables in the event of short-circuits. extremely fast power contactors.indd 5 5.1. standard for KBA kgm² J2 Moment of inertia of KB motor with heavy brake disk. If the protection device and motor thermal time constants are not matched.5. low starting currents and low starting frequencies. 50 Hz or 380 . but must always be provided to protect against short-circuit. 1.E motor is only available in the 50 Hz version.nN ) with nsyn 50 Hz 2-pole = 3000 rpm 4-pole = 1500 rpm 6-pole = 1000 rpm 8-pole = 750 rpm 12-pole = 500 rpm Output: Px = PN · fx 50 Hz Current: Ix = IN ⋅ fx 400 V ⋅ 50 Hz U x No-load starting frequency for ZBA and KBA motors ( 50 Hz )2 2 fX 5 Z OX = Z O ⋅ Starting frequency for ZBF and KBF motors 2031515a_en_300812.indd AX = A ⋅ ( 50 Hz )2 2 fX Abbreviations Description Px New power kW fx New frequency Hz Ix New current Ux New voltage V nx New speed rpm nsyn 50 Hz Synchronous speed at 50 Hz rpm Ax Starts per hour with a start-up time of 1 second at new frequency h-1 Zox No-load starting frequency at new frequency h-1 Unit: A 289 .( nsyn 50 Hz .5. The following equations can be used for conversion to a different voltage and/or frequency for appropriately modified windings. Speed: nx = nsyn 50 Hz · fx 50 Hz . The Z.5 Converting motor data for other voltages and frequencies Motor data are given for a voltage of 400 V or 380 .400 V for wide voltage range motors and a frequency of 50 Hz. Suitable for the ambient conditions defined in IEC 60034-1 (temperature.Rated voltages up to 1000 V . except for pole-changing motors (IE code) • DIN IEC 38 IEC standard voltages • DIN EN 60529 IP enclosure types for electrical equipment housing • Tolerance N for concentricity and shaft extension run-out to DIN 42955 • Most IEC dimensions • Terminal markings to DIN EN 60 445. both solo motors as well as geared motors..1 kW .A motor. installation height. 4 or 6 poles 5 ..Motors with 2.5. the ZBF motor nor the KB motors are covered by the EuP Directive/Motor Regulation and DIN EN 60034-30. EU Regulation for Electric Motors 640/2009.Rated power from 0. CCC China introduced a product certification system .6 Standards and regulations Demag AC motors with and without brake comply with all relevant standards and regulations.1. • CSA.75 kW 750 rpm (8-pole) ≤ 0.75 kW to 375 kW . evaluation and limits of vibration severity • DIN EN 60034-18-1 Functional assessment of insulation systems • DIN EN 60034-30 Efficiency classification of AC squirrel-cage motors. Specification C 22. The new inspection procedure according to DIN EN 60034-2-1 to be applied involves determining efficiency based on accurate measurements of additional losses. in particular with: • DIN EN 60034-1 Rating and performance • DIN EN 60034-5 IP types of enclosure by housing (IP code) • DIN EN 60034-7 Model designs and mounting arrangements (IM code) • DIN EN 60034-8 Terminal markings and direction of rotation • DIN EN 60034-9 Noise limits • DIN EN 60034-14 Mechanical vibrations.55 kW All Z and KB motors subject to obligatory certification.2 Others • EN 60034 part 12: Start-up behaviour of AC squirrel-cage motors • DIN EN 50347 Cylindrical shaft ends for electric machinery • DIN 42925 Entry fittings in terminal boxes for AC motors IE efficiency classification The scope of the EuP Directive and of DIN EN 60034-30.CCC (China Compulsory Certification) in August 2003.Motors suitable for direct switching-on via a line supply .) The Z. applies for the following specifications.E motor is covered by this directive and complies with the efficiency requirements corresponding to IE2. Neither the Z. measurement.Rating for continuous duty (S1) or almost continuous duty (S3 with a duty factor of 80% or more) .2 kW 1000 rpm (6-pole) ≤ 0. . are provided with a rating plate featuring the CCC symbol on request. 290 2031515a_en_300812.indd 1500 rpm (4-pole) ≤ 1. 3000 rpm (2-pole) ≤ 2. Low output solo (geared) motors are also subject to this obligatory certification. 160. B680 ZBE: B020. 225 ZBE/ZNE: 80. 200. B7. B8. 112. B6. B280. V1. 100. V5. 2. 12/4 1 Design according to DIN EN60034-7. 200. 3 B3 No. 80. of poles 2. 112. 100. 160. B050. 132. 8. 100. 4. B050. B020. 180. B14. V6. 8/2. 90. V19 Rating class A. 180. B007. B680 ZBF: B003.eps 291 . 132. only needs to be specified for solo motors B3. 90. 225 ZBF: 63. B280. B140. B140 Z B A 100 A 4 B050 Terminal box position 0. 132 Application code A Motor for general applications in intermittent duty E Motor for general applications in efficiency class IE2 F Motor for travel applications Motor design 5 B Motor with brake (ZB) N Motor without brake (ZN) Motor type Z cylindrical rotor motor Code example 2031515b_en_300812. 6.2. B140. 80. AL. V3.1 Type designation Brake size ZBA: B003. 12/2. 71. 90. B020. B. 112.5. B5. 1.2 Demag Z cylindrical rotor motors 5. 71.indd ZBA 100 AL 4 B050 B3 1 42217744. B050. V18. C Size ZBA/ZNA: 63. eps 2031515b_en_300812. The foot-mounted design largely corresponds to DIN 42673.eps 42201744. V6 Foot-mounted B3 42201344.eps B7 42201644.indd V5 .2 Demag Z cylindrical rotor motor models.5. Model code Z solo motors Foot-mounted type B3. B6.2.eps B6 42201444. the flange-mounted design to DIN 42677. B7. The available foot and flange-mounted types correspond to the overview of models. The connection dimensions largely correspond to IEC publication 72-1. V5. B8.eps 5 B8 42201544. Demag motors are designed with only one shaft end.eps V6 View to determine the terminal box position Terminal box position code according to model code B3 292 42201744. eps 5 Model code for Z solo motors Flange-mounted type B5.indd Terminal box position code according to model code B5 42201244.eps V1 V3 The terminal box position does not need to be specified for this model 2031515b_en_300812. V3 Flange-mounted with through-holes B5 42201144.Model code for Z solo motors Flange-mounted type B14.eps V18 V19 The terminal box position does not need to be specified for this model Terminal box position code according to model code B14 42201044.eps 42201044. V18.eps 42201244. V1. V19 Flange-mounted with internal thread B14 42200944.eps 293 . 2 32.4 23.5 0.5 2.5 if motors are operated with a voltage and/ or frequency other than that given in the key data tables.0 Z.6 34.0 2.4 92.7 2200 3200 B140 70 63. η 1/2 η 3/4 η 4/4 % % % JMot Z0 [kgm2 x 10-3] [h-1] ZNE ZBE 1) Brake [Nm] 2) Type Weight [kg] MBStd ZNE 3) ZBE Z.9 2.0 20.7 3.E 225 A4 37 1470 240 68 0.6 4.6 3.8 3.6 2.2 92.0 Z.5 1455 121 34.84 90.3 91.3.8 3.4 82.8 3.8 93.5 93.1 73.E 180 B4 22 1470 143 39 0.2 2.7 26. Refer to “Conversion of key data for other voltages and frequencies”.3 6.19 9400 13500 B020 10 15.E 160 A4 11 1455 72 20.7 2.3 92.3 2.7 287 294 – 800 B280 280 277 295 Z.0 2.5 2.0 75.3 87.indd Cannot be used for hoisting drives with line-fed operation .9 34.6 7. 4-pole Z.2 92.E 225 B4 45 1470 290 80 0.3 82.79 83.8 3.E 180 A4 18.E 90 A4 1.1 1445 7.0 – 1200 B140 140 150 162 Z.79 86.8 3.4 Z.8 3.0 87.3 2.6 4.0 Z.88 88.2.7 7.2 68.8 82.7 0.76 87.4 85.66 79.8 2.E 90 B4 1.5 5.5 1435 10 3.1 19.3 Z.2 3.0 80.0 70.6 7.7 36.3 7.E 100 B4 3 1445 19.0 – 1000 B280 280 160 180 Z.E 100 A4 2.2 2.4 0.06 7.7 3.8 6.3 0.2 3.5.1 8.73 5000 7200 B020 20 20.60 9400 13500 B020 16 16.7 7.3 3.88 89.1 83.0 2.8 6.7 80.2 4.5 90.1 Key values of Z.3 3.7 36.75 1425 5.5 1460 49 16 0.7 80.7 0.E 200 A4 30 1470 195 53 0.E 132 B4 7.21 5400 7800 B050 33 24.5 Z.52 5300 7600 B050 39 23.85 89.5 33.6 6.47 2. section 5.86 92.2 88.9 68.2 79.8 3.1 8.E 160 B4 15 1450 99 28 0.4 86.9 2.2 91.3 Technical data Z cylindrical rotor motors 5.9 2.7 1100 1600 B140 94 63.E 80 B4 0.3 88.1.7 8.6 Z.8 7.2 [kW] [rpm] [Nm] [A] IA / IN MA / MN MK / MN 4) 400V Type 5 Standard voltages are 230/400 V 50 Hz.85 89.1 480 501 – 550 B680 450 360 400 Z.3 3.6 86.E 132 A4 5.2 480 501 – 400 B680 530 360 400 20315044_002 294 1) 2) 3) 4) Operation with brake rectifier without high-speed excitation Operation with brake rectifier with high-speed excitation Weight for B14 model The nominal efficiencies as per efficiency class IE2 in accordance with IEC 60034-30 are specified.2.E 112 A4 4 1460 26. 2031515b_en_300812.06 2.2 93.8 90.5 0.0 0.4 91.1 2.8 84.3 81.8 6.85 89.69 79.0 5.0 2.81 87.77 83.5 1460 36 10.1 2. motors 100% CDF PN nN MN IN cosφN IE .0 – 1000 B280 185 150 170 Z.4 23.2 1430 14.6 0.E.3 Z.75 6.8 287 308 – 600 B680 340 277 316 Z.2 6.60 4.8 2000 2900 B050 50 49.9 84.8 92.4 5.0 90.8 89.E cylindrical rotor motors with one speed 4-pole Standard voltages are 230/400 V 50 Hz.9 0.77 82.6 3.6 60. 92 7.6 1.55 0.2 11.49 5600 5600 B003 1.3 28.55 0.5 Z.85 5.3 1 0.5 0.9 5 2.2 3.6 3 4. motors 60% CDF Type Standard voltages are 230/400 V 50 Hz.indd 5 20315044_001 1) Operation with brake rectifier without high-speed excitation 2) Operation with brake rectifier with high-speed excitation 3) Weight for B14 model 295 .75 2.4 6.75 3.5 2890 31.45 0.75 5.1 6.3 2.A 112 A 2 4 2905 13. 2-pole Z.86 6.7 0.9 Z.1 2735 3.55 2.61 3500 5000 B007 3. section 5.A 63 B 2 0.4 3.37 23.5 2.6 0.92 7.7 73.5 0.95 1.5 2890 18.55 0.55 2.A 90 A 2 1.5 17 0.A 132 A 2 5.5 Z.7 0.6 15.6 1.75 2750 2.5 2900 24.75 5.74 3.74 3. 6 and 8-pole Standard voltages are 230/400 V 50 Hz.21 1.79 5.87 4.5 3.65 2.4 2.5 3 34. Refer to “Conversion of key data for other voltages and frequencies”.87 0.2 15.A 71 A 2 0.1 18.6 Z.4 2.18 2750 0.1 0.45 0.4 0.83 800 1100 B050 33 50 60.87 4.A 132 B 2 7.75 23.49 5400 5400 B003 1.A 80 B 2 1.65 35.8 7.A 71 B 2 0.2 Z.2 Key values of Z.4 2.5 2.5 1.83 750 1050 B050 25 49.8 26.88 1900 2800 B020 20 23.3.6 2.27 3500 5000 B007 7.21 1.5 2740 5.A cylindrical rotor motors with one speed 2.3 5.A.8 2.8 2.5 Z.11 400 550 B050 50 63.8 8.5.2 2860 7.25 2735 0.6 Z.A 90 B 2 2.59 5200 5200 B003 2. PN nN MN IN [kW] [rpm] [Nm] 400V cosφN IA / IN MA / MN MK / MN [A] JMot Z0 [kgm2 x 10-3] [h-1] Brake Weight [Nm] ZNA ZBA 1) 2) Type MBStd [kg] ZNA 3) ZBA Z.A 63 A 2 0.7 2.A 132 C 2 9.2.7 2. 4-pole Standard voltages are 220-230 / 380-400 V 50 Hz.9 8.6 Z.5 if motors are operated with a voltage and/ or frequency other than that given in the key data tables.4 0.73 1900 2800 B020 13 20.37 23.65 36.6 2.2 0.93 6.37 2750 1.55 0.2 2.8 60 Z.5 7.8 10.5 2.77 3.6 4.A 80 A 2 0.4 0.2 34.1 7.8 23.65 380 540 B140 62 64.5 14.A 100 B 2 3 2840 10.1 12.5 2.75 0.5 0.2 0.7 89 2031515b_en_300812.9 6.55 2685 1.9 Z.2 3.48 0.4 Z.5 Z.2 19.1.94 1 4200 6000 B007 5.8 9.63 0.34 3100 4500 B020 10 15.05 2.3 3. 65 36.5 0.63 480 501 – 400 B680 530 360 400 20315044_143 296 1) Operation with brake rectifier without high-speed excitation 2) Operation with brake rectifier with high-speed excitation 3) Weight for B14 model 2031515b_en_300812.57 2.A 180 A4 18.5 1440 63 19.A 100 B4 3 1400 20.4-pole Z.8 2.5 1430 10 3.9 3.64 2.64 34.87 6.35 3.9 3.55 1420 3.8 10.75 2.1 1400 7.95 0.75 6.57 3.7 3.91 0.08 287 308 – 600 B680 340 277 316 Z.65 36.6 3.3 Z.13 68 75 – 1000 B280 280 151 171 Z.83 6.4 Z.4 3.2 1415 14.84 7 2.87 6.43 1.43 1.19 34.6 60 Z.5 3.4 16.indd 5 Cannot be used for hoisting drives with line-fed operation .37 1375 2.3 0.8 2.02 3 0.18 1390 1.5 8.64 3.A 225 AL4 37 1470 240 69.5 6.5 Z.1 3.4 0.69 2.74 4.19 5.2 32.75 3.37 23.86 0.65 36.1 0.4 3.A 200 A4 30 1470 195 58 0.7 3.7 26.58 3.7 81 Z.6 0.19 3.21 5300 7600 B050 39 23.5 3.97 1.8 0.55 2.2 0.62 3.08 5.A 112 A4 4 1440 26.5 2.75 3. MN Type IN 380- cosφN IA / IN MA / MN MK / MN JMot Z0 [kgm2 x 10-3] 400V Brake [h-1] 1) Weight [Nm] 2) [kg] 3) [kW] [rpm] [Nm] [A] ZNA ZBA Type MBStd ZNA Z.A 80 B4 0.A 63 B4 0.52 1.A 132 AL4 5.75 1410 5.19 3.25 1385 1.A 71 A4 0.56 9400 13500 B020 10 12.2 15.8 5.3 2.65 2200 3200 B140 70 63.A 132 C4 9.92 2.7 80 Z.1 7.49 7800 11200 B007 7.1 3.7 1.5 Z.25 0.19 4.4 3.51 10000 12000 B007 3.73 5000 7200 B020 20 20.54 2.75 6.8 Z. motors 60% CDF PN nN Standard voltages are 220-230 / 380-400 V 50 Hz.6 2.A 100 AL4 2.A.A 90 B4 1.A 180 B4 22 1470 143 43.5 0.35 68 75 – 1000 B280 185 150 170 Z.1 19.6 2.65 1100 1600 B140 94 63.97 2.8 2.8 0.3 2.83 2000 2900 B050 50 49.8 5.5 0.45 0.A 90 A4 1.45 0.1 2.68 4.6 3.6 Z.84 7.3 Z.A 160 B4 15 1450 99 31 0.83 7.7 ZBA 8.76 5.61 8000 10000 B007 5.A 80 A4 0.5 1440 123 40.7 2.49 13000 13000 B003 2.91 221 228 – 800 B280 280 207 225 Z.5 7 0.75 480 501 – 550 B680 450 360 400 Z.21 5400 7800 B050 33 23.7 80 Z.A 71 B4 0.7 0.84 6.82 5.7 3.81 5.4 6.83 7.3 Z.69 2.97 1.A 160 AL4 11 1450 72 22 0.1 3.8 9.2 0.08 2.5 1435 50 15.05 9400 13500 B020 16 15.5 Z.5 1455 36 11.A 132 B4 7.86 7.7 1.08 34.3 23.7 3.65 1300 1900 B140 105 64.5 0.9 0.55 0.85 6.19 68 70 – 1200 B140 140 150 162 Z.6 1.2 32.A 225 B4 45 1470 290 84 0.6 4.6 12. 5 Z. 6-pole Z.3 2.A.21 7200 9000 B050 33 23.95 2.A 160 A 8 5.3 1.25 2.2 950 22 5.55 0.9 1.11 12000 15800 B020 10 15.15 2.74 4.05 2.6 4 0.3 2.37 910 3.12 610 1.A 132 C 6 5.6 4.7 26.35 221 228 – 1500 B280 280 207 225 Z.7 26.8 61 Z.2 2.7 81 Z.3 23.83 4200 5200 B050 39 49.3 0. 2031515b_en_300812.4 2.7 2.6 Z.45 1.1 675 15.A 160 B 6 11 950 111 26 0.4 2.37 23.58 3.63 3.55 700 7.5 1 0.5 Z.A 132 A 8 2.83 4400 5500 B050 50 50.37 23.3 3.A 225 A 8 18.58 2.8 5.indd 20315044_004 1) Operation with brake rectifier without high-speed excitation 2) Operation with brake rectifier with high-speed excitation 3) Weight for B14 model 297 .65 2.98 2.A 100 A 8 0.8 61 Z.98 2.55 890 5.3 Z.35 68 75 – 2200 B280 220 150 170 Z.4 2.5 0.45 2.35 1.A 200 A 8 15 720 199 36 0.05 2.73 6600 8500 B020 20 20.1 19.73 7600 9500 B020 16 20.5 2.6 3 2.6 2.6 3.05 23.3 2.3 2.95 34.75 690 10.8 0.67 3.9 1.8 60 Z.5 950 75 18.8 5.75 5.73 4.6 12.5 2.9 1.A 160 A 6 7.5 710 20 5 0.5 Z.A 80 A 6 0.3 Z. motors 60% CDF PN nN MN IN [kW] [rpm] [Nm] 400V cosφN IA / IN MA / MN MK / MN [A] JMot Z0 [kgm2 x 10-3] [h-1] 1) Brake Weight [Nm] 2) [kg] 3) ZNA ZBA Type MBStd ZNA Z.51 13500 17000 B007 5.25 670 3.4 0.45 1.2 32.6 15.1 2.67 3.1 221 228 – 1900 B280 280 207 225 Z.3 2.35 2.6 0.8 1.8 0.71 4.53 2.1 12.4 34.A.2 710 29.1 930 11.1 2.6 4.37 23.6 4.4 34.A 112 A 6 2.75 2.A 80 B 6 0.83 4400 5500 B050 50 50.5 970 182 38 0.A 200 B 6 22 970 215 46 0.57 2.A 180 B 6 15 920 156 33 0.75 2.5 2.5 920 15.8 480 501 – 1200 B680 450 318 354 5 Type Standard voltages are 230/400 V 50 Hz.72 4.95 1.45 1.A 132 B 6 4 950 40 9.A 132 B 8 3 700 41 9.54 2.6 23.37 23.A 200 A 6 18.A 90 A 8 0.35 4.5 2.65 36.A 80 A 8 0.25 287 308 – 800 B680 450 275 310 Z.7 80 Z.48 1.82 5.6 2.77 5.6 1.8 2.11 13000 16500 B020 10 15.8 ZBA 10.86 0.45 5.7 80 Z.A 90 A 6 0.3 Z.4 480 501 – 600 B680 530 318 354 20315044_003 8-pole Z.9 0.3 1.1 2.2 32.75 880 8.A 112 A 8 1.69 3.A 71 B 8 0.58 3.7 2.9 23.1 19.11 12000 16000 B020 16 15.1 19.2 32.75 6.83 4000 5200 B050 39 49.1 19.45 1.6 Z.04 12800 16000 B007 7.2 0.5 0.A 90 B 6 1.73 4.6 2.72 4.7 3 2.2 0.15 287 308 – 1500 B680 340 275 310 Z.3 Z.8 7.35 2.15 1.A 80 B 8 0.3 2.65 3200 4200 B140 70 63.5 Z.7 0.A 100 B 8 1.3 1.4 2.79 5.3 0.2 ZBA 15.88 7000 8800 B020 20 23.2 2.75 5.65 3800 4800 B140 105 64.75 6.9 0.45 68 70 – 3200 B140 140 133 145 Z.8 1.65 36.65 36.A 132 A 6 3 950 30 7.6 3.3 2.4 2.3 Z.51 12200 16000 B007 7.2 2.5 720 245 41 0.37 670 5.98 2.5 2.6 1.64 2.A 225 A 6 30 970 295 60 0.1 2.5 7.5 710 74 14 0.3 1.2 287 308 – 1000 B680 340 275 310 Z.73 4.35 0.45 2.3 4.35 1.2 5.2 15.4 0.73 4.98 2.8 2.5 Z.2 2. motors 60% CDF Type PN nN MN IN [kW] [rpm] [Nm] 400V cosφN IA / IN MA / MN MK / MN [A] JMot Z0 [kgm2 x 10-3] [h-1] Brake Weight [Nm] 1) 2) [kg] 3) ZNA ZBA Type MBStd ZNA Z.4 3.25 2.05 2.18 680 2.1 2.5 940 56 13 0.5 0.7 2.25 1.A 180 B 8 11 720 146 27 0.Standard voltages are 230/400 V 50 Hz.25 53 55 – 2500 B140 140 133 145 Z.1 2.A 90 B 8 0.5 0.A 100 B 6 1.61 16000 21000 B007 3.21 6800 8700 B050 33 23.7 2.65 3600 4600 B140 70 63.8 60 Z. 2 0.5 0.6 2.55 2.9 B050 22 49.95 0. of poles.A 132 C 8/2 4) Z.5.9 9 0.56 1.6 2.8 60 B050 33 63.55 40 42 46 48 Brake 1) 2) 30000 30000 4200 4200 31000 31000 4100 4100 18000 21000 2100 Weight [Nm] 2800 20000 24000 2200 2950 11800 14000 1200 1500 12000 14500 1200 1500 4600 5500 700 950 4800 5800 350 – 450 4800 – 430 – 3800 – 360 [kg] 3) MBStd ZNA ZBA B003 1.5 0.2 2.3 0.6 1.87 1 0.1 2.67 24.73 5.52 2.2 0.56 3.4 0.74 5.51 1.2 1 0.15 2.4 2.2 2.A 100 B 8/2 Z.83 0.04 4.7 2.35 3.7 1.6 B003 2.2 3.5 3.55 3 2870 10 7.6 1.15 0.A 160 A 8/2 Z.8 710 37.66 2910 2.A 63 B 8/2 5) Z.85 2.52 3.2.A 112 A 8/2 Z.57 2.1 2.65 2.5 2880 14.8 2.1 700 15 5.8 26.67 3.6 B007 3.4 2 2. Refer to “Conversion of key data for other voltages and frequencies”.8 10.3.57 2.8 1.49 0.63 4.5 B007 3.65 0.8 0.53 2.6 if motors are operated with a voltage and/or frequency other than that given in the key data tables.6 4.A.73 2.27 720 3.55 0.59 1.75 2.9 2.45 0.45 2.1 1.45 2880 1.2 2.25 2730 0.A 90 A 8/2 Z.6 B020 9 20. motors 100/100% CDF Type PN nN MN IN [kW] [rpm] [Nm] 400V cosφN IA / IN MA / MN MK / MN [A] Z.8 1.9 0.34 2780 1.4 0.1 0.9 1.69 4.5 2.2 3.55 1.8 2915 5.85 0.6 2.09 690 1.5 2.98 2.2 2910 3.59 1.5 2.45 710 6.2 2.75 5.16 705 2.35 2.3 28.3 2.61 3. Start-up generally only via the high no.2 0.9 4.25 1.21 16.2.indd 5 20315044_005 .A 90 B 8/2 Z. Standard voltages are 400 V 50 Hz.8 0.93 6.88 16.5 0.2 2.1 0.A 80 A 8/2 Z.25 3. of poles.8 700 10. section 5.8 15.8 5.9 3.8 0.A cylindrical rotor motors with two speeds 8/2-pole Standard voltages are 400 V 50 Hz.85 0.A 71 B 8/2 5) Z.8 2.9 3.11 700 1.45 2.45 1.15 1.5 0.9 6.2 3.06 690 0.1 2.75 11 2900 36 21 0.93 7 2.93 6.5 710 20 4.7 0.2 18.4 6 2900 19. 8/2-pole Z.1 2.9 B140 47 148 160 B140 70 165 177 298 1) 2) 3) 4) 5) Operation with brake rectifier without high-speed excitation Operation with brake rectifier with high-speed excitation Weight for B14 model May only be used for hoist drives with braking via the high no.5 1. 20/100% CDF 2031515b_en_300812.4 2.3 Key values of Z.A 180 A 8/2 JMot Z0 [kgm2 x 10-3] [h-1] ZNA 0.93 7.5 7.9 8.3 3.5 12.7 73.7 0.2 15.73 2.8 11.3 0.5 8.5 0.35 0.2 ZBA 0.09 24.5 0.4 B020 13 23.8 4. 74 450 B050 11.0 43.80 0.5 28.3 35.0 ZBF 132 B 4 1.70 3.86 300 B140 23.4 28.15 3.70 2.60 1315 4.82 3. 76.85 3.5 if motors are operated with a voltage and/or frequency other than that given in the key data tables.34 2630 1.10 2.0 ZBF 71 A 2 0.5 4.0 74.3 35.90 2625 6.76 0.5 30. MN IN cosφN IA / IN MA / MN MH [kW] [rpm] [Nm] 400V [Nm] A [kgm2 [h-1] x 10-3] [A] ZBF 63 A 2 JMot Brake Weight 380- 0.90 500 B003 1.30 0.50 2630 1.88 4.30 7.4 28.43 0.0 6.1.0 72.84 4.9 12.87 3.2 22.95 0.90 0.2 12.20 2.80 2670 2.90 0.69 3.5 21.40 3.0 7.93 4.92 3.25 0.30 0.90 2690 10.9 3.0 74.92 350 B050 8.90 1.70 2.4 10.25 0.30 2.60 0.62 3.5 ZBF 90 B 2 0.80 0.30 6.0 43.20 2680 4.9 4.70 0.2 ZBF 80 A 4 0.0 ZBF 132 B 2 3.92 520 B050 8.20 0.78 3.90 0.77 2.5 4.0 ZBF 112 A 4 1.2 10.10 3.1 13.3 19.90 2.7 2.74 350 B050 11.0 76.89 4.0 2031515b_en_300812.0 20315044_006 4-pole ZBF motors 40% CDF PN MN IN cosφN IA / IN MA / MN MH JMot A [kgm2 [h-1] Brake Weight 380[kW] [rpm] [Nm] 400V [Nm] x 10-3] [A] [Nm] [kg] Type MBStd 1) ZBF 63 A 4 0.2 14.5 ZBF 90 B 4 0.75 650 B020 3.0 5 Type nN Standard voltages of the ZBF motors are 220-230/380-400 V 50 Hz.30 3.90 2.50 2.50 2.50 0.indd 20315044_007 1) Weight for B14 model 299 .80 1.9 12.0 92.0 56.5 22.2 2.6 6.90 2.40 1335 2.3 19.81 3.67 400 B140 18.0 ZBF 71 A 4 0.50 1390 10.26 2630 0.93 4.18 1350 1.59 720 B003 1.75 500 B020 3.2.3.5 30.86 4.00 1390 6.91 0.80 1400 12.60 0.67 320 B140 18.2 ZBF 100 A 2 1.4 Key values of ZBF cylindrical rotor motors with one speed 2 and 4-pole Standard voltages of the ZBF motors are 220-230/380-400 V 50 Hz.5.00 2.59 550 [Nm] [kg] Type MBStd 1) B003 1.50 2. section 5.90 700 B003 1.94 0.25 1320 1.13 1370 0. 2-pole ZBF motors 40% CDF PN Type nN Standard voltages of the ZBF motors are 220-230/380-400 V 50 Hz.69 450 B020 4.4 10.73 2.40 2.6 4.3 2.69 580 B020 4.0 72.86 380 B140 23.05 2.8 29.2 ZBF 80 A 2 0. Refer to “Conversion of key data for other voltages and frequencies”.2 ZBF 100 A 4 0.0 56.4 9.4 ZBF 132 A 2 2.40 1.90 1.0 12.0 ZBF 112 A 2 1.0 92.50 0.4 ZBF 132 A 4 1.30 3.8 6.90 0.50 2715 12.90 5.3 21. 67 92.75 0.0 10-3] 4.20 2. 8/2-pole ZBF motors 40/40% CDF PN Type ZBF 63 A 8/2 ZBF 71 A 8/2 ZBF 80 A 8/2 ZBF 90 B 8/2 ZBF 100 A 8/2 ZBF 112 A 8/2 ZBF 132 A 8/2 ZBF 132 B 8/2 nN MN IN cosφN IA / IN MA / MN MH JMot A [Nm] [kgm2 [h-1] Brake Weight 380[kW] [rpm] [Nm] 400V 0.73 4.70 0.0 12.45 2.40 1.80 6. section 5.0 56.0 0.6 4.50 2860 11.34 2785 1.7 0.60 2.90 0.50 2.5 0.2 B020 3.13 630 1.49 2.20 2760 4. 12/2 and 12/4-pole Standard voltages are 380-400 V 50 Hz.95 x 0.75 21.10 0.2 8.80 2.85 [A] 0.40 1.69 30.5 B020 4.80 0.50 2.3.4 10.50 1.80 3.71 1.72 700 9.7 30.15 1.5 B020 4.57 1.2 26.06 415 1.4 3.5 0.5 9.80 2.9 5.91 5.29 685 4.50 0.0 0.20 3.79 3.4 28.80 1.5.40 0. Standard voltages are 380-400 V 50 Hz.3 19.20 0.1 3.00 2.76 0.50 0.5 9.60 2.40 2.77 3.20 2.0 B003 1.60 1.30 0.00 0.5 0.70 1.82 4.10 2.0 B140 23.0 B050 11.71 2.50 9.70 0.0 1.2.5 0.69 30.0 20315044_009 Type Standard voltages are 400 V 50 Hz.60 1360 4.2.70 1.50 2790 1.50 0.20 2750 4.7 2.92 620 380 580 360 460 340 Brake Weight Type [Nm] [kg] Type MBStd 1) B020 3.0 1.5 12.57 1.61 1.5 0. PN nN MN IN [kW] [rpm] [Nm] 400V cosφN IA / IN MA / MN MH JMot A [Nm] [kgm2 [h-1] x 10-3] [A] ZBF 80 A 12/4 ZBF 90 B 12/4 ZBF 100 A 12/4 0.73 3.60 2.0 0.5 0.82 4.85 5.0 20315044_010 300 1) Weight for B14 model 2031515b_en_300812.64 1.4 28.0 20315044_008 5 12/2-pole ZBF motors 15/40% CDF Type Standard voltages are 400 V 50 Hz.5 Key values of ZBF cylindrical rotor motors with two speeds 8/2.0 0.90 2815 9.10 0.18 420 4.80 1. Refer to “Conversion of key data for other voltages and frequencies”.09 675 1.1 1.35 3.59 1.50 2.0 0.80 3.55 2.4 23.3 35.45 0.2 B050 8.80 2765 2.45 0.00 4. PN nN MN IN [kW] [rpm] [Nm] 400V cosφN IA / IN MA / MN MH JMot A [Nm] [kgm2 [h-1] x 10-3] [A] ZBF 80 A 12/2 ZBF 90 B 12/2 ZBF 100 A 12/2 0.40 0.86 6.66 0.4 14.20 2.50 0.12 410 2.50 2.25 2745 0.40 0.5 0.25 0.92 43.4 6.00 2.20 2.9 0.30 0.50 2.20 1.5 0.64 2.4 28.20 3.50 2.88 700 12.80 1.40 2.92 620 500 580 450 460 350 Brake Weight [Nm] [kg] Type MBStd 1) B020 3.10 2.20 1.95 1.4 15.5 B020 4.50 1.2 0.79 3.17 8.40 4.65 2.6 if motors are operated with a voltage and/ or frequency other than that given in the key data tables.0 0.00 2.75 21.4 B140 18.00 2.20 690 2.05 3.6 0.20 1.06 415 1.0 74.9 12.0 2.60 1.3 19.25 5.40 1350 2.6 2.5 6.0 76.40 0.5 0.80 2765 2.0 3.74 72.73 4.80 0.97 0.12 410 2.5 9.0 20.3 35.2 B050 8.2 0.90 12.00 2.4 6.70 7.95 2.30 2.46 705 6.00 2.30 0.2 1.10 0.06 675 0.86 720 550 620 500 620 500 580 450 460 350 460 350 400 320 360 300 Type [Nm] [kg] Type MBStd 1) B003 1.2 B050 8.53 2.18 420 4.80 2.25 1380 1.90 2855 6.20 0.80 2.71 1.50 2790 1.87 0.6 4.80 1.3 35.3 19.00 2.69 30.90 5.75 21.0 1.59 6.indd 12/4-pole ZBF motors 15/40% CDF . 63/71 ZN.90B/100 ZN.0 523 647 125 27 150 4.5 297 377 16 24 3 20 - t3 u3 2) 2) 5 r Basic motor i3 18.0 196 152 M10 1.63/71 ZB.112A/132 UL L d3 l3 l31 l32 s5 1) 14 30 4 22 M5 16 5 41.0 110 23 130 4.4 Dimension sheets Z cylindrical rotor motors Motor Z. the IEC shaft end is not provided for this motor.0 566 690 32 37 4 32 M10 35.x1.5 38 80 4 70 M12 41 10 98. LH side.eps Coupling shaft end 3) IEC shaft end Size D E l11 EB DB GA F 1) ZN.90B/100 ZB.2 4xM20 153 137 103 357 331 293 19 24 3 20 M5 21.indd 20315044_011 • • • • Terminal box position: RH side. V19 Design without flange plate (basic motor) r Demag coupling shaft end 42012345..0 260 185 468 592 M12 2..80/90A ZB.5 157 134 M8 1. for N: j6 1) Key to DIN 6885 Sheet 1 type A 2) Key to DIN 6885 Sheet 1 type B 3) The ZBF motor is only available with a coupling shaft end.2 168 179 133 527 491 451 2xM32 24 50 4 40 M8 27 8 63.2 4xM25 153 149 103 454 428 391 420 384 344 2xM25 28 60 4 50 M10 31 8 76. V18.112A/132 ZB.5 2xM32 2xM40 273 233 173 2031515b_en_300812.80/90A ZN. 63 – 132 B14. at the bottom – by turning the motor when installing Terminal box with 2 cable entries on top and at the bottom Tapped hole FB and s5 in shaft centre to DIN 332-DR Fit for D: ISO k6. on top.0 8 40.5 k1 N LA M T AC AD LB S r dv LL xk AG M.5 80 19 100 3.5.5 6 37.0 10 55. 301 .5 291 371 70 15 85 3.0 5 35.0 140 124 255 336 M6 1.0 24 24 3 20 M6 27.2. 160/180A ZN.5 645 765 769 903 813 950 155 26 190 4 314 269 200 34 236 4 394 311 200 34 236 4 440 332 570 690 681 815 725 862 368 2. N : j6 1) Key to DIN 6885 Sheet 1 type A 2) Key to DIN 6885 Sheet 1 type B 2031515b_en_300812.5 14 75 55 60 7 50 M12 59..5 M16 530 2.225 Coupling shaft end E l11 EB DB GA F UL L 1) 48 110 5 100 M16 51. LH side.5 M16 2xM40 2xM50 2xM40 2xM50 2xM40 2xM50 273 239 173 273 246 173 273 256 173 • • • • 302 Terminal box position: RH side. 160 – 225 B14.0 18 88 N LA M T AC AD LB HDF r S dv LL xk AG M. D = 55/60 : m6.0 16 138 60 140 6 125 M20 64.indd 20315044_012 .0 16 88 60 60 7 50 M12 64.Motor Z.180B/200 ZB.225 ZB.160/180A ZB. on top. at the bottom – by turning the motor when installing Terminal box with 2 cable entries on top and at the bottom Tapped hole FB and s5 in shaft centre to DIN 332-DR Fit for D = 48 : k6.eps 5 IEC shaft end Size D 1) ZN.5 14 135 55 110 4 100 M20 59.180B/200 ZN.0 18 168 705 825 819 953 893 1030 d3 l3 l31 l32 s5 Basic motor t3 u3 i3 k1 2) 2) 48 50 7 43 M12 51..x1.5 M16 466 2. V19 AC r HDF Design without flange plate (basic motor) Demag coupling shaft end r 41269745. V18. 5 C 200 200 130 12 165 3... 63/71 Z. dv LL AG M..0 C 160 160 110 10 130 3. for N: j6 303 .0 689.0 212.5 M6 140 124 30 296. LH side.0 178. Z.5 454.5 255.x1.5 M10 2xM32 2xM40 168 133 273 173 2031515b_en_300812. 63 – 132 B14.5 330..0 C 140 140 95 10 115 3.0 M6 4xM20 153 103 4xM25 153 103 M8 M6 157 134 50 356. at the bottom Terminal box with 2 cable entries on top and at the bottom Key to DIN 6885 Sheet 1 type A Tapped hole DB in shaft centre to DIN 332-DR Fit for D: ISO k6.5 C 120 120 80 8 100 3.5 q S ZB.5 C 160 160 110 10 130 3. 80 / 90A Z.0 M8 M8 M8 2xM25 M10 2xM32 196 152 60 420. 112A / 132 38 80 4 70 M12 41 10 C 105 105 70 8 85 2.5 C 200 200 130 12 165 3.eps Size D E l11 EB DB GA F Flange P N LA M T AC AD LEF L ZN. on top.indd 20315044_013 • • • • • Terminal box position: RH side.Motor Z. V18.0 C 140 140 95 10 115 3.5 377.. V19 Flange-mounted type LEF EB Flange size to EN 50347 5 41636346.0 260 185 80 566.0 C 120 120 80 8 100 3. 90B / 100 14 24 30 50 4 4 22 40 M5 M8 16 27 5 8 28 60 4 50 M10 31 8 Z.0 526.. 0 100 M16 51.160/180A ZB.0 196 152 60 260 185 80 A250 250 180 11 215 4.0 952.0 420.80/90A ZN.5 454.A 400 LEF HDF EB A450 Flange size to EN 50347 5 41608645.5 273 173 273 173 273 173 273 173 11 2xM25 14 2xM32 14 2xM32 14 2xM40 368 373.80/90A ZB.0 16 A400 400 300 15 350 5. V3 Flange-mounted type A 160 .eps Size D E l11 EB DB GA F Flange P N LA M T AC AD LEF L HDF q S dv LL AG M.0 394 311 110 6 125 M20 64.0 1029.0 8 A200 200 130 10 165 3.0 526.63/71 ZB.180B/200 ZB.x1..225 ZB.112A/132 ZB.0 356.5 377.5 18 466 383.0 314 269 110 4 100 M20 59.0 5 A160 160 110 9 130 3.0 168 133 - 330. on top.5 14 A350 350 250 13 300 5.112A/132 ZN.5 157 134 14 28 60 4 50 M10 31.90B/100 ZB. V1.0 10 48 110 4 55 110 60 140 A200 200 130 10 165 3.5 566. LH side.0 825.0 9 4xM20 153 103 - 212.5 18 530 423.63/71 ZN.90B/100 ZN.180B/200 ZN.0 819..5 ZN.5 18 2xM40 2xM50 2xM40 2xM50 2xM40 2xM50 304 • • • • • Terminal box position: RH side.5 893.0 689. 63 – 225 B5.5 705.5 - 178.0 440 332 140 296. at the bottom – by turning the motor when installing Terminal box with 2 cable entries on top and at the bottom Key to DIN 6885 Sheet 1 type A Tapped hole DB in shaft centre to DIN 332-DR Fit for D = 14-48 : k6.Motor Z.indd 20315044_014 .160/180A ZN.5 A250 250 180 11 215 4.0 18 A450 450 350 16 400 5.0 8 38 80 4 70 M12 41.0 11 4xM25 153 103 - 255.5 140 124 30 24 50 4 40 M8 27.225 14 30 4 22 M5 16. N : j6 2031515b_en_300812. D = 55/60 : m6.0 A300 300 230 12 265 4. 5 893.63/71 ZN. B7.180B/200 ZB.Motor Z.90B/100 ZN.0 16 305 318 28 362 390 394 311 200 60 140 6 125 M20 64..0 8 100 125 6 124 190 157 134 80 28 60 4 50 M10 31.225 14 30 4 22 M5 16.0 8 140 160 8 168 230 196 152 100 38 80 4 70 M12 41.0 10 50 4xM25 153 103 28 49 - 255.160/180A ZB. 160 – 225 41690145.0 420..0 12 63 28 56 - 330.0 10 178 216 8 206 300 260 185 132 48 110 4 100 M16 51.180B/200 ZN.0 819.0 952.5 705.5 19 133 60 82 535 423. V6 Foot-mounted type Z.x1. on top Terminal box with 2 cable entries on top and at the bottom Key to DIN 6885 Sheet 1 type A Tapped hole DB in shaft centre to DIN 332-DR Fit for D = 14-48 : k6.5 454.160/180A ZN. B6.112A/132 ZN.eps Size D E l11 EB DB GA F B A HA BB AB AC AD H L BA AA HD q K C dv LL AG 5 41278545. D = 55/60 : m6.0 7 45 4xM20 153 103 24 45 - 212. 63 – 132 Z..80/90A ZB.5 12 89 48 55 371 373. B8.0 18 311 356 30 370 438 440 332 225 296.eps M.0 689.5 566.90B/100 ZB.indd 20315044_015 • • • • • Terminal box position: RH side.5 15 108 56 72 469 383.5 ZN.5 19 149 2xM25 2xM32 2xM32 2xM40 2xM40 2xM50 2xM40 2xM50 2xM40 2xM50 168 133 273 173 273 173 273 173 273 173 2031515b_en_300812.225 ZB.63/71 ZB.. LH side. 63 – 225 B3.5 18 40 - 178.0 5 90 112 5 108 156 140 124 71 24 50 4 40 M8 27.112A/132 ZB.5 14 254 254 20 300 310 314 269 160 55 110 4 100 M20 59.80/90A ZN.5 377.0 356.0 1029.0 825. V5.0 526. N : j6 305 . a canopy or protection panel is available at additional cost.5. All motors are available with IP 55 and IP 65 enclosure type. The mounting dimensions largely correspond to IEC Publication 72-1.4 Maximum speed Maximum speed [rpm] ZNA/ZNE Line-fed operation 1) ZBA / ZBE Inverter operation 2) ZBF 306 1) With normal operational braking (line-fed operation) 2) with occasional emergency stop (inverter operation) 63/71 80 / 90A 90B / 100 5000 112A / 132 160 / 180A 180B / 200 225 4000 3600 3000 3600 (B140) 2000 (B280) 2000 3600 3000 3600 5000 4000 3600 - 2031515b_en_300812. IP 55: Protection against harmful dust deposits. which then also provides protection against magnetic or magnetisable particles. the motor must be provided with enclosure type IP 55 / IP65 or protected by suitable measures. Demag motors are designed with only one shaft end. e.2.g. e. the flange-mounted design to DIN 42677.5. wind and rain deflector. protection against splash water from all directions.1 Design versions The available foot and flange-mounted types correspond to the overview of models. For brake sizes B003 B680. protection against jets of water from all directions. unprotected installation in rain and wind or installation at great height. on request.5.5 Mechanical design of Z cylindrical rotor motors 5.g. In these cases.2.2.2 Motor enclosures ZN and ZB motors are supplied with IP 54 as standard. Brief explanation of enclosures: IP 54: Protection against harmful dust accumulation. Detailed descriptions of these enclosures and inspection conditions can be found in DIN EN 60034-5.5. IP 54 dust protection applies for non-magnetic and non-magnetisable particles in this case. protection against jets of water from all directions.2.5. The foot-mounted design largely corresponds to DIN 42673. 5. the standard IP 54 enclosure type may not be sufficient.indd Motor .2. 5.3 Noise levels 5 The noise levels of Z cylindrical rotor motors are below the limit values specified by EN 60034-9 (class A noise level). 5. Outdoor operation: If a motor is operated under arduous conditions outdoors. For vertically mounted motors with the shaft facing downwards. IP 65: Complete protection against dust deposits. 4 and 6-pole motors are available for the 230-240 V AC/460-480 V ±5 %. during inverter operation). 5. Optional bearings lubricated with low-temperature grease are available for use at low temperatures.2. see section 5.5.g.6. For fitting flange motors to the gearbox or similar units. 4. Ensure unhindered air intake for cooling. During operation over longer periods at low speeds (e.2.2. 50 Hz voltage range. 5 5. 2031515b_en_300812. see options in section 6. 6.2. 2. Warm air must not be immediately sucked in again. 307 . For further details on voltages and controls of the brakes. If necessary. 60 Hz voltage range.1 Voltages and frequencies ZNA/ZBA motor 50 Hz 4-pole 2.7.08. 8-pole Pole-changing Z.6 Electrical design Z cylindrical rotor motors The motors and brakes are designed according to the following tables as standard.2.5.5. see options in section 6. 60 Hz (USA) 2. for inverter operation up to 87 Hz).6.1) can be used as an option to cool the motor. Brake design for connection to the higher voltage (216 V DC) is possible. an additional integrated fan (see section 6. vibration severity The rotor is dynamically balanced when the half key is fitted. motors can be ordered with screwed condensation water drain holes.2.g.2.5. 5.2. The brake must be provided with a separate supply voltage when motors are changed to delta connection (e. The 60 Hz (USA) – design is available at additional cost.6 Bearing Z cylindrical rotor motors feature sealed grooved ball bearings lubricated for life for ambient temperatures from – 20 ºC to + 40 ºC.7 Condensation water drain holes The motors do not have condensation water drain holes as these are not normally required.2. 6.A 220-230/380-400 V AC D/Y ±10% 50Hz ±2% 230/400 V AC D/Y ±10% 50Hz ±2% 400 V AC Y ±10% 50Hz ±2% 180 V DC ZBA brake The brake is designed for connection to the higher voltage via rectifiers.5 Cooling and ventilation ZN and ZB cylindrical rotor motors are supplied with a fan for surface cooling as standard. The details on the rating plate remain unchanged. 8-pole Pole-changing Z. the output side bearing may be sealed using a radial sealing ring.3.6.5.A 240/480 V AC YY/Y ±10% 60Hz ±2% 480 V AC Y ±10% 60Hz ±2% 108 V DC 216 V DC ZBA brake The brake is designed for connection to the lower voltage via rectifiers. although operation is possible using both supply voltages.12.13. 5.6/5. 5.2) or additional external fan (see chapter 6. The details on the rating plate remain unchanged. Standard Z cylindrical rotor motors meet the requirements of category A (standard) of DIN EN 60034-14 / 03.indd 2 and 6-pole motors are available for the 220-240 V/380-415 V ±5 %.2.8 Balancing.3. 12/4-pole ZBF 220-230/380 . supply voltage and. the required brake voltage with the order.g.E 4-pole 2.Z225: 230/400 V AC D ±10% 50Hz ±2% -- -- 180 V DC ZBE brake The brake is designed for connection to the higher voltage via rectifiers. Brake design for connection to the higher voltage (216 V DC) is possible. . for inverter operation up to 87 Hz). 8-pole Pole-changing Z80 . The brake must be provided with a separate supply voltage when motors are changed to delta connection (e. if necessary. 6.ZNE/ZBE motor 50 Hz Z. Motors for other voltages and/or multi-voltage motors are available at additional cost on request.g. 4-pole Pole-changing ZBF 240/480 V AC YY/Y ±10% 60Hz ± 2% 480 V AC Y ±10% 60Hz ±2% 108 V DC 216 V DC ZBF brake The brake is designed for connection to the lower voltage via rectifiers. ZBF motor 50 Hz 2-pole. for inverter operation up to 87 Hz). 308 2031515b_en_300812. 4-pole 8/2-pole 12/2. 60 Hz (USA) 2-pole. although operation is possible using both supply voltages.indd 5 Specify the supply frequency. The brake must be provided with a separate supply voltage when motors are changed to delta connection (e.400 V AC D/Y ±10% 50Hz ±2% 380-400 V AC Y ±10% 50Hz ±2% 400 V AC Y ±10% 50Hz ±2% 180 V DC ZBF brake The brake is designed for connection to the higher voltage via rectifiers.Z180: 230/400 V AC D/Y ±10% Z200 . Meff = √ ∑ (M2 t) T Meff = Effective torque in Nm M = Torque of a period in Nm (e. This is the permissible number of starts per hour without load and without external moment of inertia. This specifies the permissible number of starts per hour for a drive starting time of 1 second. The following tolerances are also permissible according to EN 60034-1: Efficiency at PN ≤ 50kW .15 % to + 25 % Breakdown torque .15 (1 . For longer starting times.6.6.g.2 Ratings and tolerances The ratings given for ZBA and ZBF motors refer to intermittent duty (S3) and to for ZBE motors continuous duty (S1) according to EN 60034-1 at a frequency of 50 Hz and an installation height of up to 1000 m above sea level.2.g. The rated data must be converted (as in section 1.A motor designed for S3.2) for other duty types.3.2. run-up time.E.2. 5.3. 309 .02 maximum 0. steady-state torque. • Z. operating time.cosφ 6 Power factor Slip minimum 0. starting time.2 for other conditions. and ZBF apply at a coolant temperature of 40 ºC and of 60 °C for Z. The voltage tolerance is reduced to ± 5 % for the extended voltage range. 5 No-load starting frequency z0 is specified in the lists.E motors In the case of pole-changing motors.6.indd The effective torque may not exceed the permissible torque rating of the Z. A temporary voltage tolerance of ± 10 % according to EN 60034-1 with reference to the rated voltage and/or a temporary frequency tolerance of ± 2 % are possible. the number of starts per hour must be converted as in section 1.5.A and Z.2.A and Z. The ratings given for Z.4 Starting frequency • Z.10 % Moment of inertia ± 10 % 5.2. • ZBF motors Starting frequency factor A is listed. braking time) T = Cycle duration in s 2031515b_en_300812.2. the value given for no-load starting frequency z0 only applies for operation at the corresponding speed. brake torque) t = Period in s (e.E motors with inverter operation Inverter-fed motors are checked on the basis of the effective torque.3 Duty type The motor data tables list the values of the ZBA and ZBF motors for intermittent duty (S3) and those of the ZBE motors for continuous duty (S1).2.0.2.A motors.E motor designed for S1 and the Z.η ) 1 . The number of permissible starts z depends on the application and can be calculated as described in section 1.2. Refer to chapter 1.07 ± 20 % Starting current + 20 % Starting torque . The number of winding ends brought out depends on the winding arrangement. Metric cable glands and metric adapter glands are available as accessories. 2031515b_en_300812. the motor will run in the clockwise direction when viewed from the motor shaft side.6. L2 and L3 phases are connected in sequence to the motor terminals U1. The seal supplied with the plug may be used. e. The bore holes offering the best protection should always be used for the given mounting arrangement.g. circuits and cable entry arrangement The ends of the Demag Z cylindrical rotor motor windings are brought out to a terminal plate in the terminal box. 310 Two pairs of metric threaded openings are arranged opposite each other in the terminal box.indd 5 The brakes of ZBA and ZBE motors for inverter operation are not connected since they require a separate power supply. 1) The two star points of the winding are also brought out to the terminal plate for voltages > 500 V for ZBF motors. L3 conductors of an AC mains network. These have to be removed and replaced with cable entry glands with the appropriate rated enclosure type for connection by the customer. The connections are also brought out in the terminal box if a brake control system or thermal protection is fitted.5.5 Connection. W1. When the three L1. L2. if necessary. as required. All four bore holes are fitted with a threaded plug and seal as standard. Counterclockwise rotation is achieved by swapping two phases. AC motors must be connected to the three L1. The rated motor voltage must match the L-conductor voltages of the power supply system. The brakes of ZBF motors are connected when the units are delivered. . Refer to the dimension diagrams for size and position. Demag Z cylindrical rotor motors are suitable for direct-on-line starting. cables should enter the terminal box from below. The motors are wound and connected for the standard voltage as follows: No. of poles 50 Hz Speed n syn 60 Hz (USA version) Connection Speed n syn 2 3000 3600 4 1500 1800 6 1000 Δ/Y 1200 8 750 900 8/2 1) 750 / 3000 900 / 3600 12/2 1) 500 / 3000 12/4 1) 500 / 1500 Y 2 separate windings 600 / 3600 Connection Δ/Y YY/Y (USA) Y 2 separate windings 600 / 1800 Circuit diagrams are glued inside the terminal box cover. V1.2. A protective conductor terminal is provided in the terminal box for earthing. The same procedure is used for motors with several speeds. The brake coils are designed for coolant temperatures up to 60 ºC as standard. If the enclosure type is increased to IP55/IP65. which is pulled onto an additional retaining plate (16) for ZBF 80 .132.3 Brakes for Z cylindrical rotor motors B003 to B680 DC brake 5.eps 1 2 3 4 5 2 Demag B003 to B680 disk brakes are spring-actuated brakes featuring electromagnetic brake release. The radial sealing ring with worm spring (7) features an additional supporting washer (17).indd The standard brake voltages depend on the motor frame size and are therefore described in section 5. 311 . 2031505c_de_300812.2. ZBE 80-132 (B050). the space in between is filled with grease.6. see section 5. Various brake control modules.3. The B003 to B680 brakes have feature brake magnets excited by DC current for electrical release.6. ZBF 63/71 Sleeve 5 6 13 11 7 12 17 41687358.1 General B003 345 1 15 6 B007 – B680 7 8 9 10 11 18 12 1 6 7 8 9 Electromagnet Radial shaft sealing ring Friction plate ZBA 63-132 (B050).5. For higher coolant temperatures. The brake fitted under the fan cover can be controlled independently of the motor and causes no axial movement of the rotor shaft or forces on the bearings.g. special brake coils must be used which only permit a reduced brake torque. an additional covering tape (15) is used. These special brake coils are coded with an additional letter R (e. B020R). An additional plastic washer (18) is placed under the adjusting nut (12).3. make it possible to match the release reaction times of the brake to the given applications.eps 10 11 12 13 14 Grub screw Distance spring Adjusting nut Brake spring Collared pin IP55 / IP65 15 Covering tape 16 Retaining plate ZBF 80-112 (B050) 17 Supporting washer 18 Plastic washer 5 Brake end cap Carrier Brake disk Armature disk Stop plate 8 3 4 16 15 14 13 42282446. The brake is provided with an IP54 enclosure type as standard. A standard brake design is assigned to the motors in the catalogue. 5.3 Motor assignment.3. Voltage is applied to the DC coil of electromagnet (6) to release the brake.eps The diagram shows an example for DC brakes with the “small” brake above and the “large” brake below for particularly high brake torques. Small brake 41280545. The air gap must be adjusted when it reaches its maximum limit value. the springs (14) push the armature disk (4) which can move in the axial direction against brake disk (3). This provides two effective friction surfaces to generate the brake torque (double-surface brake).3. The gearing between the brake disk and carrier permits low-maintenance and robust operation. friction and braking energy absorption. The magnet force generated works across the air gap to pull the armature disk against the force of the springs towards the magnet. As the brake lining wears down. The brake disk is guided in the axial direction by carrier (2) which is connected to the shaft in such a way that the brake disk is supported by motor end cap (1). Since this operation is performed independently of the motor. Fine setting of the brake torque is possible by combining differing brake spring quantities and strengths. The brake torques for the motor frame sizes vary depending on the motor outputs and application conditions.indd Large brake . 312 2031505c_de_300812. brake torques Brake motors can be used for a wide variety of applications. A different design can be ordered depending on the application conditions. controlled release of the brake is possible (100% CDF) even when the motor is at standstill. two alternative brake sizes are usually available for every motor frame size.5.2 Function To apply the brake. 5 For this reason. the DC coil of electromagnet (6) is disconnected from the supply. the air gap between the armature plate and the magnet increases. When no voltage is applied to the brake. 4 5.9 2.5 3.4 6.7 2.2 6.4 1.9 115 150 230 300 340 450 530 680 – – – – – B680 40.5 (0.7) (1.5 – – – 1. which provide a maximum brake torque of approx.6 9 10 13 16 20 16 20 B050 9.2) (1.2 – – 8.2) (1.0 46 62 93 125 140 185 220 280 125 140 185 220 280 B680 38.4 3.indd ZBF 132 B Size Brake torques MB in Nm 1) Weight B003 “large“ brake Size 1. 3) Large brake option 313 .The table below indicates the possible brake torques for the given motor frame sizes.3 4.3 23 31 47 62 70 94 105 140 70 94 105 140 B280 20.1 46 62 93 – -– – – – Brake torques MB in Nm 1) Weight B007 2.9 7.7 2.9 B020 5.6 9 10 13 B050 10.3 times the rated torque of the most powerful 4-pole motor in each case. 60 ºC coolant temperature Motor “small” brake ZBA ZBE 63 A – 63 B – 71 A – 71 B – Size B003 80 B 90 A 90 A 90 B 90 B 100 A(L) 100 A 100 B 100 B 112 A 112 A 132 A(L) 132 A 132 B 132 B 132 C – 160 A(L) 160 A 160 B 160 B 180 A 180 A 180 B 180 B 200 A 200 A 200 B – 225 A(L) 225 A 225 B 225 B Size MB in Nm 1) Weight 1.4 1.3 11 17 22 25 33 39 50 33 39 50 B140 16.4 1.5 (0.8) (2. On the right are the brake torques for the “large” brakes. Shown on the left are values for the “small” brakes which are suitable for pole-changing motors.1 8.6 – – 3.6 B050 5.6 7.9) – – – – B020 3.3) (1. Possible ZBF brake torque up to max. the B007 is used for the manual brake release and/or brake monitoring options.6 B020 4.3 11 17 22 25 B140 11.4 3.4 3.6 – – 3.1 5.3) B007 3. The higher starting frequency values and longer adjustment intervals for the same friction energy as the “small” brake are beneficial for certain applications. Possible ZBA and ZBE brake torque up to max.6 3.3 11 13 – – – – – – – – – – B140 3) 10.7) – – – – 0.7 (2. 60 ºC coolant temperature “small” brake Motor ZBF 63 A ZBF 71 B ZBF 80 A ZBF 90 B ZBF 100 A ZBF 112 B ZBF 132 A 2031505c_de_300812. for example.7 1.3 1.8 12 18 23 31 37 (B007) 2) – – 0.3 4.9) (1. The “large” brakes are designed for hoist drives. The outside motor dimensions are identical for both “small” and “large” brake arrangements since they feature the same fan cover.3 8.4 6.2 – – 8.7 23 31 47 62 B280 18.8 12 18 23 31 37 – – – – – – – – – – – – – – – – – – – – 1) See section 5.7 2.1 115 150 230 300 340 450 530 680 5 – 80 B “large“ brake (B007) 2) 80 A Brake torques The “Possible ZBF brake torque” table contains one brake size per motor which ensures a long service life of the friction elements for mechanical braking of the large flywheel masses.9 1.3 1.2 3.2 4.8 5.2.1 5.3 4. for example.7) (1.8) (2.5 3.2 8.3) Brake torques Weight MB “large” brake in Nm 1) – – – – – – – – – – – – – – – – – – – – – – – – – – – – – – B050 3) 5. 2.9 1.3) (1.2 6.9 2.3 8.8 (2.2 4.3 11 13 B140 10.3 for standard brake assignment 2) For motors fitted with the B003 as standard.8 5.9) (1. formula 1 no yes Brake torque MBerf.3.3 yes MB of small brake sufficient no MB of large brake sufficient Advisable to contact Demag Cranes & Components GmbH.indd Wear adjustment time tN formula 6 . fixed deceleration yes Brake torque MBerf.3.4 Selection and checking 5. formula 3 no Dynamic load.2 Options: section 6.4.5 small brake WR zul. formula 2 Brake torque MBerf. fixed run-on yes Brake torque MBerf.3.3. > WR FINISH yes no large brake WR zul. service tel. formula 5 Determine permissible friction per braking operation WR zul section : 5. > WR no yes 314 2031505c_de_300812.1 Brake selection flow chart START Holding brake only (static load) no yes no Dynamic load. formula 4 Brake torque MB from table in section: 5.4 no 5 yes Starting frequency c/h specified no Order form: section 7.5. fixed braking time Dynamic load.: see section 7.3 yes Brake friction WR erf. 3. Application: 2031505c_de_300812.2 Formulae for selecting Demag brake B Owing to the variety of applications. Holding brake only (static load) Formula 1 MB erf = ML · k Note: Application k for level movements without special requirements 1. Select brake torque MB closest to calculated torque MB erf from the assignment table. Dynamic load. lifting drive in lowering operation without as counterweight) and is negative if the load torque acts as a brake.3 hoist drives 1.8 for suspended loads and vibrations 2. the following values and formulae always refer to the brake and/or the motor shaft. fixed braking time MB erf = 104. a dynamic load must be calculated for emergency-stop operation.6 · Jges ( tB · Δn ± ML .5.indd Bringing a machine to standstill in a specified time 315 . Ensure that the external load torques and flywheel masses are calculated for the motor shaft and that inverse efficiency is taken into consideration for secondary gearbox arrangements.t2 ) Remarks: 5 Formula 2 ML is positive if the load torque acts as a driving force on the motor shaft (e.5 In the case of multi-quadrant frequency inverter drives for which the brake is applied in normal operation at zero speed (holding brake). It may be advisable to recalculate using the values specified for MB for verification.4.g. care must be taken when applying safety factors.φ2) 2 ± ML = Motor shaft speed in rpm ϕ2 = Run-on angle during brake application time t2 ϕ2 = t2 = 5 Note: ω ⋅ t2 in rad 1000 Brake application time in ms depending on connection type. ML is positive if the load torque acts as a driving force on the motor shaft (e. Dynamic load. Application: Limitation of rope deflection.Dynamic load. prevention of drive wheels from slipping.5 · Jges · ω (φB . lifting drive in lowering operation without as counterweight) and is negative if the load torque acts as a brake. fixed deceleration Formula 3 MB erf = Jges · α ± ML Note: Since the maximum deceleration is usually the most critical. 316 2031505c_de_300812.3. fixed run-on Formula 4 M B erf = n 0.indd Application: Bringing a slewing drive to standstill according to a specified angle . values in section 5.7 This angle is not influenced by the brake torque.g. static load torque Nm k Factor to allow for operating conditions – Jges Moment of inertia acting on the motor shaft kgm2 n Difference is speed of braking operation.10 Ws c/h Braking operations per hour h-1 317 . For brake constants. lifting drive in lowering operation without counterweight) and is positive if the load torque acts as a brake. Values depending on connection type. ML must be a lower value than the brake torque. When braking down to standstill. Wear adjustment time Formula 6 tN = Description Unit: MB erf Required brake torque Nm ML max.55 ⎟⎠ ⎝ Run-on angle during slipping time tB – t2 180° ⎞ ⎛ ⎜ 1 rad → ⎟ π ⎠ ⎝ 5 Abbreviations Motor shaft angular speed 2031505c_de_300812.3.indd WN WR ⋅ c / h rad/s Wheel n Motor shaft speed rpm WR = Friction per braking operation Ws tN Time until adjustment for friction PR h WN Friction for adjustment.3.Friction Formula 5 WR = Jges ⋅ Δn2 182. this corresponds to the motor speed at the beginning of the braking operation rpm tB Specified braking time ms t2) Brake application time. see section 5.g.4 ⋅ MB MB ± ML Note: ML is negative if the load torque acts as a driving force on the motor shaft (e.7 ms tB–t2 Slipping time ms Angular acceleration rad/s2 B–2 n ⎞ ⎛ ⎜⎜ ω = ⎟ 9. see table in section 5. Motors running against an applied brake result in additional friction. 5 Friction and starting frequency In addition to the brake torque. Permissible friction per braking operation depending on starting frequency per hour ZBA / ZBE Permissible friction WR per braking operation in J 100000 n ≤ 2000 1/min 10000 B680 B280 1000 B140 100 B050 B020 B003 B007 10 1 10 100 10000 1000 Braking operations per hour 42505544. fed out and dissipated in the motor cooling air current.5. The starting frequency diagrams for two speed ranges show the limit curves for each brake size.eps ..3. The mechanical energy generated on both friction sur faces of the disk brake is turned into heat.indd 42505644. 3600 1/min 10000 1000 B140 B050 100 B020 B007 B003 10 1 10 100 1000 10000 Braking operations per hour 318 2031505c_de_300812..eps Permissible friction WR per braking operation in J 5 100000 B680 B280 n = 2001. the friction per braking operation and the starting frequency are the characteristic values for selecting the brake. These must not be exceeded depending on the work done by the brake and the starting frequency. when the permissible friction per switching operation is exceeded.g.3.Permissible friction per braking operation depending on starting frequency per hour ZBF 100000 n <= 2000 1/min Permissible friction WR per braking operation in J 10000 1000 100 10 1 10 10000 1000 100 Braking operations per hour 42505744. For higher thermal loading.6 can be used for brake sizes B007 – B680 if the brake is operated only rarely (e.indd Brake size Friction WR for one braking operation per hour in J Maximum friction for emergency stop with an emergency-stop brake lining according to section 6. an emergency-stop brake lining according to section 6.eps For special applications. emergency stop for inverter operation). 2031505c_de_300812.6 in J rpm B003 B007 B020 B050 B140 B280 B680 ≤ 3600 - 6000 7800 10500 13500 16000 18500 ≤ 2000 - 8000 13000 18000 22000 30000 43000 ≤ 3600 - 24000 31200 42000 54000 64000 74000 ≤ 2000 - 35000 45000 60000 75000 95000 120000 319 . increased wear of the lining and counter-surface must be expected.eps 100000 Permissible friction WR per braking operation in J n <= 3600 1/min 10000 5 1000 100 10 10 1 1000 100 Braking operations per hour 10000 42505844.3. All brake rectifiers are approved for operation up to a max.3.6 Brake control brakes B003 to B680 Various control modules are available which are fitted in the brake motor terminal box as standard for controlling Demag B003 to B680 disk brakes with DC magnets. 320 2031505c_de_300812. GP + SE) For separate supply from the installation control. GP and GS rectifiers depending on the connection of the brake. The control system is of modular design. the brake must be provided with a separate power supply and control. an additional brake varistor (260 898 84) must be connected to the brake connection in the terminal box of the brake motor. GS or GP brake rectifiers. and when the control modules are fitted in the switchgear cabinet.g. also at a later date. 260 807 84) is available for fitting control modules in a switchgear cabinet. GF. It makes it possible to fit • a solo module (GE. An installation set (order no. AC or DC brake control is possible with GE. GF brake rectifiers feature an integrated DC cut-out as standard. GS and GP brake rectifiers can be fed separately with alternating current or connected parallel to the motor winding. GF and GP brake rectifiers can be used parallel to the motor winding for polechanging motors. A DC cut-out should generally be provided for ZBF motors. without the need for additional cables and switching devices. GS. GU) or • a combination of modules (e. All control modules feature varistor protection against overvoltage at the AC input and on the switching contact terminal as standard. GE. Brakes up to size B050 for ZBA/ZBE motors and B140 for ZBF motors can also be supplied with 24 V DC from the installation control. the motor must be fitted with varistors. . GU control modules are controlled in the DC circuit by means of a 24 V/DC control voltage from the installation or an inverter.5. connection voltage of 500 V AC.indd 5 If ZB cylindrical rotor brake motors are operated together with inverters. GP. SE or VE modules for fast DC interruption of the brake current can be added to brake motors fitted with GE. If required. 1U & 2U). Switch-off method: DC circuit With GS + VE / SE AC circuit Interval 100 ms 250 ms 1. 321 . and for polechanging motors featuring a separate power supply up to brake size: • B050 for ZBA/ZBE motors • B140 for ZBF motors. it is necessary for both windings to be connected to one phase on the terminal board (e. the module must be supplied via 3 phases at terminals 5. 2031505c_de_300812. • GP brake rectifiers (normal excitation for pole-changing motors) GP brake rectifiers can be used parallel to the motor winding for pole-changing motors with separate windings.5 s 5 They can be used for single-pole motors as well as for pole-changing motors with a separate power supply GS brake rectifiers can be used as an option for brake sizes B003 to B050 (for ZBF to B140).indd For this. the following minimum times must be maintained between switch-off and restart. therefore.g. correct functioning. In this case. This makes it possible to achieve shorter brake release times and higher motor starting frequencies. 0.Brake control module overview Excitation modules Switch-off modules Type Type GE GP GS Brief description Component Function – Brake rectifier Normal excitation – Brake rectifier Normal excitation for pole-changing motors – Brake rectifier High-speed excitation GF – Combined module Normal excitation for pole-changing motors and motor current-dependent high-speed trip relay GU – Brake rectifier Control possible via 24 V/DC from installation or inverter – SE Current relay Motor current-dependent high-speed trip relay – VE Voltage relay Voltage-dependent high-speed trip relay • GE brake rectifiers (normal excitation) GE brake rectifiers are used for single-pole motors as standard.5) GS modules include a reversible rectifier which overexcites the brake for approx. They are used up to brake size B050 for ZBA/ZBE motors and B 140 for ZBF motors. The GE module mainly consists of a half-wave rectifier with an integrated freewheeling circuit. 6 and 7. (Overexcitation factor of 2. In this case. To ensure the unit switches with over-excitation and. GP rectifiers mainly consist of two half-wave rectifiers which are connected depending on the winding being used.3 seconds to release it and then supplies it with the appropriate holding voltage from a half-wave rectifier. • GS brake rectifiers (high-speed excitation) GS brake rectifiers include a reversible rectifier and are used for ZBA/ZBE motors with brakes as of size B140 as standard. a 2-phase supply at terminals 5 and 6 is sufficient (overexcitation factor 2). The advantage of using a GP brake rectifier compared to a GE module is that no additional cables are required for the power supply. indd SE modules must not be used in the delta jumper for single-speed motors. GS and GP brake rectifiers. which enables a short brake application time to be achieved. GS or GP modules with the correct assignment. SE current relays are connected to one motor current phase. We recommend the use of VE voltage relays for these applications SE modules must not be used in the delta jumper for single-speed motors If the brake is to be released without motor current. The GF module must not be used together with an inverter (due to motor current detection) and may only be supplied with voltages between 220 and 500 V AC. • Switch-off in the DC circuit by means of integrated motor current detection. but may also be alternatively used in a switchgear cabinet. • Protection of the low-speed winding by means of an integrated varistor set. • GU brake rectifiers (normal excitation) GU brake rectifiers can be used as an option for brakes with a separate AC power supply up to brake size B050. the relay demagnetizes the brake by opening the contact in the DC circuit. • SE current relays (motor current-dependent high-speed trip relay) SE current relays can be combined with GE. the GF module opens the DC circuit of the brake. 322 2031505c_de_300812. . They are fitted in the brake motor terminal box as standard. it is also recommended that the VE module be used instead of the SE. They are used for rapid demagnetization of the brake to achieve fast brake application times without the need for additional wiring for brake switch-off in the DC circuit. GF module function: • Normal excitation of the brake similar to GP modules. The motor current that flows through the module from terminal 3 to 4 is detected for fast cut-off. The brake coil then has to be protected in the motor terminal box against cut-off voltage peaks by a varistor. SE current relays can be used for rated motor currents up to 50 A.• GF brake rectifiers (normal excitation) The GF combination module combines three functions in one unit and is supplied together with the motor winding. The brake is switched on and off in the DC circuit. As standard. Operation together with inverters is not permitted. The brake rectifier is controlled direct by means of a 24V/DC switching signal from an installation or a frequency inverter. When the motor is switched off. the GF brake rectifier is used for ZBF pole-changing motor frame sizes 63 – 100 up to brake size B050. 5 The brake application times correspond to those for switch-off in the DC circuit via a contact. It is not necessary to control the brake via the AC supply of the module with the associated additional cabling and wiring requirement. When a specific level is no longer attained. The grey and white connecting cables of the SE module must be connected to terminals 3 and 4 of the GE. 109 19 . VE voltage relays are connected to the brake power supply.225 Voltage relay VE 2A Current relay SE 2 A Modules 2031505c_de_300812.225 GE [1. They are used for high-speed demagnetization of the brake to achieve fast brake application times without the need for additional wiring for brake switch-off in the DC circuit.500 U DC [V] 19 .500 86 . GS. The red.225 220 .0 A] GP [3. The contact in the DC circuit is opened when the brake is switched off.0 A] B280 B680 1) 1) GS [1.500 99 .500 50 .500 99 .5 A] GS [1.5 A] GS [1.225 117 .225 GF [0. GU brake rectifiers.0 A] 190 .225 1) U AC = U DC = 1) Only for use with ZBF motors! 2) Optional for brakes with separate AC power supply B280 B680 190 .49 GE [3. blue and white connecting cables of the VE module must be connected to terminals 1. Brake control module fields of application GE.5 A] GP [1.500 260 .0 A] 5 GS [1. GP.5 A] GP [1.500 86 . These modules may preferably be used for inverter-fed motors and for brake release without motor current. GS and GP brake rectifiers.0 A] SE and VE switch-off modules Brake voltage Brake size B003 B007 B050 B140 1) U AC [V] 42 . In contrast to SE current relays.8 A] 1) 220 . 3 and 4 of the GE or GS modules with the correct assignment.• VE voltage relays (voltage-dependent high-speed trip relay) VE voltage relays can be combined with GE.225 50 .500 117 . VE voltage relays must only be used for brakes with a separate power supply.500 110 .225 GU [0.8 A] 2) B003 B007 B020 B050 B140 GE [1. GE and VE brake modules should be used for separate AC brake power supply in combination with ZBF motors.0 A] 110 . GF combined module Brake voltage Brake size U AC [V] U DC [V] 42 .225 260 .indd B020 Brake control module input voltage Output voltage of the brake control module – Brake supply voltage 323 . 149 260 902 84 150 .Overexcitation factor of 2 3 leads ... 260 864 84 SE 260 870 84 260 896 84 5) Power supply via a separate DC source is possible without limitation..5 A] GE [1.2 ....500 GS GE [1.2 mA) from an installation or a frequency inverter Overexcitation factor: 2 or 2. 500 2 260 896 84 VE 260 901 84 42 .189 – – – 190 ..500 GS – – 5) 7) 1) 2 leads .5 A] + SE 4) 42 .5 3 Remark 260 891 84 42 . 500 GS 260 894 84 110 ..8 0.3 Nm) 8) 20 Nm 5.. 4 A 2) 0.Overexcitation factor of 2. 50 A 2) 1) 2 Brake selection table Brake B003 B007 B020 B050 5 B140 B280 B680 Assigned standard modules Supply voltage ZBA/ZBE U AC [V] Single speed or polechanging Single speed 42 .5 required for ZBA/ZBE motors from brake size B 140 2) Standard . 500 1.109 GE [3 A] GE [3 A] + SE 4) 110 . Voltage range: 19 .500 GE [1..Rated current of motor is equal to or smaller than the higher value of the SE current relay specified under “control current range” (single-phase motor current) 3) Voltage range dependent on the brake size.6 Nm (2. 10.225 V DC 8) For ZBF travel motors fitted with the B003 as standard..109 GE [3 A] GE [3 A] + SE 4) 110 .5 260 890 84 42 ... continuous brake direct current I [A] 260 892 84 110 .... 500 0..109 GE [3 A] GE [3 A] + SE 4) 110 . 324 2031505c_de_300812. 16 A 2) 1..Brake control modules technical data Module GE GP Order no.5 A] + SE 4) 42 ..5 A] GE [1.. 500 1.5 A] + SE 4) 42 .5 260 864 84 SE 260 870 84 42 .5 A] + SE 4) GP [1..5 Nm 7.500 GE [1..25 .5 A] + SE 4) Standard brake torque ZBF ZBA/ZBE ZBF 2.5 Nm 2.indd Motor rated current ...100 GU 260 957 84 220 .25 . Voltage range U AC [V] Max.109 GE [3 A] GE [3 A] + SE 4) 110 ..8 GU module controlled direct with a 24 V/DC switching signal (Iswitch: approx.109 – – – 110 ...225 V DC 6) GF modules have a limited voltage range: 220 .5 A] + SE 4) GF 6) 42 .5 A] GE [1.500 GS – – 42 . 500 0.5 Nm 50 Nm 13 Nm 140 Nm 37 Nm 280 Nm – 680 Nm – Remark Pole-changing 42 . 500 0.500 GE [1. 16 A for ZBF 63 .500 GE [1.500 V AC 7) Power supply via a separate DC source is not possible..4 . Exception: B140 brake with brake torque ≤ 37 Nm voltage range: 19 .5 A] GE [1. see “Brake control module fields of application” table 4) SE modules are assigned in accordance with the motor rated current IN as shown below: Module IN ≤ 4 A IN ≤ 16 A IN ≤ 50 A Order no. size B007 is used for the manual brake release and/or brake monitoring options. 500 3) 1 GF 260 943 84 220 . 500 3 260 893 84 110 .259 – – – 260 . GU) t23 = Brake application time for switch-off in the DC circuit (SE. 325 . t11 = Brake release time with normal excitation (GE. GF. these values change.indd Brake release times may be reduced using GS high-speed excitation modules. GU) 2) t21 = Brake application time for switch-off in the AC circuit 5 t12 = Brake release time with high-speed excitation (GS) 2) t22 = Brake application time for switch-off in the DC circuit (contact.5. 2) Definition: The brake release time is the period which elapses until the full motor acceleration torque is attained. VE. Brake sizes B140 to B680 are generally controlled using the GS rectifier on the ZBA/ZBE motor. size B007 is used for the manual brake release and/or brake monitoring options. In the case of lower brake torques.7 Electrical connection. This enables a higher voltage to be temporarily applied to the brake coil when the brake is turned on and the magnetic field is built up more quickly.3. brake operation times Depending on the type of connection. the release and braking operation of B003 to B680 DC brakes can generally be characterized by the following values: ZBA/ZBE motor brake operating times Size Release times [ms] Application times [ms] t11 t12 t21 t22 t23 B003 75 60 175 55 75 B007 120 60 90 30 40 B020 130 90 40 20 30 B050 120 100 90 30 60 B140 – 110 60 30 40 B280 – 140 300 90 130 B680 – 140 300 150 190 ZBF motor brake operating times Size Release times [ms] Application times [ms] t11 t12 t21 t22 B003 75 60 175 55 75 B007 1) 60 35 200 30 40 B020 60 40 300 50 60 B050 80 65 300 60 70 B140 110 90 350 100 100 t23 The specified brake release and application times are guide values for the maximum brake torque. GF) 2031505c_de_300812. 1) For ZBF travel motors fitted with the B003 as standard. particularly for t21 switch-off in the AC circuit. GP. indd 5 Different de-excitation periods result according to the connection. Demag rectifiers are protected against overvoltage at the switching contact by varistors. hoists. The magnetic field rapidly decreases and the brake torque rapidly rises. • Connection in the DC circuit: The coil circuit is interrupted when the brake module contact opens at the relevant connection. • Connection in the motor circuit: The rectifier is connected direct to the motor terminals. this type of connection is not suitable for drives with overhauling loads. These times depend on the one hand on the selected brake torque and. The braking operation begins more smoothly. e. an inductive coil current continues to flow through the rectifier diodes for a short time.e.g. When the motor is switched off. i. This connection type is not suitable for hoist drives. on the supply side before the rectifier. and may not be used in these applications. on the brake connection. The magnet field decreases more slowly. 326 2031505c_de_300812. . the residual motor voltage results in significantly longer switch-off times compared to switch-off in the AC circuit.Brake application times are highly dependent on the way in which the brake is switched off. • Connection in the AC circuit: When the brake voltage is switched off. Interruption of the DC circuit between the module and the coil connections is not permitted. Unless provided with additional switch-off in the DC circuit using a contact or by the SE current relay. more decisively. see section 5. yes Motor for one voltage Table 4 no no Drive Designer two speed nos. yes Motor for one voltage Table 1 no no Drive Designer Table 2 two speed nos.3. 5 Motor Table 6 Drive Designer 327 . ZBA (B140-B680) ZBE (B140-B680) Table 5 yes Motor for one voltage 2031505c_de_300812. ZBA (B003-B050) ZBE (020-B050) ZBF (B003-B140) no yes Separate DC supply to the brake coi yes Table 3 no yes one speed no.5.3.indd no 1) Brake control modules in the terminal box. except in the case of a separate DC power supply.9 Select the circuit diagram 1) yes ZNA. ZNE one speed no. ZB.8 Block diagrams for line-fed operation Inverter operation. B050) . The relevant circuit diagrams can be found below the tables. Table 1 ZNA/ZNE motor not fitted with brake Switch-off Switching element Power supply Motor design 1 speed D/Y 1) – – – 101 Switch-off Switching element Power supply Motor design 2 speeds Y/Y – – – 102 Table 2 ZNA motor not fitted with brake Table 3 ZBA (B003 .B050) / ZBF (B003 .indd ZBA (B003 .B050) / ZBE (B020 .B050) / ZBF (B003 .B140) Switch-off Switching element Power supply Motor design 1 speed ∆/Y 1) Motor design 2 speeds Y/Y No control module in terminal box 2) DC circuit contact separate 115 116 Table 4 ZBA (B003 .B050) SE AC circuit Motor circuit 328 contact – 1) See Drive Designer for Δ connection 2) Brake coil protected by an additional varistor in the terminal box.B050) contact Motor circuit – common 111 111 – separate Drive Designer Drive Designer – common 126 126 – 5 AC circuit Table 5 ZBA (B003 .B050) / ZBF (B003 .B140) Switch-off Switching element contact DC circuit SE VE ZB. (B003 .B050) / ZBE (B020 . (B003 .The following tables contain the allocation of block diagram numbers (e.g.B050) Motor design 1 speed D/Y Power supply 1) GE GS common 110 110 GU – separate 112 112 128 common 114 114 – separate Drive Designer Drive Designer – separate 113 113 – ZBA (B003 .B050) / ZBE (B020 .B140) Switch-off Switching element Motor design 2 speeds Y/Y Power supply GE GS GP GF GU common Drive Designer Drive Designer 106 – – separate 104 104 – – 128 common – – 109 – – separate Drive Designer Drive Designer – – – VE separate 105 105 – – – Internal common – – – 127 – common Drive Designer Drive Designer 108 – – separate Drive Designer Drive Designer – – – common – – Drive Designer – – contact DC circuit ZB. 2031505c_de_300812. 101). Table 6 ZBA (B140 .B680) Switch-off Switching element Power supply Motor design 1 speed D/Y 1) Motor design 2 speeds Y/Y GS contact DC circuit SE VE AC circuit contact Motor circuit – common 121 117 separate 123 119 common 125 – separate Drive Designer Drive Designer separate 124 120 common 122 118 separate Drive Designer Drive Designer common Drive Designer – Block diagrams for controlling the cylindrical rotor motors not fitted with a brake 020 323 84 S 101 020 332 84 S 102 1L1 1L2 1L3 Counter-clockwise rotation Counter-clockwise rotation 5 Clockwise rotation 1L1 1L2 1L3 Clockwise rotation Switchgear cabinet Switchgear cabinet Motor Low speed U1 V1 High speed W1 1U M 2031505c_de_300812.eps 2U 2V 2W 41893644.B680) / ZBE (B140 .eps Motor for 1 line voltage with 2 speeds and 2 windings with Y/Y connection 329 .indd W2 U2 1W M 3~ PE 1V Motor 3~ PE V2 Motor for 1 line voltage or for 2 line voltages (1 : √3) with 1 speed and 1 winding with Y connection 41893444. Block diagrams for controlling cylindrical rotor motors fitted with a DC brake GE: 037 860 84 SBG GS: 037 886 84 SBG 104 1L1 1L2 1L3 GE: 037 862 84 SAG GS: 037 888 84 SAG 105 1L1 1L2 1L3 2L1 2L2 Clockwise rotation Counterclockwise rotation 2L1 2L2 Clockwise rotation Counterclockwise rotation Switchgear cabinet Low speed 1V PE 2U 1W M 3~ 402 401 High speed Motor Low speed High speed 1U 1V 1W 402 401 M 3~ PE 2V 2W 2U 2V 2W 41893844. Switch-off in the DC circuit with a contact in the switchgear cabinet. 2031505c_de_300812. Motor for 1 line voltage with 2 speeds and 2 windings with Y/Y connection. Switch-off in the AC circuit with a contact in the switchgear cabinet.eps Motor for 1 line voltage with 2 speeds and 2 windings with Y/Y connection. Switch-off in the DC circuit with a contact in the switchgear cabinet. 330 Motor 2V 2W 41894144. 106 108 037 872 84 SAW 5 1L1 1L2 1L3 1L1 1L2 1L3 Clockwise rotation Counterclockwise rotation Clockwise rotation Counterclockwise rotation Switchgear cabinet Switchgear cabinet Low speed GP 7 6 5 4 3 1U 1V 1W M 402 401 BD2 BD1 2 1 ~ High speed Motor 2U 2V Low speed GP 7 6 5 ~ ~ 4 3 - + 1U 1V 1W M 3~ PE 2U 41894044.eps Motor for 1 line voltage with 2 speeds and 2 windings with Y/Y connection.eps 402 401 BD2 BD1 2 1 ~ High speed Motor ~ ~ - + 3~ PE 2W Motor for 1 line voltage with 2 speeds and 2 windings with Y/Y connection. Switch-off in the DC circuit with VE module.eps 42506544.indd 1U GE/GS 7 6 ~ 5 ~ 4 3 2 1 + Switchgear cabinet . GE: 037 875 84 SBG GS: 037 892 84 SBG 112 1L1 1L2 1L3 1L1 1L2 1L3 2L2 5 2L1 Clockwise rotation Counter-clockwise rotation Clockwise rotation Counter-clockwise rotation Switchgear cabinet Switchgear cabinet Motor Motor GE/GS 7 6 5 4 3 2 U1 V1 402 W1 M BD2 401 1 GE/GS 7 6 5 4 3 2 ~ ~ + U1 BD1 W2 U2 W1 M 3~ PE V1 401 BD2 BD1 1 + 3~ PE V2 402 ~ ~ W2 V2 U2 41894544. Motor for 1 line voltage with 1 speed and 1 winding with Y connection. GE: 037 875 84 SAW GS: 037 892 84 SAW 111 41894344.eps Motor for 1 line voltage with 1 speed and 1 winding with Y connection.indd 41894444.eps Motor for 1 line voltage with 2 speeds and 2 windings with Y/Y connection. Switch-off in the DC circuit with a contact in the switchgear cabinet.eps Motor for 1 line voltage with 1 speed and 1 winding with Y connection. Switch-off in the DC circuit with a contact in the switchgear cabinet.eps 2031505c_de_300812. 331 .Block diagrams for controlling cylindrical rotor motors fitted with a DC brake 037 873 84 SAG 109 GE: 037 875 84 SAG GS: 037 892 84 SAG 110 1L1 1L2 1L3 1L1 1L2 1L3 Clockwise rotation Counterclockwise rotation Clockwise rotation Counter-clockwise rotation Switchgear cabinet Switchgear cabinet Motor Low speed BK BK GP SE GY ~ 7 WH 6 1U 1W M 402 401 BD2 BD1 Motor GE/GS 7 ~ 6 5 4 3 2 ~ 5 4 3 1V High speed - 2 1 + U1 2U 2W 402 401 BD2 BD1 1 + 3~ PE 2V W1 M 3~ PE V1 ~ ~ W2 U2 V2 41894244. Switch-off by in the AC circuit with a contact in the switchgear cabinet. Switch-off in the DC circuit with SE module. Block diagrams for controlling cylindrical rotor motors fitted with a DC brake 113 1L1 1L2 1L3 2L1 GE: 037 876 84 SAG GS: 037 893 84 SAG 2L2 GE: 037 882 84 SAG GS: 037 894 84 SAG 114 1L1 1L2 1L3 Clockwise rotation Counter-clockwise rotation Clockwise rotation Counter-clockwise rotation Switchgear cabinet Switchgear cabinet Motor VE RD Motor GE/GS 7 6 5 4 BU WH 3 2 1 X1 ~ ~ ~ BK BK V1 W1 M U1 402 401 BD2 BD1 W2 U2 V1 W1 M 402 401 BD2 BD1 1 ~ ~ + 3~ PE W2 3~ PE 7 6 5 4 3 2 WH + RD U1 GE/GS SE GY - U2 V2 41894844.eps 41894644.eps V2 Motor for 1 line voltage or for 2 line voltages (1 : √3) with 1 speed and 1 winding with Y connection. Switch-off in the DC circuit with VE module. 037 897 84 SE 115 Motor for 1 line voltage with 1 speed and 1 winding with Y connection. Switch-off in the DC circuit with SE module. 037 898 84 SE 116 1L1 1L2 1L3 L+ L- L+ L- 5 1L1 1L2 1L3 Clockwise rotation Counter-clockwise rotation Counter-clockwise rotation Clockwise rotation Switchgear cabinet Switchgear cabinet Motor Low speed High speed Motor Brake varistor W1 M 401 402 BD1 BD2 1V 1U SP1 SP2 M W2 2U V2 U2 41895044.eps Motor for 1 line voltage or for 2 line voltages (1 : √3) with 1 speed and 1 winding with Y connection. Switch-off in the DC circuit. 332 401 402 BD1 BD2 Brake varistor 3~ PE 3~ PE 1W 2V 2W 41895144.eps Motor for 1 line voltage with 2 speeds and 2 windings with Y/Y connection. Switch-off in the DC circuit. 2031505c_de_300812.indd U1 V1 Block diagrams for controlling cylindrical rotor motors fitted with a DC brake 038 001 84 SAG 117 038 001 84 SAW 118 1L1 1L2 1L3 1L1 1L2 1L3 Counterclockwise rotation Clockwise rotation Counterclockwise rotation Switchgear cabinet Low speed GS 1V 1U 1W M 402 401 BD2 BD1 7 6 5 4 3 2 1 ~ ~ ~ High speed Motor Switchgear cabinet Low speed - + 1V 1U 2U 2V 1W M 3~ PE GS 2U 41895244.eps Motor for 1 line voltage with 2 speeds and 2 windings with Y/Y connection. Switch-off in the DC circuit with a contact in the switchgear cabinet. 038 001 84 SBG 119 401 BD2 BD1 2V High speed 41895344.eps Motor for 1 line voltage with 2 speeds and 2 windings with Y/Y connection. Switch-off in the AC circuit with a contact in the switchgear cabinet. 038 003 84 SAG 120 2L1 2L2 2L3 Counterclockwise rotation 2L1 2L2 2L3 Clockwise rotation Counterclockwise rotation Clockwise rotation Switchgear cabinet Switchgear cabinet Low speed GS 1V 1U 1W M 402 401 BD2 BD1 7 6 5 4 3 2 1 ~ ~ ~ High speed Motor High speed Low speed 2U 2V Motor for 1 line voltage with 2 speeds and 2 windings with Y/Y connection. Switch-off in the DC circuit with a contact in the switchgear cabinet. 41895544.eps 3~ PE 401 1W M 41895444.eps 2U 2031505c_de_300812.indd 402 1V 1U 2W Motor + 3~ PE Motor + 2W 1L1 1L2 1L3 1L1 1L2 1L3 ~ ~ ~ 3~ PE 2W 402 7 6 5 4 3 2 1 5 Clockwise rotation 2V 2W Motor for 1 line voltage with 2 speeds and 2 windings with Y/Y connection. Switch-off in the DC circuit with VE module. 333 Block diagrams for controlling cylindrical rotor motors fitted with a DC brake 038 006 84 SAG 121 038 006 84 SAW 122 1L1 1L2 1L3 1L1 1L2 1L3 Clockwise rotation Counter-clockwise rotation Clockwise rotation Counter-clockwise rotation Switchgear cabinet Motor GS U1 V1 W1 M 402 401 BD2 BD1 7 6 5 4 3 2 1 Switchgear cabinet + V1 U1 W2 U2 W1 M 3~ PE W2 41895644.eps Motor for 1 line voltage with 1 speed and 1 winding with Y connection. Switch-off in the DC circuit interruption with a contact in the switchgear cabinet. 038 006 84 SBG 1L1 1L2 1L3 2L1 2L2 2L3 402 401 BD2 BD1 U2 V2 ~ ~ ~ + 41895744.eps Motor for 1 line voltage with 1 speed and 1 winding with Y connection. Switch-off by in the AC circuit with a contact in the switchgear cabinet. 038 007 84 SAG 124 1L1 1L2 1L3 2L1 2L2 2L3 Clockwise rotation Counter-clockwise rotation 5 Clockwise rotation 7 6 5 4 3 2 1 3~ PE V2 123 Motor GS ~ ~ ~ Counter-clockwise rotation Switchgear cabinet Switchgear cabinet Motor Motor GS V1 W1 M 402 401 BD2 BD1 ~ ~ ~ + V1 U1 M 3~ PE W2 U2 V2 41895844.eps 3~ PE W2 Motor for 1 line voltage with 1 speed and 1 winding with Y connection. Switch-off in the DC circuit interruption with a contact in the switchgear cabinet. 334 W1 U2 402 401 41895944.eps V2 Motor for 1 line voltage or for 2 line voltages (1 : √3) with 1 speed and 1 winding with Y connection. Switch-off in the DC circuit with VE module. 2031505c_de_300812.indd U1 7 6 5 4 3 2 1 Block diagrams for controlling cylindrical rotor motors fitted with a DC brake 038 008 84 SAG 125 GE: 037 875 84 SAM GS: 037 892 84 SAM 126 1L1 1L2 1L3 1L1 1L2 1L3 Clockwise rotation Counter-clockwise rotation BK BK V1 U1 W1 M Switchgear cabinet Switchgear cabinet Motor Motor WH 402 401 BD2 BD1 7 6 5 4 3 2 1 GE/GS 7 ~ ~ ~ + U1 W2 U2 V1 W1 M 3~ PE Counter-clockwise rotation GS SE GY Clockwise rotation W2 41896044.eps 401 BD2 BD1 ~ ~ + 3~ PE V2 402 6 5 4 3 2 1 U2 V2 42202344.eps Motor for 1 line voltage with 1 speed and 1 winding with Y connection. Switch-off in the DC circuit with SE module. Motor for 1 line voltage with 1 speed and 1 winding with Y connection. Motor current switch-off. 127 128 410 050 84 SW Clockwise rotation Counter-clockwise rotation 5 1L1 1L2 1L3 Clockwise rotation Counter-clockwise rotation Switchgear cabinet Switchgear cabinet Low speed Motor Motor A 1U 1V M 3~ PE 2U 2031505c_de_300812.indd Low speed 2V 1W 402 401 BD2 BD1 GF 7 6 5 4 3 2 1 + 402 401 M 42506444.eps 3~ 42691744.eps 2W Motor for 1 line voltage with 2 speeds and 2 windings with Y/Y connection. Switch-off in the internal DC circuit in the GF module. Motor for 1 or 2 line voltages with 1 or 2 speeds and 1 or 2 windings with ∆/Y or Y/Y connection. Switch-off in the internal DC circuit in the GU module. 335 5.3.9 Block diagram for inverter operation Select the circuit diagram1) ZNA / ZNE Motor Table 7 ZBA ZBE ZBA (B003 - B680) ZBE (B020 - B680) Separate AC supply yes Table 8 no Separate DC supply Table 9 Slides in 2031505c_DE.wmf Table 7 Motor design with 1 speed ZNA/ZNE motor not fitted with brake for inverter operation Δ/Y YY/Y 201 Drive Designer Table 8 ZBA / ZBE motor for inverter operation. 5 Separate brake module AC voltage Switch-off Switching element contact DC circuit VE AC circuit contact Motor design with 1 speed Brake size Δ/Y YY/Y GE GS GU GE GS ZBA (B003 - B050) ZBE (B020 - B050) 202 202 209 Drive Designer Drive Designer ZBA (B140 - B680) ZBE (B140 - B680) – 206 – – Drive Designer ZBA (B003 - B050) ZBE (B020 - B050) 204 204 – Drive Designer Drive Designer ZBA (B140 - B680) ZBE (B140 - B680) – 208 – – Drive Designer ZBA (B003 - B050) ZBE (B020 - B050) 203 203 – Drive Designer Drive Designer ZBA (B140 - B680) ZBE (B140 - B680) – 207 – – Drive Designer Table 9 ZBA / ZBE motor for inverter operation. 336 Motor design with 1 speed Switch-off Switching element Brake size DC circuit contact ZBA (B003 - B050) ZBE (B020 - B050) 1) Brake control modules in the terminal box, except in the case of a separate DC power supply. 2) Brake coil protected by an additional varistor in the terminal box. No control module in terminal box 2) Δ/Y YY/Y 205 Drive Designer 2031505c_de_300812.indd Separate brake coil DC voltage Circuit diagrams for controlling the cylindrical rotor motors for inverter operation 023 323 84 SU 201 GE: 037 875 84 DUG GS: 037 892 84 DUG 202 1L1 1L2 1L3 1L1 1L2 1L3 ~ ~ ~ Switchgear cabinet 2L1 2L2 ~ Switchgear cabinet Motor GE/GS Motor 7 6 ~ 5 ~ 4 3 2 V1 U1 W1 U1 W1 M M 3~ PE V1 PE 42202044.eps W2 U2 V2 402 401 BD2 BD1 1 + 3~ 42202144.eps W2 U2 V2 Motor for 2 line voltages (Δ/Y) with one speed. Connect the motor with Δ or Y connection according to the inverter settings. Switch-off in the ΔC circuit with a contact in the switchgear cabinet. Motor for 2 line voltages (Δ/Y) with one speed. Connect the motor with Δ or Y connection according to the inverter settings. Motor not fitted with a brake. GE: 037 875 84 DUW GS: 037 892 84 DUW 203 2L1 2L2 ~ ~ ~ 5 1L1 1L2 1L3 GE: 037 876 84 DUG GS: 037 893 84 DUG 204 ~ Switchgear cabinet Switchgear cabinet Motor Motor GE/GS 7 6 5 4 3 2 U1 V1 W1 M PE 402 401 BD2 BD1 1 ~ ~ + 402 M 3~ 42202244.eps W2 U2 V2 2031505c_de_300812.indd 401 Motor for 2 line voltages (Δ/Y) with one speed. Connect the motor with ∆ or Y connection according to the inverter settings. Switch-off in the AC circuit with a contact in the switchgear cabinet. 3~ 42202444.eps Motor for 2 line voltages (Δ/Y) with one speed. Connect the motor with ∆ or Y connection according to the inverter settings. Switch-off in the DC circuit with VE module. 337 Circuit diagrams for controlling the cylindrical rotor motors for inverter operation 037 899 84 SEU 205 L+ L- 1L1 1L2 1L3 ~ 038 006 84 DUG 206 1L1 1L2 1L3 ~ ~ Switchgear cabinet 2L1 2L2 2L3 ~ Switchgear cabinet Motor 7 6 5 4 3 U1 V1 W1 M PE 402 401 BD1 BD2 2 Brake varistor V1 U1 PE 42202544.eps Motor for 2 line voltages (∆/Y) with one speed. Connect the motor with ∆ or Y connection according to the inverter settings. Switch-off in the DC circuit. 038 006 84 DUW 5 207 W1 M SP1 SP2 3~ U5 V5 W5 U2 V2 W2 ~ 402 401 BD2 BD1 1 ~ ~ ~ + 3~ 42202644.eps W2 U2 V2 Motor for 2 line voltages (∆/Y) with one speed. Connect the motor with ∆ or Y connection according to the inverter settings. Switch-off in the DC circuit with a contact in the switchgear cabinet. 038 007 84 DUG 208 ~ ~ Motor GS ~ Switchgear cabinet Switchgear cabinet Motor Motor M M 42202744.eps Motor for 2 line voltages (∆/Y) with one speed. Connect the motor with ∆ or Y connection according to the inverter settings. Switch-off in the AC circuit with a contact in the switchgear cabinet. 338 3~ 42202844.eps Motor for 2 line voltages (∆/Y) with one speed. Connect the motor with ∆ or Y connection according to the inverter settings. Switch-off in the DC circuit with VE module. 2031505c_de_300812.indd 3~ Circuit diagrams for controlling the cylindrical rotor motors for inverter operation 038 007 84 DUG 209 ~ ~ Switchgear cabinet Motor M 3~ 42691644.eps 2031505c_de_300812.indd 5 Motor for 2 line voltages (∆/Y) with one speed. Connect the motor with ∆ or Y connection according to the inverter settings. Switch-off in the DC circuit with GU module. 339 30 1.0 0200 · B140 0. the remaining thickness bmin.40 1. the guide pins feature an easily visible marking which clearly indicates the minimum dimension.2 3. 2031505c_de_300812. a maintenance and spare part set is available which not only contains the brake disk. For B007 to B680. The brake disk must be replaced when this mark is reached.30 0.40 1.2 8.30 0.65 1.65 1.5 1000 · 106 106 – – B280 0.00 1.10 Adjustment and maintenance Apart from wear.30 – 10 1500 · B680 0.5 0160 · B007 0.2 7.30 – 11 2500 · 106 s min = Minimum air gap s max = Maximum air gap b min = Minimum remaining brake disk thickness WN = Braking work until readjustment 340 When DC brakes B003 to B680 have been adjusted several times. It is advisable to check the air gap at specific intervals and to adjust it as necessary to ensure the brake releases reliably. The asbestos-free brake lining is designed in such a way that worn surface particles are given off as minimum abrasion. The following table contains values for adjusting the air gap and braking work until the brake is adjusted. .0 0100 · 106 250 · 106 B020 0.2 6.5.30 1. For this purpose. but also the required small parts and installation instructions. Air gap values and braking work Size s min [mm] s max [mm] ZBA / ZBE ZBF b min [mm] WN [Ws] ZBA / ZBE ZBF 106 200 · 106 B003 0. the brake is virtually maintenance-free.2 5. The brake disk can be freely turned when the brake is released (power applied to brake coil).0 0120 · 106 300 · 106 106 500 · 106 1000 · 106 B050 0.30 0.indd 5 Only guide values can be given for braking work WN until readjustment.65 1. This depends on the brake operating conditions. of the brake disk must also be checked.3. This necessary regeneration process ensures constant braking characteristics.35 1. 2. B6. 80. V1. V19 Rating class A. 160. V6. 12/2. B8. only needs to be specified for solo motors B3. of poles 2. 112. 100. 4. B5.4. B Motor frame size KBA: 71. 6. 200. 125.eps 341 . 100. B14. 225 KBF: 71. 80. V5. 140 Application code A Motor for general applications F Motor for travel applications Motor design 5 B Motor with brake (KB) Motor type K Conical rotor motor with brake (with no specified brake size) Code example 2031515d_en_300812. 12/4 1 Model design according to DIN EN60034-7.indd KBA 100 A 4 B3 1 42217745.5. 90. 8/2.1 Type designation Terminal box position 0. 180.4 Demag KB conical rotor motors 5. 1. B7. 125. 112. 90. 8. 3 K B A 100 A 4 B3 No. V18. 140. V3. The connection dimensions largely correspond to IEC publication 72-1.eps B6 (B34.2) 42201545. see section 5. B8.2 Designs of Demag KB conical rotor motors The available foot-mounted and flange-mounted types correspond to the overview of models. B6.5) View to determine the terminal box position Terminal box position according to model code B3 342 42201746.2) (B35.eps 2031515d_en_300812.4.3) 42201645.1. the flangemounted design to DIN 42677.0) (B35. V5. Demag motors are designed with only one shaft end. For additional instructions.5) . Model code for KB solo motors Foot-mounted type B3.indd V5 (V15. B35 B3 (B34.eps B7 (B34.4) (V36.4) (V15.0) 42201345.eps 5 B8 (B34.4. V6 Foot-mounted Combined foot/flange-mounted type B34. B7.5.1) 42201445.3) (B35.1) (B35.eps V6 (V36. The foot-mounted design largely corresponds to DIN 42673.5. V18.Model code for KB solo motors Flange-mounted type B14.eps V1 V3 The terminal box position does not need to be specified for this model design 2031515d_en_300812.eps 5 Model code for KB solo motors Flange-mounted type B5.eps V18 V19 Terminal box position code according to model code B14 The terminal box position does not need to be specified for this model design 42201045.eps 343 .indd Terminal box position code according to model code B5 42201245. V19 Flange-mounted with internal thread B14 42200945. V3 Flange-mounted with through-holes B5 42201145. V1. 0 88 97 20315044_016 Type Standard voltages are 230/400 V 50 Hz.5 28 33 KBA 112 B 2 A 2.0 56 63 KBA 140 B 2 A 7.3.95 4.50 0.87 6.3 KB conical rotor motor technical data 5.00 2.3.0 56 63 KBA 140 B 2 A 9.91 4.2 13 16 KBA 80 B 2 1.80 0.25 2600 4.89 5.7 2850 9.95 4.0 1050 59.00 2770 20.0 111.48 2765 1.0 1500 59.20 2.80 1.10 3.50 3.80 3.0 111.40 0.90 4.87 5.7 4.60 2760 33.82 4.4 3500 10.45 3.85 3.30 3.5 3700 20.4.5 2600 29.20 2.90 0.20 2760 7.5 3200 18.25 3.90 0.2 5000 7.0 88 97 20315044_017 344 1) 2) 3) 4) Light brake disk Heavy brake disk Weight for B14 model Applies for light brake disk 2031515d_en_300812.80 4.65 3.10 4.80 4.8 9.65 2.85 4.40 2770 4.0 1550 46.7 16.65 3.86 4.50 14.5 4.4 3050 5.85 2.50 8.90 7.10 2800 7.88 4.90 0.00 0.00 21.5 73.70 4.5 2300 24.4 4600 4.45 0.60 5.15 4.50 2790 39.50 42.80 10.00 3.1 27.95 3.0 56 63 KBA 125 B 2 7. Efficiency classifications are therefore not available which means that the motors cannot be grouped into IE classes.83 6.25 2640 4.1 27.50 28.4 47.4 47.60 4.95 8.4 10 11 KBA 80 A 2 0.81 6.85 3.90 0.00 2725 10.0 1700 51.55 2820 1.4.1 9 KBA 71 B 2 0.83 6.60 2750 12.80 2780 9.95 2670 3.90 0.00 14.55 42.60 0.0 2050 40.5.35 4.0 1300 40.00 0.2 Key value tables KBA conical rotor motors with one speed 2.30 0.0 40 46 KBA 125 B 2 A 6.5 21 24 KBA 100 A 2 1.80 3.85 1.6 if motors are operated with a voltage and/ or frequency other than that given in the key data tables.8 2550 12.15 8.50 7.4 4000 8.0 111.5 9 KBA 71 B 2 0.5 19 22 KBA 90 B 2 2.80 42.60 2800 5.10 2790 3.5 28.6 16.2 3600 8.65 2650 5.0 3800 14.5 28.75 1.50 5.4.10 0.15 4.5 15 17 KBA 90 A 2 1. PN nN MN IN [kW] [rpm] [Nm] 400 V cosφN IA / IN MA / MN [A] JMot Z0 MBStd Weight [kgm2 x 10-3] [h-1] [Nm] [kg] 1) 2) 4) 3) 1) 2) 10 KBA 71 A 2 0.7 15 17 KBA 90 A 2 1.80 14.90 2700 6.75 2.87 6.35 4.4 47.40 1.20 3.65 1.15 27.5 3500 14.20 5.80 42.35 3.0 26 30 KBA 100 B 2 2.20 7.0 28 33 KBA 112 B 2 A 3. Refer to ‘Conversion of key data for other voltages and frequencies’.4 47.7 13 16 KBA 80 B 2 1.20 0.50 3.72 2810 2.6 9.82 4.90 3.5 73.9 19 22 KBA 90 B 2 1. Standard voltages are 230/400 V 50 Hz.4.40 2690 8.7 16.0 2100 33.45 27.7 2350 12.8 2150 15.5 73.70 0.5 21 24 KBA 100 A 2 2.10 0.60 3. 5.indd 5 2-pole KBA motors 40% CDF .0 3100 21.00 2770 20.82 5.1 2000 3.80 9.50 12.95 8.25 2.60 0. 4.0 111.95 1.5 73.50 19.87 5.0 40 46 KBA 112 B 2 4.7 4. 2-pole KBA motors 100% CDF Type PN nN MN IN [kW] [rpm] [Nm] 400 V cosφN IA / IN MA / MN [A] JMot Z0 MBStd [kgm2 x 10-3] [h-1] [Nm] 1) 2) 4) Weight [kg] 3) 1) 2) 10 KBA 71 A 2 0.50 0.0 1000 67.81 5.50 12.20 0.89 4.90 0.87 7.35 14.50 3.00 0.40 2. 6 and 8-pole Standard voltages are 230/400 V 50 Hz.40 3. as special motors they are not subject to the EuP Directive.70 4.50 16.15 4.10 0.55 4.0 26 30 KBA 100 B 2 3.0 40 46 KBA 112 B 2 3.40 0.1 2900 3.0 88 97 KBA 140 B 2 8.35 27.0 56 63 KBA 125 B 2 6.90 0.10 2.5 3500 24.00 0.85 6.50 6.80 2775 30.40 0.82 5.60 2780 15.1 Energy efficiency guideline for KB motors KB conical rotor motors are manufactured according to energy efficiency criteria.90 5.80 2800 26.0 88 97 KBA 140 B 2 11.50 2720 15.60 1.86 5.00 2.50 2745 12.75 14.70 3. section 5.87 6.8 9.5 4.0 10 11 KBA 80 A 2 1.15 27.25 1.80 0.6 16.40 2775 25.6 9.75 4.91 4. However.76 5.37 2795 1.0 40 46 KBA 125 B 2 A 4. 20 2.65 5.05 1.0 56.7 16.30 17.65 3.4 6.80 20.0 82.0 40.80 4.81 0.0 14 17 KBA 90 A 4 1.00 1355 1340 1365 1370 1370 1390 1405 1420 1420 1425 1410 1410 1435 1430 1445 1445 1460 1455 3.0 30.76 4.0 132.5 23.0 8850 22.9 530.30 12.0 31.00 0.8 2.00 0.0 530.50 20.78 0.0 198.0 132.90 3.00 55.00 0.72 1.20 6.0 650 560.0 84.68 0.76 5.0 5300 46.3 9.5 3.5 9 KBA 71 B 4 0.9 3400 82.75 5.4-pole KBA motors 100% CDF Type Standard voltages are 230/400 V 50 Hz.30 1.9 400.20 MA / MN 2.0 148.40 2.0 775.8 30.9 84.0 62.0 [A] 1.70 0.10 284.50 43.83 6.20 3.95 62.75 2.00 109.0 275.7 14.74 4.00 4.70 0.40 1440 49.68 0.81 4.5 53.83 7.30 1425 15.45 1.0 240 255 KBA 200 B 4 30.00 5.10 2.71 5.0 260.74 0.20 0.69 0.30 21.9 6.0 28 33 KBA 112 B 4 A 2.70 2.indd Cannot be used for hoisting drives with line-fed operation 1) 2) 3) 4) Light brake disk Heavy brake disk Weight for B14 model Applies for light brake disk 345 .4 10.5 50.55 3.80 1425 18.0 38.60 11.4 5.60 4.00 2.1 7.40 9.9 132.7 8.0 94.55 2.0 950 400. PN nN MN IN [kW] [rpm] [Nm] 400 V 0.90 3.4 19250 7.9 4300 69.00 1370 7.10 4.0 132.0 335.80 6.00 1450 99.0 420 450 20315044_018 Type KBA 71 A 4 KBA 71 B 4 KBA 80 A 4 KBA 80 B 4 KBA 90 A 4 KBA 90 B 4 KBA 100 A 4 KBA 100 B 4 KBA 112 B 4 A KBA 112 B 4 KBA 125 B 4 A KBA 125 B 4 KBA 140 B 4 A KBA 140 B 4 KBA 160 B 4 KBA 180 B 4 KBA 200 B 4 KBA 225 B 4 Standard voltages are 230/400 V 50 Hz.50 2.55 2.50 0.0 284.75 0.9 10.65 10.0 610.83 1360 5.95 20.0 20.70 3.1 10 11 KBA 80 A 4 0.73 0.70 0.10 2.5 5850 38.9 5.55 1355 3.25 2.83 7.10 0.0 57 64 KBA 140 B 4 A 7.5 53.72 0.50 0.78 0.30 0.60 3.78 5.81 0.0 215.95 2.0 48.65 0.90 7.1 11.20 4.2 6.6 1.5 19.65 4.20 1.30 2.0 13500 12.00 40.0 10.75 2.5 12.60 0.6 4.75 0.9 19.0 17.0 4450 51.5 13.0 20 24 KBA 100 A 4 1.10 2.0 275.50 5.5 20.40 2.3 20.40 3.0 2) 4.0 800 178.0 1415.30 2.4 13800 14.0 Weight [kg] 1) 9 10 13 14 18 20 25 28 37 37 57 57 88 88 165 240 320 420 3) 2) 10 11 15 17 22 24 30 33 43 43 64 64 96 96 176 255 340 450 5 4-pole KBA motors 40% CDF 20315044_019 2031515d_en_300812.05 148.0 430.0 2300 130.00 3.5 4.0 25 30 KBA 100 B 4 2.00 1455 144.0 20.72 3.90 JMot Z0 MBStd [kgm2 x 10-3] [h-1] [Nm] 4) 10650 14900 9850 10400 5950 6500 3850 3700 3000 2800 2600 2300 1800 1650 600 850 550 520 6.75 2.0 720.50 2.8 7.00 cosφN 0.0 1415.73 5.60 4.15 6.0 18 22 KBA 90 B 4 1.00 7.60 4.0 132.10 4.5 10.50 3.0 53.85 2.25 39.0 5650 29.9 1.00 62.0 30.05 4.10 0.00 8.20 0.0 165 176 KBA 180 B 4 22.0 1150 280.0 84.0 30.80 5.70 9.0 39.65 5.0 37 43 KBA 125 B 4 A 4.20 5.95 3.5 17.72 4.20 3.20 39.00 62.55 5.50 1425 23.73 5.40 2.8 12.0 24. PN nN MN IN [kW] [rpm] [Nm] 400 V cosφN IA / IN MA / MN [A] JMot Z0 MBStd [kgm2 x 10-3] [h-1] [Nm] 1) 2) 4) Weight [kg] 3) 1) 2) 10 KBA 71 A 4 0.0 1) 1.40 0.05 12.0 130.00 28.70 1415 38.7 3.0 77.48 0.0 166.80 4.50 0.0 10.00 0.50 0.0 31.95 2.0 29.0 88 96 KBA 140 B 4 8.0 84.9 10.00 1460 275.90 1405 12.20 3.05 2.0 775.0 3.25 2.85 2.0 57 64 KBA 125 B 4 5.65 2.40 3.55 2.0 13 15 KBA 80 B 4 1.0 58.00 30.25 400.50 0.65 2.5 1.10 13.0 360.4 18.1 14600 5.40 3.1 4.60 1420 31.00 2.0 64.81 IA / IN 2.0 68.2 18.25 6.35 720.0 88 96 KBA 160 B 4 15.5 9.0 3100 107.5 39.0 320 340 KBA 225 B 4 42.50 6.81 0.0 37 43 KBA 112 B 4 3.70 0.0 62.5 8050 18.25 1375 8.71 0.37 1370 2.5 53.0 46.80 1440 58.69 3.7 4.35 3.70 3.00 79.7 3.75 2.0 82.55 1400 10.00 1460 196. 0 775.70 4.00 870 900 875 930 900 935 940 935 945 920 915 935 935 955 965 965 960 3.0 20 24 KBA 100 A 6 1.20 0.0 84.59 0.0 718.0 275.8 30.0 610.0 183.55 1.25 3.05 2.57 0.9 0.10 2.0 165 176 KBA 180 B 6 14.50 2.5 53.10 2.60 2.70 6.0 130.0 8550 29.7 3.0 24.0 53.75 0.2 3.4 25100 6.00 960 99.20 39.74 4.0 88 96 KBA 140 B 6 5.0 38.40 1.50 3.62 2.0 39.0 420 450 20315044_020 6-pole KBA motors 40% CDF Type Standard voltages are 230/400 V 50 Hz.5 53.5 10.73 4.9 132.7 2.62 3.50 0.0 31.80 940 59.18 895 1.5 53.60 6.70 945 47.8 19.00 87.0 440.65 4.70 34.4 18.0 255.0 138.54 2.76 2.0 240 255 KBA 200 B 6 20.60 920 37.60 284.15 2.4 2.45 905 4.0 33.20 940 12.5 19.00 2.90 935 29.0 62.0 8300 41.69 0.9 10.0 47.55 3.20 0.0 37 43 KBA 112 B 6 2.59 0.7 10.50 2.90 4.5 3.90 2.5 38.95 0.0 1600 410.10 4.50 945 15.3 15.0 284.45 0.0 1.0 215.0 1550 500.75 4.70 13.40 4.6-pole KBA motors 100% CDF Type Standard voltages are 230/400 V 50 Hz.50 0.0 28 33 KBA 112 B 6 A 1.15 20.2 14.5 20.4 8.50 2.71 4.1 15200 6.40 0.0 148.25 2.0 25 30 KBA 100 B 6 1.0 400.45 6.74 0.3 4.00 18.80 2.0 320 340 KBA 225 B 6 30.20 19.2 18.70 4.0 63.70 9.30 0.00 0.90 0.35 2.50 0.0 62.0 62.9 6.50 0.indd 20315044_021 .5 9.5 6.27 860 3.5 9350 35.0 10800 12.50 26.74 5.71 0.5 KBA 71 B 6 0.0 9 10 KBA 71 B 6 KBA 80 A 6 KBA 80 B 6 KBA 90 A 6 KBA 90 B 6 KBA 100 A 6 KBA 100 B 6 KBA 112 B 6 A KBA 112 B 6 KBA 125 B 6 A KBA 125 B 6 KBA 140 B 6 A KBA 140 B 6 KBA 160 B 6 KBA 180 B 6 KBA 200 B 6 KBA 225 B 6 0.45 3.0 132.30 5.5 4.0 280.40 2.75 400.20 1.40 2.0 2500 178.2 4.95 12.63 0.5 39.0 94.25 4.8 12.95 1.20 2.68 4.61 0.23 900 2.5 49.64 0.0 78.55 10.62 0.0 275.69 0.95 2.62 0.90 0.40 3.0 530.90 3.00 960 300.35 718.0 4600 107.8 24.20 940 22.00 0.80 0.60 0.20 2.70 2.50 63.0 31.0 59.00 45.50 2.70 6.0 32.9 84.60 0.58 2.0 7000 47.57 2.00 965 198.0 14.90 3.85 2.70 0.8 6.45 1.90 3. PN nN MN IN [kW] [rpm] [Nm] 400 V cosφN IA / IN MA / MN [A] JMot Z0 MBStd [kgm2 x 10-3] [h-1] [Nm] 1) 2) 4) 4.0 10 13 14 18 20 25 28 37 37 57 57 88 88 165 240 320 420 11 15 17 22 24 30 33 43 43 64 64 96 96 176 255 340 450 346 1) 2) 3) 4) Light brake disk Heavy brake disk Weight for B14 model Applies for light brake disk 2031515d_en_300812.60 2.20 6.5 11.60 2.5 9450 17.0 4700 93.00 40.00 970 138.85 148.9 10.50 2.71 5.15 2.0 18 22 KBA 90 B 6 0.78 4.5 29.0 132.0 79.55 3.20 62.4 10.0 84.0 1415.70 5.9 530.73 0.0 88 96 KBA 160 B 6 10.10 62.0 47.74 4.80 2.55 4.1 16200 4.60 890 6.0 17.10 9.80 5.0 37 43 KBA 125 B 6 A 2.10 2.00 15.0 107.6 2.80 940 18.95 910 10.9 19.0 10. PN nN MN IN [kW] [rpm] [Nm] 400 V cosφN IA / IN MA / MN 5 [A] JMot Z0 MBStd [kgm2 x 10-3] [h-1] [Nm] 1) 2) 4) Weight [kg] 3) 1) 2) KBA 71 A 6 0.0 3.0 132.00 1.90 2.5 7.0 57 64 KBA 125 B 6 3.30 12.9 400.20 2.30 4.10 2.25 1.10 0.3 13.0 1415.0 4.9 6800 78.75 940 7.35 2.55 3.20 4.0 1.50 2.55 4.0 84.55 2.50 2.6 10 11 KBA 80 A 6 0.5 21.0 1900 225.25 39.00 0.0 57 64 KBA 140 B 6 A 4.20 20.0 30.0 20300 9550 12900 8150 9700 6450 6650 5300 5250 4600 4750 3000 3200 1500 1400 1200 1200 8.75 2.61 3.35 0.0 20.25 3.05 1.4 Weight [kg] 3) 1) 2) 9 10 KBA 71 A 6 0.15 2.9 7400 66.00 1.60 0.0 12200 23.0 13 15 KBA 80 B 6 0.80 1.0 31.2 6.70 0.95 2.0 775.7 4.4 1.4 16300 14.62 4.10 7.90 0.55 4.50 4.0 14 17 KBA 90 A 6 0. 20 2.10 6.00 30.50 0.00 22.35 700 18.9 7500 48.9 19.0 2300 Weight [kg] 3) 1) 2) 4.55 0.30 0.40 7.70 2.58 0.00 4.85 1.80 2.58 3.0 30.40 9.95 2.90 700 12.40 135.00 2.9 10.30 2.30 0.0 132.0 260.4 10. PN nN MN IN [kW] [rpm] [Nm] 400 V 0.25 2.70 4.0 7200 93.59 0.9 6.40 1.75 2.95 2.85 1.5 39.00 39.51 0.75 2.5 10.60 0.90 1.1 4.70 7.5 22.90 0.05 10.7 14 17 KBA 90 A 8 0.2 18.51 0.20 2.0 57 64 KBA 125 B 8 2.15 2.9 84.50 13.00 24.8 12.00 [A] 1.30 0.30 1.6 9.80 2.8 30.5 53.00 1.30 3.75 2.25 6.10 10.61 3.7 4.30 3.57 3.0 7150 113.10 705 14.20 5.0 88 97 KBA 160 B 8 6.20 2.55 0.0 62.59 2.0 88 97 KBA 140 B 8 4.9 13 15 KBA 80 B 8 0.00 0.50 7.80 710 91.95 2.7 6.00 4.10 3.72 0.0 37 43 KBA 112 B 8 1.65 3.00 1.75 2.60 2.20 0.0 84.5 53.0 132.35 KBA 71 A 8 KBA 71 B 8 KBA 80 A 8 KBA 80 B 8 KBA 90 A 8 KBA 90 B 8 KBA 100 A 8 KBA 100 B 8 KBA 112 B 8 A KBA 112 B 8 KBA 125 B 8 A KBA 125 B 8 KBA 140 B 8 A KBA 140 B 8 0.30 5.5 53.40 0.75 0.0 25 30 KBA 100 B 8 0.15 62.0 58.40 1.50 5. PN nN MN IN [kW] [rpm] [Nm] 400 V cosφN IA / IN MA / MN [A] JMot Z0 MBStd [kgm2 x 10-3] [h-1] [Nm] 1) 2) 4) 4.57 3.15 20.6 10 11 KBA 80 A 8 0.50 0.0 37 43 KBA 125 B 8 A 1.4 18.20 710 43.0 9 10 13 14 18 20 25 28 37 37 57 57 88 88 10 11 15 17 22 24 30 33 43 43 64 64 97 97 200.70 705 23.50 2.60 19.50 cosφN IA / IN MA / MN JMot Z0 MBStd [kgm2 x 10-3] [h-1] [Nm] 1) 2) 4) 2.00 705 54.20 1.15 1.20 0.0 145.0 37500 37000 16000 25000 8900 10500 8200 8200 6900 6950 4900 4300 4200 5150 2.00 32.40 5.23 675 3.30 4.0 132.57 2.0 39.5 20.0 29.90 17.0 20.60 3.75 0.90 0.35 2.50 7.52 0.00 13.55 690 7.00 10.0 4.9 132.65 1.0 20 24 KBA 100 A 8 0.4 21500 8.65 2.50 2.25 2.5 15.8-pole KBA motors 100% CDF Type Standard voltages are 230/400 V 50 Hz.16 645 2.53 0.0 57 64 KBA 140 B 8 A 3.2 6.60 5.00 13.10 3.0 12000 7.5 11.30 1.5 8600 29.00 36.7 3.53 1.40 695 5.25 2.5 19.40 0.55 0.55 3.0 113.10 0.0 10.0 10600 33.0 28 33 KBA 112 B 8 A 1.90 2.00 2.10 16.30 0.00 2.10 20.55 2.20 2.54 0.0 84.10 705 28.20 4.40 KBA 160 B 8 9.5 1.0 31.0 69.0 51.00 2.0 165 176 5 8-pole KBA motors 40% CDF 2031515d_en_300812.1 32500 3.0 84.0 43.20 670 645 670 665 695 685 695 690 705 700 700 705 700 695 1.90 4.35 2.00 705 122.5 18 22 KBA 90 B 8 0.20 0.5 3.05 3.90 2.75 695 10.85 39.0 165 176 20315044_022 Type Standard voltages are 230/400 V 50 Hz.45 3.9 5600 58.56 2.40 2.0 62.4 29500 5.59 3.9 10.56 0.62 0.0 31.60 2.0 3500 159.30 665 4.54 2.0 53.indd 20315044_023 1) 2) 3) 4) Light brake disk Heavy brake disk Weight for B14 model Applies for light brake disk 347 .15 62.0 260.55 135.55 3.55 1.0 10000 17.0 9050 23.00 2.61 3.45 3.45 0.30 12.13 0.95 1.5 9800 12.00 71.10 670 1.0 35.5 KBA 71 B 8 0.59 1.20 1.55 2.30 0.50 3.85 3.00 5.25 2.51 2.30 0.30 1.50 57.60 0.0 9850 41.5 Weight [kg] 3) 1) 2) 9 10 KBA 71 A 8 0. 60 2.80 3.15 2650 0. 8/2-pole KBA motors 100/100% CDF Type Standard voltages are 230/400 V 50 Hz.9 1.0 56 63 27.49 0.25 2.80 16.80 0.0 2.10 0.0 40 46 17. Refer to ‘Conversion of key data for other voltages and frequencies’.3 Key value tables KBA conical rotor motors with two speeds 8/2 and 12/2-pole Standard voltages are 230/400 V 50 Hz.0 42.50 1.40 625 2765 665 2785 10.71 3.63 1.90 2.67 0.20 0.80 5.3 13 16 4.65 5.20 610 3.50 2.30 2.35 2.60 1.22 2710 0.5 73.00 7.50 655 2775 680 2830 690 2820 14.85 0.88 0.3 3.2 15 17 5.90 4.90 2.10 2.64 1.05 2.8 9.4 4.00 10.35 0.8 8.90 7.5 27.4 4.00 4.0 26 30 11.70 0.6 9.81 2.04 550 0.20 6.70 0.40 3.80 3.00 22.80 JMot Z0 MBStd [kgm2 x 10-3] [h-1] [Nm] 1) 2) 1.00 11.69 0.0 42.61 2825 2.90 0.40 0.5.90 1.2 2.10 15.0 27.86 0.90 2.86 2.55 0.59 0.85 3.40 0.50 0.90 3.95 1.0 28 33 14.70 1.35 0.30 1.1 9 10 1.00 6.20 2.56 620 8.4 47.0 40 46 22.10 7.0 88 97 348 1) 2) 3) 4) 5) Light brake disk Heavy brake disk Weight for B14 model Applies for light brake disk May only be used for hoist drives with braking via the low-speed winding. PN nN MN IN [kW] [rpm] [Nm] 400 V cosφN IA / IN MA / MN [A] KBA 71 A 8/2 KBA 71 B 8/2 KBA 80 A 8/2 KBA 80 B 8/2 KBA 90 A 8/2 KBA 90 B 8/2 KBA 100 A 8/2 KBA 100 B 8/2 KBA 112 B 8/2 A KBA 112 B 8/2 KBA 125 B 8/2 A 5 KBA 125 B 8/2 KBA 140 B 8/2 A KBA 140 B 8/2 5) 0.4 47.70 2725 2.90 17.90 0.80 0.05 5.52 0.30 2.60 2770 9.4.5 10 11 3.05 2785 3.70 2.61 2.0 20 24 8. Start-up generally only via the low-speed winding 2031515d_en_300812.65 1.10 11.30 0.2 19 22 7.45 0.45 3.30 1.64 1.58 0.00 0.45 2.95 0.6 16.25 3.70 3.indd 20315044_024 .10 1.30 0.50 3.88 4.50 11.95 1.20 0.70 0.6 if motors are operated with a voltage and/ or frequency other than that given in the key data tables.65 2.48 2800 1.10 2.03 590 0.1 27.60 14.79 5.13 630 1.50 6.10 0.85 2785 2. section 5.70 1.90 2.60 1.0 56 63 23.59 0.10 0.25 2.80 4.4.50 0.77 0.86 3.0 88 97 33.7 4.58 1.70 11.49 0.35 2.70 3.20 2.0 111.25 650 3.50 21.85 5.59 2.5 8.65 0.45 625 6.75 5.00 5.35 0.20 1.3.78 0.75 2.25 0.5 28.5 73.75 4.85 5.90 1.60 2.70 4.0 111.67 1.53 0.7 16.54 0.86 4.61 2.80 0.0 14.60 2.81 0.5 14.30 2.20 5.60 1.90 2.20 2705 7.17 620 2.10 0.20 0.60 0.35 5.95 2.0 4) 21600 4000 21900 5950 7100 3150 8000 4200 21500 3100 12300 2650 18000 1800 20000 2300 14000 2200 14000 2000 10000 1700 6900 1250 9000 1600 7000 1350 Weight [kg] 3) 1) 2) 1.80 2.85 3.70 0.11 625 1. 5 8.50 2830 28.10 10.8/2-pole KBA motors 40/40% CDF Standard voltages are 230/400 V 50 Hz.9 1.05 0.0 56 63 29.61 0.3 9 10 2.10 4.40 1.65 0.30 5.62 0.60 5.19 0.60 2.80 5.80 3.65 0.0 56 63 33.3 3.40 3.00 12.85 1.20 2.15 2.20 18.45 4.60 1.80 1.85 2.5 14.65 2.4 47.60 15.88 0.35 4.15 4.80 0.0 40 46 20.00 16.0 42.20 14.26 1.90 22.10 11.20 8.20 2.87 0.00 2.69 0.50 21.90 2.95 3.20 4.00 2.40 0.04 0.85 0.20 8.70 3.80 0.20 2.0 111.8 9.4 4.80 14.14 0.70 2.0 26 30 14.80 13.50 28.40 3.5 73.68 0.00 IN 400 V [A] 0.80 2.4 20 24 10.25 2.8 8.5 15 17 7.80 5.40 0.55 0.1 27.65 1.52 0.62 0.85 0.0 10 11 4.30 1.60 6.65 1.indd 5 20315044_025 1) 2) 3) 4) 5) Light brake disk Heavy brake disk Weight for B14 model Applies for light brake disk May only be used for hoist drives with braking via the low-speed winding.5 27.77 5.80 0.17 0. Start-up generally only via the high no.70 3.40 7.85 0.0 111.63 0.29 0.67 0.60 5.0 42.75 1.0 2.80 1.10 2.85 4.05 2.91 4.0 19 22 8.95 2.70 3.50 2.80 8.00 JMot [kgm2 x 10-3] 1) 2) 1.50 1.30 4.0 14.80 8.40 1.10 10.90 0.00 2.55 1.2 2.90 2.20 3.4 47.97 1.05 2.2 13 16 5.60 2.10 2.53 0.70 2.5 28.90 10.75 0.6 16.58 0.50 22.70 3.10 1.59 0.00 615 2665 565 2715 630 2790 630 2825 615 2735 610 2790 635 2780 625 2660 615 2740 630 2760 655 2770 675 2780 680 2830 685 0.76 0.64 0.90 10.30 4.65 0.85 0.0 88 97 2031515d_en_300812.35 1.0 88 97 41.10 6.60 5.55 2.10 1.0 40 46 26.7 4.80 KBA 71 A 8/2 KBA 71 B 8/2 KBA 80 A 8/2 KBA 80 B 8/2 KBA 90 A 8/2 KBA 90 B 8/2 KBA 100 A 8/2 KBA 100 B 8/2 KBA 112 B 8/2 A KBA 112 B 8/2 KBA 125 B 8/2 A KBA 125 B 8/2 KBA 140 B 8/2 A KBA 140 B 8/2 5) PN [kW] nN [rpm] MN [Nm] 0.80 2.84 0.00 3.22 0.00 4.40 3.55 1.70 2.70 2.0 Z0 [h-1] MBStd [Nm] 4) 22000 3650 19900 4850 25300 3300 30000 3400 22400 2700 11900 2200 14000 1400 21000 1400 12000 1400 14000 1800 6500 1100 3000 800 5800 950 4800 850 Weight [kg] 3) 1) 2) 1.83 0.64 0.6 9.81 0.58 2.80 2.90 2.75 2.60 2.70 2.20 0.15 2.5 73.79 0.5 28 33 17.10 4. of poles 349 .93 1.48 1.40 18.10 0.15 4.10 3.85 2.30 11. Type cosφN IA / IN MA / MN 0.4 4.40 3.73 3.10 2.40 3.89 0.61 0.25 2.7 16.20 4.0 27. 80 0.20 4.05 2.5 28.49 1.48 425 10.45 0.30 2.30 2795 14.50 27.25 1.00 15.20 0.55 0.40 5 KBA 80 B 12/2 KBA 90 A 12/2 KBA 90 B 12/2 KBA 100 A 12/2 KBA 100 B 12/2 KBA 112 B 12/2 KBA 125 B 12/2 KBA 140 B 12/2 6) KBA 160 B 12/2 6) Z0 MBStd Weight [h-1] [Nm] [kg] 1) [A] KBA 80 A 12/2 JMot [kgm2 x 10-3] 0.65 1.83 4.30 2.80 5.71 1.90 0.5 73.77 3.95 1.0 88 97 69.30 7.45 1.60 0.0 94.80 2.90 4.82 5.10 7.65 2760 2.40 2.40 0.0 14.15 0.4 20 24 9.50 0.50 2785 18.90 12.10 3.65 2.65 2730 2.4 4.16 385 4.4 47.70 0.0 165 176 350 1) 2) 3) 4) 5) 6) Light brake disk Heavy brake disk Weight for B14 model Applies for light brake disk 20/100% CDF May only be used for hoist drives with braking via the low-speed winding.0 220.10 2760 14.80 2.90 0.20 2.20 2.00 0.00 0.58 1.20 10.75 2.25 2. PN nN MN IN [kW] [rpm] [Nm] 400 V cosφN IA / IN MA / MN 0.15 2720 4.00 0.50 14.86 4.6 9.90 440 19.70 0.85 2) 2.65 1.5 28 33 21.60 0.80 0.07 400 1.50 460 2870 31.57 405 13.90 0.75 1.90 4.90 2750 3.05 2.30 0.15 2.50 1.20 2700 7.00 2.0 56 63 44.20 2.90 2.70 0.89 2.90 0.0 14.80 2660 10.10 2.7 16.12 385 3.81 4.41 2.0 26 30 14.10 0.40 2.71 1.70 0.65 1.60 1.25 2.59 1.15 0.00 450 42.0 111.78 4.20 3.70 4.50 21.20 2.86 5.70 0.80 4.80 5.30 0.5 27.89 5.20 3.10 0.0 40 46 33.4 47.39 0.50 2830 28.84 6.50 13.90 6.40 2.83 4.30 3.30 0.8 8.0 4) 6000 3100 9000 5200 8000 1450 8300 2700 8300 1900 11000 1400 10000 950 3700 600 5100 650 8000 300 3) 1) 2) 4. Start-up generally only via the low-speed winding 2031515d_en_300812.65 8.55 2.00 0.20 2765 11.80 0.45 2.75 0.40 3.0 40 46 27.20 19.65 0.78 4.00 0.7 4.6 15 17 6.50 2820 22.4 4.5 8.40 5.1 27.00 3.0 165 176 20315044_026 12/2-pole KBA motors 15/40% CDF Type Standard voltages are 230/400 V 50 Hz.10 0.65 0.00 3.90 0.50 8.6 16.0 94.7 16.65 2.6 16.85 1.00 2.6 19 22 9.42 1.40 2.9 26 30 11.6 13 16 5.60 0.00 2.20 430 26.60 1.60 2.10 2770 3.85 5.40 0.10 390 2.15 2.90 0.8 9.12/2-pole KBA motors 40/100% CDF Type Standard voltages are 230/400 V 50 Hz.84 4.20 2705 7.65 2.48 1.05 2.70 0.38 430 8.10 6.5 8.10 3.50 2745 5.13 370 3.85 2.00 2.9 20 24 11.0 42.81 5.20 0.20 2. PN nN MN IN [kW] [rpm] [Nm] 400 V cosφN IA / IN MA / MN 5) KBA 80 B 12/2 5) KBA 90 A 12/2 5) KBA 90 B 12/2 5) KBA 100 A 12/2 5) KBA 100 B 12/2 5) KBA 112 B 12/2 KBA 125 B 12/2 KBA 140 B 12/2 6) KBA 160 B 12/2 6) Z0 MBStd [h-1] [Nm] 1) [A] KBA 80 A 12/2 JMot [kgm2 x 10-3] 0.5 27.70 7.50 2760 1.0 42.0 4) 4500 4200 6000 3700 12000 3000 9100 3700 11000 2650 15000 2300 9500 1700 2500 1100 2500 1200 9200 500 Weight [kg] 3) 1) 2) 3.60 0.8 8.08 390 1.5 73.75 430 16.9 15 17 7.48 1.86 3.89 4.70 10.55 0.10 0.46 1.80 0.10 0.80 5.30 0.30 0.30 2.85 2.77 5.00 2865 43.1 27.46 1.19 435 4.0 88 97 61.50 0.85 2760 2.41 1.25 2.00 2.60 1.51 1.30 2) 2.00 0.20 1.67 1.00 31.40 2.25 2.30 0.indd 20315044_027 .75 0.55 1.35 0.5 28.60 0.74 1.50 11.95 1.75 1.50 9.40 0.20 13.28 425 6.2 2.6 9.50 0.0 28 33 17.65 1.24 440 5.95 4.2 2.87 4.09 390 2.0 56 63 41.15 390 3.4 19 22 8.21 425 4.30 1.7 4.70 2.8 13 16 4.0 220.20 2.25 0.90 0.70 2740 5.62 1.44 1.70 2.80 2.55 3.10 2.8 9.0 111.20 2. Refer to ‘Conversion of key data for other voltages and frequencies’.30 4.0 29.3.8 940 1.80 3.5 KBF 90 A 4 0.40 2.9 10.80 2.00 0.0 690 3.90 1380 13.0 360 15.93 3.8 22.93 3.50 12.74 3.75 30.1 2.3 55.0 KBF 100 A 4 0.0 540 5.7 22.7 8.6 KBF 80 A 2 0.94 3.3 5.1 41.0 390 11.3 KBF 140 A 4 2.65 2570 2.0 29.82 3.50 2460 5.25 2.8 1080 1.40 1.1 3.0 2031515d_en_300812.0 400 11.4 9.85 2.0 11.10 0.5 18.indd 5 20315044_029 1) Heavy conical brake 2) Weight for B14 model 351 .5 KBF 112 A 2 2.3 18.5 28.32 1350 2.4 3.9 0.86 4.4.80 5.9 0.5 20315044_028 Standard voltages are 230/400 V 50 Hz.5.2 24.80 6.00 2510 3.4.8 41.50 0.80 1350 5.20 2.30 0.40 2.86 4.3 4.5 3.4 11. section 5.5 28.6 1) Weight [kg] 2) 102.9 15.8 11.83 4.13 1340 0.74 3.8 10.3 4.0 71.95 0.93 IN 400 V [A] 0.3 0.40 2600 8.10 0.6 KBF 80 A 4 0.55 2.8 17.35 2.4 7.6 450 8.0 48.5 KBF 125 A 4 1.70 2.0 330 21. 2-pole KBF motors 40% CDF Type PN nN MN IN [kW] [rpm] [Nm] 400 V cosφN IA / IN MA / MN MH JMot A MBStd MBmax Weight [Nm] [kgm2 x 10-3] [h-1] [Nm] [Nm] [kg] 1) 2) KBF 71 A 2 0.20 3.10 1.0 8.45 2.50 1. 4-pole KBF motors 40% CDF Type PN [kW] nN [rpm] MN [Nm] KBF 71 A 4 0.4 Key value tables KBF conical rotor motors with one speed 2 and 4-pole Standard voltages are 230/400 V 50 Hz. Standard voltages are 230/400 V 50 Hz.10 4.20 2.80 0.20 1360 8.50 1350 3.83 3.5 KBF 90 A 2 1.2 18.7 34.57 cosφN IA / IN MA / MN MH [Nm] JMot [kgm2 x 10-3] A [h-1] MBStd [Nm] MBmax [Nm] 0.7 5.65 2.50 18.93 4.90 1400 19.97 [A] 0.0 48.0 118.6 if motors are operated with a voltage and/ or frequency other than that given in the key data tables.70 8.5 KBF 112 A 4 1.6 420 8.2 15.9 0.0 680 5.0 KBF 100 A 2 1.7 0.0 9.20 25.45 2.4 2.80 2.30 2.26 2550 0.0 700 3. 04 640 0.92 3.00 2.66 1.40 2.66 1.0 2) 1080 680 850 420 800 500 800 480 2.0 1.90 2620 6.8 41.92 3.60 0.3 5.60 1400 4.4.20 0.65 3.7 0.6 if motors are operated with a voltage and/ or frequency other than that given in the key data tables.00 1400 6.2 22.90 2.0 29.5 4.1 0.5 JMot [kgm2 x 10-3] A [h-1] MBStd [Nm] MBmax [Nm] Weight [kg] 1) 0.2 22.2 1.0 18.61 1.0 1.05 2.40 0.15 4.26 1340 1.50 2770 1.7 0.83 4.71 1.00 0.90 0.80 2650 2.72 0.55 1.0 6.10 1.9 12.6 11.78 2.40 0.20 0.6 1.0 118.45 12.30 420 6.0 3.20 2620 4.0 6.2 7.30 0. section 5.0 1.2 1.30 2.1 2.90 12.70 0.3 102.89 2.80 1.20 2640 4.20 8.69 1.00 2.1 1.3 4.45 2.0 71.75 1.5 20315044_031 Type Standard voltages are 230/400 V 50 Hz.52 1.50 0.5 10.0 29.18 1.2 15.0 4.64 1.88 4.0 6.00 0.7 3.8 41.6 48.12 400 2.40 2.40 1350 2.30 2750 1.70 1.42 660 6.40 6.70 3.55 2.9 11.94 3.10 0.1 0.62 2.25 2.7 3. PN nN MN IN [kW] [rpm] [Nm] 400 V cosφN IA / IN MA / MN MH JMot A MBStd MBmax Weight [Nm] [kgm2 x 10-3] [h-1] [Nm] [Nm] [kg] 1) [A] 5 KBF 80 A 12/2 KBF 90 A 12/2 KBF 100 A 12/2 KBF 112 A 12/2 0.25 3.1 13.10 2.87 1.0 55.80 0.06 660 0.9 10.indd 12/4-pole KBF motors 20/40% CDF .9 19.5 10.0 0.4 8.26 610 4.90 4.30 2.64 2.30 6.35 2.0 28.8 41.30 0.60 4.80 2.20 2650 KBF 71 A 8/2 KBF 71 B 8/2 KBF 80 A 8/2 KBF 90 A 8/2 KBF 100 A 8/2 KBF 112 A 8/2 KBF 125 A 8/2 KBF 140 A 8/2 cosφN IA / IN MA / MN MH [Nm] 0.0 2.2 15.3 5.0 20315044_030 12/2-pole KBF motors 20/40% CDF Type Standard voltages are 230/400 V 50 Hz.90 2650 6.52 1.65 675 9.2 15.2 7.80 4.10 660 15.3.64 3.40 3.2 22.60 IN 400 V [A] 0.93 3.8 3.7 0.75 1.31 2.92 3.4.90 4.10 1.0 18.3 5.5 8.80 2.40 9.9 11.75 2.50 0. PN [kW] nN [rpm] MN [Nm] 0.4 9.5 20315044_032 352 1) Heavy conical brake 2) Weight for B14 model 2031515d_en_300812.58 2.2 6.0 28.50 0.84 4.60 2.40 2.69 1.05 2.13 630 1.50 2710 1.35 2.5 0.80 2.00 10.08 370 2.70 6.0 0.40 0.0 18.15 1.08 360 2.20 2.00 0.8 0.5 Key value tables KBF conical rotor motors with two speeds 8/2.5 0.5 8.5.80 2520 3.20 1.6 1. PN nN MN IN [kW] [rpm] [Nm] 400 V cosφN IA / IN MA / MN MH JMot A MBStd MBmax Weight [Nm] [kgm2 x 10-3] [h-1] [Nm] [Nm] [kg] 1) [A] KBF 80 A 12/4 KBF 90 A 12/4 KBF 100 A 12/4 KBF 112 A 12/4 0. 12/2 and 12/4-pole Standard voltages are 230/400 V 50 Hz.0 2) 1400 600 1250 500 900 400 900 460 800 480 720 450 680 420 530 320 1.05 1.90 1.10 0.63 2.40 4.61 1.7 26.73 3.50 2680 16.90 4.0 28.21 2.0 30.20 590 3.0 2.20 14.30 0.90 1.93 3.3 0.71 1.2 0.90 1.6 48.30 0.40 0.5 8.80 2.20 4.2 0.8 0. Refer to ‘Conversion of key data for other voltages and frequencies’.3 0.00 2.90 0.7 17.95 1.5 4.2 7.90 2600 10.33 2.80 3.5 1.3 0.62 0.0 0.30 9.21 2.20 14.5 1.75 1.20 2.3 19.3 20.40 0.3 6.4 2.0 2) 900 540 850 500 800 500 800 480 2.4 9.0 29.70 6.5 0.50 0. 8/2-pole KBF motors 40/40% CDF Type Standard voltages are 230/400 V 50 Hz.5 0.12 400 2.90 2.18 390 4.6 48.85 4.70 6.7 3.80 2.5 4.10 0.18 390 4.3 24.9 11.90 0.6 3.95 2.5 11.65 1.80 1.90 0.3 0.76 0.90 0.10 1.10 1.20 8.00 0.55 3.30 420 6.2 1. 2 M10 4 x M32 158 103 128 KB 112B 28 60 4 50 M10 31.0 8 53.8 196 176 244 264 285 300 315 331 349 366 - 1.0 10 98.5 158 143 80 11 100 3.1 20 - t3 u3 2) 2) Basic motor i3 18. on top.0 8 37.5 6 53.5 mm 4.4.0 442 110 18 130 3.eps IEC shaft end Size D E l11 EB DB GA F 1) KB 71A KB 71B KB 80A KB 80B KB 90A KB 90B KB 100A KB 100B Coupling shaft end UL L d3 l3 l31 l32 s5 1) 14 30 3 22 M5 16. V19 HDF Design without flange plate (basic motor) Demag coupling shaft end KBA 71-90 KBA 100-112 KBA 125 lvmax.5 19 24 3.0 20 M5 21.0 8 63.5 28 60 4 50 M10 31.2 M8 4 x M25 128 92 108 234 1. = c Running position d Braking position 3.4 Dimensions sheets KB conical rotor motors Motor KB 71 – 125 B14.2 M8 4 x M25 128 82 108 - 1.0 140 134 80 11 100 3.0 5 35.0 32 M8 31.0 8 76.x1.5 178 153 110 18 130 3. = lvmax.0 8 76.0 499 125 24 150 3. = lvmax.0 20 M6 27.8 220 189 389 267 1.0 20 M6 27.5 6 37.5 246 200 444 293 2.0 8 40.5 280 300 323 338 353 369 389 406 70 10 85 3.5 M12 4 x M32 158 122 128 2031515d_en_300812..0 mm 3. at the bottom Terminal box with 2 cable entries on top and at the bottom Tapped hole FB and s5 in shaft centre to DIN 332-DR Fit for D: ISO k6.5 24 24 3. for N: j6 1) Key to DIN 6885 Sheet 1 type A 2) Key to DIN 6885 Sheet 1 type B 353 .0 5 41.5 24 24 3.indd 20315044_033 • • • • Terminal box position: RH side. LH side.0 10 55.0 286 306 339 354 379 395 425 442 16 24 3.0 465 28 37 4.0 32 M10 35.2 M6 4 x M25 128 77 108 - 1.5.6 M10 4 x M32 158 110 128 KB 125B 32 80 4 70 M12 35.0 mm 5 42012445. V18.0 542 32 37 4.0 k1 N LA M T AC AD LB HDF r S dv LL xk AG M.5 19 40 3 32 M6 21.5 24 50 4 40 M8 27. 5 2xM40 273 174 173 2xM50 2xM40 42 110 4 100 M16 45.0 12 135 721 42 50 7 43 M12 45. LH side. V19 HDF Design without flange plate (basic motor) Demag coupling shaft end lvmax.225 B14. = lvmax.0 18 168 937 60 60 7 50 M12 64.5 M16 273 221 173 2xM50 38 80 4 70 M12 41.Motor KB 140 ..eps Size IEC shaft end E l11 EB DB 1) KB 140B KB 160B Coupling shaft end GA F UL 5 D L d3 l3 l31 l32 s5 1) t3 u3 i3 2) 2) Basic motor k1 N LA M T AC AD LB HDF r S dv LL xk AG M. N : j6 1) Key to DIN 6885 Sheet 1 type A 2) Key to DIN 6885 Sheet 1 type B. D = 55/60 : m6.indd 20315044_034 . at the bottom Terminal box with 2 cable entries on top and at the bottom Tapped hole FB and s5 in shaft centre to DIN 332-DR Fit for ISO: D = 38-48: k6. = KBA 140 KBA 160-225 c Running position d Braking position 4.0 12 75 661 155 26 190 5 314 269 586 368 2. 2031515d_en_300812.x1.0 10 55 566 125 22 150 4 274 250 511 328 2.0 16 138 867 55 60 7 50 M12 59.5 M16 2xM40 2xM50 2xM40 2xM50 2xM40 2xM50 273 237 173 273 246 173 273 256 173 • • • • 354 Terminal box position: RH side. V18.5 M16 KB 200B 55 110 4 100 M20 59.5 14 135 798 48 50 7 43 M12 51.5 M16 KB 225A 60 140 6 125 M20 64.0 mm 4.0 16 88 817 200 34 236 5 394 311 729 466 2.0 10 98 609 32 37 4 32 M10 35.0 18 88 857 200 34 236 5 440 332 769 530 2. on top.5 M12 KB 180B 48 110 4 100 M16 51.5 mm 41633945.5 14 75 738 155 26 190 5 354 293 663 417 2. 0 8 C 105 105 70 8 85 C 120 120 80 8 100 3.5 M8 M10 2031515d_en_300812.5 C 140 140 95 10 115 C 120 120 80 8 100 3.eps D E lv l11 EB DB GA F Flange P N LA M T AC AD LEF L HDF q S r max.5 28 60 3.5 M6 285.5 4 50 M10 31.5 M8 M8 394.5 1.0 158 143 40 M6 5 Size 234 178.0 C 140 140 95 10 115 C 160 160 110 10 130 3. = 3.5 C 200 200 130 12 165 3.2 M8 305. LH side.0 140 134 30 2.0 267 186.0 4 40 M8 27.5 C 140 140 95 10 115 C 160 160 110 10 130 3.5 mm 41408746. KB 71A 14 30 3.2 4xM25 128 108 1.6 4xM32 158 128 M8 C 160 160 110 10 130 3. on top.0 - 118.0 3 32 M6 21. V18. = 3.5 6 KB 80B KB 90A 24 50 3.0 178 153 50 1.0 3 22 M5 16. V19 Flange-mounted type LEF HDF EB Flange size to EN 50347 c Running position d Braking position KBA 71-90 lvmax.5 3.0 155.Motor KB 71 – 112 B14.indd 20315044_035 • • • • • Terminal box position: RH side. for N: j6 355 .5 4 50 M10 31.0 mm KBA 100-112 lvmax.0 5 KB 71B KB 80A 19 40 3.5 196 176 60 4xM25 128 108 M6 - 3..5 338.5 135.0 8 KB 90B KB 100A KB 100B KB 125B dv LL AG M.5 353.5 C 120 120 80 8 100 3.2 M6 - 424. at the bottom – by turning the motor when installing Terminal box with 2 cable entries on top and at the bottom Key to DIN 6885 Sheet 1 type A Tapped hole DB in shaft centre to DIN 332-DR Fit for D: ISO k6.2 4xM32 158 128 1.0 M10 441.x1.0 M8 4xM25 128 108 1.5 C 200 200 130 12 165 3.5 3.0 8 28 60 3.5 220 189 60 465.0 378. 0 11 - 155.0 440 332 140 936.5 14 273 173 KB 160B 42 110 4 100 M16 45. LH side.indd 20315044_036 . on top.5 338.5 2xM25 2xM25 2xM25 2xM25 2xM25 2xM25 11 2xM32 14 2xM32 KB 112B 28 60 4 50 M10 31.0 14 2xM32 158 128 KB 125B 32 80 4 70 M12 35.0 328 271.0 18 273 173 KB 180B 48 110 4 100 M16 51.5 368 356.0 10 A 300 300 230 12 265 4.5 178 153 50 28 60 4 50 M10 31.0 18 273 173 KB 200B 55 110 4 100 M20 59.5 417 372.5 305.5 6 A 200 200 130 10 165 3.5 KB 71A KB 71B KB 80A 5 KB 80B KB 90A KB 90B KB 100A KB 100B 14 30 3 22 M5 16.0 394 311 110 866.5 14 2xM32 158 128 KB 140B 38 80 4 70 M12 41. V3 Flange-mounted type LEF HDF EB Flange size to EN 50347 42689244. D = 55/60 : m6.0 220 189 60 465. at the bottom – by turning the motor when installing Terminal box with 2 cable entries on top and at the bottom Key to DIN 6885 Sheet 1 type A Tapped hole DB in shaft centre to DIN 332-DR IISO tolerance for D = 14-48 : k6.5 378.5 18 273 173 KB 225A 60 140 6 125 M20 64..5 18 273 173 2xM40 2xM50 2xM40 2xM50 2xM40 2xM50 2xM40 2xM50 2xM40 2xM50 356 • • • • • Terminal box position: RH side.5 9 - 135.0 8 A 250 250 180 11 215 4.0 18 A 450 450 350 16 400 5.eps Size D E l11 EB DB GA F Flange P N LA M T AC AD LEF L HDF q S dv LL AG 128 108 128 108 128 108 158 128 M.5 A 250 250 180 11 215 4.5 140 134 30 19 40 3 32 M6 21.5 441.0 8 A 200 200 130 10 165 3.0 246 200 80 541.5 - 118.0 11 234 178.0 267 186.5 424. V1.0 274 250 80 609.0 176 60 196 285.0 10 A 300 300 230 12 265 4.0 354 293 110 797.5 14 A 350 350 250 13 300 5.5 293 219.5 353.x1.Motor KB 71 – 225 B5.5 466 383.5 394.5 158 143 40 24 50 4 40 M8 27.0 5 A 160 160 110 9 130 3.5 530 423.0 314 269 110 720.0 16 A 400 400 300 15 350 5.0 8 A 200 200 130 10 165 3.0 12 A 350 350 250 13 300 5. N : j6 2031515d_en_300812. B6.5 19 133 KB 225B 60 140 6 125 M20 64.5 40 42 295 219.Motor KB 71 – 225 B3.5 19 149 KB 80A KB 80B KB 90A KB 90B KB 100A KB 100B 338. B8.5 15 95 KB 160B 42 110 4 100 M16 45.0 10 56 30 35 236 178. D = 55/60 : m6 357 .0 45 48 331 271. V5.0 10 180 224 17 220 272 274 250 140 609.0 8 125 140 11 152 170 178 153 90 28 60 4 50 M10 31.0 10 50 25 30 - 155.5 60 82 535 423.5 2xM25 2xM25 2xM25 2xM25 2xM25 2xM25 2xM32 2xM32 2xM40 2xM50 2xM40 2xM50 2xM40 2xM50 2xM40 2xM50 2xM40 2xM50 128 108 128 108 128 108 5 Size 158 128 273 173 273 173 273 173 273 173 273 173 2031515d_en_300812.5 BA AA HD q K C 3 22 M5 16.x1.5 14 279 279 22 330 344 354 293 180 797.0 10 160 200 15 195 242 246 200 125 541.5 7 45 23 28 - 135.5 50 65 420 372.0 12 254 254 20 300 310 314 269 160 720.5 25 LL 14 KB 71B 20 dv M. on top Terminal box with 2 cable entries on top and at the bottom Key to DIN 6885 Sheet 1 type A Tapped hole DB in shaft centre to DIN 332-DR SO tolerance for D = 14-48 : k6.0 16 305 318 28 362 390 394 311 200 866.5 441.0 5 90 112 9 110 137 140 134 71 19 40 3 32 M6 21.5 48 55 371 356. V6 Foot-mounted type 42689044.0 15 121 KB 200B 55 110 4 100 M20 59. LH side.5 394.0 8 140 190 14 170 225 220 189 112 465..5 56 72 469 383.indd 20315044_037 • • • • • Terminal box position: RH side. B7.0 18 311 356 30 370 438 440 332 225 936.5 424.5 353.5 6 100 125 10 124 153 158 143 80 24 50 4 40 M8 27.5 12 80 2xM32 158 128 KB 140B 38 80 4 70 M12 41.5 - 118.0 15 108 KB 180B 48 110 4 100 M16 51.0 8 140 160 14 170 195 196 176 100 KB 112B 28 60 4 50 M10 31.5 12 63 AG 30 305.eps KB 71A D E l11 EB DB GA F B A HA BB AB AC AD H L 285.0 30 35 269 186.5 378.0 12 70 2xM32 158 128 KB 125B 32 80 4 70 M12 35. unprotected installation in rain and wind or installation at great height.5.5. This limits the cooling of the motor. . Protection against jets of water from all directions. 5. The flange plate on all flange-mounted types can be removed. e. The brake enclosure of the KB motor is fitted with enclosure type IP 20 as standard. the flange-mounted design to DIN 42677. Important notes: • A stronger or weaker brake spring must be fitted to compensate the weight of the rotor. Protection against splashed water from all directions. likewise for motor arrangements at an angle. brake disk and belt pulley.4. The motors can also be supplied with enclosure type IP 55 or IP 65 as an option at additional cost.5.4. Pay attention to the position of the shaft end (top or bottom)! • In certain cases.g. A detailed description of the enclosure types and inspection conditions are contained in EN 60034-5 (IEC 34-5). or coupling half if the motor is fitted vertically.g. Demag motors are designed with only one shaft end. 358 2031515d_en_300812. depending on the ambient conditions) to avoid rust formation. we recommend ordering a motor with a protected braking surface to avoid rust formation (galvanised or chrome-plated. the vertical arrangement is not always possible. • When ordered. The foot-mounted design largely corresponds to DIN 42673. Protection against finger contact with internal moving parts or with live IP 54: Protection against injurious dust deposits. motors are supplied with a weaker brake spring than the standard design for – Y/Δ connection – connection via phase control Refer to the relevant dimension lists for design variants. For vertically mounted motors with the shaft facing downwards. e. IP 65: Complete protection against injurious dust deposits.5 Mechanical design of KB conical rotor motor 5. Outdoor operation If a motor is operated under arduous conditions outdoors. wind and rain deflectors. if fitted. Combined foot/flange-mounted types (B34 and B35) are available. which means that a power reduction must be implemented Brief explanation of enclosure types 5 IP 20: parts. The connection dimensions largely correspond to IEC publication 72-1. • Select the brake springs according to the special brake spring tables.2 Type of enclosure The motor enclosure of the KB motors is delivered with IP 54 as standard.1 Design versions The available foot-mounted and flange-mounted types correspond to the overview of models. The KB motor can also be supplied with a sealed brake enclosure type IP 55/IP 65. Protection against jets of water from all directions. If the motor is installed outdoors for a longer period without being operated. therefore please contact the design department. the standard IP 54 enclosure type is generally no longer sufficient. The feet on all foot-mounted types can be removed. a canopy or protection panel is available at additional cost.4.indd In these cases. the motor must be provided with enclosure type IP 55/IP 65 or protected by suitable measures. IP 55: Protection against injurious dust deposits. 4. 5.5.5.4 Maximum speed Maximum speed [rpm] Motor KBA 80 90 100 5000 112 125 4000 3600 140 160 180 200 3600 225 3000 - 2031515d_en_300812.4.3 Noise levels The noise levels of KB conical rotor motors are below the limit values specified by EN 60034-9 (class A noise level).indd 5 KBF 71 359 .5. The required mounting position of the air intake opening must be specified in the order. .4 Weight kg 3. 225 m3/min 3. This increases their output and starting frequency (option at additional cost).5. When flanged motors are mounted on gearboxes or similar machines.03 0. see also operating instructions 201 360 84. 100 112.0 10.4.17 0. 360 2031515d_en_300812.2 5.5 5. 200. the drive end bearing is sealed against splash oil from the gearbox by means of a radial shaft sealing ring.5. 125 140.5.4 1. see options in section 6.7 4. Separate cooling Motors which are to be cooled externally are equipped with an attachment for an external fan.5.6 5. When fitting the fan. Externally ventilated motors installed outdoors The external fan motor is always supplied with enclosure type IP 55.6 Bearing Bearing arrangements for KB motors consist of 2 cylindrical roller bearings and 1 axial grooved ball bearing.4. The bearings are sealed with special shaft seals (lip seal). the motors can be ordered with screwed condensation water drain holes. Assignment and technical data External fan size Size D 03 D 04 D 05 D 060 71. see options in chapter 6.13 0.5 Cooling and ventilation Self-cooling The brake disk fitted on the motor shaft serves as fan for surface cooling.4.0 20 Increase in static pressure pmax Pa 330 350 430 730 Output For KB motor frame size 5 Air flow Vmax kW 0. suitable measures must be taken to protect the air intake opening of the external fan against the entry of water and snow. The drive motor can also be fitted with a fan cover with a protective canopy for D 04 to D 06 external fans.12. 160 180.7 Condensation water drain holes The KB motors are not supplied with condensation water drain holes as standard as they are not normally required.4 0. 80. An air intake section can also be fitted to the air intake opening of the external fans.13.5 Rated current 400 V 3 AC A 0. 5. If this is not possible. make sure that the air intake opening of the external fan is directed to the side which is protected against wind and rain.indd If necessary.4.07 0.4. 90.0 9. In the case of horizontally-mountedmodel designs.5.4.9 Axial displacement. Coupling: Only use flexible couplings allowing easy axial displacement between the coupling hubs.4. 90 1.e. 112 1. 80.0 4. Standard Z cylindrical rotor motors meet the requirements of category A (standard) of DIN EN 60034-14 / 03.08. The axial displacement when the brake is applied is from the drive end cap to the brake end cap. (standard design for KBF travel motor).5.5. It is approximately 2 to 3 times the J of the light conical brake disk.3 4. i.8 Balancing. 2031515d_en_300812.indd Light or heavy conical and flat brake disks have practically the same moments of inertia.5.This ensures smooth starting and braking.4. coupling Axial displacement of the motor shaft Size Displacement Iv [mm] lvmin lvmax KB 71. 5 • Light conical brake disk with low moment of inertia J for high starting-frequencies. In order to damp peak axial forces that occur during braking. the brake disks can be replaced without modification of the brake springs. longer starting and braking times. This results in longer braking time. Brake torque approximately 25 % of the brake torque of conical brakedisk. • Heavy flat brake disk with higher moment of inertia J. Variable speed pulleys: Only change speed when the motor is running. 5. bear the following points in mind: Gear drive: The pinion should have straight teeth. the brake ring is designed as reinforced rubber ring with a vulcanised brake lining. Is approximately 2 to 3 times that of light flat brake disk. 361 . vibration severity The rotor is dynamically balanced when the half key is fitted. 140 2.0 KB 160. This results in longer starting time and considerably longer braking time.10 Brake disk. 180. 200. brake ring The following are available: • Heavy conical brake disk with higher moment of inertia J. 5. Belt drive: The pre-tension of the belt must not obstruct the axial displacement of the rotor.8 3. 225 2. Standard design for KBA motors • Light flat brake disk with low moment of inertia J (only sizes 71– 100).5 3.0 KB 100.5 To ensure that axial displacement is not hindered.5 KB 125. Brake torque approximately 25 % of the brake torque of conical brake disk. Motors for 60 Hz have the same brake torques as motors for 50 Hz.11 Brake torque The brake torque in the data lists refers to both the static brake torque (static friction) and dynamic brake torque. it must be stated in the order. the data lists indicate the highest possible brake torque.5. The brake of KBF travel motors has been designed for the brake torque which is most favourable for the travel drive. • Using a flat brake disk: Reduction of brake torque to approximately 25 % of the value listed for conicalbrake disks with the same brake spring • Removing the reduction rings from behind the brake spring: 5 Reduction by approx.indd See KB motor options section for additional equipment for stepless brake torque reduction and for brake release. If this brake torque (or another intermediate value) is required. In addition. . • Using a weaker brake spring The maximum possible brake torque reduction for 4 and 6-pole KBA brake motors is: 40 % of the rated brake torque For 4 and 6-pole KBA brake motors on inverters: 60 % of the rated brake torque For KB brake motors with other numbers of poles: 60 % of the rated brake torque 362 2031515d_en_300812.Brake ring standard design: • Form A (wide): for 4 and 6-pole KBA brake motors • Form B (narrow): for all other brake motors Service life of brake lining is determined by various factors including: • frame size • speed • torques to be braked • moments of inertia • starting frequency 5. The brake of KBA motors has been designed for the highest possible brake torque (list torque). 5-10 % per ring.4. if fitted. therefore please contact the design department. Select the brake springs according to the special brake spring tables.6. see operating instructions 214 318 44 5.5. 5. 363 .4.13 Adjustment and maintenance For instructions on adjustment and maintenance of the brake.4.4.4) A stronger or weaker brake spring must be fitted to compensate the weight of the rotor.6 KB conical rotor motor electrical design 5.5.6. 73 V min. 60 Hz.4. KBA motor 50 Hz ± 2% KBA 71-125 Single speed 400 V AC Y/Y ± 5%. 42 V min.12 Brake springs When ordered. Pay attention to the position of the shaft end (top or bottom)! In certain cases. likewise for motor arrangements at an angle. or coupling half if the motor is fitted vertically. 220 V (in Δ circuit) for frame sizes 71 – 80 (in Δ circuit) for frame sizes 90 – 100 (in Δ circuit) for frame sizes 112 – 140 (in Δ circuit) for frame sizes 160 – 225 1) Internally connected 2) High speed with Delta connection 3) 2 and 4-pole motors can be used for the extended voltage range 230-240 V/460-480 V AC ± 5%. 110 V min.5.4.indd min.1 Voltages and frequencies The motors are designed according to the following tables as standard. if fitted. the vertical arrangement with the shaft end at the top is not always possible. 230 / 400 V AC D/Y ± 5% KBA 140 KBA 160 KBA 180-225 60 Hz (USA) 400 V AC D/Y ± 5% 1) 2) Single speed Pole-changing 480 V AC Y/Y ± 5% 1) 240/480 V AC YY/Y ± 5% 480 V AC D/Y ± 5% KBA 160 KBA 180-225 1) 400 V AC D ± 5% KBA 71-125 KBA 140 Pole-changing 1) 2) 480 V AC D ± 5% 50 Hz ± 2% KBF 71-140 60 Hz (USA) KBF 71-140 Single speed Pole-changing 230/400 V AC D/Y ± 10% 400 V AC Y/Y ± 5% 1) 2) 1) Single speed Pole-changing 240/480 V AC YY/Y ± 10% 480 V AC Y/Y ± 10% 3) 5 KBF motor 1) Motors for other voltages and/or multi-voltage motors are available at additional cost on request. motors are supplied with a weaker brake spring than the standard design for Y/Δ connection (see section 5. Maximum voltages for the alternating current design: 2031515d_en_300812. brake disk and belt pulley. 4. data for 60 %. The voltage tolerance is reduced to ± 5 % for the extended voltage range.cosφ 6 Slip ± 20 % Starting current + 20 % Starting torque . A temporary voltage tolerance of ± 10 % according to EN 60034-1 with reference to the rated voltage and/or a temporary frequency tolerance of ± 2 % are possible.indd 5 The data for 100% CDF and 40% CDF can be found in the table.15 (1 .5.η ) 1 .60 % • Intermittent duty S 3 with 40.02 maximum 0.6. 25 and 15 % CDF 364 2031515d_en_300812.2 Ratings and tolerances The ratings given for KB motors refer to continuous duty (S1) and intermittent duty (S3) according to EN 60034-1 at a frequency of 50 Hz.2.6.0. .07 5. The following tolerances are also permissible according to EN 60034-1: Efficiency at PN ≤ 50kW Power factor .2 for other conditions. 25 % and 15 % CDF can be requested if required.10 % Moment of inertia ± 10 % minimum 0.3 Duty type There are two different winding designs: • Continuous duty S 1 (100 % CDF) and intermittent duty S 3 . Refer to section 1.4. an installation height of up to 1000 m above sea level and at a coolant temperature of 40 ºC.15 % to + 25 % Breakdown torque . run-up time. the motor will run in the clockwise direction when viewed from the motor output shaft side corresponding to DIN EN 60034-8. only the low-speed winding is protected by means of varistors. 365 . Links of three-phase motors for connection in Y or delta connection are lined up on the bottom left terminal. Notwithstanding the above.3. operating time. • KBF motors Starting frequency factor A is listed. braking time) T = Cycle duration in s The effective torque may not exceed the permissible torque rating of the motor for its duty factor. All motors with operating voltages higher than 500 V are provided with phase insulation and do not need this special protection.g. To protect the brake motors that are rated for high starting frequencies. In the case of pole-changing brake motors with two separate windings. the combination of high leakage inductance together with unfavourable supply conditions may cause high voltage peaks in the low-speed windings of motors.5 Connection The same procedure is used for motors with several speeds. the number of starts per hour must be converted as in section 1. • KBA motors with inverter operation Inverter-fed motors are checked on the basis of the effective torque instead of the number of starts. 5 5. This is the permissible number of starts per hour without load and without external moment of inertia with light brake disks. extremely fast power contactors.3. which are combined to form a set and have flexible connection leads.5. 5. No protection is required for the high-speed winding.4.4. All Demag conical rotor motors are supplied without connected jumpers. L2 and L3 phases are connected in sequence to the motor terminals U1. varistors can be fitted – at additional cost – if required.indd Each motor requires 3 varistors.g. Meff = Meff = Effective torque in Nm M = Torque of a period in Nm (e. The set of varistors is accommodated in the motor terminal box. the sizes concerned are protected by fitting varistors (voltage-dependent resistors) depending on their number of poles.2. starting time.6. For longer starting times.2.6 Varistors Owing to modern.2. The number of permissible starts z depends on the application and can be calculated as described in section 1. steady-state torque. V1.2.6. the value given for no-load starting frequency z0 only applies for operation at the corresponding speed. This specifies the permissible number of starts per hour for a drive starting time of 1 second. W1. brake torque) t = Period in s (e.6.4. In the case of pole-changing motors. 2031515d_en_300812.4 Starting frequency • KBA motors No-load starting frequency z0 is specified in the lists. When the three L1. we recommend fitting temperature detectors and/ or PTC thermistors (see section 5.A wide voltage range motors (380-400V) be used for 400V supplies.E range and all standard motors of the KBA range from frame size 90 are supplied with phase insulation as standard. we recommend that our 4-pole Z.2 for further information on technical data and functions.2.2. the fan mounted on the shaft might not be sufficient for cooling purposes. PTC thermistors can also be connected to and evaluated by Dedrive Compact frequency inverters by means of corresponding extension modules. the use of frequency inverters offers significant benefits that enable highly specialised requirements to be met by motors and their operating characteristics.1 and 5. sensitive devices and components) • mechanical elements can be protected (including crane girders and runways) • starting currents can be limited • motors can be used more efficiently (87 Hz operation) Demag frequency inverter ranges Dedrive Compact and Dedrive Pro are available for frequency inverter operation in various sizes for a wide output power range. A PTC thermistor evaluation unit must be used in addition for Dedrive Pro frequency inverters. Both ranges can be used for travel.5. When selecting the motor. slewing and hoist applications. the use of an external fan may be required. 4-pole motors should preferably be used for inverter operation.5.E motors is 400V.5.4).1.g. For this reason.indd The maximum motor speed is subject to mechanical limits (see sections 5. For example • processes can be adapted exactly • loads on motors and gearboxes can be reduced • goods can be handled gently (e. Thermostatic switches can be directly connected and evaluated by Dedrive Compact and Dedrive Pro frequency inverters. This allows these motors to be used easily for retrofitting or refurbishment in frequency inverter applications. A special motor control facility included in both frequency inverter ranges considerably reduces the run-on that sometimes occurs when stopping and starting with inverter-fed conical rotor motors in hoist applications.4 and 5. Phase insulation can be ordered as an option for all other motors. See sections 5. To guarantee appropriate motor protection in the event of inverter operation over longer periods at low speeds.A / Z. turning.3). The rated voltage of the Z.5 Operation with frequency inverters In comparison to line-fed motors. KB conical rotor motors can also be used. for example. we recommend specifying the rated voltage of the motor winding approx. 5% lower than the available line voltage. For this reason. 366 2031515e_en_300812.5. Regardless of this. Only in this way can it be ensured that the motor and frequency inverter unit will provide the optimum performance. . 5 The brake for the ZB cylindrical rotor motor must be separately supplied with a power supply voltage and controlled for inverter operation. In addition to Z cylindrical rotor motors. all 4-pole standard motors of the Z. If a motor is operated at less than the rated speed with an inverter. setpoint value steps (2 – 8-stage) and analogue control modes • Programmable joystick characteristics • Load-dependent speed for hoist operation with field weakening (“ProHub”) • Load spectrum calculation 5 Further information: Brochure 213 107 44 DE 213 108 44 EN in preparation in preparation Application guidelines/ operating instructions 214 715 44 DE 214 716 44 EN 214 717 44 FR 214 718 44 ES Quick-step operating instructions 214 707 44 DE 214 708 44 EN 214 709 44 FR 214 710 44 ES "Demag Dedrive Compact frequency inverter product documentation" documentation CD: 213 136 44.5 for 60 seconds factor of 2. ramp or motor switchover) • Setpoint memory.5.75 to – 55 kW • Overload capability of 1.0 for 10 seconds (except for DIC-4-040) • CE and cULus listed Hardware: • • • • • • • • • Rated voltage: 380 – 480 V (+10/-15%) Available as “Dedrive Compact complete solution” in enclosure type IP 54 Master/slave capable (system bus) Integrated line filter up to size 3 External line filter (optional) Integrated brake chopper Evaluation of motor temperature detector Communications module for field bus network (optional) Expansion module to extend control inputs and outputs.g.5.indd 42565444.1 Dedrive Compact frequency inverter Main features: • Motor outputs from 0. control. 2031515e_en_300812. as well as PTC thermistor and rotary encoder evaluation (optional) • Control unit for parameter programming and commissioning (optional) • Parcom Compact PC software for convenient parameter programming and diagnosis (optional) Software: • Parameter identification when motor is at standstill • Field-oriented control with/without rotary encoder for highly dynamic speed control • alternatively: V/f characteristic • Speed monitoring • Rounding function for smooth acceleration • Four switchable data sets (e.eps 367 . 8 8.8 1) 3.. 1.2 . cycle) Line-side input Line current 2) 3 ph / PE Line voltage U V Line frequency f Hz l A Fuse links 3 ph / PE 2.4 3.6 1) 52 58 1) 72 86 1) 105 1) 3 x 380 to 480 +10% / -15% 50 / 60 ±10% 6 10 16 20 35 50 63 190 x 60 x 180 250 x 60 x 180 250 x 100 x 200 250 x 125 x 200 1.4 ...4 for 60 seconds.8 9.2 IP 20 0. 300 depending on the modulation frequency Modulation frequency f Hz 2 .indd 5 Weight (approx.5 for 60 seconds.480 V Dedrive Compact DIC . 2.) .2 .7 2. 25 80 100 125 Mechanical engineering Dimensions HxWxD mm3 m kg Type of enclosure - - Connecting terminals A mm² Mounting arrangement - - 250 x 200 x 260 400 x 275 x 265 21.9 0.0 for 10 seconds (10 min. Line voltage 1.2 1) 35..xxx Size Data 1 Current code DIC .6 for 10 seconds Threaded pin Line reactor required for a duty factor > 50% CDF 2031515e_en_300812.xxx 002 003 2 3 004 006 007 009 014 3. 16 1..5 1) 26 28.3 1.0 for 10 seconds 3) 1..5 for 60 seconds.7 3.2 14.4 2.. 8/16 (depending on size) I A 90 3 x 0 .0 14 4 5 6 017 025 032 040 045 060 075 090 110 16.2 ...4 .8 5) 14.Line voltage 380 .2 Overload capability at 2 kHz - - Protection - - Short-circuit/earth-fault-proof Rotary field frequency f Hz 0 . 1..5 25 32 40 45 60 75 110 Motor-side output Output current I A Output Voltage U V 2.5 .8 7. 70 4) vertical 368 1) 2) 3) 4) 5) Line reactor required for a duty factor > 60% CDF Mains current with a relative mains impedance of 1% Reduced overload capability: 1..3 5) 5.8 6. .... 2... 6 max.4 1) 7.8 5.5 0. g.tif 369 . CSA and UL listed Hardware: • • • • • • • • • Rated voltage: 380 – 415 V.indd "Demag Dedrive Pro frequency inverter product documentation" documentation CD: 213 115 44. as well as rotary encoder evaluation (optional) • External PTC thermistor evaluation (optional) • Control unit for parameter programming and commissioning (optional) • DriveWindow PC software for convenient parameter programming and diagnosis as well as visualisation (optional) Software: • Parameter identification • Direct torque control with/without rotary encoder for fast compensation when loads change • alternatively: scalar method • Speed and torque monitoring • Special function for smooth acceleration • Two switchable data sets (e. 525 – 690 V (±10%) IP 55 enclosure type up to size R6 (optional) Master/slave capable (fibre optic cable) Integrated line filter (optional) Integrated line reactor Integrated brake chopper Evaluation of motor temperature detector Communications module for field bus network (optional) Expansion modules to extend control inputs and outputs.5 to – 560 kW • 1.5. 380 – 500 V. control.2 Dedrive Pro frequency inverters Main features: • Motor outputs from 1.5 times overload ability for 60 seconds • CE-. setpoint value steps (4-stage) and analogue control modes • Programmable joystick characteristics • Load-dependent speed for hoist operation with field weakening (“optimised performance”) • Load spectrum calculation 5 Further information: Brochure 213 116 44 DE 213 117 44 EN in preparation in preparation Application guidelines/Quickstep operating instructions 214 732 44 DE 214 733 44 EN 214 734 44 FR 214 735 44 ES 2031515e_en_300812.5. ramp or motor switchover) • Setpoint memory. 42644648. Motor) Line-side input Line current Line voltage Line frequency Fuse links 3 ph / PE 3 ph / PE 286 438 500 700 501 581 3 x 380 V to 415 V ± 10% 48 . 1 min.5 x 295 m kg 100 A mm2 - 1565 x 690 x 435 200 IP 00 PE: 3 cable lugs M10 other connections: 3 cable lugs M12/ vertical 2031515e_en_300812. Umrichter / UN. 3.70 with cable lug 16 25 vertical Line voltage 380 .. Short circuit and earth fault resistant max.70 95 .0 7..indd Dimensions Weight (approx.7 6. Short circuit and earth fault resistant max. Line voltage At 150 % overload. 3.8 15 19 25 36 44 57 70 83 113 122 3 x 0 .2 x fN. Motor x UNetz.3 R3 R4 0003 0004 0005 0006 0009 0011 0016 0020 0025 lslast U f A V Hz 4.Line voltage 380 .xxxx ..xxxx .) Type of enclosure m - kg - Connecting terminals A mm2 Mounting arrangement - - 607 x 240 x 274 26 IP 21 (IP 55 optional) 405 x 165 x 226 471 x 173 x 265 739 x 265 x 286 880 x 300 x 399 9 14 34 67 25 .185 or 16 .DEMAG 01 .63 63 80 100 83 100 142 125 160 250 163 315 Mechanical engineering HxWxD mm3 Dimensions Weight (approx.415 V Dedrive Pro ACS800 -DEMAG 04M .3 Size Data R2 Apparent output code Motor-side output Output current Output Voltage Overload capability Protection Rotating frequency ACS800 DEMAG01 ..3 Baugröße / Size / Taille Data R7 5 Apparent output code ACS800 -DEMAG04Mxxxx-3 R8 0210 0260 0320 0400 0440 0490 220 340 390 477 530 544 Motor-side output Output current Output voltage Overload capability Protection Rotating frequency lslast A U f V Hz I U f I A V Hz A 3 x 0 . 300 Hz (in DTC mode max.2 x fN.9 0030 R5 R6 0040 0050 0060 0075 0100 0120 0135 0165 8 9. 1 min.5 x 587.415 V Dedrive Pro ACS800 . Motor x UNetz. every 5 min. every 5 min.xxxx .2 5 6 I U f I A V Hz A 4. 300 Hz (in DTC mode max.63 900 1000 674 705 2 x 700 Mechanical engineering 370 HxWxD mm3 1181. Line voltage At 150 % overload. Motor) 159 182 208 10 13 17 23 198 221 254 400 500 Line-side input Line current Line voltage Line frequency Fuse links 3 ph / PE 3 ph / PE 16 25 50 32 42 53 69 3 x 380 V to 415 V ± 10% 48 . Umrichter / UN.) Type of enclosure Connecting terminals Mounting arrangement . 70 95 .Line voltage 380 .6 15 19 25 35 40 54 67 78 113 122 142 180 208 3 x 0 .9 7. Umrichter / UN.2 x fN..5 R3 R4 0004 0005 0006 0009 0011 0016 0020 0025 0030 R5 0040 R6 0050 0060 0070 0105 0120 0140 0165 0205 Motor-side output Output current lslast A U f V Hz Output Voltage Overload capability Protection Rotating frequency 4.2 x fN. 1 min. every 5 min.9 6 8 9. 300 Hz (in DTC mode max. Motor) Line-side input Line current Line voltage Line frequency Fuse links 3 ph / PE I A 3 ph / PE U f I V Hz A 291 500 424 498 700 3 x 380 V to 500 V ± 10% 48 .xxxx .1 4..63 900 1000 543 590 669 702 2 x 700 Mechanical engineering 2031515e_en_300812.xxxx .5 Baugröße / Size / Taille Data R2 Apparent output code ACS800 DEMAG01 ..5 16 17 25 23 50 64 78 95 142 155 180 222 256 3 x 380 V to 500 V ± 10% 48 . Short circuit and earth fault resistant max. 3. Motor) Line-side input Line current Line voltage Line frequency Fuse links 3 ph / PE I A 3 ph / PE U f I V Hz A 4.) Type of enclosure m - kg - Connecting terminals Mounting arrangement A - mm2 - 1565 x 690 x 435 100 200 IP 00 PE: 3 cable lugs M10 other connections: 3 cable lugs M12/ vertical 371 .185 or 16 . Short circuit and earth fault resistant max.70 with cable lug 26 IP 21 (IP 55 optional) 16 25 vertical Line voltage 380 .xxxx . 300 Hz (in DTC mode max..indd Dimensions HxWxD mm3 1181. Line voltage At 150 % overload.7 10 12. 3. Motor x UNetz.) Type of enclosure m - kg - Connecting terminals A mm2 Mounting arrangement - - 405 x 165 x 226 471 x 173 x 265 9 14 607 x 240 x 274 739 x 265 x 286 880 x 300 x 399 34 67 25 .5 Size Data R7 R8 0260 0320 0400 0440 0490 0550 0610 224 340 370 440 480 530 544 5 Apparent output code ACS800 DEMAG 04Mxxxx-5 Motor-side output Output current Output Voltage Overload capability Protection Rotating frequency lslast A U f V Hz 3 x 0 .63 63 80 100 31 41 47 125 160 250 315 400 500 Mechanical engineering HxWxD mm3 Dimensions Weight (approx. Motor x UNetz. 1 min. Umrichter / UN.DEMAG 01 .5 x 587.500 V Dedrive Pro ACS800 .7 5.500 V Dedrive Pro ACS800 -DEMAG 04M . every 5 min. Line voltage At 150 % overload.5 x 295 Weight (approx. 7 Size Data R4 ACS800 DEMAG01 . Motor x UNetz.xxxx . Line voltage At 150 % overload. Umrichter / UN. 300 Hz (in DTC mode max. every 5 min.xxxx .690 V Dedrive Pro ACS800 -DEMAG 04M .2 x fN.Line voltage 525 . Umrichter / UN.63 700 423 900 468 533 1000 Mechanical engineering 372 HxWxD mm3 1181. 3.. 1 min.63 80 100 125 63 91 112 160 250 131 315 400 Mechanical engineering Dimensions Weight (approx.indd Dimensions Weight (approx. 300 Hz (in DTC mode max.70 with cable lug Line voltage 525 . every 5 min. Motor x UNetz.) Type of enclosure Connecting terminals Mounting arrangement HxWxD mm3 m kg A mm2 - 607 x 240 x 274 26 739 x 265 x 286 34 IP 21 (IP 55 optional) 6 .7 Size Data R7 5 Apparent output code ACS800 -DEMAG04Mxxxx-7 R8 0260 0320 0400 0440 0490 0550 0610 172 233 274 328 387 426 482 Motor-side output Output current Output Voltage Overload capability Protection Rotating frequency lslast A U f V Hz 3 x 0 . Short circuit and earth fault resistant max..5 x 295 m kg 100 - 1565 x 690 x 435 200 IP 00 Connecting terminals A mm2 PE: 3 cable lugs M10 other connections: 3 cable lugs M12 Mounting arrangement - - vertical 1) Output frequency above 41 Hz 2031515e_en_300812. 3.DEMAG 01 . Line voltage Overload capability Protection Rotating frequency f Hz At 150 % overload.xxxx .7 Apparent output code R5 R6 0011 0016 0020 0025 0030 0040 0050 0060 0070 0100 0120 0145 0175 0205 9.5 18 20 26 28 38 44 59 70 86 106 134 152 162 186 Motor-side output Output current lslast A Output Voltage U V 3 x 0 .2 x fN.185 or 16 . Motor) I U f I A V Hz A Line-side input Line current Line voltage Line frequency Fuse links 3 ph / PE 3 ph / PE 12 15 25 21 24 50 33 35 52 58 79 3 x 525 V to 690 V ± 10% 48 .2 12.35 vertical 25 880 x 300 x 399 67 95 . 1 min. Short circuit and earth fault resistant max..690 V Dedrive Pro ACS800 .. Motor) Line-side input Line current Line voltage Line frequency 3 ph / PE I U f A V Hz 166 / 217 1) Fuse links 3 ph / PE I A 400 298 333 377 3 x 525 V to 690 V ± 10% 48 .) Type of enclosure .5 x 587. 2031515e_en_300812.indd 373 5 . 1 Special lubricants The permissible standard lubricants are listed in the table in section 1. Clause 1) and international regulations (‘Guidelines of sec.1.1. Please also note that this may lead to altered delivery times.1.1. 6.6 Options and accessories Options and accessories are available at extra cost. on request. no finish coat (C0) • Multi-coat finish with standard paint (C2/C3) 6 • Acid-resistant paint finish (C3/C4) • Multi-coat finish with double package PUR paint following sand-blasting (C3/C4) A non-standard colour is also available for the above-mentioned paint type.1. Solo motors are provided with a single package synthetic resin top coat.1 General gearbox options 6. cold and acid resistant painted adhesive foil. • Use in drinking water protection areas: biologically degradable oil for water pollution class 0.4.2. 21 CFR 178. on application. 6. • On request: grease.5 Rating plate .1.1. The following lubricants can be supplied to order for applications with special requirements: • Use at lower or higher ambient temperature: synthetic oil.1 Gearbox options 6. 6.2 Oil level gauge Gearboxes can be fitted with an oil level glass for most model designs and positions. The standard rating plate is a scratch. Vent valves (IP55 / IP65) can be fitted on request. This means that they are protected against corrosion for installation in buildings with a neutral atmosphere as well as in a moderate open-air climate. selected to meet the application requirements.1.indd 6. These can also be provided with long-term preservative on request. 6. Other lubricants for special operating conditions on request. Stainless steel vent valves are available as an option for special ambient conditions. A top coat in other corrosion classes is also available as an option: • Primed. A second adhesive foil rating plate can also be supplied loose as an option. Paragraph 1. If a drive needs to be silicone-free. A stainless riveted rating plate for the gearbox and motor is also available as a further option. Not all special designs are available for hypoid gearbox sizes W 10 to W 50. heat. specially treated shaft sealing rings are used in addition to a suitable oil. • Application in the foodstuffs and pharmaceutical industry according to German regulations (LMB 6 § 5.1. 374 2031516a_en_300812. The rating plate is applied in one position on the housing irrespective of the model design and mounting position.4 Special paint finish The geared motors are supplied as standard with a 2-component Hydro top coat in RAL 5009 (azure blue).3570 of FDA regulations’): oil suitable for foodstuff applications. Corrosion class C1/C2 is achieved with this standard paint. Special paint finishes for use in areas to corrosion class C5-l or C5-M are possible. Non-painted parts are provided with temporary corrosion protection for transport purposes.1.3 Gearbox venting Gearboxes up to and including size 40/41 do not require venting as standard.1.1. dwell time and duty factor.1.low temperature range galvanising facilities sea ports and inland harbours Information on further environmental packages is available on request. 6. sealing rings and lubricant must match these conditions. these are environmental packages for: • • • • outdoor applications . These packages include all options and measures for the gearbox.7 Stainless steel bolts The outer motor bolted connections can be supplied in stainless steel as an option for geared motors used under special ambient conditions.1.moderate cold store areas . the coupling. with increased moment of inertia preferably for KBF conical rotor motors Helical gearbox D11 / D21 D31 D41 – D50 D60 D70 D80 D90 Angular gearbox W10 W20 W30 W40 W50 W60 W70 / W 80 W90 W100 – Offset gearbox A10 A20 – A50 / A60 A70 A80 – – A90 A30 A40 – Motor frame size 2031516a_en_300812. please specify the temperature. e. In particular.6.1. the following fail-safe Demag roller spider coupling designs are possible: • Input type L: Light roller spider coupling H. in galvanising plants or also in outdoor applications in seaports and harbours.1. motor or the complete travel unit that we believe are necessary for these operating conditions.9 Couplings For geared motors with a coupling connection. 6.8 Environmental package We have assembled environmental packages for special applications and special environmental conditions.1.indd KB 71 Z 80 / 90 A KB 80 Z 90 B KB 90 Z 100 KB 100 Z 112 / Z 132 A KB 112 / KB 125 Z 132 B / 132 C KB 140 Z 160 KB 160 Z 180 A KB 180 Z 180 B / 200 KB 200 Z 225 KB 225 6 Z 63 / 71 H 1 / HT 1 H 2 / HT 2 H3 375 .1.6 Extended temperature range Use of geared motors in temperature ranges that deviate from the normal temperatures: If geared motors are used in areas exposed to extreme temperatures.g.1. To enable components to be matched to this application. 6.1. with low moment of inertia preferably for KBA conical rotor motors or ZBF cylindrical rotor motors • Input type S: Roller spider coupling HT. Other designs available on request.1 Output shaft design Output shafts with non-standard dimensions (diameter. Refer to the examples below.2. Solid shaft diameter and key slot with inch dimensions: Size D 11 D 21 D 31 D 41 D 50 D 60 D 70 D 80 D 90 d x l [inch x mm] 3/ ” 4 x 40 1” x 50 1 1/8” x 60 1 1/8” x 60 1 1/2” x 80 2” x 100 2 3/8” x 120 2 3/4” x 140 3 1/2” x 170 V V V V V V V V V Output shaft code 220 225 230 230 240 250 260 270 290 Size D 11 D 21 D 31 D 41 D 50 D 60 D 70 D 80 D 90 d x l [mm x mm] 20 x 40 25 x 50 30 x 60 30 x 60 40 x 80 50 x 100 60 x 120 70 x 140 90 x 170 V V V V V V V V V 120 125 130 130 140 150 160 170 190 Output shaft design Smooth solid shaft with no key slot: Output shaft design 376 2031516a_en_300812.indd 6 Output shaft code .1. length) can be supplied.6.1.2 D helical gearbox options 6. These shafts are subject to additional cost based on unit figures and non-standard delivery times. housing designs A wide variety of possible combinations are available for parts such as output shaft. Refer to the examples below.5 Ø 100 130 W50 599 219 46 160 6 49 Ø 131 165 (4 x) M16 x 30 20 Nm W 60 599 503 46 170 5 57 Ø 138 165 (4 x) M12 x 30 20 Nm W 70 578 462 46 215 6 79 Ø 170 215 (4 x) M16 x 25 20 Nm W 80 578 461 46 260 6 79 Ø 170 265 (4 x) M16 x 25 20 Nm W 90 575 838 46 300 4 92 Ø 258 300 (4 x) M20 x 25 20 Nm W 100 599 834 46 350 5 90 Ø 308 350 (4 x) M20 x 40 20 Nm 1) Slotted head screws (2 x) M12 6 The following bolt-on fixed covers for the shrink disc are available. Other designs available on request. Solid shaft diameter and key slot with inch dimensions: Size W 10 W 20 W 30 W 40 W 50 W 90 W 100 Key slot in inch dimensions: 1” x 50 1” x 50 1 1/8” x 60 11/2” x 80 2” 2” 2 3/8” 2 3/4” 3 1/2” x 100 x 100 x 120 x 140 x 170 4 5/16” x 210 V V V V V V V V V V Output shaft code 225 225 230 240 250 250 260 270 290 300 d x l [mm x mm] 25 x 50 25 x 50 30 x 60 40 x 80 V V V V V V V V V V 125 125 130 140 150 150 160 170 190 200 Output shaft design Smooth solid shaft with no key slot: Output shaft design Output shaft code Hollow shaft diameter and key slot with inch dimensions: d [inch] 1 Output shaft design Output shaft code 1/ ” 4 1 1/ ” 4 1 3/ ” 8 1 W 60 W 70 W 80 50 50 60 70 90 x 100 x 100 x 120 x 140 x 170 1/ ” 2 2” 2” 2 3/ ” 8 2 3/ ” 4 3 1/ ” 2 110 x 210 3 7/8” H H H H H H H H H H 230 230 235 240 250 250 260 270 290 300 6.3 W angular gearbox options 6.1.5 132 x 132 115 (2 x) M10 x 25 20 Nm W 40 350 211 84 148 6 42. length) can be supplied.1.indd Gearbox Order no.2 Output shaft design Output shafts with non-standard dimensions (diameter.3. Dimensions in mm b1 b2 b3 d e1 Tightening torque s W 10 350 215 84 116 6 40 Ø 88 100 (2 x) M8 x 15 10 Nm W 20 / W 30 350 201 84 – – 54. 6.3.4.1. Contact our technical department for information about additional combination possibilities.6.1.eps 2031516a_en_300812.3. flange and foot rails in addition to the gearbox designs described in section 3. 1) – 377 .3 Shrink disc cover 42691444.1 Model designs. These shafts are subject to additional cost based on unit figures and non-standard delivery times. the drive shafts plugged into the hollow shafts must be checked for mechanical strength. For dynamically loaded drives.indd 6 Gearbox .87 W 60 789 276 44 115 250 20 70 40 2 5.5 dB L L1 s [kg] W 10 789 026 44 35 130 12 40 13 1 1.04 W 50 789 226 44 300 250 12 59 30 2 3.65 W 40 789 176 44 75 200 12 59 30 2 3.3. The following part numbers include the complete mounting set. the stop point of the torque bracket must be checked for play. Additional forces act on the shaft when a torque bracket arm 1 is used.54 W 90 789 426 44 720 400 38 88 47 2 20.00 W 100 789 476 44 720 500 45 100 51 2 35. Arm 1 torque bracket W 10 .65 W 30 789 076 44 75 160 12 40 13 1 1.10 W 80 789 376 44 300 350 38 88 51 2 13. It can be fitted both to the right as well as the left-hand side of the gearbox.30 W 20 789 076 44 75 160 12 40 13 1 1. e.4 Arm 1 torque bracket The torque bracket is designed as an arm with an eye parallel to the shaft. travel drives.1. It can be bolted to the gearbox housing in three optional positions at 90º to the output.W 50 W 60 .W 100 41677344.g.6.00 2031516a_en_300812.00 W 70 789 326 44 300 300 20 70 36 2 8. During reversing operation.eps Arm 1 torque bracket 378 Torque bracket set Tightening torque Dimensions in mm Weight Arm 1 [Nm] a ± 0. 3 60 33 43 6 Gearbox 15. travel drives. The required play during reversing operation can easily be realised if this torque bracket is used.1. Arm 2 torque bracket D h4 h5 t M s h d Gearbox side Customer's superstructure a e 42773545. Additional forces act on the shaft when a torque bracket arm 2 is used. It can be fitted both to the right as well as the left-hand side of the gearbox.g. For further information. The following part numbers include the complete mounting set. For dynamically loaded drives. It can be bolted to the gearbox housing in three optional positions at 90º to the output.6.5 9.5 15 75 24 35 13 10 3.3.eps Arm 2 torque bracket Torque bracket set Arm 2 1) W 50 578 600 46 W 60 578 601 46 W 70 578 602 46 W 80 578 603 46 W 90 578 604 46 W 100 352 117 84 Torque bracket bolt Dimensions in mm Damping element Tightening torque Weight [kg] M [Nm] a ± 0. damping element and gearbox bolts 379 .9 158 66 20 80 50 21 20 10.1.6 MW torque bracket The torque bracket is suitable for gearbox sizes WU 10 to WU 100 of universal type U.2 M20 x 190 M30 x 260 300 720 450 500 158 66 210 91 216 93 20 80 26 7. 1) Set includes torque bracket arm 2. see the ‘Demag DRS wheel-block system’ catalogue.indd 6.1 2031516a_en_300812. It can be bolted to either side of the output side centring arrangement.3.5 11.8 23. 203 352 44. the drive shafts plugged into the hollow shafts must be checked for mechanical strength.5 19 8. e.5 Arm 2 torque bracket The torque bracket is designed as an arm with an eye vertically to the shaft.5 h h4 h5 s e D d t M12 x 140 115 250 125 52. 1. Refer to the examples below. Other designs available on request.1.4 A offset gearbox options 6. motor side: Solid shaft diameter and key slot with inch dimensions: Smooth solid shaft with no key slot: Hollow shaft diameter and key slot with inch dimensions: A 10 A 20 A 30 A 40 A 50 A 60 A 70 A 80 A 90 d x l [mm x mm] – – 30 x 60 40 x 80 50 x 100 60 x 120 70 x 140 90 x 170 110 x 210 Output shaft design – – V V V V V V V Output shaft code – – 11 11 11 11 11 11 11 d x l [mm x mm] – – 30 x 60 40 x 80 50 x 100 60 x 120 70 x 140 90 x 170 110 x 210 Output shaft design – – V V V V V V V Output shaft code – – 12 12 12 12 12 12 12 d x l [inch x mm] – 1” x 50 1 1/8” x 60 1 1/2” x 80 2” x 100 2 3/8” x 120 2 3/4” x 140 3 1/2” x 170 4 3/4” x 210 Output shaft design – V V V V V V V V Output shaft code – 225 230 240 250 260 270 290 300 d x l [mm x mm] – 25 x 50 30 x 60 40 x 80 50 x 100 60 x 120 70 x 140 90 x 170 110 x 210 Output shaft design – V V V V V V V V Output shaft code – 125 130 140 150 160 170 190 210 7/8” 1” 1 3/8” 1 1/2” 2” 2 3/8” 2 3/4” 3 1/2” 3 7/8” H H H H H H H H H 222 224 235 240 250 260 270 290 300 d [inch] Output shaft design 380 2031516a_en_300812. These shafts are subject to additional cost based on unit figures and non-standard delivery times.4.indd 6 Output shaft code . 6.4.4.6.1. Contact our technical department for information on additional combination possibilities. housing designs A wide variety of possible combinations are available for parts such as output shafts. length) can be supplied. Size Solid shaft with key on both sides: Solid shaft with key. flanges and foot plates in addition to the gearbox types described in section 4.2 Output shaft design Output shafts with non-standard dimensions (diameter.1 Model designs. eps Gearbox Order no.6.indd 6 b1 381 . A 20 Dimensions in mm Tightening torque b2 d s [Nm] 350 203 84 104 37.4.1.5 ø 80 (2 x) M5 x 10 10 A 30 350 212 84 181 41 ø 91 (2 x) M8 x 12 10 A 40 350 209 84 211 50 125 x 125 (4 x) M12 x 20 20 2031516a_en_300812.3 Shrink disc cover The following bolt-on fixed covers for the shrink disc are available. 42691544. eps 41679644. The following part numbers include the complete mounting set. travel drives. 200 Nm → M16. 14 Nm 382 2031516a_en_300812. e.4 D2 torque bracket When using torque bracket D2. The necessary play during reversing operation can easily be realised if this torque bracket is used.6. D2 for AM. For dynamically loaded drives.g.indd 6 1 2 3 4 5 6 .1.eps Shoulder of shaft 1 2 3 4 5 6 41679544. additional forces act on the shaft.eps Fastening nut Torque bracket Counter nut Compression nut Dished washers Spring element → M16.10 Min. the drive shafts plugged into the hollow shafts must be checked for mechanical strength.4. D2 torque bracket for AM. 5 mm 41679444. 10 The torque bracket is inserted into the opening in the gearbox housing and compressed to retain it in the opening by tightening a nut. 30 D2 for AU. 40 17 39 65 49. 20 41037843.eps 41037943.indd Gearbox AU/AD . 50 163 82 145 20 45 60 60 7 135 17 200 Nm 63 Gearbox AU/AD . 60 41759544.D2 torque brackets for A 20 to A 90 The torque bracket features an arm with a slot and is connected by means of a bolted vibration-damping arrangement to a slot cast into the gearbox housing.5 25 135 41037843.eps Gearbox AU/AD . 80 41759546. 70 6 Gearbox AU/AD .eps Gearbox AU . 90 41759545.eps Gearbox AU/AD .eps 383 . The paint finish thickness between the torque bracket and connecting surface should not exceed 60 μm.eps 41037644.eps 41759444. D2 for AU.eps 2031516a_en_300812. .3 AM10 785 139 44 M 16 1 200 Nm 18 – AU 20 811 950 44 AU 30 818 645 44 AU/AD 40 818 649 44 AU/AD 50 811 208 44 AU/AD 60 787 989 44 AU/AD 70 787 990 44 AU/AD 80 787 991 44 AU 90 787 995 44 g 2 M 12 115 Nm 14 4 M 16 6 35 65 300 Nm 18 8 a±2) h4 u±1).5 ±12 440 118 ±12 64. The following table lists the largest motors which can be fitted.5 150 83.g. contact our office.5 ±6 20 60 184 h2 – – 100 90 h1 40 309 120 ±12 – 73 ±12 83 366 68. 384 1) To flange contact surface 2) Tolerance due to torque bracket slot 3) Applies to dynamically loaded drives only 2031516a_en_300812. 2) Set nut.5 ±6 25 20.D2 torque bracket connection dimensions Bore hole arrangement A10 A20 – A60 A70 – A80 A90 2) X Bore hole arrangement centre Gearbox centre Gearbox centre Gearbox centre Gearbox centre Detail X Bolt.A90 [Z160A/ KB140] [Z80A/KB90] Check plugged in shafts for mechanical strength [ ] The values apply to dynamically loaded drives only.eps D2 torque bracket Gearbox Torque bracket Retaining bolt quality 10.9 Bore hole template Order no.5 ±12 10 520 159 ±12 93 ±12 Shaft type Solid shaft key Solid shaft splined Hollow shaft A10 [Z80A/KB80] A20 A30 A40 Z80A/KB90 3) Z90A/KB90 3) [Z112A/KB100] A50 A60 .5 ±6 22.5 ±4 30 ±4 255 140 ±6 54. e. DIN 933 1).5 182 88 ±7 31 ±7 206 91. travel drives. Larger motors can be fitted. additional forces act on the shaft. quality 8 Washer. 2) 0 132 – – 27. Size Qty Tightening torque d H11 f ±0. no limitation applies.indd 6 When using torque bracket D2. DIN 6919 41805945. If no value is listed. Connecting customer torque brackets 1 2 3 4 Locknut Washer Damping element Retaining bolt Gearbox connection 42146544.5 MA torque bracket The torque bracket is suitable for gearbox sizes AM 10 to AM 40 of torque bracket type M. This set consists of a retaining bolt.Plastic damping element set for offset gearboxes In addition to the complete D2 torque bracket set for shaft-mounted offset gearboxes. 385 .4. The bracket is connected to the gearbox housing by means of a splined profile section cast into the gearbox end face.indd 6 A torque bracket that can be flanged to the gearbox end face is available for gearbox sizes AD 40 to AD 80 and AU 90 of torque bracket type D. washers. 203 352 44. see the ‘Demag DRS wheel-block system’ catalogue.eps Offset gearbox Plastic damping element set Tightening torque AU 20 AU 30 AU/AD 40 AU/AD 50 AU/AD 60 AU/AD 70 AU/AD 80 AU 90 787 892 44 787 893 44 787 894 44 787 895 44 787 896 44 787 897 44 787 898 44 787 899 44 50 Nm 100 Nm 100 Nm 200 Nm 300 Nm 300 Nm 300 Nm 550 Nm 6.1. For further information. 2031516a_en_300812. locknut and the plastic damping elements. we also offer a plastic damping element set for A20 – A90 offset gearboxes. 2. PTC thermistors used for warning purposes are supplied with a rated tripping temperature 20 K lower than that of PTC thermistors used for switching off. 3 PTC thermistors in the highspeed winding. a warning is required when the winding temperature is too high. This would result in destruction of the semi-conductor component.2. in addition to PTC thermistor switch-off. 6.2 Winding protection 6.2. The resistance of each PTC thermistor changes in the kΩ range when the rated tripping temperature is reached. 386 If.5 V DC output voltage and 4 kΩ tripping resistance. Owing to their low heat capacity and internal thermal contact with the winding. PTC thermistors to DIN 44081 are suitable for tripping devices with 2.2. The resistance for each PTC thermistor is between 10 and 250 Ω at temperatures of –20 °C to TNAT –20 °C (NAT = rated tripping temperature). This resistance is evaluated by tripping devices and can be used to open auxiliary circuits. protection against overload. 2 PTC thermistors in the high-speed winding. protection against overload. RKL [Ω] -20°C TNAT-20K TNAT T [°C] 43405544. blocked rotor. excessively high starting frequency.2 Z motor options 6. When a limit temperature is reached (rated tripping temperature). an additional tripping device and double the quantity of PTC thermistors are required. inadequate cooling. 2031516b_en_300812. they provide precise monitoring of the winding temperature. the resistance of the PTC thermistors changes rapidly.1 PTC thermistor The most comprehensive protection against thermal overloading of the motor is offered by positive temperature coefficient thermistors which are integrated in the motor winding. PTC thermistors cannot be subjected to high currents and voltages. Motors provided with this type of protection can be used for operating conditions with high frequency starting.1 Motors with coupling shaft end In addition to the IEC shaft ends for Z cylindrical rotor motors. The required tripping devices must be ordered separately. inadequate cooling. two-phase starting. blocked rotor • Motors with two windings: 3 PTC thermistors. Important! Protection is only provided against overload. This makes it possible to quickly switch on the drive again. two-phase starting. excessively high starting frequencies.eps Number of PTC thermistors: 6 • Motors with one winding : 3 PTC thermistors (1 per phase). starting against heavy loads and voltage and frequency fluctuations in the mains supply. The temperature tolerance for switching is low at ± 5 K. inadequate cooling.indd • Special design (must be specified in the order): . Protection is not provided against blocked rotor and twophase starting! 3 PTC thermistors in the low-speed winding. excessively high starting frequency.6. 1 PTC thermistor in the low-speed winding. a version with a coupling shaft end (short shaft end) is available for the combination of a geared motor with a coupling connection and the Demag roller spider coupling. 387 .3 A at 250 V. Owing to the large thermal time constants.2.2. 3 temperature detectors in the high-speed winding. 2031516b_en_300812. temperature sensors • PT-100 or • KTY 84-130 are used for precise temperature measurement and/or monitoring. The circuit can only be closed again when the motor has cooled down noticeably. these switches are not suitable for high motor current increase rates (e. The precision of the measuring detector allows their universal use for temperature monitoring using limit circuits in motors. short-circuit or blocked rotor).indd 6 The linear relationship between resistance and temperature simplifies the use of electronic evaluations.2. 1 temperature detector in the high-speed winding. 6.3 Temperature sensors In rare cases. The control voltage of the temperature detectors must not exceed 250 V according to EN 60204. 71 and 90 A for design reasons. These bimetallic switches (normally closed) switch off an auxiliary circuit on reaching a limit temperature. 1 temperature detector in the low-speed winding. Not possible for frame sizes Z63.2.2 Temperature detectors Temperature detectors integrated in the motor winding provide adequate protection for slowly increasing motor temperatures and. offer protection against thermal overloading. The maximum switching current is 6.6. Number of temperature detectors: • Motors with one winding: 1 temperature detector • Motors with two windings: 2 temperature detectors. therefore.g. • Special design: 3 temperature detectors in the low-speed winding. A inv.. they are not designed to be retrofitted.3 V U Low <= 2 V Power consumption Output voltage 6 EGS 1 1) 470 740 44 5 V .RS422 Output current max. B inv. B.6. Pulse generators can be connected to various commercial evaluation devices for noise-free balanced-to-earth pulse transfer. mark-space ratio 1 : 1 Tolerance N. See also the operating instructions of the various frequency inverters and motor control units for selection of the pulse generator interface. Please use the EM UNI-01 extension module. pulse frequency 10 kHz Type of enclosure corresponds to the motor enclosure type Ambient temperature corresponds to motor ambient temperature Interface adapter fitted in the motor terminal box 42576544. see operating instructions 214 372 44. See section 6.. Binv Square pulse chains displaced by 90º. Ninv ± 30º electrical Zero pulse generated once per revolution The EGS 2 interface is compatible with the S31 electronic module of the KB series integrated pulse generators. N inv A. order no.3 Integrated pulse generator An integrated pulse generator is available for demanding control requirements with Z cylindrical rotor motors. 30 V DC 60 mA 30 mA (24 V) 30 mA (24 V) 5 V . Type EGS 3 cannot be used either due to the required minimum number of divisions of 1024 pulses. An integrated pulse generator must be ordered at the same time as the motor.63 to Z. The integral pulse generator operates without any contact on the basis of an optical system..4 Optional pulse generator for electrical connection and signal shapes. It is integrated in the motor on the brake side.2.2. We recommend the EGS 2 design for use with Demag Dedrive Compact frequency inverters. N. displaced by 90º Zero pulse 1 x per revolution Max. EGS 2 1) EGS 3 1) 470 741 44 470 742 44 Interface RS422 (TTL) RS422 (TTL) HTL Supply voltage UB = 5 V DC UB = 10 . corresponds to that of the motor Number of pulses 2 x 30 per revolution. Not suitable for use with Demag Dedrive Pro frequency inverters.. Integrated pulse generators can be fitted to motor sizes Z.. 30 V DC UB = 10 .eps Electrical data Design Interface adapter. The interface module can be converted at a later date.RS422 U High >= UB . Ainv.132. 2031516b_en_300812. 30 mA per channel Output signals A. Three interfaces are available for various supply and signal voltages: Technical data Speed max. B. 388 1) The interface adapter is integrated in the terminal box.indd Signal shapes .. Assignment Conductor colour No. Fitting at a later date is possible..for bending several times: 125 mm. but are available as an option. 1 Channel Binv (Pink) 07 Assignment Conductor colour Channel B (Grey) GND (White) VCC (Brown) P0 3 5 11 4 2 41871344.2. Motors are fitted with an optional pulse generator before leaving the factory.225.eps 08 3 Channel N (Red) 09 4 Channel Ninv (Black) 10 5 Channel A (Brown) 11 6 Channel Ainv (Green) 12 Connector without cable Connector with cable 2) Cable length Order no. 389 . general An optional pulse generator is available for demanding control requirements with Z cylindrical rotor motors. 1) X m: Lengths over 30 m to 100 m in 5 m steps available on request 2) Cable bending radius: .for bending once: 42 mm.5 mm2 No.. Connector and connecting cable do not belong to the encoder scope of delivery. 10. - 537 667 84 3m 264 449 84 5m 264 581 84 10 m 264 582 84 15 m 264 583 84 30 m 264 584 84 X m 1) 264 450 84 6 Pulse generators are connected to the motor terminal box by means of a 12-pole CONIN connector with external thread for connecting to evaluation devices using a PUR cable. 12: Supply line: 0. 2031516b_en_300812. speed detection and monitoring.6.indd For connection to Demag inverters. No. Optional pulse generators can be fitted to motor frame sizes Z. Optional pulse generators should preferably be ordered together with the motor. . see documents 214 119 44 and 214 123 44.14 mm2. Electrical connection Connecting pin diagram 9 8 7 6 PIN arrangement (looking at the connecting pins) 1 10 12 EG: Connection for 12-pole CONIN connector on the terminal box Type of connection AG: Connection for 12-pole CONIN radial connector on the encoder IAG: Connection for 12-pole CONIN connector on the side of the terminal box 2 Pin assignment Clockwise rotation No. Pulse generators can be used for direction of rotation detection.63 to Z. positioning and speed regulation. 1-9: Signal cable: 0.4 Optional pulse generator. Signal shapes The output signals from the pulse generators are generated in the following dependency to one another. The output signals shown in the diagram apply for pulse generators EG. 2031516b_en_300812. 360º U High Channel A 0V U High Channel Ainv 0V 90º ± Tolerance U High High level 1) Channel B 0V Channel Binv U Low Low level 1) U High 0V U High Channel N 0V Channel Ninv U High 390 1) The levels depend on the respective incremental encoder type.indd 6 0V . see technical data table. AG and IAG. . however. see the dimension drawing of the motor Diameter dB 6 Motor frame size 42786544.225 k 1) k 1) L Z.132 96 115 85 Z..6.160 .225 106 130 90 1) For the standard length k of the motor.225 k 1) LB LB Ø dB Ø dB Ø58 (42) The illustration corresponds to the fitting to the ZB motor 42786644.indd Encoder fitting Encoder with guard Length L Length LB Z.Z.2.eps 2031516b_en_300812...Z.132 Z...63 .63 .. Demag offers optional pulse generators with 3 different interfaces. AG3 external pulse generators With its AG1 to AG3 range. Connection dimensions Encoder fitting with guard Encoder fitting ZB.Z.eps 391 .160B ..eps 42017344. They cannot be combined with additional integrated fans.90A 96 - - Z. Encoder guard If a more robust external encoder is required.Z.Z225. combination with an additional external fan of radial design is possible for motor frame sizes Z90B – Z132.90B .1 AG1. these include the transfer of square pulses HTL and RS422 (TTL) interfaces. AG2.90B ..Z..4. a guard is available for motor frame sizes Z90B .ZB. . 2) Not suitable for use with Demag Dedrive Pro frequency inverters.2. 6000 rpm . 2031516b_en_300812. typical Output voltage Output load Output signal 50 mA 5 V DC . Please use an EM UNI-01 extension module. AG 2.indd 6 Order no..RS 422 0 . A inv.5 V DC L < 0. . 20 mA per channel max.5 V DC Supply voltage UB 5 V DC 10 to 30 V DC Current consumption (no load). axial max. 3) Suitable for use with Demag Dedrive Pro frequency inverters. 10000 rpm Type of enclosure IP 65 Operating temperature -40°C to +80°C Electrical data Definitions Size Data AG 1 1) 2) AG 2 1) 2) AG 3 1) 3) Interface RS 422 (TTL) HTL Output level H > 2.5% Division marks 1024 Pulse frequency max. N inv Phase offset related to one pulse length 90° ± 7. AG 3 Size 58 Flange Synchro Shaft diameter 6 mm Shaft length 12 mm Shaft load.max. radial max. B inv. B. 150 kHz Permissible cable length for 3000 rpm 250 m 250 m Permissible cable length for 3600 rpm 250 m 250 m Permissible cable length for 6000 rpm 250 m 50 m 204 442 84 204 443 84 392 1) Suitable for use with Demag Dedrive Compact frequency inverters.Technical data Definitions Data Types AG 1. N.5 V DC L ≤ 2. We recommend the AG 2 design for use with Demag Dedrive Compact frequency inverters.in continuous duty max. 125 N Speed . 40 mA per channel A. +UB max.5 V DC H ≥ UB . 70 N Shaft load (at shaft end). Demag offers optional pulse generators with 3 different interfaces..4.. They can only be combined with additional external fans for motor frame sizes Z90B – Z132.200 193 193 75 Z.112 . Connection dimensions Encoder fitting with additional external fan Z. The external encoders are hollow-shaft mounted units and are integrated underneath an extended fan cover.eps Encoder fitting with additional external fan Encoder fitting Length L Extension LV 2031516b_en_300812.Z. see the dimension drawing of the motor 6 Standard length k 1) 393 . ZN.Z.2 apply for IAG units used in combination with additional external fans.Z. ZB./ZB.6. IAG units can be combined with additional external fans.. IAG2.180B .225 212 212 75 1) For the standard length k of the motor.90B .100 104 105 - Z. The dimensions specified in section 6.indd Motor frame size LV L ZN. these include the transmission of square pulses using HTL and RS422 (TTL) technology..160 .6.225 Encoder fitting Z...90B .2. Z.Z..Z..2.2 IAG1.225 Standard length k 1) 42017345. IAG3 integrated optional pulse generators With its IAG1 to IAG3 range for Z90B – Z225.160 ..132 123 107 - Z.Z.180A 189 189 75 Z..eps 42017346.... B. for safety-related functions.2 V DC H > UB . Thanks to its design featuring two autonomous electronic systems. Safe and reliable position measurement also makes it possible to a implement reliable cam-operated switch arrangement. 3) Not suitable for use with Demag Dedrive Pro frequency inverters. 200 kHz max. Please use an EM UNI-01 extension module.3 Other encoders. 0.5 V DC L < 2. IAG 2. A inv. Thanks to its design featuring two autonomous electronic systems (SSI and incremental).+ 70°C 1) Size ..5 V DC Current consumption (no load).RS 422 Output load A. e. 2) Suitable for use with Demag Dedrive Compact frequency inverters. We recommend the IAG 2 design for use with Demag Dedrive Compact frequency inverters. 0 . IP 64 Electrical data Definitions Size Data IAG 1 2) 3) RS 422 (TTL) HTL Output level H > 2. ± 40 mA per channel Output signal 6 IAG 3 2) 4) Interface Supply voltage UB 6. 200 kHz at 5 V DC max.1 mm flexible torque bracket 1 Speed 1) Ø100 mm max.indd A prepared lead is available in a length of 15 m as a connecting cable for this encoder.+ 40°C Model Hollow shaft Hollow shaft diameter 45 mm Hollow shaft length Continuous Motor shaft play. B inv.5 V DC L < 1.. 2031516b_en_300812. SCU11.Technical data Definitions Data Types Operating temperature IAG 1.g. e. SCU12. typical Output voltage 5 V DC 10-20% to 30 V DC 70 mA 50 mA (at 10 V DC) 30 mA (at 24 V DC) 5 V DC . IAG 3 . 4) Suitable for use with Demag Dedrive Pro frequency inverters. 50 kHz at 24 V DC 264 121 84 264 122 84 264 123 84 Enquire about other encoders and mounting possibilities.5 mm Motor shaft play. for safety-related functions. 200 kHz at 24 V DC max. 3600 rpm Cyclic duty factor 100 % Type of enclosure min. Performance Level (PL) d in Category 3 is achieved in connection with a Demag safety control unit. radial max.2. e. 3000 rpm max.4. Performance Level (PL) d in Category 3 is achieved in connection with a Demag safety control unit.g.20°C . 0. . N inv Tolerance ± 25° electric Division marks 1024 Pulse frequency Pulse frequency for 100 m cable length Order no. which can replace a redundant mechanical switch that may also be subject to wear. for stainless designs or non-standard division marks. +UB max. The AG7 redundant pulse encoder is designed to be used in safety-related applications. 394 1) The permissible temperature range depends on speed.20°C .g. encoder fittings IAG 2 2) 3) max. axial max.2. N. The same level of safety is achieved with this EMC-proof system as with a SIN/COS encoder. The Demag AG8 combined encoder is designed for operation in safety-related applications. 3/0. The external unit can only be fitted to ZN 63 – ZN 132 motors in combination with the reinforced fan cover.65 38. The external fan motor (enclosure type IP55) has its own terminal box.2.300 V 0.6. 1) For the standard length k of the motor.2. filters and aligned air intakes can be fitted.2 5.2 11.2. Under extreme ambient conditions. C 1) A D E B k 42243644.indd Cyclic duty factor Type of enclosure % 6 Weight (without fan cover) Radial mounting As an option. Motor size Z 63 / Z 71 Z 80 / Z 90A Z 90B / Z 100 Z 112A / Z 132 Z 160 / Z 180A Z 180B / Z 200 Z 225 Jzus [kgm2 · 10-3] 1.7/0.5 Heavy fan A fan with an increased moment of inertia can be fitted to influence the motor startup and braking characteristics.7 at 380 .eps 42699044.8 8. see the dimension drawing of the motor 2) Interfering contour terminal box 395 .6 9.17/0. The cooling capacity is greater than that of the 4--pole standard integrated fan at 50 Hz. the motor protection arrangement provides protection against failure of the external fan.8 6.6.6 External fan Cylindrical rotor motors can be fitted with an external fan.1 ZB 5.65 4.17 0.3 0.7 6. the additional external fan can also be radially mounted with an intermediate adapter flange. 6.8 Motor Dimensions [kg] [mm] A (ZN) 194 (203) 230 (234) B 146 (160 2) ) 183 C 160 170 D 118 118 E 84 84 D03 D04 50/60 50/60 at 220 .eps Technical data Z motors with additional external fan Z63/ Z71 Z80/ Z90A Z90B/ Z100 Z112/ Z132 ZN 5.15 – – – 6.500 V 0.4 100 100 IP55 IP55 External fan type Frequency [Hz] Power consumption [A] 2031516b_en_300812.25 11. Typical applications are for frequency inverter fed drives subject to full output torque loads at low motor speeds for long periods of time or drives used in indexed applications with high starting frequencies.4/0.1 Additional external fan With this variant. 36 A 60 Hz: 0.37 A 60 Hz: 0.33 A 50 Hz: 0.indd Z63 / Z71 .. enclosure type IP 54..225 Connector. Additional integrated fan has a separate power supply with its own plug connection (included in the scope of delivery) on the fan cover. ambient temperature 60 °C).5 92 105 107 U [V] 1~ 230 V 50/60 Hz 1~ 230 V 50/60 Hz 3~ 400 V Y 50/60 Hz 3~ 400 V Y 50/60 Hz Speed Rated current Type of enclosure 396 Z90B / Z100 ZN motor with no brake Power supply Technical data Z80 / Z90A n [rpm] I [A] 2700 at 50 Hz Z160 / Z180A Z180B / Z200 189 193 3~ 2) 3~ 2) 230 V / 400 V 230 V / 400 V 50/60 Hz 50/60 Hz Z225 212 3~2) 230 V / 400 V 50/60 Hz 2700 at 50 Hz 0.32 A 50 Hz: 0. 50 Hz.15 A 50 Hz: 0.2.63 / 0. No restriction applies in this respect applies to Z. enclosure type IP66).3 A 0.33 A IP54 IP54 IP54 IP54 IP66 IP66 IP66 1) For the standard length k of the motor. max.132 motors in enclosed areas or outdoors on request (max.11 A 0.6.65 / 0. shown turned through 90º A-A L ZN Standard length k L Standard length k 1) ZN / L ZB L ZB 1) 42204044. The additional integrated fan achieves at least the same cooling capacity as the integrated fan at 4-pole nominal speed with a 50-Hz line power supply. 207-333 VD/360-575 VY.56 / 0.57 / 0. They cannot be used together with additional fittings such as optional pulse generators. see the dimension drawing of the motor 2) Design: Multi-voltage connection in 3 phase delta/star connection 207-303 VD/360-525 VY. 160 . Z. 160 .6..12 A 0.37 A 60 Hz: 0. 60 Hz 2031516b_en_300812.eps Motor size Extension in mm 6 Z112 / Z132 LZN 80 97 104 123 ZB brake motor LZB 67..eps 42204144. Additional external fans increase the motor dimensions according to the following table.2 Additional integrated fan Additional integrated fans are an inexpensive alternative to additional external fans and also require less space.64 / 0. 63 . 63 .132 Z.57 / 0. This option should only be used with Z.225 motors (max. ZN.) 58 +0 ( .. 6. For ZN motors with no brake: 63 .) – – – – – 1) For the standard length k of the motor.5) 6. The table shows the number of cable entries and NPT sizes for the relevant motor frame sizes.5) Z112 / Z132 310 52 (44.) 76 +0 ( .5 13 +0 (+16) Z80 / Z90A 176 32 (26.5 ( ..6. CSA configuration is mainly required in North America.eps Dimensions Canopy ZB (ZN Motor size 2031516b_en_300812.eps 6 42002444.Z 90A 1 x 1/2” NPT Z 90B .) 6.8 Canopy / protection panel A canopy to protect against dripping water and foreign bodies is available for vertically mounted motors with the output shaft facing downwards.Z 100 1 x 3/4” NPT Z 112 .5) 218 52 (44) 5 18 +0 (+21.) – – – – – Z225 480 33.5) 176 42 (33) 5 16 +0 (+20.5) 52 +0 (+16) 138 32 (24) 4.5 ( .5 (5) 80 +0 (+21. T2.5 (5) 70 +0 (+20. 160 – 225 H1 H1 ØD K 1) K 1) T T H H ØD 42002544. 132 motor frame sizes . 63 – 132 Z. . • The cable entry in the terminal box is fitted with an adapter featuring NPT threads (conical inch thread).. see the dimension drawing of the motor 2) For ZN with reinforced cover 397 . • These motors are provided with a rating plate featuring CSA symbols.) 6.5 13 +0 (+21) Z90B / Z100 218 42 (44.5 ( .5) 6.Z 225 1 x 1 1/4” NPT • A 1/2” NPT adapter is fitted when temperature detectors or PTC thermistors are used. .7 CSA Z motors can also be supplied in CSA configuration as an option.5 (4. Z.5) 6.5 ( .) 6. Motor size Number and type of threads Z 63 .2. A smaller round protection panel is available as an alternative. This includes the following special features: • The terminal designations are changed to T1.5) 62 +0 (+21) 138 32 (24) 4.) – – – – – Z180B / Z200 433 33.) 79 +0 ( .5) Z160 / Z180A 348 33.Z 180A 1 x 1” NPT Z 180B ..the canopy and/or the protection panel is/are to be fitted together with the reinforced fan cover.5 (4.5 ( .5 ( .indd ØD 2) ) Protection panel ZB (ZN 2) ) H H1 T K 1) ØD H H1 T K 1) Z63 / Z71 156 32 (26) 6.2. 2 ·Rges PH I ‗= U‗ 41218344.6. motors subject to extreme temperature fluctuations or which are at standstill in damp situations for longer periods of time.g. The following table provides guide values. 200 Z225 approx. This is particularly recommended for motors which are exposed to moisture condensation owing to climatic conditions. 250 Anti-condensation heating for cylindrical rotor motors using the motor winding DC heating Rges = 2 · RPHkalt U‗= √ PH · 1. Motor size Heating output PH [W] Z63 / Z71 Z80 / Z90A Z90B / Z100 Z112 / Z132 approx.9 Anti-condensation heater Motors not in operation can be heated through the motor winding with DC or AC voltage supplied by a small transformer. 20 approx. . 40 approx. 150 approx. Contact our technical department for permissible voltages and currents for your particular application. separate strip-type heaters are available for anti-condensation heating. 60 approx.eps 398 2031516b_en_300812.indd As an alternative to heating the motor using the motor winding. 80 Z160 / Z180A Z180B / Z200 approx.2.eps 6 AC heating U ~ On request I ~ On request 41218244. e. 2. Z cylindrical rotor motor 0 g3 g5 g4 43 z2 17. Refer to document 214 022 44 for further information on the plug connection and standard connection plans. A 112 / 132 g3 138 148 166 203 g4 138 148 167 204 g5 116 126 145 182 y4 104 104 134 174 z1 59 72 95 96 z2 60 72 95 96 z3 138 150 184 206 z4 166 178 212 234 z5 158 170 204 225 1) The Z132 C2 and Z132 C4 motors cannot be supplied with connectors.eps 2031516b_en_300812. 1) 6 Motor 399 . A 80 / 90 A Z . maintenance or replacement of the drive.indd Dimensions of standard connection for Z cylindrical rotor motor Z .10 Plug connector The Z63 – Z132 cylindrical rotor motors can be supplied as standard with a commercially available plug connection for voltages up to 500 V. The advantages of this arrangement are elimination of connection errors and simple disconnection of the motor for commissioning. A 63 / 71 Z . A 90B / 100 Z .6.5 R6 z4 z5 z3 90 y4 z1 42078544. A 132 C 4 are not available with a connector.eps 41767444. HAN 10 ESS This insert features 2 x 10 cage clamp terminals for cross sections from 0. Various optional connector housings and inserts are available for the line-side connection. At voltages lower than 380 V. This insert is suitable for voltages up to 500 V and currents up to 16 A in continuous duty. On the line side.A 132 C2 and Z. motors are supplied with a protective cap. The line-side connector housing does not belong to the standard scope of delivery. .5 mm². This insert is suitable for voltages up to 500 V and currents up to 16 A in continuous duty.eps Connector inserts HAN 10 E This insert features 10 screw contacts for cross sections up to 2. 794 045 44).Mechanical design As standard.indd 6 On the motor side. This insert is particularly suitable for star or delta connection of single-speed motors on the line side. 50 Hz. the insert can be used with sockets up to 500 V together with the various optional connector housings. On the line side. Z motors Z. Line side connector housing and connector inserts up to 500 V 400 HAN 10 E insert HAN 10 ESS insert High connector housing with M32 straight cable outlet NHG 038 471 84 038 474 84 High connector housing with M32 side cable outlet NHS 038 472 84 038 475 84 Low connector housing with M20 side cable outlet NNS 038 473 84 – 2031516b_en_300812. See publication 214 022 44 for further information. there are further limitations. this insert is available with pins for voltages up to 500 V as an option (part no. This insert is used on the motor side with pins up to 500 V as standard. HAN 10 ESS inserts cannot be used together with NNS low connector housings.5 mm². Connector housing (line-side): NHG: High connector housing with M32 straight cable outlet NHS: High connector housing with M32 side cable outlet NNS: Low connector housing with M20 side cable outlet 41767344. we supply motors with a motor-side connector housing and a 10-pole standard insert. Each terminal features 2 connections.eps 41767244.14 – 2. this insert can be used with sockets up to 500 V together with the various optional high connector enclosures. To avoid damage being caused during transport. The required electrical connection must be specified in the order as subsequent modifications can be complicated.indd 6 Plug connector retrofit set Z63 / Z71 1) Pay attention to the limitations of the Z112 / Z132 design. 401 . brake release monitoring or integrated pulse generator options cannot be connected via the connectors. Standard electrical connection Single-speed motor ZNA Y 3 winding connections used Y 3 winding connections used Pole-changing motor Y Y/D Y/Y ZBA 6 winding connections used Pole-changing motor with separate windings Y/Y Common power supply to motor and brake module Up to brake B050: GE Brake B140: GS Brake switch-off in the motor circuit (long application times). Assembly and operating instructions containing circuit diagrams make it possible for you to carry out the conversion. The adjustment monitoring. not for hoist units and overhauling loads! Pole-changing motor with Dahlander winding D/YY 6 winding connections used Separate power supply to motor and brake module Up to brake B050: GE Brake B140: GS module in switchgear cabinet Brake switch-off in the AC circuit (medium application times). Many other connection types are possible as options. This is described in detail in publication 214 022 44.Electrical connection The standard electrical connections for the various motor types are specified below. the standard described in the following table will be supplied. not for hoist units and overhauling loads! Retrofit set Motors already fitted with a terminal box can also be retrofitted with a plug connection. not for hoist units and overhauling loads! 6 winding connections used Separate power supply to motor and brake module Up to brake B050: GE Brake B140: GS module in switchgear cabinet Brake switch-off in the AC circuit (medium application times). This retrofit set for Z motors and/or KB motors includes the motor and line-side connector including HAN 10 ESS insert with NHG connector housing. PTC thermistors or temperature detectors are also available as further motor and brake options when a plug connector is used. where further information can also be found for connecting motors. see publication 214 022 44. For further information. Unless otherwise specified in the order. Z80 / Z90A Z90B / Z100 038 405 84 038 406 84 038 407 84 Z112 / Z132 1) 038 408 84 2031516b_en_300812. which are not fitted with a brake. for PTC thermistors. are available on request. for example.2.5 2 x M40 x 1.indd A sheet steel fan cover is fitted as of motor frame size Z 160 as standard. the model design must not subsequently be changed. e.5 M25 x 1. See the table below for information on connecting threads as well as metric reducers.2.5 Z80 / Z90A Z90B / Z100 Z112 / Z132 Z160 .5 2 x M40 x 1. This is recommended for motors used under operating conditions in which the cover may be subjected to knocks and impacts.5 Internal thread M16 x 1. Kindly refer to this in the order by specifying: ‘Oil-tight output side’. adapters for CSA threads.5 2 x M50 x 1. Since condensation water drain holes should always be situated at the lowest point of the motor.g. 6.5 2 x M25 x 1. In such cases. ensure that the drain holes are at the lowest point of the motor when installing the motor. Demag geared motors with drive input feature this as standard. can be fitted with an aluminium fan cover instead of the standard plastic fan cover.2.5 M50 x 1. The reinforced fan cover is required for fitting some of the additional motor options. Connection thread assignment on the terminal box Motor Z63 / Z71 Connection thread 4 x M20 x 1.5 M32 x 1. . 6 6.5 M25 x 1. Additional bolted connections.14 Reinforced fan cover Motor frame sizes ZN 63 to ZN 132.13 Condensation water drain holes To facilitate occasional water draining. Demag geared motors with coupling connection do not require this design.Z225 4 x M25 x 1.5 M25 x 1.6. nickel-plated with O-ring External thread M20 x 1. the output side motor-shaft bearing may be sealed against incoming oil using a radial shaft sealing ring.5 M25 x 1. any openings that are no longer required must be closed and made water-tight.5 Metric reducers: Material: Brass. the motors can be supplied with condensation water openings which can be closed with a threaded plug.12 Oil-tight motor output side For fitting motors for coupling connection or flange motors (B14 or B5) to the gearbox or similar units. e.5 2 x M32 x 1.5 M20 x 1.g.5 M40 x 1.5 M32 x 1.11 Cable entries Demag supplies motors with metric threads for customer interfaces.5 M16 x 1. If the installation is changed.2.5 6. Motor size Overall increase in length in mm ZN63 / ZN71 ZN80 / ZN90A ZN90B / ZN100 ZN112 / ZN132 14 17 17 17 402 2031516b_en_300812.5 2 x M32 x 1. eps B007 B020 B050 B140 B280 B680 Z63 Z71 Z63 Z71 Z80 Z90A Z80 Z90A Z90B Z100 Z90B Z100 Z112 Z132 Z112 Z132 Z160 Z180A Z160 Z180A Z180B Z200 Z180B Z200 Z225 F – 161 174 173 191 218 249 305 333 425 461 507 531 Smin.6.indd B003 6 Brake size 403 . – 56 76 76 91 86 111 113 139 132 180 170 173 Motor 2031516c_en_300812. – 40 59 55 68 64 87 76 99 72 116 79 78 Smax. sealing arrangement IP55/IP65 Manual brake release option Sealing arrangement IP55/IP65 option Shown turned 90° Microswitch adjustment monitoring option Microswitch brake release monitoring option Microswitch. shown turned 60° 41646344. brake release monitoring. adjustment monitoring.3 Brake options Z cylindrical rotor motor The diagram shows the brake options: Manual brake release. The air gap must be adjusted as soon as the switch is tripped. the HBL-A manual brake release locks in the release position. 6. kindly contact us first. e.5 Sealing arrangement IP55/IP65 The sealing arrangement is used to increase the enclosure type of the brake to IP55 / IP65 to prevent the accumulation of external dust and water sprayed from hoses from inhibiting correct operation of the brake. Available for brakes B007 to B680. 6 This is recommended in all cases if the brake is operated outdoors or in environments containing magnetisable dust.indd For special applications. Other arrangements must be specified in the order. an emergency-stop brake lining can be used for brake sizes B007 – B680 if the brake is operated only rarely (e.3.6.3. emergency stop for inverter operation). If the permissible friction for emergency-stop is exceeded. In these cases. The advantages of an open brake arrangement without any sealing are improved heat dissipation and removal of abrasion from inside the brake.3. 6. The brake is applied as soon as the lever of the HBL-N manual brake release with automatic return is released.3. An arrangement consisting of a lever and two pull rods allows the pressure plate to be pulled against the magnet.5 in J 404 rpm B003 B007 B020 B050 B140 B280 B680 ≤ 3600 - 24000 31200 42000 54000 64000 74000 ≤ 2000 - 35000 45000 60000 75000 95000 120000 2031516c_en_300812. too. The manual brake release lever of both variants must be removed during operation due to the significant danger posed by unauthorized and accidental actuation of the manual brake release. This monitoring option can be used to reduce precautionary inspections. The reduced noise level design is standard for brakes B050 to B680.3. The signal can be used.3 Brake release monitoring The brake release monitoring arrangement features a microswitch which detects whether the armature disk has been pulled in by the magnet (or by hand).3. This device is not approved for all applications and care must be taken to ensure that it does lead to unintentional consequences when in the locked position. to release the brake before the motor starts running or to interrupt the motor supply voltage if the brake has not been released within a specified time after being switched on.6 Emergency-stop brake lining Brake size Maximum friction for emergency stop with an emergency-stop brake lining according to section 5. Available for brakes B007 to B680.3. when the permissible friction per switching operation for operational braking as described in section 5.g. 6.5 is exceeded. for example.3.g.4 Adjustment monitoring Adjustment monitoring is implemented by means of a microswitch which determines whether the maximum permissible air gap has been reached. . additional measures and checks make it possible to use this lining in many other applications. The manual brake release lever is located on the terminal box side as standard. Application is recommended for brakes in hoist motors and for multiple drives.1 HBL manual brake release The manual brake release option allows the brake to be released when no voltage is applied to the brake coil. Two variants of this option are available. lowering of loads or uncontrolled movement of transport devices when they return to service. 6. 6.2 Reduced noise level design A reduced noise level design is available for brake sizes B007 to B020 for increased requirements in terms of low brake switching noise. In contrast. 5 V DC output voltage and 4 kΩ tripping resistance. This makes it possible to quickly switch on the drive again. PTC thermistors to DIN 44081 are suitable for tripping devices with 2. The resistance of each PTC thermistor changes in the kΩ range when the rated tripping temperature is reached. in addition to PTC thermistor switch-off.4. an additional tripping device and double the quantity of PTC thermistors are required. 2 PTC thermistors in the high-speed winding.4. protection against overload. inadequate cooling. If. The temperature tolerance for switching is low at ± 5 K. This resistance is evaluated by tripping devices and can be used to open auxiliary circuits. excessively high starting frequency. • Motors with two windings: 3 PTC thermistors. the resistance of the PTC thermistors changes rapidly. RKL [Ω] 2031516d_en_300812.4 KB motor options 6. Motors provided with this type of protection can be used for operating conditions with high frequency starting. two-phase starting. blocked rotor. two-phase starting. PTC thermistors used for warning purposes are supplied with a rated tripping temperature 20 K lower than that of PTC thermistors used for switching off. inadequate cooling. a warning is required when the winding temperature is too high. This would result in destruction of the semi-conductor component. 3 PTC thermistors in the high-speed winding. blocked rotor. a version with a coupling shaft end (short shaft end) is available for the combination of a geared motor with a coupling connection and the Demag roller spider coupling. Protection is not provided against blocked rotor and two-phase starting! • Special design (must be specified in the order): 3 PTC thermistors in the low-speed winding. they provide precise monitoring of the winding temperature. When a limit temperature is reached (rated tripping temperature).2. 6 -20 °C 405 . The required tripping devices must be ordered separately. The resistance for each PTC thermistor is between 10 and 250 Ω at temperatures of –20 °C to TNAT –20 °C (NAT = rated tripping temperature). excessively high starting frequencies. inadequate cooling.indd TNAT-20K TNAT T [°C] 43405544. 6. excessively high starting frequency. protection against overload. 1 PTC thermistor in the low-speed winding.2 Winding protection 6. Owing to their low heat capacity and internal thermal contact with the winding. starting against heavy loads and voltage and frequency fluctuations in the mains supply. Important! Protection is only provided against overload. PTC thermistors cannot be subjected to high currents and voltages.eps Number of PTC thermistors: • Motors with one winding: 3 PTC thermistors (1 per phase).6.1 PTC thermistor The most comprehensive protection against thermal overloading of the motor is offered by positive temperature coefficient thermistors which are integrated in the motor winding.1 Motors with coupling shaft end In addition to the IEC shaft ends for KB conical rotor motors.4. 2.2 Temperature detectors Temperature detectors integrated in the motor winding provide adequate protection for slowly increasing motor temperatures and. • Special design: 3 temperature detectors in the low-speed winding. The precision of the measuring detector allows their universal use for temperature monitoring using limit circuits in motors. offer protection against thermal overloading. these switches are not suitable for high motor current increase rates (e. temperature sensors • PT-100 or • KTY 84-130 are used for precise temperature measurement and/or monitoring. Owing to the large thermal time constants.3 Temperature sensors In rare cases.4. 406 2031516d_en_300812. Not possible for KB 71 and 80 frame sizes for design reasons. therefore. The temperature detector type required depends on the control voltage and control current. . These bimetallic switches (normally closed) switch off an auxiliary circuit on reaching a limit temperature.4. 6.indd 6 The linear relationship between resistance and temperature simplifies the use of electronic evaluations.2. 1 temperature detector in the low-speed winding. The control voltage should not be less than 110 V and not exceed 250 V according to EN 60204. Number of temperature detectors: • Motors with one winding: 1 temperature detector • Motors with two windings: 2 temperature detectors. short-circuit or blocked rotor). 3 temperature detectors in the high-speed winding.g.6. 1 temperature detector in the high-speed winding. The circuit can only be closed again when the motor has cooled down noticeably. As the rotor turns. S31 additional electronic module The S31 additional electronic module supplies a 5 V DC output signal. It satisfies the electric requirements of a transmitter to EIA standard RS 422. The associated electronic evaluation equipment is connected to the encoder via a plug-and-socket connection on the motor terminal box. noise-free. balanced-to-earth pulse transfer over a large range. the signals generated can be used to provide information and for monitoring and switching contacts. two sensors track a multi-pole magnet ring which is rigidly attached to the motor shaft.6. displaced by 90º Zero pulse 10 kHz Type of enclosure IP 65 Ambient temperature -20 °C to +55 °C 2031516d_en_300812. EG integrated pulse generator system 214 053 44 S1 electrical protection This contains fuse links to protect the encoder in the event of short-circuits which are caused by incorrectly connected or defective evaluating devices. 3800 rpm Number of pulses 2 x 30 pulses per revolution. Depending on the application and the evaluating unit. Technical data Speed max. The 2 signal chains are provided to the evaluating devices from here.eps 407 . the S31 additional electronic module can provide for high-quality. pulse frequency 41197544. Refer to the following documents for further details • Descriptions • Data • Dimensions.4. The use of this electronic equipment only makes sense if the evaluating devices are equipped the relevant receivers for the RS422 interface. EG integrated pulse generator system 203 091 44 • Operating instructions.3 Integral pulse generator The Demag EG pulse generator is installed in the brake compartment of the KB motor. When used in connection with the associated receivers.indd 6 Max. Binv Square pulse chains displaced by 90º. Binv ± 30° electrical Signal shapes The S31 electronic module of the integral pulse generator used in the KB range is comparable with the EGS 2 interface of the integral pulse generator used in Z motors.5 . 15m.indd The cable enclosure is available without any cable or with a cable connected 3). B. pulse control factor 1 : 1 Tolerance A.. Please use an EM-UNI-01 extension module.eps S31 A VCC Ainv 6 GND Binv R6 B 43445544. See section 6. Electrical connection Cable enclosure EG: cable enclosure connected to device connector S1 Signal Identification (strand colour) Channel A BK (black) Channel B BN (brown) VCC OG (orange) GND WH (white) Channel A BK (black) Channel Ainv OG (orange) Channel B PK (pink) Channel Binv GY (grey) VCC BN (brown) GND WH (white) VCC2) B A GND2) 43445444. 20m. . order no. Other cable lengths longer than 30m in 5m increments on request 408 1) We recommend type EGS 3 for use with Demag Dedrive Compact frequency inverters. Ainv. B (open collector. 033 280 84 037 002 84 S1 electrical protection S31 additional electronic module Supply voltage UB = 5. 10m. 24 V DC UB = 8 . Ainv..for S1 = 170 mm .4. 15 V DC Power consumption 18 mA + load current 35 mA + load current UHigh >= UB .Electrical data Type EG 3 1) EG 1 Interface adapter.for S31 = 180 mm 2031516d_en_300812. 2) Connection at the base of the cable enclosure 3) Cable bending radius: .4 Optional pulse generator for signal shapes (but without zero pulse).. B.. Not suitable for operation with Demag Dedrive Pro frequency inverters due to the required number of divisions of 1024 pulses. 25m or 30m in length.eps Available cables measure 1m. 3m.RS422 Interface Output voltage Output current 20 mA per channel Output signals A. 5m. switching to minus) A.3 V ULow <= 2 V 5 V . general An optional pulse generator is available for demanding control requirements with KB conical rotor motors.4. positioning and speed regulation. Fitting at a later date is possible. but are available as an option. see documents 214 119 44 and 214 123 44. Pulse generators can be used for direction of rotation detection. Optional pulse generators should preferably be ordered together with the motor. Optional pulse generators can be fitted to motor frame sizes KB 63 to KB 225. 1) X m: Lengths over 30 m in 5 m steps available on request 2) Cable bending radius: . Connector and connecting cable do not belong to the encoder scope of delivery.eps 08 3 Channel N (Red) 09 4 Channel Ninv (Black) 10 5 Channel A (Brown) 11 6 Channel Ainv (Green) 12 Assignment Conductor colour Channel B (Grey) GND (White) VCC (Brown) Connector without cable Connector with cable 2) Cable length Order no.6. Assignment Conductor colour No. 1 Channel Binv (Pink) 07 2 Pin assignment 5 11 4 41871344. 1-9: signal lead: 0. . 2031516d_en_300812. Motors are fitted with an optional pulse generator before leaving the factory. 10. 409 . Electrical connection Connecting pin diagram Type of connection AG: radial connection for 12-pole CONIN connector on the encoder PIN arrangement (looking at the connecting pins) 9 8 7 6 1 10 12 2 P0 3 Clockwise Nos. speed detection and monitoring.14 mm². 12: supply lead: 0.4 Optional pulse generator.5 mm² No.indd For connection to Demag inverters. - 537 667 84 3m 264 449 84 5m 264 581 84 10 m 264 582 84 15 m 264 58384 30 m 264 584 84 X m 1) 264 450 84 6 Pulse generators are connected to the motor terminal box by means of a 12-pole CONIN connector with external thread for connecting to evaluation devices using a PUR cable.for bending several times: 125 mm.for bending once: 42 mm. Nos. see technical data table.Signal shapes The output signals from the pulse generators are generated in the following dependency to one another.eps . 410 2) The levels depend on the given incremental encoder type.indd 6 41912255. 2031516d_en_300812. The output signals shown in the diagram apply to EG 1) and AG pulse generators for KB motors. 360º U High Channel A 0V U High Channel Ainv 0V 90º ±Tolerance U High High level 2) Channel B 0V Channel Binv U Low Low level 2) U High 0V U High Channel N 0V Channel Ninv U High 0V 1) For KB motor EG without zero pulse. KB 225 KB 71 .6.indd Encoder fitting Encoder with guard Length L Length LB Diameter dB KB 71 92 – – KB 80 91 – – KB 90 90 – – KB 100 . Demag offers optional pulse generators with 3 different interfaces.KB 90 k 1) k 1) L LB L Ø 58 Ø dB (42) 42652345. AG3 With its AG1 to AG3 range. a guard is available for motor frame sizes KB100 .KB225. however.KB 125 80 100 85 KB 140 .4.1 Optional pulse generator AG1. see the dimension drawing of the motor 6 Motor frame size 411 .KB225.4. AG2.eps 2031516d_en_300812. combination with an additional external fan of radial design is possible for motor frame sizes KB100 .KB 160 77 97 85 KB 180 76 96 85 KB 200 . Connection dimensions Encoder fitting with guard Encoder fitting KB 100 . these include the transmission of square pulses with HTL and RS422 (TTL) technology. Encoder guard If a more robust external encoder is required.KB 225 72 92 85 1) For the standard length k of the motor. They cannot be combined with additional integrated fans. Technical data Definitions Data Types AG 1, AG 2, AG 3 Size 58 Flange Synchro Shaft diameter 6 mm Shaft length 12 mm Shaft load, axial max. 70 N Shaft load (at shaft end), radial Speed max. 125 N - in continuous duty max. 6000 rpm - max. 10000 rpm Type of enclosure IP 65 Operating temperature -40 °C to +80 °C Electrical data Definitions Size Data AG 1 1) 2) AG 2 1) 2) AG 3 1) 3) Interface RS 422 (TTL) HTL Output level H > 2,5 V DC L < 0,5 V DC H ≥ UB - 2,5 V DC L ≤ 2,5 V DC Supply voltage UB 5 V DC 10 to 30 V DC Current consumption (no load), typical Output voltage Output load Output signal 50 mA 5 V DC - RS 422 0 ... +UB max. 20 mA per channel max. 40 mA per channel A, A inv, B, B inv, N, N inv Phase offset related to one pulse length 90° ± 7,5% Division marks 1024 Pulse frequency max. 150 kHz Permissible cable length for 3000 rpm 250 m 250 m Permissible cable length for 3600 rpm 250 m 250 m Permissible cable length for 6000 rpm 250 m 50 m 204 442 84 204 443 84 6 Order no. 6.4.4.2 Other encoders, encoder fittings 412 1) Suitable for use with Demag Dedrive Compact frequency inverters. We recommend type EGS 2 for use with Demag Dedrive Compact frequency inverters. Please use an EM UNI-01 extension module. 2) Not suitable for use with Demag Dedrive Pro frequency inverters. 3) Suitable for use with Demag Dedrive Pro frequency inverters. 2031516d_en_300812.indd Enquire about other encoders and mounting possibilities, e.g. for stainless designs or non-standard division marks. 6.4.5 Heavy brake disk A heavy brake disk with an increased moment of inertia can be fitted to influence the KBA motor start-up and braking characteristics. Standard for KBF motors. For data, see section 5.4.3. 6.4.6 External fan For KB motors, additional external fans are available analogue to Z motors. C 1) A D E B k 42243644.eps 42699044.eps Technical data KB motors with additional external fan Motor Weight (without fan cover) [kg] A B Dimensions [mm] [Hz] Power consumption [A] Cyclic duty factor KB140/ KB160 KB180/ KB225 3,7 4,5 5,0 10,8 219 253 283 183 193 290 186 146 (160 4)) 160 170 183 278 D 118 118 118 138 E 84 84 110 144 D03 D04 D05 D06 50/60 50/60 50/60 50/60 at 220 - 300 V 0,3/0,3 0,7/0,7 0,7/0,73 2,4/2,4 2) at 380 - 500 V 0,17/0,17 0,4/0,4 0,4/0,42 1,4/1,4 3) 100 100 100 100 IP55 IP55 IP55 IP55 6 Type of enclosure % KB112/ KB125 C External fan type Frequency KB71/ KB100 Radial mounting 2031516d_en_300812.indd As an option, the additional external fan can also be radially mounted with an intermediate adapter flange. 1) 2) 3) 4) For the standard length k of the motor, see the dimension drawing of the motor 50 Hz at 220 - 240 V 50 Hz at 380 - 415 V Interfering contour terminal box 413 6.4.7 CSA KB motors can also be supplied in CSA configuration as an option. CSA configuration is mainly required in North America. This includes the following special features: • • The terminal designations are changed to T1, T2, ... . The cable entry in the terminal box is fitted with an adapter featuring NPT threads (conical inch thread). The table shows the number of cable entries and NPT sizes for the relevant motor frame sizes. Motor size Number and type of threads KB 71 - KB 90 1 x 1/2” NPT KB 100 - KB 125 1 x 3/4” NPT KB 140 - KB 160 1 x 1” NPT KB 180 - KB 225 1 x 1 1/4” NPT • A 1/2” NPT adapter is fitted when temperature detectors or PTC thermistors are used. • These motors are provided with a rating plate featuring CSA symbols. 6.4.8 Canopy / protection panel For vertically mounted motors with the output shaft facing downwards, we recommend a round protection panel be fitted to protect against dripping water and foreign bodies. A larger canopy is available as an alternative for some sizes. Protection panel Canopy H1 ØD K 1) K 1) T H H T H1 ØD 42766844.eps 42766744.eps 414 Round protection panel dimensions Canopy dimensions ØD H H1 T ØD H H1 T KB71 138 26 4,5 13 156 26 4,5 52 KB80 138 26,5 4,5 13 176 26,5 4,5 62 KB90 176 34,5 5 16 218 33 5 70 KB100 176 34,5 5 16 218 44,5 5 70 KB112 218 34,5 5 18 310 33 5 80 KB125 218 44 5 18 310 44,5 5 80 KB140 257 48 6 21 – – – – KB160 / KB180 310 49 6 25 – – – – KB200 385 44 6 28 – – – – KB225 385 44 6 28 – – – – 1) For the standard length k of the motor, see the dimension drawing of the motor 2031516d_en_300812.indd 6 Motor size 6.4.9 Anti-condensation heater Motors not in operation can be heated through the motor winding with DC or AC voltage supplied by a small transformer. This is particularly recommended for motors which are exposed to moisture condensation owing to climatic conditions, e.g. motors subject to extreme temperature fluctuations or which are at standstill in damp situations for longer periods of time. Contact our technical department for permissible voltages and currents for your particular application. The following table provides guide values. Motor size Heating output PH KB71 [W] KB80 KB90 KB100 KB112 KB125 KB140 KB160 KB180 KB200 KB225 approx. approx. approx. approx. approx. approx. approx. approx. approx. approx. approx. 25 35 45 60 85 120 160 200 270 350 500 Anti-condensation heater for conical rotor motors using the motor winding DC heating Rges = 2 · RPHkalt U‗= √ PH · 1,2 ·Rges PH I ‗= U‗ 41218344.eps 6 AC heating U ~ On request I ~ On request 41218244.eps 2031516d_en_300812.indd As an alternative to heating the motor using the motor winding, separate strip-type heaters are available for anti-condensation heating. 415 6.4.10 Plug connector Conical rotor motors KB71 – KB125 can be supplied as standard with a commercially available plug connection for voltages up to 500 V. The advantages of this arrangement are elimination of connection errors and simple disconnection of the motor for commissioning, maintenance or replacement of the drive. Refer to document 214 022 44 for further information on the plug connection and standard connection plans. KB conical rotor motor z4 z5 0 g5 90 g3 g4 y4 43 R6 z3 z2 17,5 42078644.eps 416 KBA 71 KBA 80 KBA 90 KBA 100 KBA 112 KBA 125 g3 118 127 137 147 159 169 g4 118 127 137 147 159 169 g5 96 105 115 125 137 147 y4 93 93 93 93 93 93 z2 21 25 35 35 43 54 z3 83 88 97 97 105 117 z4 111 116 125 125 133 145 z5 103 107 117 117 125 136 2031516d_en_300812.indd 6 Dimensions of plug connection for KB conical rotor motors Motor Mechanical design As standard, we supply motors with a motor-side connector housing and a 10-pole standard insert. To protect against damage during transport, motors are fitted with a protective cap. The line-side connector housing does not belong to the standard scope of delivery. Various optional connector housings and inserts are available for the line-side connection. At voltages lower than 380 V, 50 Hz, there are further limitations. See publication 214 022 44 for further information. Connector housing (line-side): NHG: High connector housing with M32 straight cable outlet NHS: High connector housing with M32 side cable outlet 41767244.eps NNS: Low connector housing with M20 side cable outlet 41767344.eps 41767444.eps Connector inserts HAN 10 E This insert features 10 screw contacts for cross sections up to 2,5 mm². This insert is suitable for voltages up to 500 V and currents up to 16 A in continuous duty. This insert is used on the motor side with pins up to 500 V as standard. On the line side, the insert can be used with sockets up to 500 V together with the various optional connector housings. HAN 10 ESS Each terminal features 2 connections. This insert is suitable for voltages up to 500 V and currents up to 16 A in continuous duty. 6 This insert features 2 x 10 cage clamp terminals for cross sections from 0,14 – 2,5 mm². 2031516d_en_300812.indd On the motor side, this insert is available with pins for voltages up to 500 V as an option (part no. 794 045 44). On the line side, this insert can be used with sockets up to 500 V together with the various optional high connector enclosures. This insert is particularly suitable for star or delta connection of single-speed motors on the line side. HAN 10 ESS inserts cannot be used together with NNS low connector housings. Line side connector housing and connector inserts up to 500 V HAN 10 E insert HAN 10 ESS insert High connector housing with M32 straight cable outlet NHG 038 471 84 038 474 84 High connector housing with M32 side cable outlet NHS 038 472 84 038 475 84 Low connector housing with M20 side cable outlet NNS 038 473 84 – 417 Electrical connection The standard electrical connections for the various motor types are specified below. Many other connection types are possible as options. This is described in detail in publication 214 022 44, where further information can also be found for connecting motors. PTC thermistors or temperature detectors are also available as additional motor options if the plug connection is used. The integrated pulse generator option cannot be connected via the connector. The required electrical connection must be specified in the order as subsequent modifications can be complicated. Unless otherwise specified in the order, the standard described in the following table will be supplied. Standard electrical connection Single-speed motor KB Y 3 winding connections used Pole-changing motor Y Y/D Y/Y 6 winding connections used Retrofit set Motors already fitted with a terminal box can also be retrofitted with a plug connection. This retrofit set for KB motors includes the motor and line-side connector including HAN 10 ESS insert with NHG connector housing. Assembly and operating instructions containing circuit diagrams make it possible for you to carry out the conversion. KB 71 - 90 KB 100 - 125 038 205 84 038 206 84 418 2031516d_en_300812.indd 6 Plug connector retrofit set 6.4.11 Cable entries Demag supplies motors with metric threads for customer interfaces. See the table below for information on connecting threads as well as metric reducers, e.g. for PTC thermistors. Further cable glands, e.g. adapters for CSA threads, are available on request. Connection thread assignment on the terminal box Motor Connection thread KB 71 - 90 4 x M25 x 1,5 KB 100 - 125 KB 140 - 225 4 x M32 x 1,5 2 x M40 x 1,5 2 x M50 x 1,5 Metric reducers: Material: brass, nickel-plated with O-ring External thread M25 x 1,5 M25 x 1,5 M32 x 1,5 M40 x 1,5 M50 x 1,5 Internal thread M16 x 1,5 M20 x 1,5 M25 x 1,5 M25 x 1,5 M32 x 1,5 6.4.12 Oil-tight motor output side For fitting motors for coupling connection or flange motors (B14 or B5) to the gearbox or similar units, the output side motor-shaft bearing may be sealed against incoming oil using a radial shaft sealing ring. Kindly refer to this in the order by specifying: ‘Oil-tight output side’. Demag geared motors with coupling connection do not require this design. 6.4.13 Condensation water drain holes 2031516d_en_300812.indd 6 To facilitate occasional water draining, the motors can be supplied with condensation water openings which can be closed with a threaded plug. In such cases, ensure that the drain holes are at the lowest point of the motor when installing the motor. Since condensation water drain holes should always be situated at the lowest point of the motor, the model design must not subsequently be changed. If the installation is changed, any openings that are no longer required must be closed and made water-tight. 419 160 KB. See also assembly instructions 214 413 44. 140 HBLG 2 B 65 KB.5. 125 139 33 KB. 225 . for hoist units.eps Additional equipment Motor size A KB. 100 62 20 KB. e.5 150 - 180 21 KB.eps 20054501.1 HBLG manual brake release device The brake can be released using a HBLG manual brake release device by inserting and actuating the release lever when no voltage is applied to the motor. Not suitable for on-board operation! Other manual brake release devices for special applications on request. Not suitable for overhauling load torques.indd KB. 71 KB.g. The released position can be locked.225 HBLG 3: KB 71 .5 Brake options for KB conical rotor motor 6. The rotor can be easily turned by means of a fitted hand wheel or crank. HBLG 2: KB 125 . 90 D E F G 63 Z 23 64 62 22 M 45 x 1. 180 KB. 80 6 HBLG 3 KB.112 k 1) Z k A 1) Z A B G G D D E F B 20054502. 200 137 146 31 M 65 x 2 136 - 119 344 30 420 1) For the standard length k of the motor. 112 62 20 KB.6. see the dimension drawing of the motor 2031516d_en_300812. 5. 71 KB. 80 LAG 3 2031516d_en_300812. 225 49 41 421 .6. 200 42 34 KB. 180 50 37 36 M 65 x 2 340 6 k 29 28 KB.112 1) Z A k 1) B Z A G G D D B 20054503.5 180 21 KB.eps A KB. 160 KB.2 LAG load lowering device The brake can be released using a LAG load lowering device by turning the fitted brake release lever when no voltage is applied to the motor. The released position cannot be locked. 90 B D G 27 26 26 25 Z 23 22 M 45 x 1.indd LAG 2 1) For the standard length k of the motor. 140 41 33 KB.225 LAG 3: KB 71 . 125 46 38 KB. Not suitable for microspeed motors in hoisting applications! Important: Observe assembly instructions 214 413 44! LAG 2: KB 125 .eps Additional equipment Motor size 20054504. see the dimension drawing of the motor KB. 112 24 20 KB. The load can be gently lowered. 100 24 20 KB. see the dimension drawing of the motor 2031516d_en_300812.eps Additional equipment Z KB. 71 28 KB.112 when the unit is operated only rarely.3 BLE brake release device The BLE unit is an inexpensive brake release device for KB motors 71 .5. 80 25 KB. Important: Observe assembly instructions 214 565 44! k 1) Z 1 3 M8 2 4 5 6 03134784. 100 23 KB. 112 23 422 1) For the standard length k of the motor.6. 90 24 KB.indd 6 BLE Motor size . On-time of the magnet coil max. The brake remains released until the motor is switched on again.6. see the dimension drawing of the motor 423 .indd KB. 225 1) For the standard length k of the motor.5 seconds before the brake is released.eps Motor size A C D KB. 110. the motor starting current is then higher than specified in the operating instructions. 42. see EBLG operating instructions 214 503 44. 180 KB. 71 KB. 220. 80 EBLG 1 KB. the rotor may be turned by the drive. however. 125 112 KB. Coil voltage for AC current 50 Hz: 24. The brief turning motion can be reduced by means of a special connection. 112 97 KB.4 EBLG electric brake release device The brake is released when the motor has come to a standstill by engaging the electromagnetic device of the EBLG. 127. 1) Z A D k S C 03134784.5. S 3 -10 %. The brake release button must be actuated for at least 0. 290 V. 90 99 25 14 76 KB. 100 98 97 KB. Switching on of the EBLG generally causes a brief rotation pulse of the rotor. Therefore. For further information and circuit diagrams.10 %. 160 KB. Coil voltage for DC current: 24 V and 48 V. 200 108 30 14 76 6 Additional equipment 107 2031516d_en_300812. Power consumption 220 VA on activation. 140 EBLG 2 Z 100 KB. tolerance + 5 % to . 180 KB.6. 125 136 KB. see the dimension drawing of the motor 2031516d_en_300812. 90 15 50 KB. See also operating instructions 200 219 84. 140 BEG 2 Z KB.eps Additional equipment Motor size A D KB. 200 132 20 71 131 424 1) For the standard length k of the motor. 225 . 1) Z A D k 03134784. 71 104 KB. 112 99 KB. 160 KB.indd 6 KB.5 BEG brake torque-setting device The BEG brake torque-setting device is used to set the brake torque by means of an additional spring which can be adjusted from the outside. 80 BEG 3 KB.5. The brake torque can be set from 65 to 100 % of the list value. 100 100 99 KB. 1. we require the serial/motor no.1. stamped on the rating plate. please contact your drives supplier.indd 7 To clearly identify the original delivery.7 Annex 7. and date.1 Remarks for ordering Kindly read the following remarks concerning orders to ensure that your orders are processed smoothly and rapidly. If you have any questions. 7.2 Ordering drives selected by you or your customers Please use the enquiry form on the following pages to ensure that your order is complete and to avoid the need for any further clarification. 7. Further technical details are not required.3 Replacement drive 2031517a_en_300812. Please mark any changes or additions clearly.1 Ordering on the basis of a quote or drive calculation Please refer to our quote/calculation with project no. 7.1. 425 . 2031517a_en_300812.indd 426 7 . frequency: Hz % CDF Brief description of the system. e.3 Basic design Geared motor Output: Solo gearbox kW Solo motor with brake and/or required torque: Approx.O. hoist. travel application. Special paint finish (other than RAL 5009) ºC to ºC Miscellaneous: Further information Required delivery date: Required quantity: Appointment with sales employee of Demag Cranes & Components GmbH requested Documentation requested 2031517a_en_300812.indd From: Date: Mr.: Phone: Department: Fax: Street/P. conveyor system etc: Additional features Required options. Box: E-mail address: 7 Sender Town/post code: Country: 703 IS 980 427 .g.: Manual brake release Pulse generator (more than one may be specified) External fan Plug connection PTC thermistor Other: Special ambient conditions Outdoor operation Ambient temperature range of approx.g. e./Ms.2 Enquiry form Enquiry data Fax: +49(0)2335 92-7676 or to the relevant sales office according to section 7.7. speed: Nm rpm Gearbox type: Helical Housing type: Foot-mounted Shaft type: Offset Angular gearbox Flange-mounted Universal Torque bracket design Solid shaft with key with splining (DIN 5480) Hollow shaft with key with splining Shrink disk Other: Switching operations per hour: Duty factor: or 1- 2- Impact level: Line voltage: V Cyclic duty factor S Line frequency: / c/h 3-shift operation Light Medium Heavy Hz for inverter operation max. indd 428 7 .2031517a_en_300812. 3 Addresses The current addresses of the sales offices in Germany and the subsidiaries and agencies worldwide can be found on the Demag Cranes & Components GmbH website at 2031517a_en_300812.7.com/Contact 429 .demagcranes.indd 7 www. . . com www. Box 67 · 58286 Wetter (Germany) Telefax +49 (0)2335 92-7676 Email: drives@demagcranes. Not liable for errors or omissions.Demag Cranes & Components GmbH Drives P.com Reproduction in whole or in part only with prior consent of Demag Cranes & Components GmbH.demagcranes. Printed in Germany Telephone +49 (0)2335 92-0 .O. 58286 Wetter (Germany) Subject to change.


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