ES -Compact Backlash-free Torque Limiting Clutches K.490.V4.EN www..com
We safeguar the movements of this worl Specialists for power transmission for more than a century mayr power transmission is one of the most traitional an yet most innovative German companies in the fiel of power transmission. From moest beginnings in the year 897, the family enterprise from the llgäu region has evelope into worl market leaer. Toay, 0 employees work at the heaquarters in Mauerstetten; more than 000 employees work for the company worlwie. Unsurpasse - our stanar range mayr power transmission offers an extensive variety of torque limiters, safety brakes, backlash-free shaft misalignment compensation couplings an high-quality DC rives. lso when it comes to customer-specific requirements, the company possesses the expertise to evelop customize an economical solutions. This is why numerous renowne machine manufacturers trust in holistic solutions by mayr power transmission. Never compromise on safety We make no compromises where safety is concerne. Only top proucts of a perfect quality guarantee that no people are injure or machines amage in case of operational malfunctions, collisions an other hazarous situations. The safety of your employees an machines is our motivation to always provie the best an most reliable clutches, couplings or brakes. mayr power transmission hols numerous groun-breaking patents, an is the global market or technological leaer for application-optimise safety brakes, for example for passenger elevators, stage technology an gravity loae axes torque limiters to protect against expensive overloa amage an prouction losses an backlash-free servo couplings. vailable worlwie With eight subsiiaries in Germany, sales offices in the US, France, Great Britain, Italy, Singapore an Switzerlan as well as 36 aitional country representatives, mayr is available in all important inustrial areas, guaranteeing optimum customer service aroun the globe. 2 your reliable partner
Traition an innovation the best of both worls Teste quality an reliability Traition an innovation o not contraict each other - on the contrary. They are the two supporting pillars which have guarantee stability an reliability for generations. Longterm stability, inepenence as well as a goo reputation an satisfie customers are important values for a family enterprise rich in traition. Therefore, we place emphasis on: Teste prouct quality Optimum customer service Comprehensive know-how Global presence Successful innovations Effective cost management Following our own objective of always offering our customers the technologically most avance an economical solution, we have been able to gain the trust of many leaing inustrial companies from all branches an from all over the worl as a reliable partner. Place your trust in our know-how an our more than 0 years of experience in torque limiters, safety brakes an shaft couplings. mayr proucts are subject to meticulous quality inspections. These inclue quality assurance measures uring the construction process as well as a comprehensive final inspection. Only the best, teste quality leaves our factory. ll proucts are rigorously teste on calibrate test stans, an ajuste precisely to the requeste values. n electronic atabase in which the measurement values are archive together with the associate serial numbers guarantees 00 % traceability. On request, we confirm the prouct characteristics with a test protocol. The certification of our quality management accoring to DIN EN ISO 900:2000 confirms the quality-consciousness of our colleagues at every level of the company. your reliable partner 3
ES -Compact - the economically viable protection for machines Function If the set limit torque is exceee, the clutch isengages. The torque rops immeiately. mounte registers the isengagement movement an switches off the rive. The signal can also be use for further control functions. fter the malfunction has been rectifie, the ES -Compact ratchetting clutches an the ES -Compact synchronous clutches automatically re-engage (for a etaile escription of the re-engagement behaviour, see page ). ES - Compact overloa clutches separate the input an the output sie completely an remain in this state until they are intentionally re-engage by han or via a suitable evice. etaile escription of the overloa clutches starts on page 26. The ES -Compact matrix for success Prouct characteristics Your avantages Your benefits Backlash-free torque transmission Safe, reaable torque ajustment High performance ensity Convenient torque course in the rive line on overloa Long lifetime, Low wear Simple installation an operation Low mass moment of inertia, compact construction Optimise imensioning Lowest maintenance effort Time-saving uring initial operation High machine ynamic Effective an efficient machine construction ES - Compact the backlash-free principle Torque Backlash means: Clockwise rotation mayr -ES clutches Type 400 Stanar backlash-free clutches ES - Compact The torsional angle between the input an output of the clutch lso known an torsional backlash Not to be confuse with the transmission backlash from the shaft onto the hub 4 nti-clockwise rotation Torsional angle in egrees [ ] t mayr, backlash-free means: Backlash > 0 (see iagram)
ES -Compact /ES -NC Ratchetting clutch your reliable partner Contents Page When the set limit torque is reache, the clutch isengages; the torque rops immeiately. The clutch ratchets. fter the cause of overloa has been remove, the clutch automatically re-engages into the next of the series of ball etents. The clutch is reay for operation again. ES -Compact ratchetting clutches ES -Compact synchronous clutches Torque range: to 00 Nm Description Summary of constructional esigns 6 Data sheets ES -Compact short hub 8 ES -Compact ouble bearing esign 0 ES -Compact long protruing hub 2 ES -Compact with steel bellows coupling 4 ES -Compact torsionally rigi 6 ES -Compact lastic backlash-free 8 For small torques: ES -Compact /ES -NC Synchronous clutch When the set limit torque is reache, the clutch isengages; the torque rops immeiately. fter the cause of overloa has been remove, the clutch re-engages automatically after 360 angular egrees. Other cycle sequences, for example 80 egrees, are also available. The clutch is reay for operation again. ES -Compact overloa clutch If overloa occurs, the ES -Compact overloa clutches separate the input an output almost resiual torque-free. Therefore, they are the ieal protective element for fast-running rives an high mass moments of inertia. etaile escription starts on page 26. ES -NC ratchetting clutches ES -NC synchronous clutches Torque range: 0.6 to Nm Data sheets ES -NC short hub 20 ES -NC long protruing hub 20 ES -NC ouble bearing esign 22 ES -NC with steel bellows coupling 24 ES -Compact overloa clutches Torque range: to 3000 Nm Description 26 Summary of constructional esigns 27 Data sheets ES -Compact overloa short hub 28 ES -Compact overloa long protruing hub 30 ES -Compact overloa torsionally rigi, s 0 to 3 32 ES -Compact overloa torsionally rigi, s 4 an 34 ES -Compact overloa lastic backlash-free 36 ES -Compact overloa lastic 40 ES -Compact Options 42 Technical Explanations 44 Frictionally-Locking Transmittable Torques 0 Limit Switch Installation Examples 4
Summary of constructional esigns ES -Compact ratchetting clutch/synchronous clutch ES -Compact short hub Torque: to 00 Nm s 0 to 4 Type 490. _.0 Flange clutch for irect installation of the rive element with the resulting raial force approximately in the bearing centre See installation example, Fig., page 4 lso available in rustproof esign! With cone bushing With keyway Type 490..0 Type 490._2_.0 ES -Compact ouble bearing esign Torque: to 00 Nm Flange clutch with a stable, ouble bearing for the rive element Page 8 s 0 to 4 Type 490. _.2 With cone bushing With keyway Type 490..2 Type 490._2_.2 ES -Compact long protruing hub Torque: to 00 Nm s 0 to 4 Type 490. _. Page 0 Flange clutch for very wie rive elements or elements with a very small iameter Suitable bearings for the rive element are ball bearings, neele bearings or plain bearings. See installation example, Fig. 2, page 4 With cone bushing With keyway Type 490.. Type 490._2_. ES -Compact with steel bellows coupling Torque: to 30 Nm s 0 to 3 Type 493. _.0 Page 2 Double shaft esign with a torsionally rigi steel bellows coupling Compensation for axial, raial an angular shaft misalignments See installation example, Fig. 4, page 4 Hub esigns: ES -sie/steel bellows-sie Cone bushing/cone bushing Key hub/key hub Cone bushing/clamping hub Type 493..0 Type 493._2_.0 Type 493._3_.0 ES -Compact torsionally rigi Torque: to 00 Nm s 0 to 4 Type 496. _.0 Double shaft esign with a robust isk pack coupling Compensation for axial, raial an angular shaft misalignments High torsional rigiity Hub esigns: ES -sie/torsionally rigi sie Cone bushing/shrink isk hub Key hub/clamping hub Key hub/key hub Type 496..0 Type 496._2_.0 Type 496._2_.0 Page 4 6 Page 6
Summary of constructional esigns ES -Compact ratchetting clutch/synchronous clutch ES -Compact lastic backlash-free Torque: to 200 Nm s 0 to 4 Type 494. _._ Double shaft esign with a flexible, backlash-free coupling Compensation for axial, raial an angular shaft misalignments High amping characteristics See installation example, Fig. 3, page 4 Hub esigns: ES -sie/flexible sie Cone bushing/clamping hub Cone bushing/shrink isk hub Key hub/key hub Type 494._0_._ Type 494.._ Type 494._2_._ Page 8 Summary of constructional esigns ES -NC miniature clutch ES -NC short hub ES -NC long protruing hub ES -NC ouble bearing esign Torque: 0.6 to Nm s 03 an 02 Type 40. _._ Torque: 0.6 to Nm ES -NC short hub Flange clutch for irect installation of rive elements with the resulting raial force approximately in the bearing centre With cone bushing Type 40..0 With keyway Type 40._2_.0 ES -NC long protruing hub Flange clutch for very wie rive elements or elements with a very small iameter With cone bushing Type 40.. With keyway Type 40._2_. Page 20 Flange clutch with a stable, ouble bearing for the rive element s 03 an 02 Type 40. _.2 With cone bushing With keyway Type 40..2 Type 40._2_.2 ES -NC with steel bellows coupling Torque: 0.6 to Nm s 03 an 02 Type 43. _.0 Page 22 Double shaft esign with a torsionally rigi steel bellows coupling Compensation for axial, raial an angular shaft misalignments Hub esigns: ES -sie/steel bellows-sie Cone bushing/cone bushing Key hub/key hub Type 43..0 Type 43._2_.0 Page 24 7
ES -Compact ratchetting clutch/synchronous clutch ES -Compact short hub with cone bushing L Type 490..0 s 0 to 4 h a 0 k s Ø f 2 g 4 Ø E Ø m Ø e Ø g 7 Ø f Ø f 4 Ø F Ø F 2 a b k SW For information on rustproof esigns, please orer catalogue! ES -Compact short hub with keyway s a 0 h Ø f 2 Type 490._2_.0 s 0 to 4 Ø E Ø m Ø e Ø P Ø f 4 Ø F Ø F 2 a b k For information on rustproof esigns, please orer catalogue! Orer Number with cone bushing with keyway 2 0 Ratchetting clutch 3) Synchronous clutch Torque ajustment value (Optional) / 4 9 0.. 0 / / / / s 0 to 4 Torque range ) meium high very high maximum 2) 6 7 8 Hub bore Ø Ø P With see pages 3 (Option) Raial torque ajustment see page 42 (Option) Example: Orer number / 490.620.0 / 2 / 60 / 0.002. / raial ajustment 8 ) See Technical Data, limit torque for overloa M G 2) Max. torque range only available as synchronous clutch, spee < 20 rpm 3) Stanar ratchetting ivision is ; other ratchetting ivisions optionally available (4 /60 /90 /20 /80 /...)
ES -Compact ratchetting clutch/synchronous clutch Technical Data ) Type 490..0 M G [Nm] 2. 0 2 20 0 40 00 70 7 20 300 Limit torques for Type 490.6.0 M G [Nm] 0 2 20 0 40 00 80 200 40 30 240 600 ) 2) overloa Type 490.7.0 M G [Nm] 20 0 40 00 80 200 60 400 280 700 480 200 Type 490.8_.0 ) M G [Nm] 2 62. 0 2 00 20 200 00 30 87 600 00 Max. spee n max [rpm] 4000 3000 200 2000 200 800 Thrust washer stroke on overloa [mm].2..8 2.0 2.2 2. Mass moments of inertia an weights Hub-sie Type 490..0 I [0-3 kgm²] 0.2 0.3.388 2.846 6.88 29.432 Type 490._2_.0 I [0-3 kgm²] 0.20 0.0.302 2.630 6.329 28.443 Pressure flange-sie Type 490..0 I [0-3 kgm²] 0.093 0.234 0.643.306 2.649 6.690 Type 490._2_.0 I [0-3 kgm²] 0.093 0.234 0.643.306 2.649 6.690 Weights Type 490..0 m [kg] 0.68.4.98 2.88 4.9 0.63 Type 490._2_.0 m [kg] 0.63.02.7 2. 4.07 0.06 Tensioning screws an screw-on bores Number, imensions M [mm] 6 x M4 6 x M4 8 x M4 8 x M 8 x M6 8 x M8 Tensioning screws in cone bushing Wrench opening SW [mm] 7 7 7 8 0 3 Tightening torque T [Nm] 4 4 4 8 2 2 Screw-on bores Number, imensions s [mm] 8 x M4 8 x M 8 x M6 8 x M6 8 x M8 8 x M0 in pressure flange Screws quality class 2.9 must be use to secure the rive element. Dimensions [mm] Bores [mm] 2 3. 6 7 20. 46 min 0 22 32 3 40 7 8 9 0 2 6 2) 3) 4) max 20 2 3 4 6 a ) 7 9 0 0 2 8) P min 2 22 28 32 40 a 0 8 4 6 8 2 2) 0) P 9) P max 20 2 30 40 0 6 b 6 7 9 0 2 We reserve the right to make imensional an constructional alterations. E 6 80 9 0 30 66 6) e h 47 62 7 90 00 30 F 6. 67 82 97 7 0 F 2 70 8 00 3 66 f 38 44 6 70 84 00 f 2 6 7 - f 4 0 70 84 00 - Minimum g 4 34 39 42 48 3 93 ) Further sizes for smaller an larger torques available on request 2) Please observe the shaft loa in max. torque range. shaft length g 3) Shaft tolerance up to Ø 38 h6, over Ø 38 h8 7 3 36 48 49 62 78 4) Transmittable torques available with smaller bores on request h k 40 2.8 48 2.8 9 3. 64 4.0 7 4.0 - ) Mounting tolerance + 0. 6) Tolerance user-sie 7) Dimensions in untensione conition (shorter in tensione conition) k 8) Smaller bores for low torques available on request 2.8 2.8 2.8 3. 4.0.3 9) Larger bores available on request 7) L m 47 6 6 7 67 8 73 00 86 6 30 0 0) The position of the keyway to the mounting bore s in the pressure flange is not efine. Define position available on request ) Maximum spee: 20 rpm 9
a 3 your reliable partner ES -Compact ratchetting clutch/synchronous clutch ES -Compact ouble bearing esign with cone bushing L 2 Type 490..2 s 0 to 4 h 2 k s Ø f 2 g 4 Ø E Ø m Ø e Ø g 3 Ø f Ø f 4 Ø F Ø F 2 a 2 k SW b ES -Compact ouble bearing esign with keyway h 2 a 3 Type 490._2_.2 s 0 to 4 Ø E Ø m Ø e Ø P Ø f 4 Ø F Ø F 2 s Ø f 2 a 2 b k Orer Number with cone bushing with keyway 2 0 Ratchetting clutch 3) Synchronous clutch Torque ajustment value (Optional) With see pages 3 (Option) / 4 9 0.. 2 / / / / s 0 to 4 Torque range ) meium high very high maximum 2) 6 7 8 2-bearing esign 2 Hub bore Ø Ø P Raial torque ajustment see page 42 (Option) Example: Orer number / 490.60.2 / 2 / 60 / 0.002. / raial ajustment 0 ) See Technical Data, limit torque for overloa M G 2) Max. torque range only available as synchronous clutch, spee < 20 rpm 3) Stanar ratchetting ivision is ; other ratchetting ivisions optionally available (4 /60 /90 /20 /80 /...)
ES -Compact ratchetting clutch/synchronous clutch Technical Data ) Type 490..2 M G [Nm] 2. 0 2 20 0 40 00 70 7 20 300 Limit torques for Type 490.6.2 M G [Nm] 0 2 20 0 40 00 80 200 40 30 240 600 ) 2) overloa Type 490.7.2 M G [Nm] 20 0 40 00 80 200 60 400 280 700 480 200 Type 490.8_.2 ) M G [Nm] 2 62. 0 2 00 20 200 00 30 87 600 00 Max. spee n max [rpm] 4000 3000 200 2000 200 800 Thrust washer stroke on overloa [mm].2..8 2.0 2.2 2. Mass moments of inertia an weights Hub-sie Type 490..2 I [0-3 kgm²] 02 0.2.40 2.998 7.08 30.990 Type 490._2_.2 I [0-3 kgm²] 0.209 0.26.364 2.782 6.2 30.000 Pressure flange-sie Type 490..2 I [0-3 kgm²] 0.00 0.273 0.799.67 3.62 8.70 Type 490._2_.2 I [0-3 kgm²] 0.00 0.273 0.799.67 3.62 8.70 Weights Type 490..2 m [kg] 0.79.3 2.3 3.4.27.96 Type 490._2_.2 m [kg] 0.74.23 2.2 3.2 4.7.3 Tensioning screws an screw-on bores Number, imensions M [mm] 6 x M4 6 x M4 8 x M4 8 x M 8 x M6 8 x M8 Tensioning screws in cone bushing Wrench opening SW [mm] 7 7 7 8 0 3 Tightening torque T [Nm] 4 4 4 8 2 2 Screw-on bores Number, imensions s [mm] 8 x M4 8 x M 8 x M6 8 x M6 8 x M8 8 x M0 in pressure flange Screws quality class 2.9 must be use to secure the rive element. Dimensions [mm] Bores [mm] 2 3. 6 7 20. 46 min 0 22 32 3 40 7 8 9 0 2 6 2) 3) 4) max 20 2 3 4 6 a ) 2 4 9 2 28 28 34 8) P min 2 22 28 32 40 a 3 7 23 30 34 36 43 2) 0) P 9) P max 20 2 30 40 0 6 b 6 7 9 0 2 We reserve the right to make imensional an constructional alterations. E 6 80 9 0 30 66 6) e h 47 62 7 90 00 30 F 6. 67 82 97 7 0 F 2 70 8 00 3 66 f 38 44 6 70 84 00 f 2 6 7 - f 4 0 70 84 00 - Minimum g 3 40 48 63 67 80 00 ) Further sizes for smaller an larger torques available on request 2) Please observe the shaft loa in max. torque range. shaft length g 3) Shaft tolerance up to Ø 38 h6, over Ø 38 h8 4 34 39 42 48 3 93 4) Transmittable torques available with smaller bores on request h 2 k 49 2.8 60 2.8 7 3. 82 4.0 93 4.0 37 - ) Mounting tolerance + 0. 6) Tolerance user-sie 7) Dimensions in untensione conition (shorter in tensione conition) k 8) Smaller bores for low torques available on request 2.8 2.8 2.8 3. 4.0.3 9) Larger bores available on request 7) L 2 m 6 6 68 7 83 8 9 00 04 6 2 0 0) The position of the keyway to the mounting bore s in the pressure flange is not efine. Define position available on request ) Maximum spee: 20 rpm
ES -Compact ratchetting clutch/synchronous clutch ES -Compact long protruing hub with cone bushing L Type 490.. s 0 to 4 h C k s a Ø f 2 g 4 Ø E Ø m Ø e Ø f Ø g 8 Ø f Ø f 4 Ø F Ø F 2 a k SW b ES -Compact long protruing hub with keyway s C h a Ø f 2 Type 490._2_. s 0 to 4 Ø E Ø m Ø e Ø f Ø P Ø f 4 Ø F Ø F 2 a k b Orer Number with cone bushing with keyway 2 0 Ratchetting clutch 3) Synchronous clutch Torque ajustment value (Optional) With see pages 3 (Option) / 4 9 0.. / / / / s 0 to 4 Torque range ) meium high very high maximum 2) 6 7 8 long protruing hub Hub bore Ø Ø P Raial torque ajustment see page 42 (Option) Example: Orer number / 490.60. / 2 / 60 / 0.002. / raial ajustment 2 ) See Technical Data, limit torque for overloa M G 2) Max. torque range only available as synchronous clutch, spee < 20 rpm 3) Stanar ratchetting ivision is ; other ratchetting ivisions optionally available (4 /60 /90 /20 /80 /...)
ES -Compact ratchetting clutch/synchronous clutch Technical Data ) Type 490.. M G [Nm] 2. 0 2 20 0 40 00 70 7 20 300 Limit torques for Type 490.6. M G [Nm] 0 2 20 0 40 00 80 200 40 30 240 600 ) 2) overloa Type 490.7. M G [Nm] 20 0 40 00 80 200 60 400 280 700 480 200 Type 490.8_. ) M G [Nm] 2 62. 0 2 00 20 200 00 30 87 600 00 Max. spee n max [rpm] 4000 3000 200 2000 200 800 Thrust washer stroke on overloa [mm].2..8 2.0 2.2 2. Mass moments of inertia an weights Type 490.. I [0-3 kgm²] 0.22 0.88.49 3.0 7.30 30.890 Hub-sie Type 490._2_. I [0-3 kgm²] 0.29 0.62.40 2.889 6.8 29.900 Pressure flange-sie Type 490.. I [0-3 kgm²] 0.093 0.234 0.643.306 2.649 6.690 Type 490._2_. I [0-3 kgm²] 0.093 0.234 0.643.306 2.649 6.690 Type 490.. m [kg] 0.78.36 2.26 3.34.8.6 Weights Type 490._2_. m [kg] 0.73.24 2.04 3.00 4.66.04 Tensioning screws an screw-on bores Number, imensions M [mm] 6 x M4 6 x M4 8 x M4 8 x M 8 x M6 8 x M8 Tensioning screws in cone bushing Wrench opening SW [mm] 7 7 7 8 0 3 Tightening torque T [Nm] 4 4 4 8 2 2 Screw-on bores Number, imensions s [mm] 8 x M4 8 x M 8 x M6 8 x M6 8 x M8 8 x M0 in pressure flange Screws quality class 2.9 must be use to secure the rive element. Dimensions [mm] Bores [mm] 2 3. 6 7 20. 46 2) 3) 4) min 0 22 32 3 40 7 8 9 0 2 6 max 20 2 3 4 6 a ) 7 9 0 0 2 8) 2 22 28 32 40 a 6. 8.7. 3 4 6 2) 0) P P min 9) P max 20 2 30 40 0 6 b 6 7 9 0 2 C 33 43 67 73 76 We reserve the right to make imensional an constructional alterations. E 6 80 9 0 30 66 6) e h 47 62 7 90 00 30 F 6. 67 82 97 7 0 F 2 70 8 00 3 66 f 38 44 6 70 84 00 f h6 30 40 4 6 8 f 2 6 7 - f 4 0 70 84 00 - ) Further sizes for smaller an larger torques available on request Minimum g 4 34 39 42 48 3 93 2) Please observe the shaft loa in max. torque range. shaft length 3) Shaft tolerance up to Ø 38 h6, over Ø 38 g h8 8 6 68 89 00 7 33 4) Transmittable torques available with smaller bores on request h k 6 2.8 80 2.8 00 3. 4.0 30 4.0 70 - ) Mounting tolerance + 0. 6) Tolerance user-sie 7) Dimensions in untensione conition (shorter in tensione conition) k 8) Smaller bores for low torques available on request 2.8 2.8 2.8 3. 4.0.3 9) Larger bores available on request 7) L 72 88 08 24 4 8 0) The position of the keyway to the mounting bore s in the pressure m 6 7 8 00 6 0 flange is not efine. Define position available on request ) Maximum spee: 20 rpm 3
ES -Compact ratchetting clutch/synchronous clutch ES -Compact with steel bellows coupling Type 493. _.0 s 0 to 3 ES -sie cone bushing, ES -sie cone bushing, Steel bellows-sie cone bushing Steel bellows-sie clamping hub Type 493..0 Type 493._3_.0 L k L 3 k k 2 l SW C 3 l 3 C 3 Øf 2 g g 4 ØE Øf 2 g 4 ØD Ø L Ø Øf Øf 4 ØF ØE ØD 3 Ø 3 L Ø Øf Øf 4 ØF k SW SW 3 k SW ES -sie key hub, Steel bellows-sie key hub Type 493._2_.0 L 2 C 3 l 2 ØE ØD 2 Ø 2 h Ø p Øf 2 Øf 4 ØF k Orer Number ES -sie Cone bushing Key hub Cone bushing Steel bellows-sie Cone bushing Key hub Clamping hub 2 3 0 Ratchetting clutch 2) Synchronous clutch Torque ajustment value (Optional) With see pages 3 (Option) / 4 9 3.. 0 / / / / / s 0 to 3 Torque range ) meium high 6 Hub bore Ø Ø P Hub 2 bore Ø Ø 2 Raial torque ajustment see page 42 (Option) Ø 3 Example: Orer number / 493.6.0 / 22 / 2 / 60 / 0.002. / raial ajustment 4 ) See Technical Data, limit torque for overloa M G 2) Stanar ratchetting ivision is ; other ratchetting ivisions optionally available (4 /60 /90 /20 /80 /...)
ES -Compact ratchetting clutch/synchronous clutch Technical Data ) 0 0 2 3 Limit torques for Type 493..0 M G [Nm] 2. 0 2 20 0 40 00 70 7 overloa ) Type 493.6.0 M G [Nm] 0 2 20 0 40 00 80 200 40 30 Max. spee n max [rpm] 4000 3000 200 2000 200 Thrust washer stroke on overloa [mm].2..8 2.0 2.2 Nominal torques, steel bellows coupling T KN [Nm] 0 00 200 30 600 Permitte misalignments axial K a [mm] 0.4 0.6 0.8.0.0 raial K r [mm] 0. 0. 0.20 0.2 0.30 angular K w [ ] 2 2 2 2 2 Mass moments of inertia an weights 0 0 2 3 Type 493..0 I [0-3 kgm²] 0.2 0.3.388 2.846 6.88 ES -hub-sie Type 493._2_.0 I [0-3 kgm²] 0.20 0.0.302 2.630 6.39 Type 493._3_.0 I [0-3 kgm²] 0.2 0.3.388 2.846 6.88 Type 493..0 I [0-3 kgm²] 0.269 0.73.764 3.602 7.789 Steel bellows-sie Type 493._2_.0 I [0-3 kgm²] 0.249 0.690.46 3.08 6.88 Type 493._3_.0 I [0-3 kgm²] 0.286 0.789.772 3.773 8.087 Type 493..0 m [kg].09.88 3.08 4.60 7.9 Weights Type 493._2_.0 m [kg].04.76 2.8 4.27 6.90 Type 493._3_.0 m [kg].22.9 3.0 4.6 7.2 Tensioning screws In cone bushing ES -sie In cone bushing steel bellows-sie In clamping hub steel bellows-sie 0 0 2 3 Number, imensions M [mm] 6 x M4 6 x M4 8 x M4 8 x M 8 x M6 Wrench opening SW [mm] 7 7 7 8 0 Tightening torque T [Nm] 4 4 4 8 2 Number, imensions M [mm] 4 x M4 6 xm 6 x M6 6 x M8 6 x M8 Wrench opening SW [mm] 7 8 0 3 3 Tightening torque T [Nm] 3 9. 7 7 Number, imensions M 3 [mm] x M x M6 x M6 x M8 x M0 Wrench opening SW 3 [mm] 4 6 8 Tightening torque T [Nm] 0 8 8 43 87 Dimensions [mm] 0 0 2 3 2 3. 6 7 20. 7 8 9 0 2 C 3 4 3 64 70 8 D 47 60 70 8 98 D 2 47 60 7 8 98 D 3 0 60 7 82 98 E 6 80 9 0 30 F 6. 67 82 97 7 F 2 70 8 00 3 f 38 44 6 70 84 f 2 6 7 f 4 0 70 84 00 g Minimum 4 34 39 42 48 3 g shaft length 24 27 29 32 3 l 3 24 28 28 36 40 h 40 48 9 64 7 k 2.8 2.8 3. 4.0 4.0 k 2.8 2.8 2.8 3. 4.0 4) L 4) L Bores [mm] 0 0 2 3 2) 3) min 0 22 32 3 max 20 2 3 4 P min 2 22 28 32 P P max 20 2 30 40 0 ES -sie Steel bellowssie min 9 2 22 32 max 20 2 3 42 0 2 min 9 2 22 32 2 2 max 20 ) 2 6) 3 7) 42 8) 0 3 min 2 2 30 3 3 3 max 2 32 42 4 2) 3) We reserve the right to make imensional an constructional alterations. ) Further sizes for smaller an larger torques available on request 47 6 67 73 86 2) Shaft tolerance up to Ø 38 h6, over Ø 38 h8 93 09 2. 38 64 3) Transmittable torques available with smaller bores on request L 2 77. 92 07. 9 40. 4) Dimensions in untensione conition (shorter in tensione conition) 4) L ) Up to Ø 8 keyway acc. DIN 688/, over Ø 8 keyway acc. DIN 688/3 3 02 9 33 0 77 4) 6) Up to Ø 22 keyway acc. DIN 688/, over Ø 22 keyway acc. DIN 688/3 l 27. 29 33 37 4 7) Up to Ø 33 keyway acc. DIN 688/, over Ø 33 keyway acc. DIN 688/3 l 2 2 27 29 36 44 8) Up to Ø 38 keyway acc. DIN 688/, over Ø 38 keyway acc. DIN 688/3
ES -Compact ratchetting clutch/synchronous clutch ES -Compact torsionally rigi ES -sie cone bushing, ROB -DS-sie shrink isk hub Type 496..0, s 0 to 4 ØD 3 ØD SW ØD Ø k 2 l U L h l L g 4 k Ø Øf 2 Øf Øf 4 ØF Type 496. _.0 s 0 to 4 ll ES -Compact clutches can be combine with almost all components of the ROB -DS backlash-free shaft coupling. The Types shown here represent only a selection of the most establishe esigns. For further combination possibilities, see page 43. We are happy to avise you on the imensioning an configuration of your optimum clutch. -part flange s 0, an 4 2-part flange s 0, 2 an 3 k SW ES -sie key hub, ROB -DS-sie clamping hub with keyway Type 496._2_.0, s 0 an 0 ES -sie key hub, ROB -DS-sie key hub Type 496._2_.0, s to 4 L 2 L 2 l l SW 2 l 2 U l 2 U h ØD Ø 2 ØD 3 Ø p Øf 4 Øf 2 ØF ØD 3 ØD ØD 2 Ø 2 Øf 2 h Ø p -part flange 0 2-part flange 0 k -part flange s an 4 2-part flange s 2 an 3 k The missing imensions (Øf 4, ØF an ) are ientical to Type 496._2_.0 Orer Number ES -sie Cone bushing Key hub ROB -DS-sie Shrink isk hub Clamping hub 4) with keyway (s 0 0) / key hub (s 4) 2 0 Ratchetting clutch 3) Synchronous clutch Torque ajustment value (Optional) With see pages 3 (Option) / 4 9 6.. 0 / / / / / s 0 to 4 Torque range ) meium high very high maximum 2) 6 7 8 Hub bore Ø Ø P Hub 2 bore Ø Ø 2 Raial torque ajustment see page 42 (Option) 6 Example: Orer number / 496.62.0 / 22 / 2 / 60 / 0.002. / raial ajustment ) See Technical Data, limit torque for overloa M G 2) Max. torque range only available as synchronous clutch, spee < 20 rpm 3) Stanar ratchetting ivision is ; other ratchetting ivisions optionally available (4 /60 /90 /20 /80 /...) 4) Clamping hub also available without keyway (s 0-0)
ES -Compact ratchetting clutch/synchronous clutch Technical Data Limit torques for overloa ) ) Type 496..0 M G [Nm] 2. 0 2 20 0 40 00 70 7 20 300 Type 496.6.0 M G [Nm] 0 2 20 0 40 00 80 200 40 30 240 600 Type 496.7.0 M G [Nm] 20 0 40 00 80 200 60 400 280 700 480 200 Type 496.8_.0 ) M G [Nm] 2 62. 0 2 00 20 200 00 30 87 600 00 Max. spee n max [rpm] 4000 3000 200 2000 200 800 Thrust washer stroke on overloa [mm].2..8 2.0 2.2 2. Nominal torques, torsionally rigi coupling T KN [Nm] 00 0 300 60 00 600 Permitte misalignments axial 6) K a [mm] 0.9. 0.8..3. raial K r [mm] 0.20 0.20 0.20 0.2 0.30 0.30 angular K w [ ] 2.0 2.0.4.4.4.4 Mass moments of inertia an weights ES -hub-sie Type 496..0 I [0-3 kgm²] 0.2 0.3.388 2.846 6.88 29.432 Type 496._2_.0 I [0-3 kgm²] 0.20 0.0.302 2.630 6.39 28.443 ROB -DS-sie Type 496..0 I [0-3 kgm²] 0.849 2.39 2.9 9.43 2.443 38.996 Type 496._2_.0 I [0-3 kgm²] 0.709 2.086 2.47 7.8 8.2 3.480 Weights Type 496..0 m [kg].63 2.9 3.80 7.04.4 9.6 Type 496._2_.0 m [kg].43 2.6 3.0 6.3 0.8 7.3 Tensioning screws Number, imensions M [mm] 6 x M4 6 x M4 8 x M4 8 x M 8 x M6 8 x M8 In cone bushing Wrench opening SW [mm] 7 7 7 8 0 3 ES -sie Tightening torque T [Nm] 4 4 4 8 2 2 In shrink isk ROB -DS-sie In clamping hub ROB -DS-sie Number, imensions M [mm] 4 x M 6 x M 6 x M 6 x M 6 x M6 6 x M8 Wrench opening SW [mm] 8 8 8 8 0 3 Tightening torque T [Nm] 6 6 6 8. 0 2 Number, imensions M 2 [mm] x M8 x M8 - - - - Wrench opening SW 2 [mm] 6 6 - - - - Tightening torque T [Nm] 33 33 - - - - Dimensions [mm] Bores [mm] 2 3. 6 7 20. 46 2) min 0 22 32 3 40 7 8 9 0 2 6 max 20 2 3 4 6 D 69 79 77 04 23 43 P min 2 22 28 32 40 D P 68 78 77 00 43 P max 20 2 30 40 0 6 D 2 - - 0 70 80 00 3) min 9 2 2 40 4 D 3 69 8 00 3 72 max 38 4 4 60 70 90 F 6. 67 82 97 7 0 2 min 9 2 6 2 30 3 F 2 70 8 00 3 66 2 2 max 3 42 32 0 70 f 38 44 6 70 84 00 f 2 6 7 - We reserve the right to make imensional an constructional alterations. f 4 0 70 84 00 - Min. shaft length g 4 34 39 42 48 3 93 h 40 48 9 64 7 k 2.8 2.8 3. 4.0 4.0 - k 2.8 2.8 2.8 3. 4.0.3 k 2 3. 3. 3. 3. 4.0.3 4) L 47 6 67 73 86 30 4) L 0.3 32.8 4.2 7.2 208 237 L 2 98.3 20.3 33.2 7.2 207 237 l 34.3 49.8 48.2 68.2 8 68 l 32 37. 40 0 60 l 2 32 33. 40 6 7 U.3.8 2.2 26.2 34 3.2 7 ES - sie ROB -DS - sie ) Further sizes for smaller an larger torques available on request 2) Shaft tolerance up to Ø 38 h6, over Ø 38 h8 3) Recommene shaft tolerance g6 4) Dimensions in untensione conition (shorter in tensione conition) ) Maximum spee: 20 rpm 6) Only permitte as a static or virtually static value.
ES -Compact ratchetting clutch/synchronous clutch ES -Compact lastic backlash-free ES -sie cone bushing, ROB -ES-sie clamping hub Type 494._0_._ L k Type 494. _._ s 0 to 4 ES -sie cone bushing, ROB -ES-sie shrink isk hub Type 494.._ L k C 4 C 4 l l Øf 2 g 4 ØD ØD H Øf 2 g 4 Ø 3 L Ø Øf Øf 4 ØF ØD ØD H Ø 4 L Ø M t ES -sie key hub, ROB -ES-sie key hub Type 494._2_._ k l SW L 2 C 4 M 2 k SW The missing imensions (Øf, Øf 4, ØF an ) are ientical to Type 494._0_._ ØD ØD H Ø Øf 4 ØF Øf 2 h Ø p G 9) t k Orer Number ES -sie Cone bushing Cone bushing Key hub ROB -ES-sie Clamping hub Shrink isk hub Key hub 0 2 0 Ratchetting clutch 2) Synchronous clutch Torque ajustment value (Optional) With see pages 3 (Option) / 4 9 4.. / / / / / s 0 to 4 Torque range ) meium high very high 6 7 Flexible coupling 92 Shore 98 Shore 64 Shore D 3 4 6 Hub bore Ø Ø P Hub 2 bore F7 Ø 3 Ø 4 Raial torque ajustment see page 42 (Option) Ø Example: Orer number / 494.6.3 / 22 / 2 / 60 / 0.002. / raial ajustment 8 ) See Technical Data, limit torque for overloa M G 2) Stanar ratchetting ivision is ; other ratchetting ivisions optionally available (4 /60 /90 /20 /80 /...) 3) The transmittable torques on the flexible coupling T KN are epenent on factors such as temperature, torsional rigiity, etc., see also coupling imensioning ROB -ES catalogue K.940.V or contact the manufacturer. Furthermore, the transmittable torques of the flexible coupling are epenent on the bore iameter 3 or 4, see also Table on page 0. 4) Shaft tolerance up to Ø 38 h6, over Ø 38 h8 ) Transmittable torques available with smaller bores on request 6) Smaller bores for smaller torques available on request 7) Larger bores available on request 8) Shaft tolerance up to Ø 40 j6 9) Keyway 80 offset to G 0) Dimensions in untensione conition (shorter in tensione conition)
ES -Compact ratchetting clutch/synchronous clutch Technical Data Type 494.._ M Limit torques for G [Nm] 2. 0 2 20 0 40 00 70 7 20 300 Type 494.6._ M overloa 3) G [Nm] 0 2 20 0 40 00 80 200 40 30 240 600 Type 494.7._ M G [Nm] 20 0 40 00 80 200 60 400 280 700 480 200 Max. spee n max [rpm] 4000 3000 200 2000 200 800 Thrust washer stroke on overloa [mm].2..8 2.0 2.2 2. Nominal an maximum torques 3), flexible coupling Permitte misalignments 92 Shore T KN /T max [Nm] 3 / 70 9 / 90 90 / 380 26 / 30 30 / 620 900 / 800 98 Shore T KN /T max [Nm] 60 / 20 60 / 320 32 / 60 40 / 900 2 / 00 040 / 2080 64 Shore D T KN /T max [Nm] 7 / 0 200 / 400 40 / 80 60 / 20 6 / 30 20 / 200 axial K a [mm].4..8 2.0 2. 2.6 92 Shore K r [mm] 0.4 0. 0.7 0.9 0.2 0.2 raial 98 Shore K r [mm] 0.0 0. 0.2 0.4 0.6 0.8 64 Shore D K r [mm] 0.07 0.08 0.09 0.0 0. 0.3 92 Shore K w [ ].0.0.0.0.0.0 angular 98 Shore K w [ ] 0.9 0.9 0.9 0.9 0.9 0.9 64 Shore D K w [ ] 0.8 0.8 0.8 0.8 0.8 0.8 Mass moments of inertia an weights Type 494._0_._ I [0-3 kgm²] 0.2 0.3.388 2.846 6.88 29.432 ES -hub-sie Type 494.._ I [0-3 kgm²] 0.2 0.3.388 2.846 6.88 29.432 Type 494._2_._ I [0-3 kgm²] 0.20 0.0.302 2.630 6.39 28.443 Type 494._0_._ I [0-3 kgm²] 0.322 0.700.846 7.627 4.30 48.70 ROB -ES-sie Type 494.._ I [0-3 kgm²] 0.38 0.833 2.280 7.47 4.67 43.038 Type 494._2_._ I [0-3 kgm²] 0.324 0.696.847 7.63 4.20 49.06 Type 494._0_._ m [kg].06.8 2.69 6.3 9.23 2.3 Weights Type 494.._ m [kg].8.74 3.0 6.20 8.9 2.44 Type 494._2_._ m [kg].02 2.09 2.70 6.23 9.6 2.09 Tensioning screws Number, imensions M [mm] 6 x M4 6 x M4 8 x M4 8 x M 8 x M6 8 x M8 In cone bushing Wrench opening SW [mm] 7 7 7 8 0 3 ES -sie Tightening torque T [Nm] 4 4 4 8 2 2 Number, imensions M In clamping hub [mm] x M6 x M8 x M8 x M0 x M2 x M4 Wrench opening SW ROB -ES-sie [mm] 6 6 8 0 2 Tightening torque T [Nm] 0. 2 2 70 20 200 In shrink isk ROB -ES-sie Number, imensions M 2 [mm] 4 x M 8 x M 8 x M6 4 x M8 4 x M8 4 x M2 Wrench opening SW 2 [mm] 4 4 6 6 0 Tightening torque T [Nm] 6 6 0. 2 30 90 Dimensions [mm] Bores [mm] 2 3. 6 7 20. 46 4) ) min 0 22 32 3 40 7 8 9 0 2 6 max 20 2 3 4 6 C 4 47 6. 69 74 87 30 6) 7) P min 2 22 28 32 40 D 70 8 00 3 7 P P max 20 2 30 40 0 6 D H 6 80 9 0 3 3) 3 min 9 20 28 3 4 F 6. 67 82 97 7 0 3 F 3 max 28 3 4 0 80 2 70 8 00 3 66 f 38 44 6 70 84 00 3) 4 min 9 20 28 3 8) 4 f 4 4 max 28 38 4 0 60 8) 2 6 7-7 f 4 0 70 84 00-3) min 8 0 2 4 20 38 G 9) M M6 M8 M8 M8 M0 max 28 38 4 60 80 Min. shaft length g 4 34 39 42 48 3 93 h 40 48 9 64 7 We reserve the right to make imensional an constructional alterations. k 2.8 2.8 3. 4.0 4.0 - k 2.8 2.8 2.8 3. 4.0.3 0) L 47 6 67 73 86 30 0) L 02 9. 46 9 82 2 L 2 9. 38 0 7 240 l 30 3 4 0 6 7 t 0 20 2 20 t 2 3. 20 20 2 27. 9 ES - sie ROB -ES - sie
b h L k your reliable partner ES -NC ratchetting clutch/synchronous clutch ES -NC short hub Type 40. _.0 s 03 an 02 with cone bushing with keyway Type 40..0 Type 40._2_.0 b h s Ø f 2 s Ø f 2 g 4 Ø E Ø m Ø e Ø g 7 Ø f Ø f 4 Ø F Ø F 2 Ø E Ø m Ø e Ø p Ø f 4 Ø F Ø F 2 a SW a a 0 x countersunk screw on 02 on Types 4_. _._ 2 x set screws on 03 on Types 4_. _._ a 0 ES -NC long protruing hub Type 40. _. s 03 an 02 with cone bushing with keyway Type 40.. Type 40._2_. L h C b k C h b s Ø f 2 s Ø f 2 g 4 Ø E Ø m Ø e Ø f Ø g 8 Ø f Ø f 4 Ø F Ø F 2 Ø E Ø m Ø e Ø f Ø p Ø f 4 Ø F Ø F 2 a SW a a a Orer Number with cone bushing with keyway 2 0 Ratchetting clutch Synchronous clutch Torque ajustment value (Optional) / 4 0.. / / / s 03 an 02 Torque range ) meium high very high 6 7 short hub long protruing hub 0 Hub bore Ø Ø p With see pages 3 (Option) 20 Example: Orer number 02 / 40.60.0 / / 8 / 0.002. ) See Technical Data, limit torque for overloa M G
ES -NC ratchetting clutch/synchronous clutch Technical Data ) 03 02 Type 40.._ M G [Nm] 0.6.30 2 Limit torques for Type 40.6._ M overloa ) G [Nm].30 2.60 0 Type 40.7._ M G [Nm] 2.00 3.80 6 Max. spee n max [rpm] 4000 4000 Thrust washer stroke on overloa [mm] 0.8.0 Mass moments of inertia an weights 03 02 Type 40..0 I [0-3 kgm²] 0.027 0.04 Hub-sie Type 40._2_.0 I [0-3 kgm²] 0.02 0.0 Type 40.. I [0-3 kgm²] 0.028 0.08 Type 40._2_. I [0-3 kgm²] 0.026 0.0 Pressure flange-sie Type 40.._ I [0-3 kgm²] 0.008 0.08 Type 40..0 m [kg] 0.8 0.28 Weights Type 40._2_.0 m [kg] 0.7 0.26 Type 40.. m [kg] 0.20 0.32 Type 40._2_. m [kg] 0.9 0.30 Tensioning screws an screw-on bores 03 02 Number, imensions M [mm] 4 x M3 4 x M3 Tensioning screws Wrench opening SW [mm].. in cone bushing Tightening torque T [Nm] Screw-on bores Number, imensions s [mm] 6 x M3 6 x M3 in pressure flange Dimensions [mm] Bores [mm] 03 02 03 02 7.2 9. min 6 8 a 2) 2 2 max 2 a 0 4..0 3) P min 6 8 a P P max 6 ) 3.0 3.2 b C 20. 2 We reserve the right to make imensional an constructional alterations. E 40 47 4) e h 30 37 F 37 42 F 2 4 0 f 26 30 f h6 7 2 f 2-3 f 4-37 g 4.. Minimum g shaft length 7 2. 30. g 8 4. 0. h 24 29 h 40 49 ) Further sizes for smaller an larger torques available on request k 2 2 2) Mounting tolerance + 0. L 6) 6) L m 28. 44. 3 34. 4. 42 3) The position of the keyway to the mounting bore s in the pressure flange is not efine. Define position available on request 4) Tolerance user-sie ) Up to Ø 4 keyway acc. DIN 688/, over Ø 4 keyway acc. DIN 688/3 6) Dimensions in untensione conition (shorter in tensione conition) 2
ES -NC ratchetting clutch/synchronous clutch ES -NC ouble bearing esign with cone bushing L 2 Type 40..2 s 03 an 02 h 2 b k s Ø f 2 g 4 Ø E Ø m Ø e Ø g 3 Ø f Ø f 4 Ø F Ø F 2 a 3 a 2 SW ES -NC ouble bearing esign with keyway h 2 Type 40._2_.2 s 03 an 02 b Ø E Ø m Ø e Ø p Ø f 4 Ø F Ø F 2 s Ø f 2 a 2 a 3 Orer Number with cone bushing with keyway 2 0 Ratchetting clutch Synchronous clutch Torque ajustment value (Optional) / 4 0.. 2 / / / s 03 an 02 Torque range ) meium high very high 6 7 2-bearing esign 2 Hub bore Ø Ø p With see pages 3 (Option) 22 Example: Orer number 02 / 40.60.2 / / 8 / 0.002. ) See Technical Data, limit torque for overloa M G
ES -NC ratchetting clutch/synchronous clutch Technical Data ) 03 02 Type 40..2 M G [Nm] 0.6.30 2 Limit torques for overloa ) Type 40.6.2 M G [Nm].30 2.60 0 Type 40.7.2 M G [Nm] 2.00 3.80 6 Max. spee n max [rpm] 4000 4000 Thrust washer stroke on overloa [mm] 0.8.0 Mass moments of inertia an weights 03 02 Type 40..2 I [0-3 kgm²] 0.028 0.08 Hub-sie Type 40._2_.2 I [0-3 kgm²] 0.026 0.0 Pressure flange-sie Type 40..2 I [0-3 kgm²] 0.008 0.08 Type 40..2 m [kg] 0.3 0.3 Weights Type 40._2_.2 m [kg] 0.8 0.29 Tensioning screws an screw-on bores 03 02 Number, imensions M [mm] 4 x M3 4 x M3 Tensioning screws in cone bushing Wrench opening SW [mm].. Tightening torque T [Nm] Screw-on bores in pressure flange Number, imensions s [mm] 6 x M3 6 x M3 Dimensions [mm] 03 02 7.2 9. a 2) 2 9 9 a 3. 2 b E 40 47 4) e h 30 37 F 37 42 F 2 4 0 f 26 30 f 2-3 f 4-37 Minimum g 3 32. 37. shaft length g 4.. h 2 3 36 k 2 2 6) L 2 3. 4. m 3 42 Bores [mm] 03 02 min 6 8 max 2 3) P P min 6 8 P max 6 ) We reserve the right to make imensional an constructional alterations. ) Further sizes for smaller an larger torques available on request 2) Mounting tolerance + 0. 3) The position of the keyway to the mounting bore s in the pressure flange is not efine. Define position available on request 4) Tolerance user-sie ) Up to Ø 4 keyway acc. DIN 688/, over Ø 4 keyway acc. DIN 688/3 6) Dimensions in untensione conition (shorter in tensione conition) 23
ES -NC ratchetting clutch/synchronous clutch ES -NC with steel bellows coupling Type 43. _.0 s 03 an 02 ES -sie cone bushing, Steel bellows-sie cone bushing Type 43..0 L C 3 l Øf 2 g g 4 ØE ØD Ø L Ø Øf Øf 4 ØF SW k k SW ES -sie key hub, Steel bellows-sie key hub Type 43._2_.0 L 2 C 3 l 2 ØE ØD Ø 2 h Ø p Øf 4 Øf 2 ØF Orer Number ES -sie Cone bushing Key hub Steel bellows-sie Cone bushing Key hub 2 0 Ratchetting clutch Synchronous clutch Torque ajustment value (Optional) / 4 3.. 0 / / / / s 03 an 02 Torque range ) meium high very high 6 7 Hub bore Ø Ø p Hub 2 bore Ø Ø 2 With see pages 3 (Option) 24 Example: Orer number 02 / 43.6.0 / / / 8 / 0.002. ) See Technical Data, limit torque for overloa M G
ES -NC ratchetting clutch/synchronous clutch Technical Data ) 03 02 Type 43..0 M G [Nm] 0.6.30 2 Limit torques for overloa ) Type 43.6.0 M G [Nm].30 2.60 0 Type 43.7.0 M G [Nm] 2.00 3.80 6 Max. spee n max [rpm] 4000 4000 Thrust washer stroke on overloa [mm] 0.8.0 Nominal torques, steel bellows coupling T KN [Nm] 2 2 axial K a [mm] 0.2 0.3 Permitte raial K misalignments r [mm] 0. 0. angular K w [ ] 2 2 Mass moments of inertia an weights 03 02 Hub-sie Type 43..0 I [0-3 kgm²] 0.027 0.04 Type 43._2_.0 I [0-3 kgm²] 0.02 0.0 Steel bellows-sie Type 43..0 I [0-3 kgm²] 0.027 0.063 Type 43._2_.0 I [0-3 kgm²] 0.02 0.07 Weights Type 43..0 m [kg] 0.27 0.4 Type 43._2_.0 m [kg] 0.24 0.39 Tensioning screws 03 02 Number, imensions M [mm] 4 x M3 4 x M3 In cone bushing ES -sie Wrench opening SW [mm].. Tightening torque T [Nm].3.3 Number, imensions M [mm] 4 x M3 4 x M3 In cone bushing steel bellows-sie Wrench opening SW [mm].. Tightening torque T [Nm].3.3 Dimensions [mm] 03 02 7.2 9. C 3 28 33. D 30 36 E 40 47 F 37 42 F 2 4 0 f 26 30 f 2-3 f 4-37 Minimum g 4.. shaft length g 2. 6 h 24 29 k 2 2 3) L 28. 34. 3) L 8. 70. L 2 49.3 9 Bores [mm] 03 02 min 6 8 max 2 ES - sie Steel bellows-sie P min 6 8 P P max 6 2) min 6 8 max 2 2 min 6 8 2 2 max 6 2) We reserve the right to make imensional an constructional alterations. 3) l ) Further sizes for smaller an larger torques available on request 4 2 2) Up to Ø 4 keyway acc. DIN 688/, over Ø 4 keyway acc. DIN 688/3 l 2 9. 3) Dimensions in untensione conition (shorter in tensione conition) 2
ES -Compact overloa clutch Function your reliable partner If the set limit torque is exceee, the clutch isengages. The torque rops immeiately. mounte registers the isengagement movement an switches off the rive. The signal can also be use for further control functions. ES -Compact overloa clutches separate the input an the output sie completely an remain in this state until they are intentionally re-engage by han or via a suitable evice. Engage Disengage Output Output Drive Drive When in operation, the ES -Compact overloa clutches transmit the torque backlash-free. On overloa occurrence, they ensure free run-out of the rive components. The ES -Compact overloa clutches Types 49_._4._, 49_.6_4._ an 49_.7_4._ are also available in TEX esign accoring to irective 94/9 EC (TEX 9). 26
Summary of constructional esigns ES -Compact overloa clutch ES -Compact overloa short hub Torque: to 3000 Nm s 0 to 3 Type 490. 4.0 Flange clutch for irect installation of rive elements with the resulting raial force approximately in the bearing centre s 4 an as 2-bearing esign Type 490. 4.2 With cone bushing With key hub Type 490._4._ Type 490._24._ Page 28 ES -Compact overloa long protruing hub Torque: to 000 Nm s 0 to 3 Type 490. 4. Flange clutch for very wie rive elements or elements with a very small iameter Suitable bearings for the rive element are ball bearings, neele bearings or plain bearings. With cone bushing With key hub Type 490._4. Type 490._24. ES -Compact overloa torsionally rigi ES -Compact overloa lastic backlash-free ES -Compact overloa lastic Torque: to 3000 Nm s 0 to 3 Type 496. 4.0 s 4 an as 2-bearing esign Type 496. 4.2 Torque: to 00 Nm s 0 to 3 Type 494. 4._ 4 as 2-bearing esign Type 494. 4._ Torque: 240 to 3000 Nm Double shaft esign with a robust isk pack coupling Compensation for axial, raial an angular shaft misalignments High torsional rigiity Hub esigns: ES -sie/torsionally rigi sie Cone bushing/shrink isk hub Key hub/clamping hub Key hub/key hub Type 496._4._ Type 496._24.0 Type 496._24._ Page 30 Page 32 Double shaft esign with a flexible, backlash-free coupling Compensation for axial, raial an angular shaft misalignments High amping characteristics Hub esigns: ES -sie/flexible sie Cone bushing/clamping hub Cone bushing/shrink isk hub Key hub/key hub Type 494._04._ Type 494._4._ Type 494._24._ Double shaft esign with a flexible coupling Compensation for axial, raial an angular shaft misalignments Page 36 as 2-bearing esign Type 494. 4.2 Hub esigns: ES -sie/flexible sie Key hub/key hub Cone bushing/key hub Type 494._24.2 Type 494._34.2 Page 40 27
h L a 0 k a b ØE Øm Øe s Ø g 4 Øf Øf 4 Øf 2 g 7 SW SW 3 h a 0 ØE Øm Ø p Øf 4 Øf 2 ES -Compact overloa clutch your reliable partner ES -Compact overloa short hub with cone bushing Type 490._4.0, s 0 to 3 Type 490._4.2, s 4 to h L Type 490._4._ s 0 to k a 0 SW 4 a b SW ØE Øm Øe s Ø g 4 Øf g 7 a b Øe s M 6 SW ES -Compact overloa short hub with keyway Type 490._24._ s 0 to Type 490._24.0, s 0 to 3 Type 490._24.2, s 4 to h a 0 SW 4 a b SW M 6 ØE Øm Øe s Ø p SW 3 Orer Number with cone bushing with keyway 2 4 Overloa clutch Torque ajustment value (Optional) / 4 9 0. 4. / / / s 0 to Torque range ) meium high very high maximum 6 7 8 -bearing esign (s 0-3) 2-bearing esign (s 4-) 0 2 Hub bore Ø Ø p With see page (Option) 28 Example: Orer number / 490.64.0 / 2 / 60 / 0.002. ) See Technical Data, limit torque for overloa M G
ES -Compact overloa clutch your reliable partner Technical Data ) Type 490._4._ M G [Nm] 2. 0 2 20 0 40 00 80 200 20 300 240 600 Limit torques for Type 490.6_4._ M G [Nm] 0 2 20 0 40 00 80 200 60 400 240 600 480 200 overloa ) Type 490.7_4._ M G [Nm] 20 0 40 00 80 200 60 400 320 800 480 200 960 2400 Type 490.8_4._ M G [Nm] 2 62. 0 2 00 20 200 00 400 000 600 00 200 3000 Max. spee n max [rpm] 8000 7000 6000 000 4000 300 3000 Thrust washer stroke on overloa [mm] 2.0 2.6 3.2 3.8 4.. 6. Mass moments of inertia an weights Type 490._4._ I [0-3 kgm²] 0.383 0.943 2.279 4.42 0.396 39.730 20.834 Hub-sie Type 490._24._ I [0-3 kgm²] 0.377 0.97 2.93 4.20 9.867 37.2 2.399 Pressure flange-sie Type 490._4._ I [0-3 kgm²] 0.093 0.234 0.643.306 2.649 9.90 6.760 Type 490._24._ I [0-3 kgm²] 0.093 0.234 0.643.306 2.649 9.90 6.760 Type 490._4._ m [kg] 0.92. 2.8 3.70.83 7.0 34.70 Weights Type 490._24._ m [kg] 0.87.43 2.3 3.37.3 6.0 34.30 Screws an screw-on bores Number, imensions M [mm] 6 x M4 6 x M4 8 x M4 8 x M 8 x M6 8 x M8 8 x M0 Tensioning screws Wrench opening SW [mm] 7 7 7 8 0 3 6 in cone bushing Tightening torque T [Nm] 4 4 4 8 2 2 7 Locking screw Number, imensions M 3 [mm] x M4 x M4 x M x M x M6 - - in ajusting nut Wrench opening SW 3 [mm] 3 3 4 4 - - s 0-3 Tightening torque T [Nm] 3 9 9 - - Pins/threas Wrench opening SW 4 [mm] - - - - - 8 8 in ajusting nut Wrench opening SW [mm] - - - - - 6 6 s 4 - Number, imensions M 6 [mm] - - - - - 3 x M8 3 x M8 Screw-on bores Number, imensions s [mm] 8 x M4 8 x M 8 x M6 8 x M6 * 8 x M8 * 8 x M0 8 x M2 in pressure flange * Screws quality class 2.9 must be use to secure the rive element. Dimensions [mm] Bores [mm] 24 28 30 34 40 62. 80 ) 6) min 0 22 32 3 40 4 - - - - - 46. 60 max 20 2 3 4 6 8 7) a 2) 7 9 0 0 2 3 P min 2 22 28 32 40 4 P 8) a 0 8 4 6 8 2 23 P max 20 2 30 40 0 6 80 b 6 7 9 0 2 20 20 E 6 80 9 0 30 66 2 We reserve the right to make imensional an constructional alterations. 3) e h 47 62 7 90 00 30 60 F 2 70 8 00 3 7 22 f 38 44 6 70 84 00 34 f 2 6 7 - - f 4 0 70 84 00 - - Minimum g 4 34 39 42 48 3 93 8 shaft length ) Further sizes for smaller an larger torques available on request g 7 36 43 4 7 69 0 30 2) Mounting tolerance + 0. h k 4 2.8 2.8 6 2.8 72 3. 82 4.0 4.3 7 6.4 3) Tolerance user-sie 4) Dimensions in untensione conition (shorter in tensione conition) ) Shaft tolerance up to Ø 38 h6, over Ø 38 h8 4) L 2 63 73 8 93 60 93 6) Transmittable torques available with smaller bores on request 7) Smaller bores for low torques available on request m 6 7 8 00 6 0 8 8) Larger bores available on request 29
L h C a k a b ØE Øm Øe Øf Ø s g 8 g 4 Øf Øf 4 Øf 2 SW SW 3 h a ØE Øm Ø p Øf 4 Øf 2 ES -Compact overloa clutch your reliable partner ES -Compact overloa long protruing hub with cone bushing Type 490._4. s 0 to 3 ES -Compact overloa long protruing hub with keyway Type 490._24. s 0 to 3 C a b Øe Øf s SW 3 Orer Number with cone bushing with keyway 2 4 Overloa clutch Torque ajustment value (Optional) / 4 9 0. 4. / / / s 0 to 3 Torque range ) meium high very high maximum 6 7 8 long protruing hub Hub bore Ø Ø p With see page (Option) 30 Example: Orer number / 490.64. / 2 / 60 / 0.002. ) See Technical Data, limit torque for overloa M G
ES -Compact overloa clutch your reliable partner Technical Data ) 0 0 2 3 Type 490._4. M G [Nm] 2. 0 2 20 0 40 00 80 200 Limit torques for Type 490.6_4. M G [Nm] 0 2 20 0 40 00 80 200 60 400 overloa ) Type 490.7_4. M G [Nm] 20 0 40 00 80 200 60 400 320 800 Type 490.8_4. M G [Nm] 2 62. 0 2 00 20 200 00 400 000 Max. spee n max [rpm] 8000 7000 6000 000 4000 Thrust washer stroke on overloa [mm] 2.0 2.6 3.2 3.8 4. Mass moments of inertia an weights 0 0 2 3 Type 490._4. I [0-3 kgm²] 0.397.000 2.382 4.680 0.888 Hub-sie Type 490._24. I [0-3 kgm²] 0.39 0.974 2.296 4.464 0.389 Pressure flange-sie Type 490._4. I [0-3 kgm²] 0.093 0.234 0.643.306 2.649 Type 490._24. I [0-3 kgm²] 0.093 0.234 0.643.306 2.649 Type 490._4. m [kg].02.77 2.86 4.6 6.42 Weights Type 490._24. m [kg] 0.97.6 2.64 3.82.90 Screws an screw-on bores 0 0 2 3 Number, imensions M [mm] 6 x M4 6 x M4 8 x M4 8 x M 8 x M6 Tensioning screws in cone bushing Wrench opening SW [mm] 7 7 7 8 0 Tightening torque T [Nm] 4 4 4 8 2 Number, imensions M 3 [mm] x M4 x M4 x M x M x M6 Locking screw in ajusting nut Wrench opening SW 3 [mm] 3 3 4 4 Tightening torque T [Nm] 3 9 9 Screw-on bores Number, imensions s [mm] 8 x M4 8 x M 8 x M6 8 x M6 * 8 x M8 * in pressure flange * Screws quality class 2.9 must be use to secure the rive element. Dimensions [mm] Bores [mm] 0 0 2 3 0 0 2 3 24 28 30 34 40 ) 6) min 0 22 32 3 a 2) 7 9 0 0 max 20 2 3 4 7) a 6. 8.7. 3 4 P min 2 22 28 32 P 8) b 6 7 9 0 2 P max 20 2 30 40 0 C 33 43 67 73 We reserve the right to make imensional an constructional alterations. E 6 80 9 0 30 3) e h 47 62 7 90 00 F 2 70 8 00 3 f 38 44 6 70 84 f h6 30 40 4 6 f 2 6 7 f 4 0 70 84 00 Minimum g 4 34 39 42 48 3 shaft length g ) Further sizes for smaller an larger torques available on request 8 6 7 9 08 24 2) Mounting tolerance + 0. h 70 87 06 23 37 3) Tolerance user-sie k 4) Dimensions in untensione conition (shorter in tensione conition) 2.8 2.8 2.8 3. 4.0 ) Shaft tolerance up to Ø 38 h6, over Ø 38 h8 4) L m 77 6 9 7 4 8 32 00 48 6 6) Transmittable torques available with smaller bores on request 7) Smaller bores for low torques available on request 8) Larger bores available on request 3
ES -Compact overloa clutch your reliable partner ES -Compact overloa torsionally rigi ES -sie cone bushing, ROB -DS-sie shrink isk hub Type 496._4.0, s 0 to 3 ØD SW ØD Ø k 2 l U L l h L g 4 k Ø Øf SW Øf 4 Øf 2 Type 496. 4.0 s 0 to 3 ll ES -Compact clutches can be combine with almost all components of the ROB -DS backlash-free shaft coupling. The Types shown here represent only a selection of the most establishe esigns. For further combination possibilities, see page 43. We are happy to avise you on the imensioning an configuration of your optimum clutch. -part flange s 0 an 2-part flange s 0, 2 an 3 SW 3 ES -sie key hub, ROB -DS-sie clamping hub with keyway Type 496._24.0, s 0 an 0 L 2 ES -sie key hub, ROB -DS-sie key hub Type 496._24.0, s to 3 L 2 SW 7 l l 2 U h l l 2 U h ØD Ø 2 Ø p Øf 4 Øf 2 ØD ØD 2 Ø 2 Ø p Øf 4 Øf 2 -part flange 0 2-part flange 0 SW 3 -part flange 2-part flange s 2 an 3 SW 3 Orer Number ES -sie Cone bushing Key hub ROB -DS-sie Shrink isk hub Clamping hub with keyway (s 0-0) / key hub (s -3) 2 4 Overloa clutch Torque ajustment value (Optional) / 4 9 6. 4. 0 / / / / s 0 to 3 Torque range ) meium high very high maximum 6 7 8 Hub bore Ø Ø P Hub 2 bore Ø Ø 2 With see page (Option) 32 Example: Orer number / 496.64.0 / 30 / 30 / 60 / 0.002. ) See Technical Data, limit torque for overloa M G
ES -Compact overloa clutch your reliable partner Technical Data 0 0 2 3 Type 496._4.0 M G [Nm] 2. 0 2 20 0 40 00 80 200 Limit torques for Type 496.6_4.0 M G [Nm] 0 2 20 0 40 00 80 200 60 400 overloa Type 496.7_4.0 M G [Nm] 20 0 40 00 80 200 60 400 320 800 Type 496.8_4.0 M G [Nm] 2 62. 0 2 00 20 200 00 400 000 Max. spee n max [rpm] 8000 7000 6000 000 4000 Thrust washer stroke on overloa [mm] 2.0 2.6 3.2 3.8 4. Nominal torques, torsionally rigi coupling T KN [Nm] 00 0 300 60 00 axial ) K a [mm] 0.9. 0.8..3 Permitte raial K misalignments r [mm] 0.20 0.20 0.20 0.2 0.30 angular K w [ ] 2.0 2.0.4.4.4 Mass moments of inertia an weights 0 0 2 3 ES -hub-sie Type 496._4.0 I [0-3 kgm²] 0.383 0.943 2.279 4.42 0.396 Type 496._24.0 I [0-3 kgm²] 0.377 0.97 2.93 4.20 9.867 ROB -DS-sie Type 496._4.0 I [0-3 kgm²] 0.894 2.39 2.9 9.43 2.443 Type 496._24.0 I [0-3 kgm²] 0.709 2.086 2.47 7.8 8.2 Weights Type 496._4.0 m [kg].8 3.34 4.34 7.8 2.7 Type 496._24.0 m [kg].6 3.07 4.0 7.2 4.94 Screws In cone bushing ES -sie Locking screw in ajusting nut In shrink isk ROB -DS-sie In clamping hub ROB -DS-sie 0 0 2 3 Number, imensions M [mm] 6 x M4 6 x M4 8 x M4 8 x M 8 x M6 Wrench opening SW [mm] 7 7 7 8 0 Tightening torque T [Nm] 4 4 4 8 2 Number, imensions M 3 [mm] x M4 x M4 x M x M x M6 Wrench opening SW 3 [mm] 3 3 4 4 Tightening torque T [Nm] 3 9 9 Number, imensions M [mm] 4 x M 6 x M 6 x M 6 x M 6 x M6 Wrench opening SW [mm] 8 8 8 8 0 Tightening torque T [Nm] 6 6 6 8. 0 Number, imensions M 7 [mm] x M8 x M8 - - - Wrench opening SW 7 [mm] 6 6 - - - Tightening torque T [Nm] 33 33 - - - Dimensions [mm] 0 0 2 3 24 28 30 34 40 D 69 79 77 04 23 D 68 78 77 00 D 2 - - 0 70 80 F 2 70 8 00 3 f 38 44 6 70 84 f 2 6 7 f 4 0 70 84 00 Min. shaft length g 4 34 39 42 48 3 h 4 6 72 82 k 2.8 2.8 2.8 3. 4.0 k 2 3. 3. 3. 3. 4.0 2) L 2 63 73 8 93 2) L 0.3 39.3 47. 83.2 2 L 2 03.3 27.3 39.2 79.2 24 l 34.3 49.8 48.2 68.2 8 l 32 37. 40 0 l 2 32 33. 40 6 U.3.8 2.2 26.2 34 Bores [mm] 0 0 2 3 3) min 0 22 32 3 max 20 2 3 4 ES - sie ROB -DS - sie P min 2 22 28 32 P P max 20 2 30 40 0 min 9 2 2 40 4 max 38 4 4 60 70 2 min 9 ) 2 ) 6 2 30 2 2 max 3 ) 42 ) 32 0 4) We reserve the right to make imensional an constructional alterations. ) Only permitte as a static or virtually static value. 2) Dimensions in untensione conition (shorter in tensione conition) 3) Shaft tolerance up to Ø 38 h6, over Ø 38 h8 4) Recommene shaft tolerance g6 ) Recommene shaft tolerance k6 33
ES -Compact overloa clutch your reliable partner ES -Compact overloa torsionally rigi ES -sie cone bushing, ROB -DS-sie shrink isk hub Type 496._4.2 ØD SW ØD Ø k 2 l U L h l SW L g 4 k Ø Øf ØE SW 4 SW Type 496. 4.2 s 4 an ll ES -Compact clutches can be combine with almost all components of the ROB -DS backlash-free shaft coupling. The Types shown here represent only a selection of the most establishe esigns. For further combination possibilities, see page 43. We are happy to avise you on the imensioning an configuration of your optimum clutch. M 6 ES -sie key hub, ROB -DS-sie key hub Type 496._24.2 L 2 h SW 4 G t l 2 l SW U M 6 ØD ØD 2 Ø 2 Ø p ØE Orer Number ES -sie Cone bushing Key hub ROB -DS-sie Shrink isk hub Key hub 2 4 Overloa clutch Torque ajustment value (Optional) / 4 9 6. 4. 2 / / / / s 4 an Torque range ) meium high very high maximum 6 7 8 2-bearing esign 2 Hub bore Ø Ø p Hub 2 bore Ø Ø 2 With see page (Option) 34 Example: Orer number / 496.74.2 / 70 / 70 / 00 / 0.002. ) See Technical Data, limit torque for overloa M G
ES -Compact overloa clutch your reliable partner Technical Data 4 Type 496._4.2 M G [Nm] 20 300 240 600 Limit torques for Type 496.6_4.2 M G [Nm] 240 600 480 200 overloa Type 496.7_4.2 M G [Nm] 480 200 960 2400 Type 496.8_4.2 M G [Nm] 600 00 200 3000 Max. spee n max [rpm] 300 3000 Thrust washer stroke on overloa [mm]. 6. Nominal torques, torsionally rigi coupling T KN [Nm] 600 300 axial ) K a [mm]..2 Permitte raial K misalignments r [mm] 0.30 0.2 angular K w [ ].4.0 Mass moments of inertia an weights 4 ES -hub-sie Type 496._4.2 I [0-3 kgm²] 39.730 20.834 Type 496._24.2 I [0-3 kgm²] 37.2 2.399 ROB -DS-sie Type 496._4.2 I [0-3 kgm²] 32.30 47.080 Type 496._24.2 I [0-3 kgm²] 26.00 28.80 Weights Type 496._4.2 m [kg] 27.30 2.8 Type 496._24.2 m [kg] 26.0 48.60 Screws In cone bushing ES -sie In shrink isk ROB -DS-sie Pins/threas in ajusting nut 4 Number, imensions M [mm] 8 x M8 8 x M0 Wrench opening SW [mm] 3 6 Tightening torque T [Nm] 2 7 Number, imensions M [mm] 6 x M8 8 x M8 Wrench opening SW [mm] 3 3 Tightening torque T [Nm] 2 3 Wrench opening SW 4 [mm] 8 8 Wrench opening SW [mm] 6 6 Number, imensions M 6 [mm] 3 x M8 3 x M8 Dimensions [mm] 4 62. 80 46. 60 D 43 67 D 43 64 D 2 00 2 E 66 2 F 2 7 22 f 00 34 G 2) M2 Min. shaft length g 4 93 8 h 4 7 k.3 6.4 k 2.3.3 3) L 60 93 3) L 267 33 L 2 267 328 l 68 86 l 60 7 l 2 7 90 t 2 2 U 3.2 44.4 Bores [mm] 4 4) min 40 4 max 6 8 ES - sie ROB -DS - sie P min 40 4 P P max 6 80 min 0 max 90 8 2 min 3 4 2 2 max 70 90 ) We reserve the right to make imensional an constructional alterations. ) Only permitte as a static or virtually static value 2) Up toø 44 M8, over Ø 44 M0 3) Dimensions in untensione conition (shorter in tensione conition) 4) Shaft tolerance h8 ) Recommene shaft tolerance g6 3
ES -Compact overloa clutch ES -Compact overloa lastic backlash-free ES -sie cone bushing, ROB -ES-sie shrink isk hub Type 494._4._, s 0 to 3 Type 494._4._._, 4 Tappe extracting hole between the clamping screws l L C 4 k SW Tappe extracting hole between the clamping screws l L C 4 Type 494. 4._ s 0 to 4 k SW 4 SW SW ØD ØD H Ø 4 L g 4 Ø Øf Øf 4 Øf 2 Ø 4 L g 4 Ø Øf M 6 M 2 ES -sie cone bushing, ROB -ES-sie clamping hub Type 494._04._, s 0 to 3 Type 494._04._, 4 SW 3 M 2 The missing imensions (ØD an ØD H ) are ientical to s 0 to 3, Type 494._4._ L L k SW 4 C 4 C 4 SW l k SW l SW g 4 g 4 ØD ØD H Ø 3 L Ø Ø 3 L M 6 Ø Øf Øf M t Orer Number SW 3 M t The missing imensions (ØD an ØD H ) are ientical to s 0 to 3, Type 494._04._ ES -sie Cone bushing Cone bushing ROB -ES-sie Clamping hub Shrink isk hub 0 4 Overloa clutch Torque ajustment value (Optional) / 4 9 4. 4. / / / / s 0 to 4 Torque range ) meium high very high maximum 6 7 8 Flexible coupling 92 Shore 98 Shore 64 Shore D 3 4 6 Hub bore Ø Hub 2 bore F7 Ø 3 Ø 4 With see page (Option) Example: Orer number / 494.64.3 / 22 / 2 / 60 / 0.002. 36 ) See Technical Data, limit torque for overloa M G 2) The transmittable torques on the flexible coupling T KN are epenent on factors such as temperature, torsional rigiity, etc., see also coupling imensioning ROB -ES catalogue K.940.V or contact the manufacturer. Furthermore, the transmittable torques of the flexible coupling are epenent on the bore iameter 3 or 4, see also Table on page 0. 3) Dimensions in untensione conition (shorter in tensione conition) 4) Shaft tolerance up to Ø 38 h6, over Ø 38 h8 ) Transmittable torques available with smaller bores on request 6) Shaft tolerance up to Ø 40 j6
ES -Compact overloa clutch your reliable partner Technical Data Limit torques 2) for overloa Type 494._4._ M G [Nm] 2. 0 2 20 0 40 00 80 200 20 300 Type 494.6_4._ M G [Nm] 0 2 20 0 40 00 80 200 60 400 240 600 Type 494.7_4._ M G [Nm] 20 0 40 00 80 200 60 400 320 800 480 200 Type 494.8_4._ M G [Nm] 2 62. 0 2 00 20 200 00 400 000 600 00 Max. spee n maxi [rpm] 8000 7000 6000 000 4000 300 Thrust washer stroke on overloa [mm] 2.0 2.6 3.2 3.8 4.. Nominal an maximum torques 2), flexible coupling Permitte misalignments 92 Shore T KN /T K max [Nm] 3 / 70 9 / 90 90 / 380 26 / 30 30 / 620 900 / 800 98 Shore T KN /T K max [Nm] 60 / 20 60 / 320 32 / 60 40 / 900 2 / 00 040 / 2080 64 Shore D T KN /T K max [Nm] 7 / 0 200 / 400 40 / 80 60 / 20 6 / 30 20 / 200 axial K a [mm].4..8 2.0 2. 2.6 92 Shore K r [mm] 0.4 0. 0.7 0.9 0.2 0.2 raial 98 Shore K r [mm] 0.0 0. 0.2 0.4 0.6 0.8 64 Shore D K r [mm] 0.07 0.08 0.09 0.0 0. 0.3 92 Shore K w [ ].0.0.0.0.0.0 angular 98 Shore K w [ ] 0.9 0.9 0.9 0.9 0.9 0.9 64 Shore D K w [ ] 0.8 0.8 0.8 0.8 0.8 0.8 Mass moments of inertia an weights ES -hub-sie Type 494. 4._ I [0-3 kgm²] 0.383 0.943 2.279 4.42 0.396 39.730 ROB -ES-sie Type 494._4._ I [0-3 kgm²] 0.378 0.832 2.277 7.2 4.67 6.674 Type 494._04._ I [0-3 kgm²] 0.320 0.69.843 7.40 4.29 62.369 Weights Type 494._4._ m [kg].38 2.6 3.64 6.69 0. 27.6 Type 494._04._ m [kg].27.98 3.2 6.8 0.42 27.67 Screws In cone bushing ES -sie In shrink isk ROB -ES-sie In clamping hub ROB -ES-sie Locking screw in ajusting nut s 0-3 Pins/threas in ajusting nut 4 Number, imensions M [mm] 6 x M4 6 x M4 8 x M4 8 x M 8 x M6 8 x M8 Wrench opening SW [mm] 7 7 7 8 0 3 Tightening torque T [Nm] 4 4 4 8 2 2 Number, imensions M 2 [mm] 4 x M 8 x M 8 x M6 4 x M8 4 x M8 4 x M2 Wrench opening SW 2 [mm] 4 4 6 8 0 Tightening torque T [Nm] 6 6 0. 2 30 20 Number, imensions M [mm] x M6 x M8 x M8 x M0 x M2 x M4 Wrench opening SW [mm] 6 6 8 0 2 Tightening torque T [Nm] 0 2 2 70 20 200 Number, imensions M 3 [mm] x M4 x M4 x M x M x M6 - Wrench opening SW 3 [mm] 3 3 4 4 - Tightening torque T [Nm] 3 9 9 - Wrench opening SW 4 [mm] - - - - - 8 Wrench opening SW [mm] - - - - - 6 Number, imensions M 6 [mm] - - - - - 3 x M8 Dimensions [mm] 24 28 30 34 40 62. C 4 2 63. 7 82 94 60 D 70 8 00 3 7 D H 6 80 9 0 3 F 2 70 8 00 3 7 f 38 44 6 70 84 00 f 2 6 7 - f 4 0 70 84 00 - Min. shaft length g 4 34 39 42 48 3 93 k 2.8 2.8 2.8 3. 4.0.3 3) L 2 63 73 8 93 60 3) L 07 26. 2 67 89 270 l 30 3 4 0 6 7 t 2 3. 20 20 2 27. 4) ) min 0 22 32 3 40 max 20 2 3 4 6 2) 3 3 min 9 20 28 3 4 3 max 28 3 4 0 80 2) 4 4 min 9 20 28 3 6) 4 4 max 28 38 4 0 60 6) 7 Bores [mm] ES - sie ROB -ES - sie We reserve the right to make imensional an constructional alterations. 37
ES -Compact overloa clutch your reliable partner ES -Compact overloa lastic backlash-free ES -sie key hub, ROB -ES-sie key hub Type 494._24._, s 0 to 3 Type 494._24._ s 0 to 4 L 2 C 4 l ØD ØD H Ø h Ø p Øf 4 Øf 2 G 4) t SW 3 Type 494._24._, 4 L 2 C 4 SW 4 l SW ØD ØD H Ø h Ø p M 6 G 4) t Orer Number ES -sie Key hub ROB -ES-sie Key hub 2 4 Overloa clutch Torque ajustment value (Optional) / 4 9 4. 2 4. / / / / s 0 to 4 Torque range ) meium high very high maximum 6 7 8 Flexible coupling 92 Shore 98 Shore 64 Shore D 3 4 6 Hub bore Ø p Hub 2 bore Ø With see page (Option) 38 Example: Orer number / 494.624.3 / 22 / 2 / 60 / 0.002. ) See Technical Data, limit torque for overloa M G
ES -Compact overloa clutch your reliable partner Technical Data Type 494.24._ M G [Nm] 2. 0 2 20 0 40 00 80 200 20 300 Limit torques ) Type 494.624._ M G [Nm] 0 2 20 0 40 00 80 200 60 400 240 600 for overloa Type 494.724._ M G [Nm] 20 0 40 00 80 200 60 400 320 800 480 200 Type 494.824._ M G [Nm] 2 62. 0 2 00 20 200 00 400 000 600 00 Max. spee n maxi [rpm] 8000 7000 6000 000 4000 300 Thrust washer stroke on overloa [mm] 2.0 2.6 3.2 3.8 4.. Nominal an maximum 92 Shore T KN /T K max [Nm] 3 / 70 9 / 90 90 / 380 26 / 30 30 / 620 900 / 800 torques ), 98 Shore T KN /T K max [Nm] 60 / 20 60 / 320 32 / 60 40 / 900 2 / 00 040 / 2080 flexible coupling 64 Shore D T KN /T K max [Nm] 7 / 0 200 / 400 40 / 80 60 / 20 6 / 30 20 / 200 axial K a [mm].4..8 2.0 2. 2.6 92 Shore K r [mm] 0.4 0. 0.7 0.9 0.2 0.2 raial 98 Shore K r [mm] 0.0 0. 0.2 0.4 0.6 0.8 Permitte misalignments 64 Shore D K r [mm] 0.07 0.08 0.09 0.0 0. 0.3 92 Shore K w [ ].0.0.0.0.0.0 angular 98 Shore K w [ ] 0.9 0.9 0.9 0.9 0.9 0.9 64 Shore D K w [ ] 0.8 0.8 0.8 0.8 0.8 0.8 Mass moments of inertia an weights ES -hub-sie Type 494._24._ I [0-3 kgm²] 0.377 0.97 2.93 4.20 9.867 37.2 ROB -ES-sie Type 494._24._ I [0-3 kgm²] 0.32 0.69.844 7.39 4.9 62.873 Weights Type 494._24._ m [kg].23.92 3.26 6.73 0.28 27.9 Screws Locking screw in ajusting nut s 0-3 Pins/threas in ajusting nut 4 Number, imensions M 3 [mm] x M4 x M4 x M x M x M6 - Wrench opening SW 3 [mm] 3 3 4 4 - Tightening torque T [Nm] 3 9 9 - Wrench opening SW 4 [mm] - - - - - 8 Wrench opening SW [mm] - - - - - 6 Number, imensions M 6 [mm] - - - - - 3 x M8 Dimensions [mm] 24 28 30 34 40 62. C 4 2 63. 7 82 94 60 D 70 8 00 3 7 D H 6 80 9 0 3 F 2 70 8 00 3 7 f 2 6 7 - f 4 0 70 84 00 - G 4) M M6 M8 M8 M8 M0 h 4 6 72 82 4 L 2 00 8. 44 8 78 270 l 30 3 4 0 6 7 t 0 20 2 20 Bores [mm] ES - sie ROB - ES - sie p 2) P min 2 22 28 32 40 p max 3) 20 2 30 40 0 6 min 8 0 2 4 20 38 max 28 38 4 60 80 We reserve the right to make imensional an constructional alterations. ) The transmittable torques on the flexible coupling T KN are epenent on factors such as temperature, torsional rigiity, etc., see also coupling imensioning ROB -ES catalogue K.940.V or contact the manufacturer. 2) Smaller bores for smaller torques available on request 3) Larger bores available on request 4) Keyway 80 offset to G 39
ES -Compact overloa clutch your reliable partner ES -Compact overloa lastic Key hub on both sies Type 494._24.2 Type 494. 4.2 l (l 2 ) L 2 l SW 4 S SW t ØD ØD Ø 2 G h ØE M 6 Ø p ES -sie cone bushing, lastic-sie key hub Type 494._34.2 L 3 l (l 2 ) k l S SW 4 SW SW t g 4 ØD ØD Ø 2 G L M 6 Ø Øf ØE Orer Number ES -sie Key hub Cone bushing lastic-sie Key hub Key hub 2 3 4 Overloa clutch Torque ajustment value (Optional) / 4 9 4. 4. 2 / / / / Torque range ) meium high very high maximum 6 7 8 2-bearing esign 2 Hub bore Ø Ø p Hub 2 bore Ø 2 With see page (Option) 40 Example: Orer Number / 494.624.2 / 60 / 60 / 800 / 0.002. ) See Technical Data, limit torque for overloa M G
ES -Compact overloa clutch your reliable partner Technical Data Type 494._4.2 M G [Nm] 240 600 Limit torques Type 494.6_4.2 M G [Nm] 480 200 for overloa Type 494.7_4.2 M G [Nm] 960 2400 Type 494.8_4.2 M G [Nm] 200 3000 Max. spee n max [rpm] 3000 Thrust washer stroke on overloa [mm] 6. Type 494._4.2 T KN [Nm] 2400 Nominal torques, Type 494.6_4.2 T KN [Nm] 2400 flexible coupling Type 494.7_4.2 T KN [Nm] 2400 Type 494.8_4.2 T KN [Nm] 3700 axial K a [mm] 2.0 Permitte raial K misalignments 2) r [mm] 0.3 angular K w [ ] 0.07 Mass moments of inertia an weights Type 494._ 24.2 I [0-3 kgm²] 2.399 ES -hub-sie Type 494._ 34.2 I [0-3 kgm²] 20.834 lastic-sie Type 494. 4.2 I [0-3 kgm²] 420.870 Weights Type 494._ 24.2 m [kg] 69.780 Type 494._ 34.2 m [kg] 70.0 Screws In cone bushing ES -sie Pins/threas in ajusting nut Number, imensions M [mm] 8 x M0 Wrench opening SW [mm] 6 Tightening torque T [Nm] 7 Wrench opening SW 4 [mm] 8 Wrench opening SW [mm] 6 Number, imensions M 6 [mm] 3 x M8 Dimensions [mm] 80 60 D 240 D 46 E 2 F 2 22 f 34 G M2 g 4 8 h 7 k 6.4 L ) 93 L 2 400 L 3 ) 48 l 7 l 7. l 2 08 S 4 t 3 Bores [mm] p min 4 p p max 80 4 min 8 max ES - sie lasticsie 2 2 min 60 2 max 00 We reserve the right to make imensional an constructional alterations. ) Dimensions in untensione conition (shorter in tensione conition) 2) The values refer to 00 rpm. 4
ES -Compact Options ES -Compact with ajusting nut for raial torque ajustment 2 x Keyway with X The ES -Compact can be equippe with an ajusting nut for raial torque ajustment if the clutch cannot be accesse axially ue to narrow installation conitions. On this variant, the grauation for reaing an ajusting the torque is mounte raially visible on the outer iameter. Ø F Ø F 2 SW 8 Dimensions [mm] 0 0 2 3 2 2 3. 6 7 20. F 9 73 88 04 2 F 2 70 8 00 3 X 6 7 7 8 0 x 3 4 4 4. 4 ES -Compact with clamping ring ES -Compact clutches with clamping ring hub can be mounte extremely quickly an easily onto the shaft. The slotte clamping ring is tensione using one single screw. Due to the equipment with an ajusting nut for raial torque ajustment, the limit torque for overloa can be altere even in installe conition. Bores [mm] 0 0 2 3 0 22 32 3 ) min 2 32 40 4 max ) For transmittable torques epenent on bore, see Table. L L 4 3 l4 SW9 Ø Ø F 3 Ø F 2 Dimensions [mm] SW 8 0 0 2 3 3. 9 20. 23. 26 F 2 70 8 00 3 F 3 60 72 84 97 L 4 43. 3. 63. 70. 80. L 6 77 90 03 7 l 4 8 22 26 32 36 Frictionally-locking transmittable torques T R [Nm] ES -Compact with clamping ring Bore 0 0 2 3 Ø 0 44 - - - - Ø 2 2 - - - - Ø 4 6 - - - - Ø 6 69 0 - - - Ø 8 78 3 - - - Ø 20 87 26 - - - Ø 22 96 38 99 - - Ø 2 09 68 226 327 - Ø 28-20 23 366 23 Ø 30-26 290 420 6 Ø 32-230 32 470 98 Ø 3 - - 3 700 Ø 38 - - 386 9 798 Ø 40 - - 406 88 840 Ø 4 - - - 66 94 Ø 0 - - - - 00 Ø - - - - Table 42 Screws Locking screw in ajusting nut In the clamping ring 0 0 2 3 Number, imensions M 8 [mm] x M4 x M x M6 x M6 x M8 Wrench opening SW 8 [mm] 3 4 6 Tightening torque T [Nm] 3. 9. 9. 23 Number, imensions M 9 [mm] x M6 x M8 x M0 x M2 x M4 Wrench opening SW 9 [mm] 6 8 0 2 Tightening torque T [Nm] 6 40 79 3 220
ES -Compact Options ES -Compact torsionally rigi Moular Structure Key hub Clamping ring hub Single-jointe coupling ES -Compact ratchetting, synchronous Shrink isk hub Double-jointe coupling with connection plate Half-shells hub an overloa clutch Flange Double-jointe coupling with sleeve Sleeve variants: Sleeve Special sleeve with variable length Cranke tube CFRP sleeve GFRP sleeve xially separable sleeve ES -Compact ratchetting, synchronous an overloa clutches can be combine with almost all components of the ROB -DS backlash-free shaft coupling. For a current selection of ifferent Types, please see pages 6 an 7 as well as pages 32 to 3. We are happy to avise you on the imensioning an configuration of your optimum esign. 43
Technical Explanations Reaable Torque justment The ES -Compact overloa clutch offers easily reaable torque ajustment on the ajusting nut (for s 0 to 3). This reaability makes ajusting the torque far more simple, an also allows easy checks on the set release value on the installe clutch. - The limit torque can be finely ajuste an accurately rea ue to the ajusting nut with the fine threa an the easily-reaable grauation scale. - The positive-locking (or frictionally-locking) safeguar on the ajusting nut protects against self-turning, inavertent ajustment of the set limit torque. The integral blocking protection prevents the cup springs from becoming spring-boun. 9 4 2 B D C Fig. : ES -Compact ratchetting an synchronous clutch Torque justment justment takes place by turning the ajusting nut () (s 03 to 3) or the set screws (6) (s 4 an ). The installe cup springs (9) are operate in the negative range of the characteristic curve (Fig. 3). stronger pre-tension prouces a ropping in spring force. Turning the ajusting nut () (s 03 to 3) or the set screws (6) (s 4 an ) clockwise therefore prouces a ecrease in spring force. Turning it anti-clockwise prouces an increase in torque (facing irection towars the ajusting nut () Figs. an 2). If no other torque ajustment is requeste customer-sie, the ES -Compact ratchetting, synchronous an overloa clutch is generally set an marke (calibrate) manufacturer-sie to approx. 70 % of the respective maximum torque. The respective torque ajustment or the ajustable torque range are visible on the type tag. control spring operation in the operating range can be carrie out via the imension a. ES -Compact ratchetting an synchronous clutch (s 0 3): Dimension a is the istance between the ajusting nut facingsie () to the thrust washer facing-sie (3) (Fig. ). ES -Compact overloa clutch (s 0 3): Dimension a is the istance between the ajusting nut facingsie () to the hub ege () (Fig. 6). For the corresponing ata, please see the Installation an Operational Instructions. 3 a a Marking Fig. Fig. 6 44 Fig. 2: ES -Compact overloa clutch Force F Move to operating range Graph of spring characteristic curve Operating range Spring path S Fig. 3 (The iagram only serves as an example) 4 2 Torque M G [Nm] 3 2 0 9 8 7 6 20 22 24 26 28 Difference Grauation 4 gra. lines lines Fig. 4 (The iagram only serves as an example) Depening on the rive an the rive constellation, torque peaks (e.g. via start-up torque impacts on asynchronous motors) can occur which lie substantially above the system (motor) operating torque. This behaviour is to be taken into account customersie when imensioning or ajusting the clutch. ES -NC s 03 an 02 must be ajuste accoring to the justment Diagram (please orer if necessary) if no ajustment or calibration was mae manufacturer-sie. ES -NC 03 (Fig. 7): Unscrew both set screws (8) from the ajusting nut (). Grease the threa surfaces on the ajusting nut () an the hub (). Set the ajusting nut () to the require imension a (acc. justment Diagram) using a hook wrench. Paint both set screws (8) with Loctite 243, screw them into the ajusting nut () an tighten them. ES -NC 02 (Fig. 8 an Fig. 4): Loosen the locking screw (2). Grease the threa an contact surfaces on the ajusting nut (), the locking ring (4) an the hub (). Set the ajusting nut () by han up to contact on the cup spring (9). Continue to turn until the four notches on the circumference of the ajusting nut () an the notches in the locking ring (4) align. Turn the ajusting nut () further using a face wrench to the number of grauation lines which equal the require torque (Fig. 4, number of grauation lines in the justment Diagram). The 4 notches on the circumference of the ajusting nut () an on the locking ring (4) must be in the same position. Paint the locking screw (2) with Loctite 243 an screw it into the ajusting nut (). Fig. 7 a 8 Fig. 8 4 2
Technical Explanations Changing the Torque s 0 to 3 (Figs., 2 an 6): Convert the require torque (acc. formula below) in percent of the maximum ajustment value. Require torque ajustment Max. torque ajustment (see Table Technical Data) 9 a 7 6 x 00 = justment in % Loosen the locking screw (2) in the ajusting nut (). Turn the ajusting nut () clockwise or anti-clockwise accoring to the engrave ajustment scale (Figs. an 2) using a hook wrench or a face wrench, until the require torque is set. The require torque results from: the locking ring (4) marking (D) overlap an the percent value (C) on the ajusting nut () (ratchetting an synchronous clutch, Fig. ), or the hub () marking overlap an the percent value on the ajusting nut () (overloa clutch, Figs. 2 an 6). Paint the locking screw (2) with Loctite 243 an screw it into the ajusting nut (); the 4 notches () in the ajusting nut () an the notches (B) in the locking ring (4) must be in the same position (Fig. ). Correct slightly if necessary. Example: ES -Compact 3, Type 490.60.0 (M G max. = 30 Nm): Torque pre-ajustment = 70 % of M G max. = 24 Nm. The ajustment shoul be increase from 24 Nm to 280 Nm. Define the torque ajustment in percent of M G max. using the formula below: 280 x 00 = 80 % 30 Turn the ajusting nut () accoring to the facing-sie scale (Fig. ) anti-clockwise from 70 % to 80 % on the ajustment scale using a face wrench. Fig. 9 Fig. 0 3 9 0 a M8 3 x 20 s 4 an (Figs. 9 an 0): The torque is change exclusively via the set screws (6) an not via the ajusting nut (). Loosen all hexagon nuts (7). just all set screws (6) evenly to the require imension a using a hexagon socket wrench. ES -Compact ratchetting an synchronous clutch, 4: fin imension a in the justment Table glue to the clutch (Fig. 9). ES -Compact overloa clutch, s 4 : fin imension a in the justment Table (0) glue to the ajusting nut () (Fig. 0). Counter the set screws (6) again using hexagon nuts (7). fter e-installing the clutch (e.g. ue to cup spring replacement or changes to the cup spring layering), the clutch must be re-ajuste. 6 7 Re-engagement of the ES -Compact overloa clutch ES -Compact overloa clutch re-engagement is carrie out by applying axial pressure onto the thrust washer (3). It may be necessary to turn between the clutch input an output sies slightly. Re-engagement must only take place when the evice is not running or at low ifferential spee (< 0 rpm). For a more etaile explanation on re-engagement, please see the respective Installation an Operational Instructions. Depening on the equipment available, the accessibility of the installation point etc., re-engagement can be carrie out in the following ways: s 0 to 3: Manually, e.g. using a plastic hammer or installation levers supporte on the ajusting nut () (e.g. 2 screwrivers place opposite each other). By using an engagement mechanism. The engagement proceure can also be automate using pneumatic or hyraulic cyliners. s 4 an : By evenly screwing 3 hexagon hea screws M8 (provie by the customer) into the ajusting nut () (Fig. 0). Permitte Bearing Loa The output element is centre on the eep groove ball bearing (tolerance /h) an bolte together with the pressure flange (3). If the resulting raial force from the output element is anywhere near the centre of the ball bearing an uner the maximum permitte raial loa accoring to Table, an aitional bearing for the output element is unnecessary. No appreciable axial forces (see Table ) shoul be transferre from the output element onto the clutch pressure flange (3). Permitte bearing loa 03 02 xial forces F [kn] 0.2 0.28 0.6. 2.4 4.2 7.7 Raial forces F R [kn] -bearing esign 0. 0.2 0.6. 2.4 4.2-2-bearing esign 0. 0.37. 2.2 3.6 6.3 7.. Transverse force torques* Table fter re-engagement has taken place, the three hexagon hea screws must be remove immeiately, as they coul stop the clutch functioning (blockage). By using two screwrivers, applie opposite each other an supporte by the cup springs (9). By using an engagement mechanism. The engagement proceure can also be automate using pneumatic or hyraulic cyliners. M Q [Nm] 0.. 0 20 30 40 0 70 * Torques, which put strain on the eep groove ball bearing ue to the noncentric axial forces having an effect on the pressure flange. 4
Technical Explanations Selection, Energy Calculation, Torque justment for Horizontal Servo xes Toothe belt pulley I Z Toothe belt pulley I Z Motor I M Motor I M Toothe belt pulley I Z2 ES -Compact Pressure flange-sie I D Carriage m, I L ES -Compact Hub sie I N ES -Compact Pressure flange-sie I D Carriage m, I L ES -Compact Spinle Hub sie I S I N Fig. Fig. 2 Toothe belt pulley I Z2 Spinle I S ES -Compact Hub sie I N Carriage m, I L Fig. 3 Motor I M ES -Compact flexible-sie I E Spinle I S Configuration Fig. Configuration Fig. 2 Configuration Fig. 3 Total mass moment of inertia without ES -Compact clutch I g = I M + I Z + (I Z2 + I S +I L ) ( n n 2 2 )² I g = I M + I Z + ( I Z2 + I S +I L ) ( )² I g = I M + I + I + I Ku [kgm²] () S L n n I L from equation (7) I L from equation (7) I L from equation (7) Mass moment of inertia input-sie referring to the shaft with the ES -Compact clutch I = I D + I Z2 + (I Z + I M ) ( n )² I = I M + I N I = I M + I E [kgm²] (2) n 2 Mass moment of inertia output-sie (spinle-sie) referring to the shaft with the ES -Compact clutch n 2 I 2 = I N + I S + I L I 2 = I D + I Z + ( I Z2 + I S + I L ) ( )² I 2 = I N + I S + I L [kgm²] (3) n I L from equation (7) I L from equation (7) I L from equation (7) Clutch pre-selection 46 M erf. =. M 2 M erf. =. M M erf. =. M [Nm] M 2 from equation (4)
Configuration Fig. Configuration Fig. 2 Configuration Fig. 3 Torque on the spinle n M 2 = M n 2 s configuration Fig. s configuration Fig. [Nm] (4) Carriage fee rate v = p n 2 s configuration Fig. s configuration Fig. [ m ] () 6 0 4 s ngular spee of the motor shaft an the spinle 2 = n π n 2 π 2 = 30 30 Mass of the carriage reuce on the spinle I L = m v² 2 2 v from equation (), 2 from equation (6) Energy on collision without ES -Compact clutch s configuration Fig. s configuration Fig. [s - ] (6) s configuration Fig. s configuration Fig. [kgm²] (7) W g = I g 2 s configuration Fig. s configuration Fig. [J] (8) 2 I g from equation (), from equation (6) Energy on collision with ES -Compact clutch W 2 = I 2 2 ² W 2 = I 2 ² W 2 = I 2 ² [J] (9) 2 2 2 I 2 from equation (3), 2 from equation (6) I 2 from equation (3), from equation (6) I 2 from equation (3), from eq. (6) Remaining resiual energy W R = W 2 00 s configuration Fig. s configuration Fig. [%] (0) W g W g from equation (8), W 2 from equation (9) Uncouple energy W = W g - W 2 s configuration Fig. s configuration Fig. [J] () W = 00 - W R [%] (2) W g from equation (8), W 2 from equation (9), W R from equation (0) Require isengagement torque in the acceleration phase (horizontal axis) I M = M B 2 n n Spee ratio n not applicable. Spee ratio I 2 + I n 2 n 2 n 2 [Nm] (3) I from equation (2), I 2 from equation (3) not applicable. Require isengagement torque in the acceleration phase (axis in any irection) n I 2 n 2 I 2 n 2 I 2 M = [(M B - M L ) + M L ] x.2 M =[(M B - M L ) + M L ] x.2 M =[(M B - M L ) + M L ] x.2 n 2 I 2 + I n I 2 + I n I 2 + I [Nm] (4) M L from equation () M L from equation () M L from equation () Loa torque from carriage mass in any irection M L = m g sin p 2 π 000 s configuration Fig. s configuration Fig. [Nm] () m Spinle Limit torque ajustment M G =. M 2 M G =. M M G =. M 2 [Nm] (6) M 2 from equation (4) M 2 from equation (4) Conition: The isengagement torque M from equation (3) or (4) (multiplie by a factor of.2) must be smaller than the torque M G set on the clutch. 47
Technical Explanations Calculation Example Configuration as shown in Fig. Data: Mass of the carriage m = 60 kg Mass moment of inertia of the motor I M = 0.0037 kgm² Mass moment of inertia of the I Z = 0.0006 kgm² Toothe belt pulleys I Z2 = 0.032 kgm² Mass moment of inertia of the spinle I S = 0.00067 kgm² Drive spee of the motor n = 2000 rp Spee of the spinle n 2 = 000 rpm Pitch of the spinle p = 0 mm Nominal torque of the motor M = 4 Nm Max. torque of the motor M B = 40 Nm Toothe belt pulley I Z Toothe belt pulley I Z2 ES -Compact Pressure flange-sie I D Fig. ES -Compact Hub sie I N Motor I M Carriage m, I L Spinle I S Clutch pre-selection ngular spee of the motor shaft an the spinle 2 48 M erf. =. M 2 Merf. =. 28 = 42 [Nm] M 2 from equation (4) Selecte: ES -Compact 0, Type 490.60.0 Torque range M G = 20 0 Nm (see Technical Data, page 9) Total mass moment of inertia of the ES -Compact Hub sie I N = 0.0003 kgm² (see Techn. Data, page 9) Pressure flange sie I D = 0.000234 kgm² (see Techn. Data, page 9) Total mass moment of inertia without ES -Compact clutch n 2 I g = I M + I Z + (I Z2 + I S +I L ) ( )² n I L from equation (7) 000 I g = 0.0037 + 0.0006 + (0.032 + 0.00067 + 0.0042) ( )² 2000 I g = 0.0076 [kgm²] () Mass moment of inertia input-sie referring to the shaft with the ES -Compact clutch n I = I D + I Z2 + (I Z + I M ) ( )² n 2 2000 I = 0.000234 + 0.032 + (0.0006 + 0.0037) ( )² 000 I = 0.0287 [kgm²] (2) Mass moment of inertia output-sie (spinle-sie) referring to the shaft with the ES -Compact clutch I 2 = I N + I S + I L I L from equation (7) I 2 = 0.0003 + 0.00067 + 0.0042 = 0.00262 [kgm²] (3) Torque on the spinle M 2 = M Carriage fee rate v = n 2000 = 4 = 28 [Nm] (4) n 2 000 p n 2 = 0 000 = 0.667 [ m ] () 6 0 4 6 0 4 s = n π = 2000 π = 209 [s - ] (6) 30 30 2 = n 2 π = 000 π = 04.7 [s - ] (6) 30 30 Mass of the carriage reuce on the spinle v² 0.667² I L = m = 60 2 = 0.0042 [kgm²] (7) 2 04.7² v from equation (), 2 from equation (6) Energy on collision without ES -Compact clutch W g = I g ² = 0.0076 209² = 67 [J] (8) 2 2 I g from equation (), from equation (6) Energy on collision with ES -Compact clutch W 2 = I 2 2 ² = 0.00262 04.7² = 4 [J] (9) 2 2 I 2 from equation (3), 2 from equation (6) Remaining resiual energy W R = W 2 4 00 = 00 = 8.4 [%] (0) W 67 g W g from equation (8), W 2 from equation (9) Uncouple energy W = W g - W 2 = 67-4 = 3 [J] () W = 00 - W R = 00-8.4 = 9.6 [%] (2) Require isengagement torque in the acceleration phase (horizontal axis) M = M B M = 40 Limit torque ajustment I 2 n I from equation (2) I I 2 from equation (3) 2 + I n 2 0.00262 2000 = 6.7 [Nm] (3) 0.00262 + 0.0287 000 M G =. M 2 =. 28 = 42 [Nm] (6) Conition: The isengagement torque.2 M =.2 6.7 = 8.04 Nm is smaller than the torque M G = 42 Nm set on the clutch.
Technical Explanations Keys I g [kgm²] Total mass moment of inertia without ES -Compact clutch I [kgm²] Mass moment of inertia input-sie referring to the shaft with the ES -Compact clutch I 2 [kgm²] Mass moment of inertia output-sie (spinle-sie) referring to the shaft with the ES -Compact clutch I M [kgm²] Mass moment of inertia of the motor I Z [kgm²] Mass moment of inertia of the motor-sie toothe belt pulley I Z2 [kgm²] Mass moment of inertia of the secon toothe belt pulley I S [kgm²] Mass moment of inertia of the spinle I L [kgm²] Mass of the carriage reuce on the spinle I N [kgm²] Mass moment of inertia of the ES -Compact, hub-sie I D [kgm²] Mass moment of inertia of the ES -Compact, pressure flange-sie I E [kgm²] Mass moment of inertia of the ES -Compact, flexible coupling I Ku [kgm²] Mass moment of inertia of the ouble shaft connection before installation of the ES -Compact clutch M [Nm] Motor nominal torque M 2 [Nm] Torque on the spinle M [Nm] Require isengagement torque in the acceleration phase M B [Nm] Maximum motor torque M G [Nm] Limit torques for overloa M L [Nm] Loa torque from the carriage mass in any irection M erf. [Nm] Require torque (pre-selection of the clutch) g [m s -2 ] Gravitational acceleration m [kg] Carriage mass n [rpm] Drive spee on the motor (rapi movement) n 2 [rpm] Spinle spee (rapi movement) p [mm] Spinle pitch v [m s - ] Carriage fee rate W g [J] Total energy on collision without ES -Compact clutch W 2 [J] Energy on collision with ES -Compact clutch W R [%] Remaining resiual energy W [J] Uncouple energy W [%] Uncouple energy [s - ] ngular spee of the motor shaft 2 [s - ] ngular spee of the spinle 49
Frictionally-locking Transmittable Torques 0 Table : ssignment of the bore iameters 3 / 4 on the flexible coupling to the transmittable torque T R ES -Compact synchronous, ratchetting an overloa clutches Types 494._0_._/494.._ Frictionally-locking transmittable torques Clamping hub Ø 3 Vali for F7/k6 Shrink isk hub Ø 4 Vali for /k6 The transmittable torques of the clamping connection take the max. tolerance backlash of the shaft tolerance k6/ bores F7 or into account. If the tolerance backlash is larger, the torque ecreases. T R [Nm] Bore Ø 3 34 - - - - - 4 6 - - - - - Ø 6 3 36 - - - - - 4 62 - - - - - Ø 9 3 43 79 - - - - 4 8 4 - - - - Ø 20 3 4 83 83 - - - 4 87 3 97 - - - Ø 22 3 0 9 9 - - - 4 00 77 228 - - - Ø 24 3 4 00 00 - - - 4 20 203 26 - - - Ø 2 3 7 04 04 - - - 4 2 26 279 - - - Ø 28 3 63 6 6 208 - - 4 3 26 332 300 - - Ø 30 3-24 24 228 - - 4-282 368 30 - - Ø 32 3-33 33 248 - - 4-308 40 400 - - Ø 3 3-4 4 280 30-4 - 343 460 00 40 - Ø 38 3 - - 8 3 390-4 - 373 3 600 00 - Ø 40 3 - - 66 340 420-4 - - 47 680 600 - Ø 42 3 - - 74 36 4-4 - - 77 730 720 - Ø 4 3 - - 87 404 0 4 4 - - 67 790 80 402 Ø 48 3 - - - 442 60 90 4 - - - 80 000 96 Ø 0 3 - - - 470 600 630 4 - - - 880 80 73 Ø 2 3 - - - - 640 662 4 - - - - 270 873 Ø 3 - - - - 70 70 4 - - - - 33 209 Ø 8 3 - - - - - 764 4 - - - - 428 2308 Ø 60 3 - - - - - 800 4 - - - - 47 2420 Ø 62 3 - - - - - 840 4 - - - - - 270 Ø 6 3 - - - - - 900 4 - - - - - 270 Ø 68 3 - - - - - 94 4 - - - - - 2989 Ø 70 3 - - - - - 990 4 - - - - - 37 Ø 72 3 - - - - - 032 4 - - - - - 3306 Ø 7 3 - - - - - 09 4 - - - - - 30 Ø 78 3 - - - - - 8 4 - - - - - - Ø 80 3 - - - - - 200 4 - - - - - -
Limit Switch Type 0.00_. () pplication This evice is use for measuring an monitoring axial an raial isengagement movements, e.g. on ES -clutches. It acts as a control sensor for electronic an mechanical sequences. Function When the sensor surface of the NMUR sensor scans a metal control flag (ampe), the signalling relay is triggere, is eenergise an rops. Contacts - 2 are opene. Damping is possible from all sies. Electrical Connection (Terminals) 2 3 Floating change-over contacts 6 Connection input voltage Design The electronic amplifier is installe in a light metal housing. The is fixe using two screw-on mounting links attache iagonally with M4 cap screws. Technical Data Input voltage 230 VC, ±0 %, 0 60 Hz (epenent on esign) VC, ±0 %, 0 60 Hz 24 VDC, PELV, ± %, protecte against reverse polarity, for overvoltage category II connection Power consumption Max.. V mbient temperature -0 C up to +60 C -2 C up to +60 C NMUR sensor Protection IP4 Conuctor cross-section Max. 2. mm 2 / WG 4 Weight 400 g / 4 oz Protection fuse 0. /fast acting at 24 VDC (in system) Signalling relay Floating change-over contacts Contact loa max. 20 VC / 2 Contact material gni 90/0 max. switching frequency 20 Hz at min. loa, 0. Hz at max. loa NMUR sensor internal Installe in a light metal housing, switching istance S n 2 mm, flush fitting, max. switching frequency 2 khz, the zero point can be set per mm by means of the lateral ajusting screw SW 7 NMUR sensor external Metal housing M2 x, switching istance S n 2 mm, flush fitting, max. switching frequency 2 khz, stanar cable length 2 m, max. 00 m on special esign, protection IP67 Installation Dimensions (internal NMUR sensor) 79. 2 M6 x. (cable Ø 4 8 mm) Dimensions (external NMUR sensor) 79. 2 40. 7.7 2 7.7 2.8 M6 x. (cable Ø 4 8 mm) 8. 2 2 66. SW 7 2 2 30 2 2 Ø4.3 64 3.2 M20 x. (cable Ø 7 2 mm) M2 x 7.2 Ø4.3 64.9 M20 x. (cable Ø 7 2 mm) 7.2 8. 7 7 42 42.9 M2 8. justing screw SW 7 66. 3 Orer Number SW7 Switching irection 0. 0. 0 0. / sensing Sensor external Sensor internal 2 Connection voltage 230 VC VC 24 VDC
Limit Switch Type 0.000. (Mechanical Operation) pplication This evice is use to monitor mechanical movements an en positions. It is a controlling sensor for electronic an mechanical sequences. It also etects axial isengagement movements, e.g. on ES -clutches. Function The pre-tensione contact is ischarge by actuating the switching lever: Contacts 4 (2 24) open, contacts 2 (2 22) close. Design The microswitch is fitte into a light metal housing an is actuate by a switching lever. Operation is only possible in one irection. The is fixe using two screw-on mounting links attache iagonally with M4 cap screws. Technical Data Dimensions Contact change-over contact (special esign: 2 change-over contacts) Switching power 20 VC / (with 2 change-over contacts: 0 ) 24 VDC / 6 60 VDC /. 20 VDC / 0.2 min. 2 VDC / 0 m Contact material gsno Switching frequency Max. 200 switching operations/min mbient temperature: -0 C up to +8 C ctuation irection 8. 79. 40. 3 Ø4.3 64 4..9 8. Ø24 6 6 SW 7 justing screw Protection IP4 7.7 Weight 27 g Switching travel setting Using the ajusting screw (SW 7), the zero point can be move right or left by max. mm Switching travel Pretravel: min. 0. to 0. mm Overtravel: max. 0 mm, epening on the zero point setting SW 22 2 2 66. M20 x. (cable Ø 7 2 mm) 7.2 7 42 Special types Installation Different switching lever lengths as well as a esign with 2 change-over contacts are possible on request Electrical Connection ctuation Special esign 0. 2 4 22 24 SW7 Switching irection. 2 Orer Number 2 0. 0 0 0.
2 23 24 2 23 24 2 your reliable partner Limit Switch Type 0.00.6 (Mechanical Operation, Multi-irectional) pplication The is use to monitor an measure axial or raial mechanical movements an ajustments e.g. on ES -clutches. The evice is suitable for clutches with a minimum stroke of. mm with raial actuation an 0.9 mm with axial actuation. In.Cont.Eq. LISTED B68 Function By actuating the metal tappet, contacts 2 are opene. Electrical Connection (Terminals) 2 NC contact Technical Data Contact Contact (Special Design) Contact-opening Contact-closing x NC contact, positive opening contacts aitional x NO contact, terminals 23 24, galvanically separate (Zb) see Switching Travel Diagram see Switching Travel Diagram Contact-loa NC contact 20 VC / 2. 24 VDC / min. 2 VDC / 0 m Contact istance 20 VC >.2 mm axial, force opening Contact istance 24 VDC <.2 mm, min. 0. mm Contact material g90ni0 Max. input current acc. DIN EN 60947-- C / DC3 Metal tappet travel max. 4 mm axial or raial Switching frequency max. 00/min. Mechanical lifetime x 0 6 switching cycles, unloae Conuctor cross-section. mm² / WG 6 mbient temperature: -30 C up to +80 C Protection IP6 Protection insulation acc. Protection Class II Housing thermoplastic, self extinguishing acc. UL94-V0 Weight 20 g / 4.2 oz Installation Dimensions Mounte using M4 / M 62 30.6 8 30 M20 x. 7 22 3 Ø6 Fixe positioning for safety application with fixing screws 2 x M (DIN 92). Switching Travel Diagram 7. 4.2 4 axial 0 6 2 30. raial ON OFF ON OFF ON OFF 0.3 * 0 mm 0.08 0. mm 0.30 0. mm..3 mm 0.2 0.4 mm 0.8.0 mm 2. 2.3 mm 0.2 0.6 mm 2. 2.3 mm Special esign with NO contact 2 23 24 4.8 mm ctuation in tappet irection Lateral actuation Lateral actuation 2 * Switch istance on engage clutch Do not install switch so that it rags an observe max. actuation travel (travel of metal tappet). Orer Number 0. 0 0. 6 3
Installation Examples ES -Compact short hub The rive elements of the ES -Compact short hub are centre on the eep groove ball bearing an are screwe together with the pressure flange. If the resulting raial force from the rive element is anywhere near the centre of the ball bearing, an aitional bearing for the rive element is unnecessary. Fig. The screw quality an the tightening torque for the fixing screws of the rive element are to be selecte so that the set limit torque can be safely transmitte using frictional locking. ES -Compact long protruing hub The ES -Compact long protruing hub is recommene for very wie rive elements or for elements with very small iameters. On a small iameter, the rive element is screwe together via a customer-sie intermeiate flange with the clutch pressure flange. Ball bearings, neele bearings or plain bearings are suitable as bearings for the rive element, epening on the installation situation an the installation space. Fig. 2 ES -Compact with flexible shaft coupling The ES -Compact with a backlash-free, torsionally flexible an vibration-amping shaft coupling for the connection of two shafts. The coupling compensates for axial, raial an angular shaft misalignments. In comparison to the ES -Compact with steel bellows coupling, this prouct is torsionally flexible to a small extent in the circumferential irection. In the installation example on the right, the ES -Compact lastic is mounte backlash-free between the rotor an a ball screw spinle. The torque is transmitte backlash-free up to the point of isengagement an rops immeiately on overloa. The contactless (sensor) emits a signal to switch off the rive. Fig. 3 ES -Compact with steel bellows coupling The ES -Compact with a torsionally rigi flexible steel bellows coupling for the connection of two shafts. The coupling compensates for axial, raial an angular shaft misalignments. It is torsionally rigi in the circumferential irection. In comparison with the ES -Compact with ROB -D coupling, the ES -Compact with steel bellows coupling has a lower mass moment of inertia. In the installation example on the right, the ES -Compact with steel bellows coupling is mounte between the rotor an a ball screw spinle. The torque is transmitte backlash-free up to the point of isengagement an rops immeiately on overloa. The contactless (sensor) emits a signal to switch off the rive. Fig. 4 4
Prouct Summary your reliable partner Safety Clutches/Overloa Clutches ES -Compact /ES -NC Positive locking an completely backlash-free torque limiting clutches ES -smartic Cost-effective torque limiting clutches, quick installation ES -element clutch/es -elements Loa-isconnecting protection against high torques ES -axial Exact limitation of tensile an compressive forces ES -Sp/ES -Sm/ES -Zr Loa-isconnecting torque limiting clutches with switching function ROB -slip hub Loa-holing, frictionally locke torque limiting clutches ROB -contitorque Magnetic continuous slip clutches ES -HSC/ES -HSE High-spee safety clutches for high-spee applications Shaft Couplings smartflex /primeflex Perfect precision couplings for servo an stepping motors ROB -ES Backlash-free an amping for vibration-sensitive rives ROB -DS/ROB -D Backlash-free, torsionally rigi all-steel couplings ROB -DSM Cost-effective torque-measuring couplings Electromagnetic Brakes/Clutches ROB-stop stanar Multifunctional all-roun safety brakes ROB-stop -M Motor brakes Robust, cost-effective motor brakes ROB-stop -S Water-proof, robust monoblock brakes ROB-stop -Z/ROB-stop -silenzio Doubly safe elevator brakes ROB -iskstop Compact, very quiet isk brakes ROB -topstop Brake systems for gravity loae axes ROB -linearstop Backlash-free brake systems for linear motor axes ROB -guiestop Backlash-free holing brake for profile rail guies ROBTIC /ROB -quick/rob -takt Electromagnetic clutches an brakes, clutch brake units DC Drives teno -PM Permanent magnet-excite DC motors
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