Cardan Shafts for Industrial Applications - Dana
Cardan Shafts for Industrial Applications - Dana Cardan Shafts for Industrial Applications - Dana
Data sheet series 5870.01 with length compensation, tubular design0.02 with large length compensation, tubular design0.03 without length compensation, tubular design9.01 with length compensation, short design9.02 with length compensation, short design9.03 with length compensation, short design9.04 without length compensation, double flangeshaft designDesignML zMG∅W∅S∅K0.01587.55587.60∅A∅CFb0.02587.50Shaft sizeT CSkNmT DWkNmLc –b
Data sheet series 587DesignL fStandard flange connection38°22,5°22,5°0.0345°45°48°L z9.019.029.03∅B∅B s∅BL f∅H∅H∅Hs9.048-hole flange8-hole flangeDowel pin connection according to DIN 15451Design Shaft size 587.50 587.55 587.600.010.02*L z min mm – – 840 840 870L a mm – – 100 100 100G kg – – 118 123 132G R kg – – 29,1 29,1 38,2Jm kgm 2 – – 0,657 0,737 0,950Jm R kgm 2 – – 0,190 0,190 0,239C Nm/rad. – – 8,7 x 10 5 8,7 x 10 5 9,6 x 10 5C R Nm/rad. – – 19,4 x 10 5 19,4 x 10 5 24,3 x 10 5L z min mm 800 800 960 960 990L a min mm 110 110 200 200 200G kg 86 91 155 160 170G R kg 23,7 23,7 29,1 29,1 38,2Jm kgm 2 0,325 0,361 - - -Jm R kgm 2 0,111 0,111 0,190 0,190 0,2390.039.019.029.039.04C Nm/rad. 5,29 x 10 5 5,29 x 10 5 - - -C R Nm/rad. 11,33 x 10 5 11,33 x 10 5 19,4 x 10 5 19,4 x 10 5 24,3 x 10 5L f mm 540 540 610 610 640G kg 72 77 88 93 103G R kg 23,7 23,7 29,1 29,1 38,2Jm kgm 2 0,270 0,306 0,547 0,627 0,84Jm R kgm 2 0,111 0,111 0,190 0,190 0,239C Nm/rad. 7,2 x 10 5 7,2 x 10 5 9,8 x 10 5 9,8 x 10 5 11,5 x 10 5C R Nm/rad. 11,33 x 10 5 11,33 x 10 5 19,4 x 10 5 19,4 x 10 5 24,3 x 10 5L z min mm – – 815 815 843L a mm – – 100 100 100G kg – – 110 115 142Jm kgm 2 – – 0,64 0,72 0,93C Nm/rad. – – 8,8 x 10 5 8,8 x 10 5 9,7 x 10 5L z mm – – 780 780 810L a mm – – 65 65 70G kg – – 108 113 125L z mm 550 600 650 696 550 600 650 696 720 720 750L a mm 60 75 90 110 60 75 90 110 65 65 65G kg 61 66 68 70 66 71 73 75 113 118 126L f mm 432 432 500 500 540G kg 58 68 81 91 110L z min = Shortest possible compressed lengthL a = Length compensationL f min = Shortest fi xed lengthL z + L a = Maximum operating lengthGG RJmJm R= Weight of shaft= Weight per 1.000 mm tube= Moment of inertia= Moment of inertia per 1.000 mm tubeC = Torsional stiffness of shaft without tubeC R = Torsional stiffness per 1.000 mm tube* Larger length compensation available on request17
- Page 1: Cardan Shafts forIndustrial Applica
- Page 4: Today, there are basically two type
- Page 8 and 9: Survey of Spicer ® GWB TM cardan s
- Page 10 and 11: Special designs of Spicer ® GWB TM
- Page 13 and 14: Intermediate shafts*(available with
- Page 15 and 16: Data sheet series 687/688DesignL f6
- Page 17: Data sheet series 687/688DesignL f2
- Page 21 and 22: Data sheet series 390 Maximum beari
- Page 23 and 24: Data sheet series 392/393 High torq
- Page 25 and 26: Data sheet series 492 Maximum torqu
- Page 27 and 28: Data sheet series 498DesignL fFlang
- Page 29 and 30: Data sheet series 587/190 Super sho
- Page 31 and 32: Data sheet series 230 Quick release
- Page 33 and 34: Data sheet Flange connection with s
- Page 35 and 36: Data sheet Standard companion flang
- Page 37 and 38: Design features series 390/392/3931
- Page 39 and 40: General theoretical instructionsThe
- Page 41 and 42: Technical instructions for applicat
- Page 43 and 44: Technical instructions for applicat
- Page 45 and 46: Technical instructions for applicat
- Page 47 and 48: Technical instructions for applicat
- Page 49 and 50: Technical instructions for applicat
- Page 51 and 52: Selection of Spicer ® GWB TM carda
- Page 53 and 54: Additional information and ordering
- Page 55 and 56: GreeceSokrates Mechanics GmbH205, P
Data sheet series 5870.01 with length compensation, tubular design0.02 with large length compensation, tubular design0.03 without length compensation, tubular design9.01 with length compensation, short design9.02 with length compensation, short design9.03 with length compensation, short design9.04 without length compensation, double flangeshaft designDesignML zMG∅W∅S∅K0.01587.55587.60∅A∅CFb0.02587.50Shaft sizeT CSkNmT DWkNmLc –b
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