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OPERATING

ANGLES

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J"'

'. -~ ._. • .•. ~ 0.- ,;~

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~ -;';0, 3-':::'';''.

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For Two Joint Shafts with Equal ór íntersecti~g :'" Angles . . .' . ;i~:¡'!'~:;:·-;~.1._'.:'~.;{/ Driveshaft RPM

Maximum Operating Angla

5000......................................... 3° 4500..........:..:...............:..:~::..... 3° 4000......................................... 4° 3500......................................... 5° 3000.............~........................... 5° 2500......................................... 7" 2000......................................... 8° 1500.........................................11°

15' 40' 15'

e

.

O' 50'

O' 40' 30'

TOTAL SLIP FORMULA

)

Use the following formulas tor determining total slip. f"i0. When "A" is the same as, or greater than ':::;I"X" + "O", S = X - L. When "A" is less than "X" + "O" S = A - (L + O).

®

Example: Slip Yoke 6-3-2671KX and Tube Shaft 6-40-541 L z: 4", "O" z: .362", "A" = 8.25"and "X" = 7.875" Since "X" + "O" is less than "A" using Formula@ S z: X (7.875") - L (4 ") S = 3.875"

o,

L •• length spline O - end slip yoke spline to inside o, dust cap

o,

The color

o,

o,

R - end spline to point radlus. S - total slip X - length thru hole slip yoke.

o,

code bars shown in this catalo

the major spline diameter and number of splines

the spline length

S=IBE

/238e38ea9ff818

industrial &lt;\$&gt; IJ91 -7 MAY19n 1710SERIES industrial driveshafts Application • Tube Size • Max. Momentary Angles Extension Slips. Assem...

/238e38ea9ff818

industrial &lt;\$&gt; IJ91 -7 MAY19n 1710SERIES industrial driveshafts Application • Tube Size • Max. Momentary Angles Extension Slips. Assem...