68Drive Shaft and Transfer

Case Technology

Chapter

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Objectives

After studying this chapter, you will be able to:• Identify and describe the parts of a modern drive

shaft assembly.• Explain the functions of a drive shaft.• Describe the different types of universal joints.• List the different types of drivelines.• Explain the basic operation of a transfer case.• Correctly answer ASE certification test questions

that require a knowledge of drive shafts and transfer cases.

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Drive Shaft Assembly

Drive shaft assembly components• Slip yoke

– Connects transmission output shaft to front universal joint

• Drive shaft– Hollow metal tube that transfers turning power from

front universal joint to rear universal joint

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Drive Shaft Assembly (Cont.)

• Rear universal joint– Flex joint connecting drive shaft to rear yoke

• Rear yoke– Holds rear universal joint and transfers torque to

gears in rear axle assembly and differential

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Drive Shaft Assembly (Cont.)

(Mazda)

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Functions of Drive Shaft Assembly

• Sends turning power from transmission to rear axle assembly

• Flexes and allows vertical movement of rear axle assembly

• Provides sliding action to adjust for changes in driveline length

• Provides smooth power transfer

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Drive Shaft Operation

• Transmission output shaft turns slip yoke• Slip yoke then turns front universal joint, drive

shaft, rear universal joint, and rear yoke on differential

• Differential contains gears that transfer power to rear drive axles

• Axles rotate wheels

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Driveline Flex

• When tires strike a bump in the road, rear suspension moves upward and springs are compressed

• Universal joints – Let driveline flex as rear axle moves up and down – Protects drive shaft from any damage caused by

movement

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Slip Yoke

• Slip yoke, or slip joint• Splined to transmission

output shaft • Allows for changes in

driveline length by sliding in and out of transmission

(Ford)

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Slip Yoke (Cont.)

• Extension housing bushing – Supports slip yoke as it spins in transmission

• Transmission rear seal – Rides on slip yoke and prevents fluid leakage from

rear of transmission

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Rear Yoke

• Rear yoke is yoke bolted to outer end of pinion gear on rear axle assembly

• It transfers torque to gears in rear axle assembly– Rear universal joint held by this yoke

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Drive Shaft

• Drive shaft or propeller shaft– Hollow steel tube with permanent yokes welded on

each end– Very strong and light

• Spins much faster than wheels and tires • It must be straight and perfectly balanced

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Drive Shaft Assembly

(Toyota)

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Drive Shaft Balance

• Drive shaft must be perfectly balanced, with its weight evenly distributed around its centerline

• Drive shaft balancing weights – Welded to shaft to reduce vibration

• Drive shaft vibration damper – Large, ring shaped weight mounted on rubber – Helps keep shaft spinning smoothly by absorbing

torsional vibration

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Universal Joints

• Universal joint or U-joint • Swivel connection capable

of transferring turning force between shafts at angle to one another

• Simple universal joint made of two Y-shaped yokes (knuckles) connected by cross (spider)

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Cross-and-Roller Universal Joint

• Cross-and-roller joint or cardan universal joint – Most common type of drive shaft universal joint

• Bearing caps are held stationary in drive shaft yokes

• Roller bearings fit between caps and cross to reduce friction

• Cross is free to rotate inside caps and yokes

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Cross-and-Roller Universal Joint(Cont.)

(Chrysler)

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Constant Velocity Universal Joint

• Constant velocity universal joint or double-cardan joint– Two cross-and-roller joints connected by centering

socket and center yoke

• Two joints operate together on one end of drive shaft– Output shaft speed fluctuations are counteracted

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Constant Velocity Universal Joint(Cont.)

(Ford)

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Ball-and-Trunnion Universal Joint

• Ball-and-trunnion joint – Another joint designed for constant velocity

• Eliminates shaft speed fluctuations• Allows for slight length changes in driveline• Ball-and-trunnion joint seldom used

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Center Support Bearing

• Center support bearing – Holds middle of two-piece drive shaft

• Center bearing bolts to vehicle’s frame or underbody

• Supports center of drive shaft where two shafts come together

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Center Support Bearing(Cont.)

(Fiat)

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Driveline Types

• Hotchkiss driveline – Exposed drive shaft that operates rear axle

assembly mounted on springs – Usually has cross-and-roller universal joints

• Torque tube driveline – Solid steel drive shaft enclosed in large hollow tube – With independent rear suspension, drive shaft can

be one piece without universal joint

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Hotchkiss Driveline

(Ford)

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Transfer Cases

• Transfer case – Sends power to both front and rear axle assemblies

in four-wheel-drive vehicle

• Mounts behind and is driven by transmission• Two drive shafts normally run from transfer case,

one to each drive axle

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Transfer Cases (Cont.)

(Ford)

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Two-Wheel-Drive, High Range (2H)

• 2H range provided for normal driving when four-wheel-drive traction not needed

• Sliding clutch remains in neutral position • Torque is not transferred to front axle assembly

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Four-Wheel-Drive, High Range (4H)

• Sliding clutch is shifted into main shaft clutch gear • Torque then flows through drive chain, front output

yoke, and front drive axle assembly• Both front and rear axles drive vehicle

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Four-Wheel-Drive, Low Range (4L)

• Torque transfer is almost same as in 4H• Ring gear is shifted forward into lock plate• This holds ring gear stationary• Planet gears walk inside ring gear, producing gear

reduction

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All-Wheel Drive

• All-wheel drive – Four-wheel-drive system that does not use

conventional transfer case

• Designed for front-wheel-drive transaxle or transmission

• Transmission or transaxle in all-wheel-drive system is modified to allow power flow to front and rear drive axles

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Drive Systems