Drive shaft.ppt
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Aug 31, 2023
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About This Presentation
driving shaft
Slide Content
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Connects the transmission output shaft with the rear
axle assembly
Connects the transmission output shaft with the rear
axle assembly
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Components
Slip yoke
Front universal joint
Drive shaft
Rear universal joint
Rear yoke
Components
Slip yoke
Front universal joint
Drive shaft
Rear universal joint
Rear yoke
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Functions
Sends turning power from the transmission to the
rear axle assembly
Flexes and allows vertical movement of the rear
axle assembly
Provides a sliding action to adjust for changes in
driveline length
Provides smooth power transfer
Functions
Sends turning power from the transmission to the
rear axle assembly
Flexes and allows vertical movement of the rear
axle assembly
Provides a sliding action to adjust for changes in
driveline length
Provides smooth power transfer
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Operation
The transmission output shaft turns the slip yoke
The slip yoke turns the front universal joint,
driveshaft, rear universal joint, and rear yoke on the
differential
Operation
The transmission output shaft turns the slip yoke
The slip yoke turns the front universal joint,
driveshaft, rear universal joint, and rear yoke on the
differential
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Driveline Flex
Universal joints let the driveline flex as the rear axle
moves up and down
Driveline Flex
Universal joints let the driveline flex as the rear axle
moves up and down
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Slip Yoke
Splined to the transmission output shaft
Allows for changes in driveline length by sliding in
and out of the transmission
The outer diameter is machined smooth, providing
a bearing surface for the bushing and oil seal in the
transmission
Slip Yoke
Splined to the transmission output shaft
Allows for changes in driveline length by sliding in
and out of the transmission
The outer diameter is machined smooth, providing
a bearing surface for the bushing and oil seal in the
transmission
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Slip Yoke
Slip Yoke
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Drive Shaft
Hollow steel tube with permanent yokes welded on
each end
Very strong and light
Lightweight units may be made of thin-wall
aluminum with longitudinally aligned graphite
fibers for added strength
May be single-piece, or two-piece
Drive Shaft
Hollow steel tube with permanent yokes welded on
each end
Very strong and light
Lightweight units may be made of thin-wall
aluminum with longitudinally aligned graphite
fibers for added strength
May be single-piece, or two-piece
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Drive Shaft
Typical drive shaft assembly
Drive Shaft
Typical drive shaft assembly
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Drive Shaft Balance
In high gears, the drive shaft turns at the same
speed as the engine
The shaft must be accurately balanced
The shaft is rotated on a balancing machine at the
factory
Steel balancing weights are welded to the shaft to
reduce vibration
Drive Shaft Balance
In high gears, the drive shaft turns at the same
speed as the engine
The shaft must be accurately balanced
The shaft is rotated on a balancing machine at the
factory
Steel balancing weights are welded to the shaft to
reduce vibration
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Drive Shaft Balancing Weights
Drive Shaft Balancing Weights
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Vibration Damper
The drive shaft may be equipped with a large, ring-
shaped weight mounted on rubber
Helps keep the shaft turning smoothly by
absorbing torsional vibration
Vibration Damper
The drive shaft may be equipped with a large, ring-
shaped weight mounted on rubber
Helps keep the shaft turning smoothly by
absorbing torsional vibration
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Universal Joint
Swivel connection capable of transferring a turning
force between shafts at an angle to one another
Made of two Y-shaped yokes, connected by a cross
Bearings on each end of the cross allow the yokes to
swing into various angles while turning
Universal Joint
Swivel connection capable of transferring a turning
force between shafts at an angle to one another
Made of two Y-shaped yokes, connected by a cross
Bearings on each end of the cross allow the yokes to
swing into various angles while turning
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Universal Joint
Universal Joint
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Types of Universal Joints
Types of Universal Joints
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Cross-and-Roller
Cross-and-Roller
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Cross-and-Roller
Cardan universal joint
Most common type of joint
The bearing caps are held stationary in the drive
shaft yoke
The roller bearings reduce friction
The cross is free to rotate inside the caps and yokes
Cross-and-Roller
Cardan universal joint
Most common type of joint
The bearing caps are held stationary in the drive
shaft yoke
The roller bearings reduce friction
The cross is free to rotate inside the caps and yokes
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Bearing Cap Retention
Several methods are used to retain the bearing cap in
the yoke
Bearing Cap Retention
Several methods are used to retain the bearing cap in
the yoke
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Cross-and-Roller Drive Shaft
Assembly
Cross-and-Roller Drive Shaft
Assembly
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Constant Velocity Joint
A cross-and-roller joint tends to accelerate and
decelerate during each revolution, setting up
torsional vibrations
A constant velocity joint has two cross-and-roller
joints connected by a centering socket and center
yoke
By using two joints, the output shaft speed
fluctuations are counteracted
Constant Velocity Joint
A cross-and-roller joint tends to accelerate and
decelerate during each revolution, setting up
torsional vibrations
A constant velocity joint has two cross-and-roller
joints connected by a centering socket and center
yoke
By using two joints, the output shaft speed
fluctuations are counteracted
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Constant Velocity Joint
Speed changes at the output of the first joint are
offset by speed changes
at the other joint
Constant Velocity Joint
Speed changes at the output of the first joint are
offset by speed changes
at the other joint
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Constant Velocity Drive Shaft
Constant Velocity Drive Shaft
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Ball-and-Trunnion Joint
Constant velocity design
Eliminates shaft speed fluctuations
Allows for slight length changes in the driveline
Ball-and-Trunnion Joint
Constant velocity design
Eliminates shaft speed fluctuations
Allows for slight length changes in the driveline
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Center Support Bearing
Holds the middle of a two-piece drive shaft
Bolts to the vehicle’s frame or body
Common on pickup trucks and large vehicles with
long wheel bases
The rubber mount prevents noise and vibration
from transferring into the passenger compartment
Center Support Bearing
Holds the middle of a two-piece drive shaft
Bolts to the vehicle’s frame or body
Common on pickup trucks and large vehicles with
long wheel bases
The rubber mount prevents noise and vibration
from transferring into the passenger compartment
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Center Support Bearing
Center Support Bearing
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Center Support Bearing
Center Support Bearing
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Two main types—Hotchkiss
driveline and torque
tube driveline
Two main types—Hotchkiss
driveline and torque
tube driveline
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Hotchkiss Driveline
An exposed drive shaft operates a rear axle
assembly mounted on springs
Most common type of driveline
Universal joints are used at both ends of the drive
shaft
Cross-and-roller universal joints are most
commonly used
Hotchkiss Driveline
An exposed drive shaft operates a rear axle
assembly mounted on springs
Most common type of driveline
Universal joints are used at both ends of the drive
shaft
Cross-and-roller universal joints are most
commonly used
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Torque Tube Driveline
Uses a solid steel drive shaft enclosed in a large
hollow tube
Only one swivel joint is used at the front
The rear of the torque tube is a rigid part of the rear
axle housing
Torque Tube Driveline
Uses a solid steel drive shaft enclosed in a large
hollow tube
Only one swivel joint is used at the front
The rear of the torque tube is a rigid part of the rear
axle housing
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Used to send power to both the front and rear axle
assemblies in a four-wheel-drive vehicle
Mounted behind, and driven by, the transmission
Two drive shafts run from the transfer case, one to each
drive axle
Used to send power to both the front and rear axle
assemblies in a four-wheel-drive vehicle
Mounted behind, and driven by, the transmission
Two drive shafts run from the transfer case, one to each
drive axle
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Transfer Case
Transfer Case
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Four-Wheel Drive versus All-Wheel
Drive
Four-wheel drive has a transfer case separate from
the transmission
drive ranges such as 2H, 4H, and 4L are provided
All-wheel drive has the transfer case included as
part of the transaxle
Four-Wheel Drive versus All-Wheel
Drive
Four-wheel drive has a transfer case separate from
the transmission
drive ranges such as 2H, 4H, and 4L are provided
All-wheel drive has the transfer case included as
part of the transaxle
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Four-Wheel Drive versus All-Wheel
Drive
Four-Wheel Drive versus All-Wheel
Drive
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Transfer Case Construction
Constructed much like a manual transmission
uses shift forks, splines, gears, shims, and bearings
Made of cast iron or aluminum
Filled with lubricant (oil) that cuts friction
Transfer Case Construction
Constructed much like a manual transmission
uses shift forks, splines, gears, shims, and bearings
Made of cast iron or aluminum
Filled with lubricant (oil) that cuts friction
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Transfer Case Construction
Transfer Case Construction
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Transfer Case Ranges
Two-wheel drive, high range (2H)
normally provides a gear ratio of 1:1
Four-wheel drive, high range (4H)
normally provides a gear ratio of 1:1
Four-wheel drive, low range (4L)
normally provides a gear ratio of approximately 2:1
Transfer Case Ranges
Two-wheel drive, high range (2H)
normally provides a gear ratio of 1:1
Four-wheel drive, high range (4H)
normally provides a gear ratio of 1:1
Four-wheel drive, low range (4L)
normally provides a gear ratio of approximately 2:1
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Power Flow
Power Flow
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Two-Wheel Drive
(High Range)
Provided for normal driving when four-wheel drive
is not needed
Torque flows from the input gear to the locked
planet gears and ring gear, which rotate as a single
unit
Torque is transferred to the main shaft through the
planet carrier
Power flows out the rear yoke
Two-Wheel Drive
(High Range)
Provided for normal driving when four-wheel drive
is not needed
Torque flows from the input gear to the locked
planet gears and ring gear, which rotate as a single
unit
Torque is transferred to the main shaft through the
planet carrier
Power flows out the rear yoke
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Four-Wheel Drive
(High Range)
Torque flows through the input gear, the planet
gears, and ring gear as in 2H
The sliding clutch is shifted into the main clutch
gear
Torque flows through the drive chain, to the front
output yoke, to drive the front axle assembly
Both axles drive the vehicle
Four-Wheel Drive
(High Range)
Torque flows through the input gear, the planet
gears, and ring gear as in 2H
The sliding clutch is shifted into the main clutch
gear
Torque flows through the drive chain, to the front
output yoke, to drive the front axle assembly
Both axles drive the vehicle
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
Four-Wheel Drive
(Low Range)
Torque transfer is almost the same as in 4H
The ring gear is shifted forward into the lock plate,
holding the ring gear stationary
The planet gears walk inside the ring gear,
producing a gear reduction
Four-Wheel Drive
(Low Range)
Torque transfer is almost the same as in 4H
The ring gear is shifted forward into the lock plate,
holding the ring gear stationary
The planet gears walk inside the ring gear,
producing a gear reduction
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
All-Wheel Drive
Does not use a conventional transfer case
Designed for a front-wheel-drive transaxle or a
transmission
The transmission or transaxle is modified to allow
power flow to the front and rear drive axles
All-Wheel Drive
Does not use a conventional transfer case
Designed for a front-wheel-drive transaxle or a
transmission
The transmission or transaxle is modified to allow
power flow to the front and rear drive axles
© Goodheart-Willcox Co., Inc. Permission granted to reproduce for educational use only
All-Wheel Drive
A fluid coupling controls the power split to the front
and rear axle assemblies
All-Wheel Drive
A fluid coupling controls the power split to the front
and rear axle assemblies
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