2 Automotive Drivetrains Connect/disconnect engines power to the drive wheel(s) allow for different speed ratios provide for reverse power control for.
Post on 04-Jan-2016
212 Views
Preview:
Transcript
2
Automotive Drivetrains
• Connect/disconnect engines power to the drive wheel(s)
• allow for different speed ratios
• provide for reverse
• power control for safe turning
• torque multiplication
Purpose:
3
Automotive Drivetrains
•Transmission•Axle assembly •Transaxle (fwd)•Drive Shaft(s)•related components
Components:
4
Automotive Drivetrains
•The turning effort of the crankshaft
•measured in foot-pounds•maximum torque is produced
within a narrow RPM range (torque curve)
Engine torque:
5
Engine Torque
6
Automotive Drivetrains
= work performed at the rate at which it is being done
= torque X RPM / 5252
Horsepower
7
Engine Horsepower
8
Automotive Drivetrains
•Used to apply torque to other rotating parts of the drivetrain
•used to multiply torque in automobiles
Gears
9
Automotive Drivetrains
• Spur gear (most basic)
• Helical gear (helix = form a curve)
• Herringbone gear = 1 gear w/2 helical gears w/teeth angles reversed
• Bevel gear - cone w/top cutoff
• hypoid gear - similar to above
• planetary gear(set)
Gear Types
10
Automotive DrivetrainsSpur gear
11
Automotive DrivetrainsHelical Gear
12
Automotive DrivetrainsStraight Bevel Gearset
Gears must be perpendicular to each other
13
Automotive DrivetrainsSpiral Bevel vs. Hypoid
14
Automotive DrivetrainsPlanetary Gear
15
Automotive Drivetrains
• Backlash - the clearance between two meshed gears– measured with a dial indicator
• end play - axial or end-to-end movement of a gear– also measured with a dial indicator
Gear Measurements
16
Torque Multiplication
Torque is calculated by multiplying force X distance
OR the center of the shaft
times (X) the point where the force is
exerted
17
Automotive DrivetrainsGears Continued:
18
Automotive DrivetrainsGears continued:
19
Automotive Drivetrains
As torque is multiplied power remains unchanged
20
Automotive Drivetrains
• The mathematical relationship of one gear to another
• expresses the amount of torque multiplication between two gears
• ratio = # of teeth of DRIVEN gear / # of teeth of drive gear
- OR -
• ratio = outside diameter of DRIVEN gear/ O.D. of drive gear
Gear Ratios:
21
Automotive Drivetrains
= a reduction in the driven gears speed
= an increase in the driven gears torque
Gear Reduction
22
Automotive Drivetrains
23
Automotive DrivetrainsIf the DRIVING gear in the previous example is producing 250 ft.-lb. of
torque how much torque is the DRIVEN gear producing?
4 X 250 = 1000 ft.-lb. torque
24
Automotive Drivetrains
Bearings•Used to attach a shaft to a
common component AND allow for movement or rotation
•friction reduction
25
Automotive Drivetrains
• Bushing (simplest type) also called a plain type bearing
• ball bearing - balls used for friction reduction
• roller bearing
• tapered roller
Bearing Types
26
Bushing (simplest type) also called a plain type
bearing
27
Ball Bearing
28
Roller Bearing
29
Needle Roller Bearing
30
Tapered Roller Bearing
31
Automotive Drivetrains
•radial or journal bearing
•thrust bearing
Bearing Usage
32
Automotive Drivetrains
•Bearing preload - the amount of torque- load on a bearing–measured with a torque wrench
Bearing Measurements
33
Automotive Drivetrains
CLUTCH
The engine produces torque
Torque is transferred to the drive wheels through a series of gears and shafts
How do we disconnect engine power from the drive wheels?
top related