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Manual Transmission Fundamentals

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Manual Transmission Fundamentals Chapter 71 Objectives Describe the relationship between gears and torque Understand the basic types of gears Calculate gear ratios ... – PowerPoint PPT presentation

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Title: Manual Transmission Fundamentals


1
Manual Transmission Fundamentals
  • Chapter 71

2
Objectives
  • Describe the relationship between gears and
    torque
  • Understand the basic types of gears
  • Calculate gear ratios
  • Trace the power flow through three-, four-, and
    five-speed transmissions
  • Name all of the transmission parts

3
Introduction
  • Manual transmission
  • Used with clutch
  • Shifted between gears manually
  • Transmission
  • Used in rear-wheel-drive cars
  • Transaxle
  • Used in front-wheel-drive cars

4
Purpose of a Transmission
  • Provide a means of changing torque to fit engine
    operating requirements
  • Low gear
  • Crankshaft turns three times to one turn of
    transmission output shaft
  • Small gear drives a larger gear
  • Gears provide leverage

5
Using Gears to Increase Torqueand Gear Ratio
  • Driving gear smaller than driven gear
  • Output speed decreases
  • Output torque increases
  • Gear radius
  • Distance from center of a gear to its outside
    edge
  • Gear ratio
  • Number of teeth on driven gear divided by number
    of teeth on driving gear

6
Transmission Gear Ranges and Overdrive
  • Transmissions in cars and light trucks
  • Three-six forward gear ranges
  • Overdrive
  • Opposite of gear reduction
  • Output shaft turns faster than input shaft
  • Ratio a step beyond 11 ratio of high gear
  • Planetary gears
  • Automatic transmission with lock-up torque
    converter

7
Final Drive Ratio and Gear Types and Operation
  • Final drive ratio
  • Ratio between transmission output shaft and
    differential ring gear
  • Gear tooth shape
  • Allows teeth to roll into and out of mesh with
    minimum friction
  • Contact pattern where teeth of two gears meet
  • Pitch diameter diameter of meshed gear
  • Manual transmission uses two types of gear
  • Spur and helical gear

8
Spur Gears
  • Simple gears with straight-cut teeth
  • One tooth carrying the load at time
  • No end thrust
  • Transmission will not attempt to pop out of gear
  • Backlash
  • Clearance between meshing gear teeth
  • Clicking sound results as one gear rolls out of
    contact and new one rolls in
  • As backlash noise gains speed, it turns into gear
    whine

9
Helical Gears and Idler Gears
  • Helical gears replaced spur gears
  • Quieter
  • Continuous flow of power across gear teeth
  • Minimum backlash
  • Greater gear strength
  • More area of tooth contact
  • Cause end thrust under load
  • Idler gears
  • Used between two other gears
  • Changes output rotation direction

10
Transmission Parts
  • Power flows from clutch disc to input shaft
  • Each forward gear has a synchronizer
  • Keeps two meshing gears from clashing
  • Shift linkage acts on shift forks within
    transmission to select gear range
  • Power flows from input shaft to countergear
  • Then to mainshaft or output shaft
  • Parts are housed in transmission case
  • Has drain and fill plugs for adding and draining
    oil

11
Transmission Lubricationand Transmission Bearings
  • Transmission parts
  • Separated by oil at all times
  • Splash lubrication
  • Oil moved throughout case by rotating gears
  • Bearings support ends of almost all rotating
    parts
  • Allow parts to rotate with very little friction
  • Reverse idler shafts and gears
  • Supported by bushings

12
Transmission Gears and Shafts
  • Countergear
  • Single part made of a series of gears that mesh
    with various gears on mainshaft
  • Mainshaft
  • Includes all transmission gears and synchronizers
  • Manual transmission
  • Forward gears in constant mesh
  • Reverse idler gear is only gear that moves into
    mesh with another gear

13
Synchronizer Assembly
  • Helps two gears spinning at different speeds mesh
    without clashing
  • Blocking ring synchronizers
  • Shift collar fits around hub outside
  • Gears are in constant mesh
  • Rotate freely on bearing areas
  • Splines on outside of hub become meshed with gear
    teeth
  • Synchro assembly
  • Locks input shaft gear to output shaft gear

14
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15
Gear Shift Mechanisms and Shift Patterns
  • Major components
  • Shift forks fit into grooves cut in outside of
    synchro collar
  • Shift linkage internal shift rail or external
    rod
  • Detent mechanism holds transmission in gear
  • Spring tension holds detent balls into detent
    notches in shift rail
  • Interlock mechanism prevents selection of two
    gears at once
  • Shift patterns various patterns for different
    transmissions

16
Transmission Power Flow
  • Modern transmissions are constant mesh
  • Synchro collar only thing that moves
  • All manual transmissions operate in a similar
    fashion
  • Whether there are three speeds or six speeds
  • Five-speed transmissions most common today
  • Most have direct power in fourth gear
  • Fifth gear provides an overdrive

17
Four-Speed Transmission Power Flow
  • Four-speed transmission without overdrive
  • Neutral synchro sleeves centered and do no mesh
    with clutch teeth of any gear
  • High gear power runs straight through the
    transmission from input to output shaft
  • Third gear power enters through input shaft
  • Second gear rear synchro sleeve engages engage
    the second-gear clutch teeth
  • First-gear rear synchro sleeve is moved toward
    rear to engage first-gear clutch teeth
  • Reverse synchro sleeves are in neutral position

18
Five-Speed Transmission
  • Gear flow in five-speed
  • Same as in first four speeds
  • Extra gears in extension housing
  • Fifth gear synchro sleeves in transmission case
    in neutral position
  • Power flow through end of countergear to gear at
    the end of countergear
  • Some have both reverse and fifth gear in
    extension housing or rear section of case

19
Speedometer Drive
  • Some cars use electric speedometers
  • Receive signal from vehicle speed sensor (VSS)
  • Vehicles with VSS
  • If the tire diameter is changed computer can
    often be programmed with new tire information
  • Speedometer will be accurate
  • Speed inputs to the computer will be meaningful

20
Switches and Sensors
  • Computer technology
  • Provided several electronic features to
    transmissions
  • VSS on late-model transmissions
  • Shift blocking solenoids
  • Reverse lockout
  • Gear range selector switch
  • Sensors are not prone to wear like a switch that
    has electrical contacts
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