BRANCH AUTOMOBILE ENGINEERING

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SEM 5^TH ,Winter-2021

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SUBJECT AUTOMOTIVE TRANSMISSION

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CHAPTER 02

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TOPIC GEAR BOX

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FACULTY Er. BALADHARA JENA

Introduction and Purpose

•Provides speed and torque conversions because of the limitations of

internal combustion engines.

•Also facilitates change of direction of output shaft for reversing

•Automotive gearboxes are used to reduce load on the engine by

manipulating torque and speed. They have the option to select one

of several different gear ratios.

•Once the engine has reached a number of revolutions per minute, it

is advisable to increase the gear to reduce the engine rpm to reduce

wear on the engine, allow more control, and greater speeds, better

acceleration, and better fuel economy.

•Most gearboxes are used to increase torque & reduce the speed of a

output shaft. This produces a mechanical advantage

•Automotive gearbox also have the provision to do the opposite ie

provide an increase in output shaft speed with a reduction of torque

(overdrive).

Basic Principle

•The most basic type of gear is a

spur gear, and it has straight-cut

teeth, where the teeth are cut

parallel to the axis of the gear.

•Wider gears and those that

are cut for smoother

meshing are cut with the

teeth at an angle. These are

called helical gears.

Basic Principle

•Because of the angle of cut, helical gear teeth have a much

more gradual engagement with each other, and they operate

more smoothly and quietly than spur gears.

•Helical gears can transmit more torque because at any time,

more number of teeth are in mesh

•Gearboxes for cars and motorbikes almost always use helical

gears.

•However, helical gears also exert undesirable axial thrust

•To prevent axial thrust, double helical gears are used which

cancel out the thrust. Double Helical gears are called

Herringbone gears.

Principle

•Collection of helical gears in a gearbox gives the gearing down of

the speed of the engine crank to the final speed of the output

shaft from the gearbox.

Typical example of gear ratios for a 5-speed manual gearbox

Gear Ratio

RPM of gearbox shaft

when the engine is at 3000rpm

1st 3.166:1 947

2nd 1.882:1 1594

3rd 1.296:1 2314

4th 0.972:1 3086

5th 0.738:1 4065

Types of Gearboxes

•Sliding Mesh Gear box

•Constant Mesh Gear Box

•Synchromesh Gear Box

•Transaxle Gear Box

•Sequential gear box

•Automatic Gear Box

Sliding Mesh Gearbox

•Normally 3 forward and 1 reverse gear ratios

•Spur gears are used

•Gear wheels on the main shaft engage with gear wheels on the

lay shaft (counter shaft) by sliding themselves.

•Not used in automobiles now

1.main drive gear

2.counter shaft

3.main shaft

4.I gear

5.II gear

6.III gear

7.top speed

engaging dogs

Sliding Mesh Gearbox

First gear position

Second gear position

Third gear position

Reverse gear position

Constant Mesh Gearbox

•All the gears are always in mesh

•Gears on counter shaft are fixed to it

•Gears on main shaft are free to rotate

•Dog clutches can slide on the main shaft and rotate with it

•Dog clutches engage with gears on the main shaft to obtain

desired speed

Advantages over Sliding mesh Gearbox:

•Helical and herringbone gear can be used in these gearboxes and

therefore, constant mesh gearboxes are quieter.

•Since the gears are engaged by dog clutches, if any damage

occurs while engaging the gears, the dog unit members get

damaged and not the gear wheels.

Constant Mesh Gearbox

Constant Mesh Gearbox

Double declutching

•Used for smooth downshifting

Synchromesh Gearbox

•Sliding sunchronizing units are provided to equalize the speeds of

gear and dog before meshing

•The device works like a friction clutch

•Equal speeds ensure smooth meshing

•Normally not used in 1^st and reverse gear

Working

•Output shaft is always rotating (because it is positively connected to

the wheels)

•Layshaft is connected to the engine, but it rotates freely when the

clutch is disengaged

•Because the gears are meshed all the time, the synchro brings the

layshaft to the right speed for the dog gear to mesh.

•The layshaft is now rotating at a different speed to the engine. Now,

the clutch gradually equalizes the speed of the engine and layshaft,

either bringing the engine to the same speed as the layshaft or vice

versa depending on engine torque and vehicle speed.

Synchromesh Gearbox

Synchromesh Gearbox

Gear Selector Mechanism

Gear Selector Rod

Gear Selector Rod

Ball & plunger prevents two gears engaging simultaneously

Transaxle Gear Box

•Has only 2 shafts

•Used in vehicles with engine and drive on same side

–Front engine front wheel drive

–Rear Engine Rear Wheel Drive

•Most commonly used

•Gear Box and Differential in same housing

Transaxles

•Combination of

transmission and

differential in one unit is

called transaxle.

•Transaxles are both

automatic and manual.

Advantages include:

•Reduced drive train weight.

•Improved traction.

•Smoother ride.

•Quieter operation.

•Increased passenger compartment space.

Transaxle Gear Box

Sequential Gearbox

Manual transmissions use the standard "H" pattern in the shifter.

The manual transmission in a motorcycle is different. In a

motorcycle, gears are shifted by clicking a lever up or down with

toe/heel. It is a much faster way to shift. This type of

transmission is called a sequential gearbox or a sequential

manual transmission.

The only difference is the way the control rods are manipulated.

The "H" pattern is eliminated and replaced with a different

motion.

Fool proof system – Impossible to select wrong gear

Race cars use sequential gearboxes

Sequential Gearbox

Sequential Gearbox

Continuously Variable Transmission

The Continuously Variable Transmission (CVT) is a transmission in

which the ratio of the rotational speeds of two shafts, as the input

shaft and output shaft of a vehicle or other machine, can be varied

continuously within a given range, providing an infinite number of

possible ratios.

Continuously variable transmission allows the relationship between

the speed of the engine and the speed of the wheels to be selected

within a continuous range rather than in steps.

This provides even better fuel economy if the engine is constantly

running at a single speed.

The transmission provides better user experience without much rise

and fall in speed of an engine, and eliminates the jerk felt when

changing gears.

Continuously Variable Transmission

Epicyclic Gearbox

•Epicyclic gear trains are used

to get the various gear ratios.

•At least one wheel not only

rotates about its own axis but

also rotates about some

other axis

•Automatic gearboxes

typically use one or more

compound planetary gear

sets having two sun gears

and two sets of intermeshing

planet gears.

•There is still only one ring

gear.

Epicyclic Gearbox

Automatic Transmission

Epicyclic Gearing or Planetary Gearing are as used in an automatic

transmission. An Automatic transmission will select an appropriate

gear ratio without any operator intervention.

They primarily use hydraulics to select gears, depending on pressure

exerted by fluid within the transmission assembly.

Rather than using a clutch to engage the transmission, a fluid

flywheel, or torque converter is placed in between the engine and

transmission.

It is possible for the driver to control the number of gears in use or

select reverse, though precise control of which gear is in use may or

may not be possible.

For certain applications, the slippage inherent in automatic

transmissions can be advantageous; for instance, in drag racing, the

automatic transmission allows the car to be stopped with the engine

at a high rpm (the "stall speed") to allow for a very quick launch

when the brakes are released

Working

•If the car is in overdrive (on a four-speed transmission), the

transmission will automatically select the gear based on vehicle

speed and throttle pedal position.

•When we accelerate gently, shifts will occur at lower speeds than

if accelerate at full throttle.

•When we floor the pedal, the transmission will downshift to the

next lower gear.

•When we move the shift selector to a lower gear, the transmission

will downshift unless the car is going too fast for that gear. If the

car is going too fast, it will wait until the car slows down and then

downshift.

•When we put the transmission in second gear, it will never

downshift or upshift out of second, even from a complete stop,

unless we move the shift lever.

Advantages

Advantages of Automatic Transmission over Manual

Transmission:

•Better fuel efficiency

•No loss of torque transmission from the engine to the driving

wheels during gear shifts

•Very smooth gear-shift operations

•Appeals to drivers due to overall fast shifts and rapid

responses, along with the latest technology

Disadvantages

Disadvantages of Automatic Transmission over Manual

Transmission:

•Mechanical efficiency is less than that of a manual

transmission type.

•Its requires a specialized transmission fluid/lubricants which is

expensive and need to be changed regularly.

•It is expensive to manufacture.

•It is heavier than an conventional manual transmission

gearbox.

•It has much higher rate of failure due to complexity.

Thank You