A clutch connects and disconnects a vehicle's engine from its transmission. It allows the driver to smoothly start from a stop, change gears, and stop the vehicle while in gear. A clutch operates using friction between two surfaces - the clutch disc and pressure plate. When engaged, spring pressure holds the surfaces together to transmit torque. When disengaged by pressing the clutch pedal, the pressure is released and power is cut off. Common types are single and multi-plate clutches, with multi-plate versions able to transmit more torque due to multiple friction surfaces.
Litature Review: Research Paper work for Engineering
Clutches ( Single Plate and Multi Plate)
2. • A CLUTCH
is a mechanical device that engages and disengages the power transmission,
especially from driving shaft to driven shaft.
• In the simplest application, clutches connect and disconnect two rotating shafts. In
these
devices, one shaft is typically attached to an engine or other power unit (driving
member) while the other shaft (the driven member) provides output for work.
3. PURPOSE
• A clutch is designed with the following
requirements
– Allow the vehicle to come to a stop while the transmission
remains in gear
– Allow the driver to smoothly take off from a dead stop
– Allow the driver to smoothly change gears
– Must be able to transmit power and torque without slipping
4. PRINCIPLE OF CLUTCH
It operates on the principle of FRICTION.
When two surfaces are brought in contact and are
held against each other due to friction between
them, they can be used to transmit power.
If one is rotated, then other also rotates. One
surface is connected to engine and other to the
transmission system of automobile.
Thus, clutch is nothing but a combination of two
friction surfaces.
5. MAIN PARTS OF A CLUTCH
• It consists of
o a driving member
o a driven member
o an operating member
• The driving member has a flywheel which is mounted on the engine crankshaft.
A disc is bolted to flywheel which is known as pressure plate or driving disc.
• The driven member is a disc called clutch plate. This plate can slide freely to and
fro on the clutch shaft.
• The operating member consists of a pedal or lever which can be pressed to
disengage the driving and driven plate.
8. COMPONENTS OF A CLUTCH
Primary Components
o Flywheel
o Clutch Disc
o Pressure Plate
o Release Bearing
Secondary Components
o Pilot Bearing
o Release Bearing
o Fork Slave
o Cylinder
9. CLUTCH TERMS
• Clutch disengaged (Clutch pedal pressed)
The clutch is disengaged when
– Starting the engine
– Shifting the gear
– Stopping the vehicle and
– Idling the engine
• Clutch engaged
– Clutch pedal is released
10. SINGLE PLATE CLUTCH
•It hasonly oneclutch plate whichismountedonthesplinesof the clutchshaft.
•Theflywheel ismountedonthe enginecrankshaftandrotates with it.
•Thepressureplate isbolted to the flywheel through clutch springs.It isfree
to slideontheclutch shaftwhentheclutch pedalisoperated.
11. Components of SINGLE PLATE CLUTCH
(Bolted to flywheel – Applies the
spring force to clamp the friction
disk to the flywheel)
(Clutch fork pushes T/O bearing
to release rotating clutch)
(Bolted to crankshaft)
(Throw-out bearing allows to push
on rotating clutch fingers)
(Friction Disc splined to transmission to the input shaft)
( Pilot Bearing in the centre of flywheel supports the end of the input shaft )
14. MULTI PLATE CLUTCH
•A Multi plate clutch consistsof anumber of clutch plate, instead of onlyone
clutch plate asin the case of singleclutchplate.
•Theincreasednumber of friction surfacesobviously increasesthe capacity of
the clutch to transmit torque.
•Theplates arealternately fitted tothe engine shaft andgearboxshaft.
•Eachof the alternate plate slidesin groovesonthe flywheel andthe other
slideson splineson the pressureplate.
17. WORKING : MULTI PLATE CLUTCH
When the Clutch is ENGAGED :
o When the clutch pedal is not pressed, The thrust springs do not move due to which the stiffness
provided by these springs maintains the pressure over the pressure plate having friction lines on
its inner surface.
o Due to this pressure over the pressure surface the frictional contact between the friction lines of
pressure plate and the friction lines of multiple clutch plates is maintained due to which frictional
force is applied over the flywheel.
o Due to this frictional force the frictional contact between the multiple clutch plates and the
flywheel is maintained which in turn finally provides clutch engagement.
When the Clutch is DISENGAGED :
o When the clutch pedal is pressed the fulcrum attached at its inner end rotates due which the inner
splined sleeve through which the pressure plate is attached moves outward which in turn applies
pressure over the thrust springs.
o Due to this force the thrust springs moves which in turn release pressure over the pressure plate and
finally the frictional force between pressure plate, clutch plate and the flywheel is removed.
o Due to this removal of the frictional force, frictional contact between the pressure plate, clutch
plate flywheel breaks and finally the disengagement of the clutch is obtained.
18. SINGLE PLATE
• Consists of Single Plate.
• Torque Transmitting
Capacity is less.
• Heat Generation is less.
• Coefficient of friction is
high.
MULTI PLATE
• Consists of Multiple Plates
• Torque Transmitting Capacity
is more.
• Heat Generation is more.
• Coefficient of friction is low.
19. MADE BY :
Shruti Mandaokar (17070123102)
Praneta Sharma (17070123096)
Smit Shah (17070123090)
GUIDED BY :
Sir Shreesh V Dhavle
Department of
Mechanical Engineering