SlideShare una empresa de Scribd logo

clutch.ppt

Descargar como PPT, PDF
H
HarikumarA4

clutch

Ingeniería
1 de 40
CLUTCHES
A Clutch is a machine member used to connect the driving shaft to a driven shaft, so that the driven shaft may be started or stopped without stopping the driving shaft. A clutch thus provides an interruptible connection between two rotating shafts. A popularly known application of clutch is in automotive vehicles where it is used to connect the engine and the gear box.
Functions of the clutch  To connect and disconnect the shafts  To start or stop a machine (or a rotating element) without starting and stopping the prime mover.  To maintain constant speed, torque and power.  To reduce shocks transmitted between machine shafts.  For automatic disconnect, quick start and stop, gradual starts, and non-reversing and over running functions.
Principles of operation of clucth  When two friction surfaces are brought in connect with each other and pressed, they are united due to the friction between them.  The friction between the two surfaces depends upon the area of the surfaces, pressure applied upon them and coefficient of friction of the surface materials.  The two surfaces can be separated and brought into contact when required. One surface is considered as driving member and the other as driven member.  The driving member is kept rotating. When the driven member is brought in contact to the driving member, It is also starts rotating.
Required qualities of a good friction material  A high and uniform coefficient of friction.  The ability to withstand high temperatures, together with good heat conductivity.  Good resilience.  High resistance to wear, scoring.  Resistance against environmental conditions, such as moisture, salt water or fungi.  Adequate mechanical and thermal strengths.
Commonly used Friction Materials  Wood  Cork  Leather  Asbestos based friction materials – asbestos fibres, woven around brass, copper or zinc wires. Moulded or composite type.  Powdered ( or sintered) metal friction materials
Classification of clutches
Friction Clutches  The friction clutches work on the fact that friction is caused when two rotating discs come into contact with each other
Principle of Friction Clutches
 Let the shaft A and Disc C be revolving at some speed say N rpm. Shaft B and disc D keyed to it are stationary, initially when the clutch is not engaged.  Now apply some axial force W to disc D , so that it comes in contact with Disc C.  As soon as the contact is made the force of friction between C and D will come into play and consequently the disc D will also start revolving  The speed of D depends upon friction force present, which in turn is proportional to the force W applied.  If W is increased gradually , the speed of D will be increased correspondingly till the stage comes when speed of D becomes equal to speed of C. Then clutch is said to be fully engaged.
Continue…  Let W = axial load applied. = coefficient of friction R = effective mean radius of friction surface. Then , T = W R
DRY FRICTION CLUTCHES Types:  Single Plate clutch  Multi plate clutch  Cone clutch  Semi-centrifugal clutch  Centrifugal clutch
SINGLE PLATE CLUTCH
Single Plate clutch
Design details of Single Plate Clutch
Multiplate Clutch
driver driven Pressure plates Friction plates 2 1 4 3 6 5 Multiple plate clutch
Multiplate Clutch  The multiplate clutch is an extension of single plate type where the number of frictional and metal plates is increased.  Increase in number of friction surfaces obviously increases capacity of the clutch to transmit torque.  Alternatively, the overall diameter of the clutch is reduced for the same torque transmission as a single plate clutch  This type of clutch is therefore used in some heavy transport vehicles and racing cars where high torque is to be transmitted.  This finds application in case of scooters and motorcycles, where the space available is limited
• When your foot is off the pedal, the springs push the pressure plate against the clutch disc, which in turn presses against the flywheel. This locks the engine to the transmission input shaft, causing them to spin at the same speed. • The amount of force the clutch can hold depends on the friction between the clutch plate and the flywheel, and how much force the spring puts on the pressure plate
 When the clutch pedal is pressed, piston pushes on the release fork, which presses the throw-out bearing against the middle of the diaphragm spring. As the middle of the diaphragm spring is pushed in, a series of pins near the outside of the spring causes the spring to pull the pressure plate away from the clutch disc This releases the clutch from the spinning engine.
Working of Single plate clutch  Basically, the clutch needs three parts. These are the engine flywheel, a friction disc called the clutch plate and a pressure plate.  There are springs which provide axial force to keep the clutch in engaged position.  When the engine is running and the flywheel is rotating, the pressure plate also rotates as the pressure plate is attached to the flywheel. The friction disc is located between the two .  When the driver has pushed down the clutch pedal the clutch is released. This action forces the pressure plate to move away from the friction disc against the force of springs.  With this movement of pressure plate , the friction plate is released and the clutch is disengaged.
Advantages • With single plate clutch , gear changing is easier than with the cone clutch , because the pedal movement is less in this case. • More reliable ( As it does not suffer from disadvantage of cone clutch , i.e. binding of cones)
Disadvantages  As compared to cone clutch , springs have to be more stiff and this means greater force required to be applied by driver while disengaging.
Cone Clutch
Cone Clutch
1. Cones: female= green, male= blue 2. Shaft: male cone is sliding on splines 3. Friction material 4. Spring: brings the male cone back after using the clutch control 5. Clutch control: separating both cones by pressing 6. Rotating direction: both direction of the axis are possible
 In the engaged position the friction surface are in complete contact. This is done by means of spring which keep the male cone pressed all the time.  When the clutch is engaged the torque is transmitted from engine via the flywheel and the male cone to splined gear box shaft.  For disengaging the clutch , the male cone is pulled out by means of lever system operated through clutch pedal thereby separating the contact surfaces.
Cone-clutch Driving shaft Driven shaft Friction lining α w α = semi-apex angle of the cone
Advantage  The advantage of cone clutch is that the normal force acting on contact surface in this case is larger than axial force( as compared to single plate clutch in which the normal force acting on contact surfaces is equal to the axial force)
Disadvantages This type of clutch is practically obsolete because of following reasons: 1) If the angle of cone is made less than about 20 degree, it will be difficult to disengage the clutch. 2) A small amount of wear on the cone surface results in considerable amount of axial movement of the male cone for which it will be difficult to allow.
Centrifugal clutch  In fully centrifugal type clutches ,the springs are eliminated altogether and only centrifugal force is used to apply the required pressure for keeping the clutch in engaged position
Advantages of centrifugal clutches  No separate clutch plate is required  Clutch is operated automatically depending upon engine speed
DESIGN OF A CENTRIFUGAL CLUTCH  MASS OF THE SHOES: n= Number of shoes m= Mass of each shoe R= Inside radius of the pulley rim r= Distance of entre of gravity of the shoes from the centre of the spider N= Running speed of the pulley ω= Angular speed of the pulley = 2πN/ 60 ω1= Angular speed at which the engagement begins to take place μ= Coefficient of friction between the shoe and rim.
Contd… Centrifugal force acting on each shoe, Fc = mω2r Spring force exerted by each spring on the shoe, Fs = mω1 2r Net outward force on the shoe = Fc-Fs= mω2r-mω1 2r Frictional force acting on each shoe, F=μ(Fc-Fs) Frictional torque acting on each shoe,Tr=F×R = μ(Fc-Fs) Frictional torque acting on each shoe, Tr = F×R = μ(Fc-Fs)R Total frictional torque transmitted T= n×μ(Fc-Fs)R = n.F.R
Contd… Size of the shoes: l= Contact length of the shoes b= Width of the shoes R= Contact radius of the shoes θ= Angle subtended by the shoes at the centre of the spider, p= Intensity of pressure exerted on the shoe l=R.θ Area of contact of the shoe A= l.b Net force acting on the shoe = Fc-Fs =A×p = l.b.p
END

Recomendados

slides on clutches
slides on clutchesslides on clutches
slides on clutchesU.M.Manikanta Demudu
 
Gear box
Gear boxGear box
Gear boxGopinath Guru
 
Automobiles steering systems
Automobiles steering systemsAutomobiles steering systems
Automobiles steering systemsNitin Malviya
 
Transmission systems
Transmission systemsTransmission systems
Transmission systemsPATEL DEEP
 
Clutches for automobile
Clutches for automobile Clutches for automobile
Clutches for automobile sgrsoni45
 
Transmission system of Automobiles
Transmission system of AutomobilesTransmission system of Automobiles
Transmission system of AutomobilesPraveenManickam2
 
Gear box
Gear boxGear box
Gear boxPeeyush Chauhan
 
Propeller shaft & universal joint
Propeller shaft & universal jointPropeller shaft & universal joint
Propeller shaft & universal jointdeep388
 

Recomendados

slides on clutches
slides on clutchesslides on clutches
slides on clutchesU.M.Manikanta Demudu
 
Gear box
Gear boxGear box
Gear boxGopinath Guru
 
Automobiles steering systems
Automobiles steering systemsAutomobiles steering systems
Automobiles steering systemsNitin Malviya
 
Transmission systems
Transmission systemsTransmission systems
Transmission systemsPATEL DEEP
 
Clutches for automobile
Clutches for automobile Clutches for automobile
Clutches for automobile sgrsoni45
 
Transmission system of Automobiles
Transmission system of AutomobilesTransmission system of Automobiles
Transmission system of AutomobilesPraveenManickam2
 
Gear box
Gear boxGear box
Gear boxPeeyush Chauhan
 
Propeller shaft & universal joint
Propeller shaft & universal jointPropeller shaft & universal joint
Propeller shaft & universal jointdeep388
 
Steering system 7
Steering system 7Steering system 7
Steering system 7Kanhaiyya Patil
 
Clutch
ClutchClutch
ClutchSagar Joshi
 
Clutch ppt
Clutch pptClutch ppt
Clutch pptANIL SHARMA
 
Transmission system
Transmission systemTransmission system
Transmission systemonkar dixit
 
Steering system
Steering systemSteering system
Steering systemGaurav Gunjan
 
Braking system
Braking systemBraking system
Braking systemBIBHUTI BHUSAN SAMANTARAY
 
Manual transmission system in automobiles
Manual transmission system in automobilesManual transmission system in automobiles
Manual transmission system in automobileschaudhryshailja
 
Steering gearbox
Steering gearboxSteering gearbox
Steering gearboxviruyadave
 
Steering System
Steering SystemSteering System
Steering SystemJaswanth Gejjala
 
1. clutch
1. clutch1. clutch
1. clutchPeeyush Chauhan
 
Clutch
ClutchClutch
Clutchdeep388
 
Different types of suspension system
Different types of suspension systemDifferent types of suspension system
Different types of suspension systemHOME
 
Unit 1 Front Axle & Steering System
Unit 1 Front Axle & Steering SystemUnit 1 Front Axle & Steering System
Unit 1 Front Axle & Steering SystemVishal Niphade
 
Transmission system in an automobile
Transmission system in an automobileTransmission system in an automobile
Transmission system in an automobileAakash Varshney
 
gear box - heart of automobile
gear box - heart of automobilegear box - heart of automobile
gear box - heart of automobilenaveen thamada
 
Gear box
Gear boxGear box
Gear boxdeep388
 
Automatic transmission
Automatic transmissionAutomatic transmission
Automatic transmissionsaffrony09
 
Steering for general automobile
Steering for general automobile Steering for general automobile
Steering for general automobile sgrsoni45
 
Brakes and its types
Brakes and its typesBrakes and its types
Brakes and its typesOm Patil
 
IC Engine components and functions
IC Engine components and functions IC Engine components and functions
IC Engine components and functions Ram Pranav
 
clutch.ppt
clutch.pptclutch.ppt
clutch.pptKarthikAKaleeswaran1
 
Automobile Clutch Functions & Types.ppt
Automobile Clutch Functions & Types.pptAutomobile Clutch Functions & Types.ppt
Automobile Clutch Functions & Types.pptAshishDahiya36
 

Más contenido relacionado

La actualidad más candente

Transmission system
Transmission systemTransmission system
Transmission systemonkar dixit
 
Manual transmission system in automobiles
Manual transmission system in automobilesManual transmission system in automobiles
Manual transmission system in automobileschaudhryshailja
 
Steering gearbox
Steering gearboxSteering gearbox
Steering gearboxviruyadave
 
Different types of suspension system
Different types of suspension systemDifferent types of suspension system
Different types of suspension systemHOME
 
Unit 1 Front Axle & Steering System
Unit 1 Front Axle & Steering SystemUnit 1 Front Axle & Steering System
Unit 1 Front Axle & Steering SystemVishal Niphade
 
Transmission system in an automobile
Transmission system in an automobileTransmission system in an automobile
Transmission system in an automobileAakash Varshney
 
gear box - heart of automobile
gear box - heart of automobilegear box - heart of automobile
gear box - heart of automobilenaveen thamada
 
Gear box
Gear boxGear box
Gear boxdeep388
 
Automatic transmission
Automatic transmissionAutomatic transmission
Automatic transmissionsaffrony09
 
Steering for general automobile
Steering for general automobile Steering for general automobile
Steering for general automobile sgrsoni45
 
Brakes and its types
Brakes and its typesBrakes and its types
Brakes and its typesOm Patil
 
IC Engine components and functions
IC Engine components and functions IC Engine components and functions
IC Engine components and functions Ram Pranav
 

La actualidad más candente (20)

Steering system 7
Steering system 7Steering system 7
Steering system 7
 
Clutch
ClutchClutch
Clutch
 
Clutch ppt
Clutch pptClutch ppt
Clutch ppt
 
Transmission system
Transmission systemTransmission system
Transmission system
 
Steering system
Steering systemSteering system
Steering system
 
Braking system
Braking systemBraking system
Braking system
 
Manual transmission system in automobiles
Manual transmission system in automobilesManual transmission system in automobiles
Manual transmission system in automobiles
 
Steering gearbox
Steering gearboxSteering gearbox
Steering gearbox
 
Steering System
Steering SystemSteering System
Steering System
 
1. clutch
1. clutch1. clutch
1. clutch
 
Clutch
ClutchClutch
Clutch
 
Different types of suspension system
Different types of suspension systemDifferent types of suspension system
Different types of suspension system
 
Unit 1 Front Axle & Steering System
Unit 1 Front Axle & Steering SystemUnit 1 Front Axle & Steering System
Unit 1 Front Axle & Steering System
 
Transmission system in an automobile
Transmission system in an automobileTransmission system in an automobile
Transmission system in an automobile
 
gear box - heart of automobile
gear box - heart of automobilegear box - heart of automobile
gear box - heart of automobile
 
Gear box
Gear boxGear box
Gear box
 
Automatic transmission
Automatic transmissionAutomatic transmission
Automatic transmission
 
Steering for general automobile
Steering for general automobile Steering for general automobile
Steering for general automobile
 
Brakes and its types
Brakes and its typesBrakes and its types
Brakes and its types
 
IC Engine components and functions
IC Engine components and functions IC Engine components and functions
IC Engine components and functions
 

Similar a clutch.ppt

Automobile Clutch Functions & Types.ppt
Automobile Clutch Functions & Types.pptAutomobile Clutch Functions & Types.ppt
Automobile Clutch Functions & Types.pptAshishDahiya36
 
automotive transmission system clutch and system
automotive transmission system clutch and systemautomotive transmission system clutch and system
automotive transmission system clutch and systemTHESRIF
 
vdocuments.mx_slides-on-clutches.ppt
vdocuments.mx_slides-on-clutches.pptvdocuments.mx_slides-on-clutches.ppt
vdocuments.mx_slides-on-clutches.pptPraneethPV1
 
Clutches ( Single Plate and Multi Plate)
Clutches ( Single Plate and Multi Plate) Clutches ( Single Plate and Multi Plate)
Clutches ( Single Plate and Multi Plate) Shruti Mandaokar
 
Transmission Systems - Clutch
Transmission Systems - ClutchTransmission Systems - Clutch
Transmission Systems - ClutchNirmal S
 
Friction in Clutch
Friction in ClutchFriction in Clutch
Friction in ClutchRohit Singla
 
Assignment on 'Clutch'
Assignment on 'Clutch'Assignment on 'Clutch'
Assignment on 'Clutch'Salim Azad
 
CLUTCH.pptx, type of clutch and design clutch
CLUTCH.pptx, type of clutch and design clutchCLUTCH.pptx, type of clutch and design clutch
CLUTCH.pptx, type of clutch and design clutchhaymanot16
 
CHAPTER THREE.pptx
CHAPTER THREE.pptxCHAPTER THREE.pptx
CHAPTER THREE.pptxhaymanot16
 
Unit-3-Transmission system of Automobile
Unit-3-Transmission system of Automobile Unit-3-Transmission system of Automobile
Unit-3-Transmission system of Automobile Dr.S.SURESH
 
Automobile Lecture notes
Automobile Lecture notesAutomobile Lecture notes
Automobile Lecture notesLokesh Thegreat
 
Clutches-pptx.pptx
Clutches-pptx.pptxClutches-pptx.pptx
Clutches-pptx.pptxahp2011
 
Chapter 2-CLUTCHES-Lecture pptx.pptx
Chapter 2-CLUTCHES-Lecture pptx.pptxChapter 2-CLUTCHES-Lecture pptx.pptx
Chapter 2-CLUTCHES-Lecture pptx.pptxJemilsultan1
 

Similar a clutch.ppt (20)

clutch.ppt
clutch.pptclutch.ppt
clutch.ppt
 
Automobile Clutch Functions & Types.ppt
Automobile Clutch Functions & Types.pptAutomobile Clutch Functions & Types.ppt
Automobile Clutch Functions & Types.ppt
 
automotive transmission system clutch and system
automotive transmission system clutch and systemautomotive transmission system clutch and system
automotive transmission system clutch and system
 
vdocuments.mx_slides-on-clutches.ppt
vdocuments.mx_slides-on-clutches.pptvdocuments.mx_slides-on-clutches.ppt
vdocuments.mx_slides-on-clutches.ppt
 
Clutches ( Single Plate and Multi Plate)
Clutches ( Single Plate and Multi Plate) Clutches ( Single Plate and Multi Plate)
Clutches ( Single Plate and Multi Plate)
 
clutches.pptx
clutches.pptxclutches.pptx
clutches.pptx
 
clutches.pptx
clutches.pptxclutches.pptx
clutches.pptx
 
clutches.pptx
clutches.pptxclutches.pptx
clutches.pptx
 
Transmission Systems - Clutch
Transmission Systems - ClutchTransmission Systems - Clutch
Transmission Systems - Clutch
 
Friction in Clutch
Friction in ClutchFriction in Clutch
Friction in Clutch
 
Assignment on 'Clutch'
Assignment on 'Clutch'Assignment on 'Clutch'
Assignment on 'Clutch'
 
CLUTCH.pptx, type of clutch and design clutch
CLUTCH.pptx, type of clutch and design clutchCLUTCH.pptx, type of clutch and design clutch
CLUTCH.pptx, type of clutch and design clutch
 
Clutches
ClutchesClutches
Clutches
 
CHAPTER THREE.pptx
CHAPTER THREE.pptxCHAPTER THREE.pptx
CHAPTER THREE.pptx
 
Unit-3-Transmission system of Automobile
Unit-3-Transmission system of Automobile Unit-3-Transmission system of Automobile
Unit-3-Transmission system of Automobile
 
CLUTCHES.pptx
CLUTCHES.pptxCLUTCHES.pptx
CLUTCHES.pptx
 
Automobile Lecture notes
Automobile Lecture notesAutomobile Lecture notes
Automobile Lecture notes
 
Clutches-pptx.pptx
Clutches-pptx.pptxClutches-pptx.pptx
Clutches-pptx.pptx
 
Chapter 2-CLUTCHES-Lecture pptx.pptx
Chapter 2-CLUTCHES-Lecture pptx.pptxChapter 2-CLUTCHES-Lecture pptx.pptx
Chapter 2-CLUTCHES-Lecture pptx.pptx
 
Clutches
ClutchesClutches
Clutches
 

Más de HarikumarA4

Belt Drives_2.pdf
Belt Drives_2.pdfBelt Drives_2.pdf
Belt Drives_2.pdfHarikumarA4
 
unit2designofshaft-170719110901 (1) (1).pptx
unit2designofshaft-170719110901 (1) (1).pptxunit2designofshaft-170719110901 (1) (1).pptx
unit2designofshaft-170719110901 (1) (1).pptxHarikumarA4
 
Belt Drives_1.pptx
Belt Drives_1.pptxBelt Drives_1.pptx
Belt Drives_1.pptxHarikumarA4
 
BRAKE_SYSTEM.pptx
BRAKE_SYSTEM.pptxBRAKE_SYSTEM.pptx
BRAKE_SYSTEM.pptxHarikumarA4
 
Stresses in flywheel rim.pptx
Stresses in flywheel rim.pptxStresses in flywheel rim.pptx
Stresses in flywheel rim.pptxHarikumarA4
 
V-belt Drives.pptx
V-belt Drives.pptxV-belt Drives.pptx
V-belt Drives.pptxHarikumarA4
 
Sliding-Contact-Bearings.ppt
Sliding-Contact-Bearings.pptSliding-Contact-Bearings.ppt
Sliding-Contact-Bearings.pptHarikumarA4
 
pp-chapter 7.ppt
pp-chapter 7.pptpp-chapter 7.ppt
pp-chapter 7.pptHarikumarA4
 
engineering-graphics.pdf
engineering-graphics.pdfengineering-graphics.pdf
engineering-graphics.pdfHarikumarA4
 

Más de HarikumarA4 (11)

Belt Drives_2.pdf
Belt Drives_2.pdfBelt Drives_2.pdf
Belt Drives_2.pdf
 
unit2designofshaft-170719110901 (1) (1).pptx
unit2designofshaft-170719110901 (1) (1).pptxunit2designofshaft-170719110901 (1) (1).pptx
unit2designofshaft-170719110901 (1) (1).pptx
 
99999599.pptx
99999599.pptx99999599.pptx
99999599.pptx
 
Belt Drives_1.pptx
Belt Drives_1.pptxBelt Drives_1.pptx
Belt Drives_1.pptx
 
PPT- CDT-8.pptx
PPT- CDT-8.pptxPPT- CDT-8.pptx
PPT- CDT-8.pptx
 
BRAKE_SYSTEM.pptx
BRAKE_SYSTEM.pptxBRAKE_SYSTEM.pptx
BRAKE_SYSTEM.pptx
 
Stresses in flywheel rim.pptx
Stresses in flywheel rim.pptxStresses in flywheel rim.pptx
Stresses in flywheel rim.pptx
 
V-belt Drives.pptx
V-belt Drives.pptxV-belt Drives.pptx
V-belt Drives.pptx
 
Sliding-Contact-Bearings.ppt
Sliding-Contact-Bearings.pptSliding-Contact-Bearings.ppt
Sliding-Contact-Bearings.ppt
 
pp-chapter 7.ppt
pp-chapter 7.pptpp-chapter 7.ppt
pp-chapter 7.ppt
 
engineering-graphics.pdf
engineering-graphics.pdfengineering-graphics.pdf
engineering-graphics.pdf
 

Último

Software and Systems Engineering Standards: Verification and Validation of Sy...
Software and Systems Engineering Standards: Verification and Validation of Sy...Software and Systems Engineering Standards: Verification and Validation of Sy...
Software and Systems Engineering Standards: Verification and Validation of Sy...VICTOR MAESTRE RAMIREZ
 
Past, Present and Future of Generative AI
Past, Present and Future of Generative AIPast, Present and Future of Generative AI
Past, Present and Future of Generative AIabhishek36461
 
Concrete Mix Design - IS 10262-2019 - .pptx
Concrete Mix Design - IS 10262-2019 - .pptxConcrete Mix Design - IS 10262-2019 - .pptx
Concrete Mix Design - IS 10262-2019 - .pptxKartikeyaDwivedi3
 
IVE Industry Focused Event - Defence Sector 2024
IVE Industry Focused Event - Defence Sector 2024IVE Industry Focused Event - Defence Sector 2024
IVE Industry Focused Event - Defence Sector 2024Mark Billinghurst
 
Earthing details of Electrical Substation
Earthing details of Electrical SubstationEarthing details of Electrical Substation
Earthing details of Electrical Substationstephanwindworld
 
Transport layer issues and challenges - Guide
Transport layer issues and challenges - GuideTransport layer issues and challenges - Guide
Transport layer issues and challenges - GuideGOPINATHS437943
 
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)dollysharma2066
 
CCS355 Neural Networks & Deep Learning Unit 1 PDF notes with Question bank .pdf
CCS355 Neural Networks & Deep Learning Unit 1 PDF notes with Question bank .pdfCCS355 Neural Networks & Deep Learning Unit 1 PDF notes with Question bank .pdf
CCS355 Neural Networks & Deep Learning Unit 1 PDF notes with Question bank .pdfAsst.prof M.Gokilavani
 
Indian Dairy Industry Present Status and.ppt
Indian Dairy Industry Present Status and.pptIndian Dairy Industry Present Status and.ppt
Indian Dairy Industry Present Status and.pptMadan Karki
 
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube ExchangerStudy on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube ExchangerAnamika Sarkar
 
computer application and construction management
computer application and construction managementcomputer application and construction management
computer application and construction managementMariconPadriquez1
 
US Department of Education FAFSA Week of Action
US Department of Education FAFSA Week of ActionUS Department of Education FAFSA Week of Action
US Department of Education FAFSA Week of ActionMebane Rash
 
lifi-technology with integration of IOT.pptx
lifi-technology with integration of IOT.pptxlifi-technology with integration of IOT.pptx
lifi-technology with integration of IOT.pptxsomshekarkn64
 
UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)
UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)
UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)Dr SOUNDIRARAJ N
 
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdfCCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdfAsst.prof M.Gokilavani
 
Arduino_CSE ece ppt for working and principal of arduino.ppt
Arduino_CSE ece ppt for working and principal of arduino.pptArduino_CSE ece ppt for working and principal of arduino.ppt
Arduino_CSE ece ppt for working and principal of arduino.pptSAURABHKUMAR892774
 
INFLUENCE OF NANOSILICA ON THE PROPERTIES OF CONCRETE
INFLUENCE OF NANOSILICA ON THE PROPERTIES OF CONCRETEINFLUENCE OF NANOSILICA ON THE PROPERTIES OF CONCRETE
INFLUENCE OF NANOSILICA ON THE PROPERTIES OF CONCRETEroselinkalist12
 
An experimental study in using natural admixture as an alternative for chemic...
An experimental study in using natural admixture as an alternative for chemic...An experimental study in using natural admixture as an alternative for chemic...
An experimental study in using natural admixture as an alternative for chemic...Chandu841456
 

Último (20)

young call girls in Green Park🔝 9953056974 🔝 escort Service
young call girls in Green Park🔝 9953056974 🔝 escort Serviceyoung call girls in Green Park🔝 9953056974 🔝 escort Service
young call girls in Green Park🔝 9953056974 🔝 escort Service
 
Software and Systems Engineering Standards: Verification and Validation of Sy...
Software and Systems Engineering Standards: Verification and Validation of Sy...Software and Systems Engineering Standards: Verification and Validation of Sy...
Software and Systems Engineering Standards: Verification and Validation of Sy...
 
Past, Present and Future of Generative AI
Past, Present and Future of Generative AIPast, Present and Future of Generative AI
Past, Present and Future of Generative AI
 
Concrete Mix Design - IS 10262-2019 - .pptx
Concrete Mix Design - IS 10262-2019 - .pptxConcrete Mix Design - IS 10262-2019 - .pptx
Concrete Mix Design - IS 10262-2019 - .pptx
 
IVE Industry Focused Event - Defence Sector 2024
IVE Industry Focused Event - Defence Sector 2024IVE Industry Focused Event - Defence Sector 2024
IVE Industry Focused Event - Defence Sector 2024
 
Earthing details of Electrical Substation
Earthing details of Electrical SubstationEarthing details of Electrical Substation
Earthing details of Electrical Substation
 
Transport layer issues and challenges - Guide
Transport layer issues and challenges - GuideTransport layer issues and challenges - Guide
Transport layer issues and challenges - Guide
 
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
 
CCS355 Neural Networks & Deep Learning Unit 1 PDF notes with Question bank .pdf
CCS355 Neural Networks & Deep Learning Unit 1 PDF notes with Question bank .pdfCCS355 Neural Networks & Deep Learning Unit 1 PDF notes with Question bank .pdf
CCS355 Neural Networks & Deep Learning Unit 1 PDF notes with Question bank .pdf
 
Indian Dairy Industry Present Status and.ppt
Indian Dairy Industry Present Status and.pptIndian Dairy Industry Present Status and.ppt
Indian Dairy Industry Present Status and.ppt
 
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube ExchangerStudy on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
 
computer application and construction management
computer application and construction managementcomputer application and construction management
computer application and construction management
 
🔝9953056974🔝!!-YOUNG call girls in Rajendra Nagar Escort rvice Shot 2000 nigh...
🔝9953056974🔝!!-YOUNG call girls in Rajendra Nagar Escort rvice Shot 2000 nigh...🔝9953056974🔝!!-YOUNG call girls in Rajendra Nagar Escort rvice Shot 2000 nigh...
🔝9953056974🔝!!-YOUNG call girls in Rajendra Nagar Escort rvice Shot 2000 nigh...
 
US Department of Education FAFSA Week of Action
US Department of Education FAFSA Week of ActionUS Department of Education FAFSA Week of Action
US Department of Education FAFSA Week of Action
 
lifi-technology with integration of IOT.pptx
lifi-technology with integration of IOT.pptxlifi-technology with integration of IOT.pptx
lifi-technology with integration of IOT.pptx
 
UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)
UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)
UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)
 
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdfCCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
 
Arduino_CSE ece ppt for working and principal of arduino.ppt
Arduino_CSE ece ppt for working and principal of arduino.pptArduino_CSE ece ppt for working and principal of arduino.ppt
Arduino_CSE ece ppt for working and principal of arduino.ppt
 
INFLUENCE OF NANOSILICA ON THE PROPERTIES OF CONCRETE
INFLUENCE OF NANOSILICA ON THE PROPERTIES OF CONCRETEINFLUENCE OF NANOSILICA ON THE PROPERTIES OF CONCRETE
INFLUENCE OF NANOSILICA ON THE PROPERTIES OF CONCRETE
 
An experimental study in using natural admixture as an alternative for chemic...
An experimental study in using natural admixture as an alternative for chemic...An experimental study in using natural admixture as an alternative for chemic...
An experimental study in using natural admixture as an alternative for chemic...
 

clutch.ppt

  • 2. A Clutch is a machine member used to connect the driving shaft to a driven shaft, so that the driven shaft may be started or stopped without stopping the driving shaft. A clutch thus provides an interruptible connection between two rotating shafts. A popularly known application of clutch is in automotive vehicles where it is used to connect the engine and the gear box.
  • 3. Functions of the clutch  To connect and disconnect the shafts  To start or stop a machine (or a rotating element) without starting and stopping the prime mover.  To maintain constant speed, torque and power.  To reduce shocks transmitted between machine shafts.  For automatic disconnect, quick start and stop, gradual starts, and non-reversing and over running functions.
  • 4. Principles of operation of clucth  When two friction surfaces are brought in connect with each other and pressed, they are united due to the friction between them.  The friction between the two surfaces depends upon the area of the surfaces, pressure applied upon them and coefficient of friction of the surface materials.  The two surfaces can be separated and brought into contact when required. One surface is considered as driving member and the other as driven member.  The driving member is kept rotating. When the driven member is brought in contact to the driving member, It is also starts rotating.
  • 5. Required qualities of a good friction material  A high and uniform coefficient of friction.  The ability to withstand high temperatures, together with good heat conductivity.  Good resilience.  High resistance to wear, scoring.  Resistance against environmental conditions, such as moisture, salt water or fungi.  Adequate mechanical and thermal strengths.
  • 6. Commonly used Friction Materials  Wood  Cork  Leather  Asbestos based friction materials – asbestos fibres, woven around brass, copper or zinc wires. Moulded or composite type.  Powdered ( or sintered) metal friction materials
  • 8. Friction Clutches  The friction clutches work on the fact that friction is caused when two rotating discs come into contact with each other
  • 10.  Let the shaft A and Disc C be revolving at some speed say N rpm. Shaft B and disc D keyed to it are stationary, initially when the clutch is not engaged.  Now apply some axial force W to disc D , so that it comes in contact with Disc C.  As soon as the contact is made the force of friction between C and D will come into play and consequently the disc D will also start revolving  The speed of D depends upon friction force present, which in turn is proportional to the force W applied.  If W is increased gradually , the speed of D will be increased correspondingly till the stage comes when speed of D becomes equal to speed of C. Then clutch is said to be fully engaged.
  • 11. Continue…  Let W = axial load applied. = coefficient of friction R = effective mean radius of friction surface. Then , T = W R
  • 12. DRY FRICTION CLUTCHES Types:  Single Plate clutch  Multi plate clutch  Cone clutch  Semi-centrifugal clutch  Centrifugal clutch
  • 15. Design details of Single Plate Clutch
  • 16.
  • 18. driver driven Pressure plates Friction plates 2 1 4 3 6 5 Multiple plate clutch
  • 19. Multiplate Clutch  The multiplate clutch is an extension of single plate type where the number of frictional and metal plates is increased.  Increase in number of friction surfaces obviously increases capacity of the clutch to transmit torque.  Alternatively, the overall diameter of the clutch is reduced for the same torque transmission as a single plate clutch  This type of clutch is therefore used in some heavy transport vehicles and racing cars where high torque is to be transmitted.  This finds application in case of scooters and motorcycles, where the space available is limited
  • 20. • When your foot is off the pedal, the springs push the pressure plate against the clutch disc, which in turn presses against the flywheel. This locks the engine to the transmission input shaft, causing them to spin at the same speed. • The amount of force the clutch can hold depends on the friction between the clutch plate and the flywheel, and how much force the spring puts on the pressure plate
  • 21.  When the clutch pedal is pressed, piston pushes on the release fork, which presses the throw-out bearing against the middle of the diaphragm spring. As the middle of the diaphragm spring is pushed in, a series of pins near the outside of the spring causes the spring to pull the pressure plate away from the clutch disc This releases the clutch from the spinning engine.
  • 22. Working of Single plate clutch  Basically, the clutch needs three parts. These are the engine flywheel, a friction disc called the clutch plate and a pressure plate.  There are springs which provide axial force to keep the clutch in engaged position.  When the engine is running and the flywheel is rotating, the pressure plate also rotates as the pressure plate is attached to the flywheel. The friction disc is located between the two .  When the driver has pushed down the clutch pedal the clutch is released. This action forces the pressure plate to move away from the friction disc against the force of springs.  With this movement of pressure plate , the friction plate is released and the clutch is disengaged.
  • 23. Advantages • With single plate clutch , gear changing is easier than with the cone clutch , because the pedal movement is less in this case. • More reliable ( As it does not suffer from disadvantage of cone clutch , i.e. binding of cones)
  • 24. Disadvantages  As compared to cone clutch , springs have to be more stiff and this means greater force required to be applied by driver while disengaging.
  • 27. 1. Cones: female= green, male= blue 2. Shaft: male cone is sliding on splines 3. Friction material 4. Spring: brings the male cone back after using the clutch control 5. Clutch control: separating both cones by pressing 6. Rotating direction: both direction of the axis are possible
  • 28.  In the engaged position the friction surface are in complete contact. This is done by means of spring which keep the male cone pressed all the time.  When the clutch is engaged the torque is transmitted from engine via the flywheel and the male cone to splined gear box shaft.  For disengaging the clutch , the male cone is pulled out by means of lever system operated through clutch pedal thereby separating the contact surfaces.
  • 30.
  • 31. Advantage  The advantage of cone clutch is that the normal force acting on contact surface in this case is larger than axial force( as compared to single plate clutch in which the normal force acting on contact surfaces is equal to the axial force)
  • 32. Disadvantages This type of clutch is practically obsolete because of following reasons: 1) If the angle of cone is made less than about 20 degree, it will be difficult to disengage the clutch. 2) A small amount of wear on the cone surface results in considerable amount of axial movement of the male cone for which it will be difficult to allow.
  • 33. Centrifugal clutch  In fully centrifugal type clutches ,the springs are eliminated altogether and only centrifugal force is used to apply the required pressure for keeping the clutch in engaged position
  • 34.
  • 35.
  • 36. Advantages of centrifugal clutches  No separate clutch plate is required  Clutch is operated automatically depending upon engine speed
  • 37. DESIGN OF A CENTRIFUGAL CLUTCH  MASS OF THE SHOES: n= Number of shoes m= Mass of each shoe R= Inside radius of the pulley rim r= Distance of entre of gravity of the shoes from the centre of the spider N= Running speed of the pulley ω= Angular speed of the pulley = 2πN/ 60 ω1= Angular speed at which the engagement begins to take place μ= Coefficient of friction between the shoe and rim.
  • 38. Contd… Centrifugal force acting on each shoe, Fc = mω2r Spring force exerted by each spring on the shoe, Fs = mω1 2r Net outward force on the shoe = Fc-Fs= mω2r-mω1 2r Frictional force acting on each shoe, F=μ(Fc-Fs) Frictional torque acting on each shoe,Tr=F×R = μ(Fc-Fs) Frictional torque acting on each shoe, Tr = F×R = μ(Fc-Fs)R Total frictional torque transmitted T= n×μ(Fc-Fs)R = n.F.R
  • 39. Contd… Size of the shoes: l= Contact length of the shoes b= Width of the shoes R= Contact radius of the shoes θ= Angle subtended by the shoes at the centre of the spider, p= Intensity of pressure exerted on the shoe l=R.θ Area of contact of the shoe A= l.b Net force acting on the shoe = Fc-Fs =A×p = l.b.p
  • 40. END