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Suspenstion

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  • 1. Suspension system inautomobiles
  • 2. What is suspension system• Suspension is the term given to the system of springs, shock absorbers and linkages that connects a vehicle to its wheels• Serve a dual purpose – contributing to the cars handling and braking.• Protects the vehicle itself and any cargo or luggage from damage and wear
  • 3. Functions of suspension system:1. It prevents the vehicle body and framefrom road shocks.2. It gives stability of the vehicle.3. It safeguards the passengers andgoods from road shocks.4. It gives the good road holding whiledriving, cornering and braking.5. It gives cushioning effect.6. It provides comfort.
  • 4. Requirements of suspension system:1. There should be minimum deflection.2. It should be of low initial cost.3. It should be of minimum weight.4. It should have low maintenance and low operating cost.5. It should have minimum tyre wear.
  • 5. SUSPENSION SYSTEM – LAY OUT
  • 6. Conventional suspension system• Two wheels are mounted on either side of the rigid axle• When one wheel encounters the bump, both the wheel do not execute parallel up and down motion• So it gives rise to gyroscopic effect and wheel wobble• Rear driving wheels mounted on live axle suspended by laminated leaf springs and shock absorbers
  • 7. Independent suspension system• Both the front and the rear wheel are utilized• One wheel goes down ,the other wheel does not have much effect
  • 8. Common SuspensionsFront Suspension Rear Suspension• Solid I-Beam • Non Independent Rear• Twin I-Beam Leaf Springs• MacPherson Strut • Non Independent Rear• Short-Long Arm Coil Springs • Trailing Arm • Beam
  • 9. Types of suspension springs1. Steel Springs : a. Leaf Springs b. Coil Springs c. Torsion bar Springs2. Rubber Springs: a. Compression Springs b. Progressive Springs3. Plastic Springs4. Air Springs: a. Bellow Type b. Pestoon Type5. Hydraulic Type
  • 10. Types of Leaf Springs1. Full – elliptic type2. Semi – elliptic type3. Three Quarter – elliptic type4. Transverse Spring type5. Helper Spring type
  • 11. Rear Leaf Springs• Similar to front solid I-beam axle• Large load carrying capacity
  • 12. Rear Coil Springs • Uses coils and control arms instead of leaf springs • Good load carrying capacity • Absorbs road shock & carries vehicle weight
  • 13. HELPER SPRING• DIRECTLY MOUNTED ON MAIN SPRINGS• TAKE CARE OF LARGE VARIATION IN SPRING LOAD• DURING LIGHT LOADS ,ONLY MAIN SPIRNG IS ACTIVE , AS LOAD INCREASE TO A PARTICULAR FIXED VALUE , BOTH THE SPRINGS ARE ACTIVE
  • 14. Rear Beam• Non-independent design• Stamped beam axles• Uses coil springs and trailing arms• Light and simple design
  • 15. Trailing Arm• Independent Design• Uses individual lower control arms• Uses coil springs and shocks• Good ride quality
  • 16. Front Suspension Systems Types:- • Solid I-Beam • Twin I-Beam • Macpherson Strut • Short-Long Arm
  • 17. I-Beam Suspension• Solid axle connecting both front steering knuckles• Used on H.D. trucks
  • 18. Solid I-Beam• Used on trucks and other large vehicles• Economical• Simple design• Low Maintenance• Excellent load capacity• Non-independent design• Uncomfortable ride quality• Poor handling
  • 19. Twin I-Beam •Found on many Ford trucks •Forged, cast, or stamped axles •Excellent load capacity •Requires special equipment for alignment adjustments
  • 20. MACPHERSON STRUT• the most widely used front suspension system in cars• comprises of a strut-type spring and shock absorber combo, which pivots on a ball joint on the single, lower arm.• The steering gear is either connected directly to the lower shock absorber housing, or to an arm from the front or back of the spindle (in this case• When you steer, it physically twists the strut and shock absorber housing (and consequently the spring) to turn the wheel
  • 21. Short & Long Arm Suspension• Provide for an independent suspension system• Camber & caster angles remain fairly constant over bumps• Arms connected to frame with rubber bushings
  • 22. Multi-link suspension• Its currently being used in the Audi A8 and A4 amongst other cars.• The basic principle of it is the same, but instead of solid upper and lower wishbones, each arm of the wishbone is a separate item.• These are joined at the top and bottom of the spindle thus forming the wishbone shape.• The super-weird thing about this is that as the spindle turns for steering, it alters the geometry of the suspension by torquing all four suspension arms.• Spring is separate from the schock absorber.
  • 23. Advantages ( independent front )• Bigger deflection of front wheels, no reaction on steering• Greater distance for resisting rolling action• Front axle (small-stub), improves road holding tendency of tyres.• Minimum vibrations DISADVANTAGES• Better shock absorber required.• Expensive• Tyre wear increases due to transmission of torque.
  • 24. Advantages ( independent rear suspension)• Lesser unsprung weight – improves ride , reduces tyre wear.• Increased passenger space• Rear wheels remain stable ..DISADVANTAGES• Increased cost• Complicated design• Steering action is not proper
  • 25. Air suspension layout
  • 26. Advantages of air suspension• These maintain a constant frequency of vibration whether the vehicle is laden or unladen.• Constant frame height is maintained.• It helps to reduce the load while the vehicle in motion i.e. the dynamic loading as the spring rate variation between laden and unladen weight is much less.• It gives smooth and comfort ride of the vehicle.• The stiffness of the system increases with the increase of the deflection.
  • 27. COMMON AIR SUSPENSION PROBLEMSAir bag or air strut failure - due to old age, or moisture within the air system that damages them from the inside.Compressor failure - Primarily due to leaking air springs or air struts - Compressor burnout may also be caused by moisture from within the air system coming into contact with its electronic parts. Dryer failure - which functions to remove moisture from the air system eventually becomes saturated and
  • 28. Hydrolastic Suspension• a system where the front and rear suspension systems were connected together in order to better level the car when driving.• The front and rear suspension units have Hydrolastic displacers, one per side.• These are interconnected by a small bore pipe. Each displacer incorporates a rubber spring• Damping of the system is achieved by rubber valves.
  • 29. • when the front wheel encounter bumps ,the piston moves upwards pressurising the fluid to enter into the rear unit.• Hydroelastic was eventually refined into Hydragas suspension.......
  • 30. Hydrogas suspension• Known as hydro-pneumatic suspension.• The difference is in the displacer unit itself.• In the older systems, fluid was used in the displacer units with a rubber spring cushion built- in.• With Hydragas, the rubber spring is removed completely.• The fluid still exists but above the fluid there is now a separating membrane or diaphragm, and above that is a cylinder or sphere which is charged with nitrogen gas.• The nitrogen section is what has become the spring and damping unit whilst the fluid is still free to run from the front to the rear units and back.
  • 31. Difference …
  • 32. Shock Absorbers• Produce damping force by forcing a non- compressible fluid through an orifice or valve• There are two standard types of dampers: – Twin tube shock absorber • Heavier • Run hotter • Cheaper, and easier to manufacture – Mono tube shock absorber • Performance shock • More adjustability
  • 33. Mono Tube Shock Absorber • Fluid flows through a valve in the piston • The mono tube setup has some volume of compressible gas that accounts for any volume change in the incompressible fluid due to the piston entering the volume
  • 34. Twin Tube Shock Absorber• Outer tube around an inner tube• Outer tube servers as a reservoir• A valve at the bottom of the shock allows the fluid to flow into the reservoir as the piston moves up and down

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