Difference between revisions of "Independent suspension"
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− | An ''' | + | An '''independent suspension''' is an [[automobile]] [[suspension (vehicle)|suspension]] system that allows the wheels on an [[axle]] to move independently of each other. Each one goes up and down without affecting the other. |
− | + | This is contrasted with a [[beam axle]], [[live axle]] or [[deDion axle|deDion]] system in which they are linked - movement on one side affects the wheel on the other side. | |
− | + | Most modern vehicles have independent suspensions on the front wheels. | |
− | + | Many vehicles also have An '''independent rear suspension''' ('''IRS'''), as the name implies, has the rear wheels independently sprung. A '''fully independent suspension''' has an independent suspension on all wheels. | |
− | + | Independent suspension typically offers better ride quality and handling characteristics, due to lower 'unsprung weight' and the ability of each wheel to address the road undisturbed by activities of the other wheel on the vehicle. | |
− | [[ | + | Independent suspension requires additional engineering effort and expense in development versus a [[live axle]] or [[beam axle]] arrangement. A very complex ''IRS'' solution can also result in higher manufacturing costs. |
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+ | Some early independent systems used [[swing axle]]s, but modern systems use [[Chapman strut|Chapman]] or [[MacPherson strut|MacPherson]] [[strut]]s, [[trailing arm]]s, [[multilink|multiple links]], or [[double wishbone suspension|wishbones]]. | ||
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+ | The key reason for lower 'unsprung weight' relative to a [[live axle]] design is that, for driven wheels, the [[differential (mechanics)|differential]] unit does not form part of the [[unsprung weight|unsprung elements]] of the suspension system. Instead it is either bolted directly to the vehicle's [[chassis]], or more commonly to a [[subframe]]. | ||
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+ | The relative movement between the wheels and the differential is achieved through the use of swinging driveshafts connected via [[universal joint|universal (U) joints]], analogous to the [[constant-velocity joint|constant-velocity (CV) joints]] used in [[front wheel drive]] vehicles. | ||
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+ | {{Automobile configurations}} | ||
[[Category:Automotive suspension technologies]] | [[Category:Automotive suspension technologies]] |
Revision as of 16:45, 17 December 2007
An independent suspension is an automobile suspension system that allows the wheels on an axle to move independently of each other. Each one goes up and down without affecting the other.
This is contrasted with a beam axle, live axle or deDion system in which they are linked - movement on one side affects the wheel on the other side.
Most modern vehicles have independent suspensions on the front wheels.
Many vehicles also have An independent rear suspension (IRS), as the name implies, has the rear wheels independently sprung. A fully independent suspension has an independent suspension on all wheels.
Independent suspension typically offers better ride quality and handling characteristics, due to lower 'unsprung weight' and the ability of each wheel to address the road undisturbed by activities of the other wheel on the vehicle.
Independent suspension requires additional engineering effort and expense in development versus a live axle or beam axle arrangement. A very complex IRS solution can also result in higher manufacturing costs.
Some early independent systems used swing axles, but modern systems use Chapman or MacPherson struts, trailing arms, multiple links, or wishbones.
The key reason for lower 'unsprung weight' relative to a live axle design is that, for driven wheels, the differential unit does not form part of the unsprung elements of the suspension system. Instead it is either bolted directly to the vehicle's chassis, or more commonly to a subframe.
The relative movement between the wheels and the differential is achieved through the use of swinging driveshafts connected via universal (U) joints, analogous to the constant-velocity (CV) joints used in front wheel drive vehicles.