An air suspension system is a style of vehicle suspension that's powered by an electric pump or compressor that pumps air into flexible bellows that are typically made out of a textile-reinforced type of rubber.Air suspension as a replacement to the leaf suspension or coil spring system with airbags composed of polyurethane and rubber. A compressor inflates the bags to a certain pressure in order to behave like springs. Air suspension also differs from hydropneumatic suspension because it uses pressurized air instead of pressurized liquid.
Components of the air suspension
An air suspension generally has three basic components. They are air supply, the air bags and the height control valves.
The air supply
The air supply system consists of the engine air compressor, the air tanks, air valves and air lines. The engine air compressor supplies air for all the air equipment on the vehicle. The pressure delivered by the compressor varies. For several years, the air supply was maintained around 120 to 125 psi but on some new vehicles this has been improved to 135 psi. Dash gauges are present that will supply system pressure information but all vehicles have what we say to as a “pop off valve”. You can get the valve “pop off” when the system reaches the maximum air pressure.
Air bags
They are simple rubber bladder that holds air. Air bags are also mentioned to as air bellows. The air bags are located in the middle of the frame of the vehicle and the vehicle axles. Air bags are estimated for weight and pressure capacities.
Height Control Valve
Most of the HCVs are mechanical valves but electronic height control mechanisms are also available. The HCV is fastened to the frame of the vehicle. An L shaped linkage attaches the HCV to the axle. As the axle moves up and down in relationship to the frame, the linkage travels the valve or electronic mechanism. With mechanical valves, there is an airline from the air supply to the HCV. There is an airline from the HCV to the air bag or bags that it controls. The HCV also has an exhaust port. When the connecting linkage travels up, the HCV links the air supply to the air bags, inflating the bags. When the connecting linkage moves down, the HCV connects the air bags to the exhaust port, shrinking the bags. This controls the height of the vehicle. If the Height Control is electronic, by means of the control linkage moves up or down, an electronic sensor propels information to an electronic control. These controls will open or close air solenoid valves as needed to inflate or deflate the bags.
How the air suspension system functions.
The vehicle is upheld on the frame with a course of action of airbags. The vehicle air system, motor air compressor, tanks, lines, and so on. These supply air to the valves (HCV) mounted to the edge of the vehicle. The valves are associated with the airbags with an airline. The linkage which interfaces the HCVs to the axles pivots the HCV valving as it climbs and down. At the point when weight is added to the vehicle through the suspension of the vehicle, the air noticeable all around bags is compacted, the edge draws nearer to the pivot. This powers the HCV linkage up. As the linkage climbs, the valving of the HCV associate the air supply to the air bags. The included weight and volume swells the air bags, bringing on the frame to move far from the pivot.
As the edge moves back to the correct ride stature, the HCV linkage moves to the unbiased position. This moves the valving far from the air supply and secures the air noticeable all around sack to keep up the best possible ride height. As weight is expelled from the vehicle or the suspension movements weight away, the current weight noticeable all around bags can push the frame far from the pivot. The HCV linkage is dragged down. This associate the air bags to the HCV fumes port. As air is depleted from the air bags, the frame lets down towards the pivot. As the linkage climbs to the neutral position, the fumes port is shut and the air is again locked noticeable all around bags, keeping up fitting ride height.
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