An air management system and method are provided. The system includes a pressurized air source. A manifold block is coupled to the pressurized air source and includes a plurality of suspension valves in fluid communication with the pressurized air source for controlling air flow to and from a plurality of air springs. An accumulator is coupled to the manifold block for storing air. An accumulator valve is in fluid communication with the plurality of suspension valves and the accumulator to allow exhausted air from the plurality of air springs into the accumulator. An electronic control unit is electrically coupled to the plurality of suspension valves and the accumulator valve for controlling a sequence of operating the accumulator valve and the plurality of suspension valves to provide enhanced exhaust flow from the plurality of air springs to maintain the vehicle in a level orientation while lowering the vehicle.

A suspension control system and a method for controlling a damper device of a bicycle include a damper device and a spring device for sprung damping of a relative motion between a first and a second component of the bicycle. The suspension device has a spring unit exhibiting a spring characteristic, and the damper device exhibits a damping characteristic. The spring characteristic of the spring unit is changed under the control of an electrically operated actuator, which in turn is controlled via an electric control device.

A vehicle suspension control system is disclosed for use in load-carrying vehicles. The system controls a response of a suspension cylinder configured to support a main body of a vehicle in relation to a ground-contacting portion of the vehicle. A main accumulator is configured to contain a main compressible gas volume and is fluidly connected with the suspension cylinder. An auxiliary accumulator is configured to contain an auxiliary compressible gas volume. A valve is configured to selectively fluidly connect the auxiliary accumulator to the suspension cylinder. When the valve is open, compressing the suspension cylinder compresses both the main compressible gas volume and the auxiliary compressible gas volume. When the valve is closed, the auxiliary accumulator is fluidly isolated from the suspension cylinder. A processor is configured to automatically open or close the valve using a solenoid actuator based on one or more operating parameters of the vehicle.

A vehicle suspension control system is disclosed for use in load-carrying vehicles. The system controls a response of a suspension cylinder configured to support a main body of a vehicle in relation to a ground-contacting portion of the vehicle. A main accumulator is configured to contain a main compressible gas volume and is fluidly connected with the suspension cylinder. An auxiliary accumulator is configured to contain an auxiliary compressible gas volume. A valve is configured to selectively fluidly connect the auxiliary accumulator to the suspension cylinder. When the valve is open, compressing the suspension cylinder compresses both the main compressible gas volume and the auxiliary compressible gas volume. When the valve is closed, the auxiliary accumulator is fluidly isolated from the suspension cylinder. A processor is configured to automatically open or close the valve using a solenoid actuator based on one or more operating parameters of the vehicle.

A method is for operating a compressed air system in a vehicle. The compressed air system has pneumatically operated actuators, switchable pneumatic valves and devices for supplying and preparing compressed air, which are connected to one another via a pneumatic line system. The devices for supplying compressed air include a compressed air source and a compressed air store, and in the line system a pressure sensor is provided for measuring the pressure. An algorithm is programmed such that depending on the difference between the pressure in the compressed air store and the pressure in the line system, pneumatic valves are actuated to connect the compressed air store to the line system only after pressure equalization between the pressure in the compressed air store and the pressure in the line system. During pressure equalization, compressed air from the source and/or the actuators or devices is introduced into the line system.