Multi-link suspension systems for vehicles are described having various linkages or links that connect to distinct points of a wheel mount or knuckle. Each of the linkages are preferably coupled to the wheel mount via a spherical ball joint and mounted such that they can independently move or rotate with respect to the other linkages. A shock assembly is preferably mounted between two of the linkages on a separate link and is rotatably mounted to each of the two linkages.

Multi-link suspension systems for vehicles are described having various linkages or links that connect to distinct points of a wheel mount or knuckle. Each of the linkages are preferably coupled to the wheel mount via a spherical ball joint and mounted such that they can independently move or rotate with respect to the other linkages. A shock assembly is preferably mounted between two of the linkages on a separate link and is rotatably mounted to each of the two linkages.

A suspension device and an all-terrain vehicle are provided. The suspension device includes: a first rocker arm having a first end provided with a first position limiting portion; a second rocker arm spaced apart from the first rocker arm; and a steering knuckle arranged between the first end of the first rocker arm and the second rocker arm. The steering knuckle is connected with the first end of the first rocker arm and a first end of the second rocker arm, and the steering knuckle includes a third position limiting portion configured to be fitted with the first position limiting portion. The third position limiting portion is configured to abut against the first position limiting portion when the steering knuckle is moved to a first extreme height position and the all-terrain vehicle has a first maximum steering angle.

A suspension device and an all-terrain vehicle are provided. The suspension device includes: a first rocker arm having a first end provided with a first position limiting portion; a second rocker arm spaced apart from the first rocker arm; and a steering knuckle arranged between the first end of the first rocker arm and the second rocker arm. The steering knuckle is connected with the first end of the first rocker arm and a first end of the second rocker arm, and the steering knuckle includes a third position limiting portion configured to be fitted with the first position limiting portion. The third position limiting portion is configured to abut against the first position limiting portion when the steering knuckle is moved to a first extreme height position and the all-terrain vehicle has a first maximum steering angle.

A system and methods are provided for a suspension system of an off-road vehicle that allows the springs to be mounted remotely, in any location on the vehicle, enabling the use of spring sizes, spring rates, motion ratios, and damping profiles that would be impractical with traditional suspension designs. The suspension system includes a hydraulic cylinder coupled between a suspension component and a chassis, in lieu of a conventional spring. The hydraulic cylinder is in fluid communication with another, second hydraulic cylinder, by way of a hydraulic hose. The second hydraulic cylinder presses against a suspension spring that is in contact with a fixed spring stop, thereby transferring spring forces to the wheel. Alternatively, the spring stop may comprise a control actuator that moves, enabling active control over spring load.

A vehicle includes a wheel to contact a surface having a reference surface plane in operation of the vehicle; a chassis; an axle housing having an axis which is normal to the reference surface plane; and an axle. The axle extends from the axle housing, to couple the wheel to the axle housing and to support rotation of the wheel relative to the axle housing to support motion of the vehicle across the surface in operation of the vehicle. A suspension system couples the wheel to the chassis and includes a linkage assembly having a first end pivotably coupled to the chassis and a second end pivotably coupled to the axle housing. The first end of the linkage assembly is spaced apart laterally from the second end of the linkage assembly along a longitudinal axis of the linkage assembly. The suspension system is configured to maintain the axis of the axle housing at an angle normal to the reference surface plane in response to an angular displacement between the chassis and the reference surface plane.

A suspension includes a housing, suspension links, a spring, and a stabilizer. The housing rotatably supports a rear wheel of a vehicle. The suspension links each have both ends swingably coupled to a vehicle body of the vehicle and the housing. The spring is disposed between the vehicle body and one of the suspension links or the housing. The stabilizer includes a stabilizer bar and a stabilizer link. A force application point where force generated by the spring is applied to the housing is disposed on a rear side of the vehicle with respect to a center of the rear wheel. The stabilizer link is coupled to the housing to allow a force application point where force generated by the stabilizer is applied to the housing to be disposed on the rear side of the vehicle with respect to the center of the rear wheel.

A suspension includes a housing, suspension links, a spring, and a stabilizer. The housing rotatably supports a rear wheel of a vehicle. The suspension links each have both ends swingably coupled to a vehicle body of the vehicle and the housing. The spring is disposed between the vehicle body and one of the suspension links or the housing. The stabilizer includes a stabilizer bar and a stabilizer link. A force application point where force generated by the spring is applied to the housing is disposed on a rear side of the vehicle with respect to a center of the rear wheel. The stabilizer link is coupled to the housing to allow a force application point where force generated by the stabilizer is applied to the housing to be disposed on the rear side of the vehicle with respect to the center of the rear wheel.

A motor vehicle includes a body, a wheel hub unit, an upright, which is fixed to the wheel hub unit, a fender, which is arranged to cover the wheel hub unit, and a suspension, which couples the upright to the body in a movable manner along at least one axis, which is transversal to a driving direction of the motor vehicle; wherein the suspension comprises at least one movable element, which is movable along said axis, and wherein the fender is carried by said element in a movable manner relative to the body.

A motor vehicle includes a body, a wheel hub unit, an upright, which is fixed to the wheel hub unit, a fender, which is arranged to cover the wheel hub unit, and a suspension, which couples the upright to the body in a movable manner along at least one axis, which is transversal to a driving direction of the motor vehicle; wherein the suspension comprises at least one movable element, which is movable along said axis, and wherein the fender is carried by said element in a movable manner relative to the body.