A chassis component for a wheel suspension, having a strut arrangement with at least one strut which has a profile with an open cross-section. The at least one strut has a profile base and two wall sections which extend away from the base. An end of the strut has an articulation point that receives a first joint component having a spherical joint body and a second joint component which holds the joint body so as to rotate and/or pivot. A first joint accommodation aperture and a second joint accommodation aperture are arranged, in the area of the articulation point, opposite one another. The joint body is positioned via a circular-segment-shaped fastening element arranged on the joint body between the joint accommodation apertures. The joint accommodation apertures and the joint body positioned between them are integrated in a joint housing produced by overmolding, which forms the second joint component.

A stabilizer (1) for a chassis of a vehicle. The stabilizer has a curved stabilizer body (2) that forms a torsion spring, a pendulum support (5, 6) and a connecting element (7, 8). The connecting element (7, 8) connects the stabilizer body (2) and the pendulum support (7, 8) to one another. To reduce the cost and complexity of assembly. The stabilizer is characterized in that a first end (11) of the connecting element (7, 8) is injection-molded onto a pendulum support end (9).

A pressure retaining valve including: a first valve body for an opening of an air spring, the first valve body having an access opening; a second valve body connected to the first valve body and having a chamber fluidly communicating with the access opening and having a side outlet opening; and a return member disposed outside the access opening in the chamber for providing a bias toward the access opening; a closure part disposed in the chamber and movable from a closed condition against the bias to an open condition; and an actuator part having a head portion, a shaft section, and a flow channel, the head portion disposed outside the access opening and having a larger diameter than the access opening, wherein the stem portion is movably disposed through the access opening into the chamber, and the actuator member can move the closure member out of the closed condition.

A bumper cap for a damper, the damper including an outer tube with a tube end. A rod extending through the tube end. The damper including a damping fluid, such as a hydraulic oil, that is movable within the damper in response to movement of the rod to provide a damping effect. The bumper cap has a cup shaped body having a side wall and a base, the side wall having an inner surface and an outer surface, the inner surface having a dimension that is sized to be press fit over the outer tube. The base of the bumper cap has a through hole in the base, the through hole configured to have the rod pass therethrough. The base has at least one fluid passage extending away from the through hole that is in fluid communication with a fluid reservoir in the side wall.

A coupling rod for the articulated connection of chassis components. The coupling rod has two joint sockets which are connected to one another along a longitudinal axis by a strut structure. The strut structure has two parallel outer struts connected to one another by a plurality of transverse struts. To provide a coupling rod that has a maximum buckling resistance and tensile strength while taking up the least possible fitting space, relative to the longitudinal axis, the transverse struts make an angle of 45°±10°. A central wall is arranged perpendicularly to the outer struts and connects the outer struts to one another.

A chassis control arm for a wheel suspension has a control arm body, a spring abutment and an actuator which is arranged between the control arm body and the spring abutment and with which the position of the spring abutment relative to the control arm body can be adjusted. The actuator comprises a lifting gear which is configured as a movement thread and which includes a lifting spindle on which the spring abutment is arranged or on which the spring abutment is axially movably mounted.

Motor vehicle control arm (1) comprising two profiles (2, 3) made from a metallic material, which are arranged at a distance opposite each other, and are connected to at least one plastic element (11) made from a fiber-reinforced plastic, wherein a plastic element (11) is designed in particular as a spring seat, which is designed to accommodate a motor vehicle spring. Such a motor vehicle control arm (1) is optimized with respect to weight and costs.

A control arm including a frame, a mounting structure on the frame, and a ball-and-socket joint on the frame. The ball-and-socket joint includes an insert formed of a resilient plastic material bonded in a complementary receptacle or socket of the frame. A ball portion of a ball-and-socket joint pin is rotatably arranged in the insert. A plastic material coating is provided on the ball portion and a metal coating is provided on the plastic material coating. When placed in the insert the metal coating of the ball portion contacts an inner surface of the insert.

A hydraulic mount is provided and includes: an inner core, a cage that surrounds the inner core, an elastomer body that extends between the inner core and the cage and elastically connects them to each other, and an outer sleeve that encloses the cage. The elastomer body has a first circumferential fluid chamber recess and a second circumferential fluid chamber recess. The first fluid chamber recess and the second fluid chamber recess are each limited in a radially outwards direction by the outer sleeve to form a first fluid chamber and a second fluid chamber. The elastomer body is configured to be substantially undercut-free in an axial direction on its axial end faces. The elastomer body and the cage are configured to be substantially undercut-free in the region of the first fluid chamber recess and the second fluid chamber recess, at least in two predetermined, mutually opposite radial directions.

An antisway system for a vehicle comprises a stabiliser bar, two elastic bushings, and two mounting devices. Each of the two mounting devices includes a pair of mounting brackets for mounting each of the elastic bushings to a body of the vehicle. Each of the two elastic bushings encloses the stabiliser bar and is molded of an elastomeric material and directly mold bonded to the stabiliser bar and to both mounting brackets of the respective mounting device. The two mounting brackets of each mounting device are arranged at a first distance across the stabiliser bar, when the two elastic bushings are in a radially uncompressed state as molded, and at a second distance across the stabiliser bar, that is smaller than the first distance, when the two elastic bushings are in a radially pre-compressed state as mounted to the body of the vehicle.