Electromechanical apparatuses for controlling vehicle suspension settings. Described herein are electromechanical apparatuses for controlling wheel alignment (e.g., camber, castor and/or toe). In particular, described herein are camber adjusting apparatuses for electromechanically adjusting camber or camber and toe that may be retrofitted onto existing vehicle suspensions.

Electromechanical apparatuses for controlling vehicle suspension settings. Described herein are electromechanical apparatuses for controlling wheel alignment (e.g., camber, castor and/or toe). In particular, described herein are camber adjusting apparatuses for electromechanically adjusting camber or camber and toe that may be retrofitted onto existing vehicle suspensions.

A chassis arrangement and method for leveling a vehicle with at least one vibration damper permitting an active height adjustment. The chassis arrangement has a stabilizer having a restoring force that rises with a first slope during a transverse acceleration in a first range up to a first threshold value and has a restoring force which rises with a second slope after the first threshold value in a second range. The second slope is greater than the first slope.

Electromechanical apparatuses for controlling vehicle suspension settings. Described herein are electromechanical apparatuses for controlling wheel alignment (e.g., camber, castor and/or toe). In particular, described herein are camber adjusting apparatuses for electromechanically adjusting camber or camber and toe that may be retrofitted onto existing vehicle suspensions.

An elastic chassis link for a vehicle is disclosed. The elastic chassis link includes a sliding joint having first and second sliding joint rods. The joint rods are movable axially relative to each other in order to change the rigidity of the elastic chassis link. The first sliding joint rod is connected to a piston that is arranged axially and movable axially within a piston space within second sliding joint rod. The piston divides the piston space into two chambers that interact with a damping element, such as fluid, within each chamber.

An articulated joint (1) for the articulated connection of a first chassis component (2) to a second chassis component (3), which includes a joint body (4) with a central axis (m) and a rotational axis (a). A housing (6) holds the joint body (4) such that the joint body (4) can be attached to the first chassis component (2) and the housing (6) can be attached to the second chassis component (3). The rotational axis (a) is positioned eccentrically relative to the central axis (m).

Bearing bushes, for example, for a chassis of a motor vehicle are disclosed. A bearing bush may include a shaft, a hub, and an elastomer element which is arranged radially therebetween. The bearing bush may be configured to be switched between a first and second stiffness levels. The hub may have a main body and a plurality of radially adjustable plungers which are arranged in the main body. The plungers may be configured to engage the elastomer element and change the stiffness of the bearing bush from the first stiffness level to the second stiffness level. The elastomer element may have a plurality of radial elements arranged on the main body and configured to be compressed via a respective plunger in order to increase the stiffness of the bearing bush. An actuator including an electric motor may be configured to radially adjust the plungers in the main body.

Wheel suspension comprising a frame suitable for connection to a body of a vehicle and comprising a first and second wheel which together define a track width, and wherein the first wheel is connected to the frame via a first set of actuators and wherein the second wheel is connected to the frame via a second set of actuators such that by means of operating the actuators the track width is adjustable between a narrow track, characterized in that the first set of actuators overlaps in the transverse direction of the vehicle with the second set of actuators.

Electromechanical apparatuses for controlling vehicle suspension settings. Described herein are electromechanical apparatuses for controlling wheel alignment (e.g., camber, castor and/or toe). In particular, described herein are camber adjusting apparatuses for electromechanically adjusting camber or camber and toe that may be retrofitted onto existing vehicle suspensions.