The invention relates to a chassis component having a base face which extends in a base face plane and an aperture for the introduction of a fixing means and two retention elements which are arranged at opposite sides of the aperture for retaining an eccentric element, wherein the retention elements are formed integrally and in a materially engaging manner from the base face of the chassis component, wherein the retention elements are displaced out of the base face by mechanical processing. The chassis component affords a simple ability to be produced and an increased service life during operation.

A vehicle steering system includes: actuators, respectively provided for wheels, for changing toe angles of the wheels; lock devices, respectively provided for the wheels, for restricting changes in the toe angles of the wheels; and a control device for controlling the actuators and the lock devices. For each lock device, the control device at a time performs an individual unlocking operation of unlocking the lock device, and a lock relaxation operation of relaxing a locked state of the lock device.

A bushing for an independent suspension assembly, said suspension assembly being adapted to pivot relative to a trailer or a vehicle frame, the bushing comprising: a sleeve body having a substantially cylindrical outer surface for engaging the suspension assembly; and an inner bore of the sleeve body extending along a first longitudinal axis, said first axis being eccentrically disposed with respect to a second longitudinal axis of the cylindrical outer surface; wherein during use the bore is adapted for engaging a spindle and allowing the suspension assembly to pivot relative to the spindle.

A method for producing a mounting arrangement for a link of a motor vehicle suspension that is or can be pivotably mounted on a subframe of the motor vehicle, having the following steps: providing the subframe, which has a first and a second mounting flange for mounting the link; providing at least one intermediate product of a bracket; integrally joining the intermediate product to a mounting flange of the subframe by welding; forming an elongated hole in the intermediate product by punching of the same; and forming at least one stop on the intermediate product for an adjusting eccentric for chassis adjustment by stamping the intermediate product.

An independent wheel suspension of a rear wheel of a motor vehicle, includes a control arm and a controllable actuator. The control arm is able to be articulated to a chassis of the motor vehicle and is able to be connected to a wheel carrier. The actuator is able to be fastened to the chassis and is able to be operatively connected to a front outer end of the control arm. According to the disclosure, when the actuator is controlled, said actuator is provided to carry out a length alteration which is substantially aligned in a direction parallel to a straight-ahead direction of travel.

A lock mechanism is provided in an actuator capable of changing a toe angle of a wheel by rotational drive of a motor and adapted to lock operation of the actuator when the rotational drive of the motor is stopped. The lock mechanism includes a casing secured to a housing of the actuator, an input-side shaft connected to a motor shaft of the motor and rotatably held in the casing, an output-side shaft to which rotational torque is transmitted from the input-side shaft, and an engaging part. The engaging part includes a pair of friction members displaceably provided along a guide groove, a claw part having an acute shape in cross section and a side end part which are provided on the input-side shaft, an abutting part provided on each friction member, and a coil spring for urging each friction member.

A turning mechanism is equipped with a wire (first movable member) which moves in a movable direction (direction of the arrow B) under the motive power of a turning actuator, a wire (second movable member) which moves in a movable direction under the motive power of a turning actuator, and a coupler connecting the two wires. The coupler is configured in a manner so that the wires are capable of being moved independently in the case that a difference (differential angle) between the toe angles of the rear wheels lies within an allowable range, whereas in the case that the differential angle has exceeded the allowable range, is configured in a manner so that the wires are capable of being operated in a mutually interlocked manner.

An off-road vehicle includes a frame, a front suspension, and a rear suspension. In some examples of the off-road vehicle, the rear suspension includes trailing arms with are pivotally attached to the frame rearward of an operator area. Further, the frame can include a front subframe assembly and a rear subframe assembly which are easily removable from the main frame of the vehicle to permit access to various components of the off-road vehicle.

An adjustment unit including a bearing having an inner core formed with a passage extending in the longitudinal direction of the inner core. A spacing element is arranged in the passage, which spacing element has an opening for receiving a bearing pin, the opening extends along a longitudinal axis which defines the attachment axis of the bearing, and the attachment axis and the bearing axis are adjustable relative to one another by adjusting the spacing element. The spacing element is movably arranged in the direction of extension of the passage. When the bearing is installed, the spacing element is axially adjusted along the attachment axis and causes a translational deflection of the inner core transversely to the attachment axis.

A multi-leg control arm for a wheel suspension in a vehicle, includes first and second control arm legs coupling the multi-leg control arm to an axle carrier, and third and fourth control arm legs coupling the multi-leg control arm to a wheel carrier. The first and/or third control arm leg comprises a first elongated hole, and the second and/or fourth control arm leg comprises a second elongated hole. The first and second elongated holes are aligned with one another and define a movement path of the multi-leg control arm with respect to the axle carrier or the wheel carrier. At least one fastening element penetrates the first and second elongated holes and is adapted to fix the multi-leg control arm with respect to the axle carrier or the wheel carrier in a movement position on the movement path to set a control arm camber or a control arm track.