A crash assembly having a crash strut for a wheel of a motor vehicle, which is connected to a tie rod assembly that has at least one tie rod strut. The tie rod strut is connected to a first end of the crash strut via at least one tie rod-side connection module. A second end of the crash strut is connected to a body of the motor vehicle via a body-side connection module.

The invention relates to a vehicle axle for a motor vehicle. Two wheel carriers, each guided on an axle guide and pivotable by a tie rod, each having a wheel brake. At least one air deflection element per wheel brake, which deflects a travel air flow in the direction of the wheel brake for brake cooling. The air deflection element is fastened on the wheel carrier, on an axle guide, or on the tie rod. A stabilizer for reducing rolling movements of the motor vehicle. The stabilizer includes protective elements arranged in the area of the air deflection elements, which prevent direct striking of the air deflection elements on the stabilizer during steering and/or spring movements.

A wheel support or a pivot bearing of a vehicle includes a receiving molding for a ball-joint pin of a track rod for changing the toe angle of a wheel rotatably secured to the wheel support or pivot bearing. The receiving molding is provided with an elastomer layer which lies at least partly in a force transmission path from the ball-joint pin to the wheel support or pivot bearing. The elasticity or possible elastic deformability of the elastomer layer is lower in the receiving molding sections via which a greater force component is transmitted, in particular in the range of smaller track angles, when the track rod is moved in order to steer the wheel than in receiving molding sections via which a smaller force component or no force component is transmitted when the track rod is moved in order to steer the wheel.

The disclosure provides a steering system for a vehicle. The steering system includes a wheel having an inner surface and an outer surface, and a tire mounted thereon. The steering system includes a wheel support including an upper arm and a lower arm that rotatably support the wheel. At least one of the upper arm and the lower arm includes a curved member positioned to contact the inner surface of the wheel when the wheel is at a maximum steering angle. The steering system includes a steering rack and a tie rod coupled between the steering rack and the wheel support. The steering system also includes a compressible stopper coupled between the tie rod and the steering rack. The stopper is configured to compress as the wheel is turned toward the maximum steering angle and when the tie rod is moved past the maximum steering angle.

An autonomous tilting three-wheeled vehicle comprises a pair of front wheels coupled to a tiltable chassis by a mechanical linkage, such that the pair of wheels and the chassis are configured to tilt in unison with respect to a roll axis of the chassis. An electronic controller of the autonomous vehicle controls a tilt actuator to selectively tilt the chassis. Optionally, a steering actuator is coupled to the front wheels and controlled by the electronic controller to selectively steer the wheels. A sensor configured to measure orientation-dependent information may be coupled to the chassis by a gimbal configured to compensate for vehicle tilt. In some examples, the autonomous vehicle comprises an autonomous delivery robot.

A centering member including a first section configured and arranged to produce a pulling force along a longitudinal axis thereof and a second section configured and arranged to produce a pushing force along a longitudinal axis thereof, wherein the first section and the second section are configured and arranged such that the longitudinal axis of the first section is aligned with the longitudinal axis of the second section. There is a first mounting means attached to a first distal end of the centering stabilizer and a second mounting means attached to a second distal end of the centering stabilizer Preferably, the first section comprises a gas push-type spring and the second section comprises a gas traction spring.

A flexing tie rod assembly has a steel cable having a diameter and a length, metal cable ends joined rigidly to opposite ends of the steel cable, the cable ends adapted to join to adaptive tie rod ends, a steel coil spring surrounding the cable for full length of the cable between the metal cable ends, and a polymer casement enclosing the cable and coil spring from metal cable end to opposite metal cable end. The strength characteristics of the cable, the coil spring and the polymer casement result in a compressive force rating below which the tie rod assembly stays straight under linear compression, and above which the tie rod assembly buckles to some degree without relative rotation of the cable ends.

A combination of components forming a steering stabilizer mounting assembly including a stabilizer, a bracket shim, an independent hollow tubular housing with a fixedly attached base washer, and nuts and bolts to fasten the components into place.

An assembly includes a housing and a steering rack supported by the housing. The assembly includes a plug supported by the housing. The assembly includes a yoke supported by the housing between the steering rack and the plug. The assembly includes a monolithic dampener between the plug and the yoke, the monolithic dampener extending away from the plug toward the steering rack along the yoke.

A stabilizer comprises a damper having a housing and a piston rod. An inner adapter is associated with the damper for securing a first end of the damper to one of a first component or a second component. An outer adapter assembly is coupled to a distal end of the piston rod for coupling to the other of the first and second component. A one-piece spring seat is coupled to the housing of the damper so as to be held axially stationary relative to the housing. A coil spring is supported by the one-piece spring seat and the outer adapter assembly. The one-piece spring seat enables the coil spring to return the stabilizer to a neutral position regardless of whether the coil spring is under tension or compression.