A cover system for a damper includes an outer tube and a piston rod extending from an end of the outer tube. The cover system also includes a dust tube disposed around a portion of the outer tube. The dust tube includes a first end located proximal to the end of the outer tube and a second end opposite to the first end. The dust tube at least partially encloses the piston rod. The cover system further includes a cap connected to the outer tube. The cap is adapted to at least partially cover the first end of the dust tube.

A strut assembly for a vehicle may include an insulator part connected to a vehicle body, a piston rod coupled to the insulator part, a damper cylinder coupled with the piston rod and having an operating fluid accommodated therein, a strike cap coupled to the upper portion of the damper cylinder, and a sliding part formed on the side surface of the strike cap. In the strut assembly, a dust cover is coupled to the sliding part. In addition, the sliding part includes one or more side surface holes formed on the side surface of the strike cap, a sliding protrusion coupled with the dust cover and mounted in each of the side surface holes, and a guide part formed in each of the side surface holes for restraining the sliding protrusion.

A shock absorber for damping movement of a wheel suspension system of a vehicle can include a damper tube, a piston, a damping adjustment assembly, and a protective cover. The damper tube can contain a fluid. The piston can be located in the damper tube so as to accommodate relative movement between the damper tube and the piston. The damping adjustment assembly can be connected to the damper tube, and can include a reservoir, a solenoid valve, and a wire harness connection. The solenoid valve can be in fluid communication with each of the reservoir and the damper tube and configured to selectively open and close fluid communication between the reservoir and the damper tube. The wire harness connection can be in electrical communication with the solenoid valve. The protective cover can contain the wire harness connection.

A protection device of a vehicle suspension device includes a vehicle body frame, a wheel, a knuckle that rotatably supports the wheel, a suspension arm that connects the vehicle body frame and the knuckle and is configured to be swingable up and down along with up-and-down movement of the wheel with an end portion attached to the vehicle body frame being a pivot point, a shock absorber that has an upper end attached to the vehicle body frame and a lower end attached to the suspension arm, and is configured to buffer swinging movement in an up-and-down direction of the suspension arm, and an absorber cover attached to the suspension arm and covering a periphery of the shock absorber.

A suspension includes: a cylinder; a piston rod including a piston provided at one end-side, and inserted in the cylinder together with the piston; an outer tube part opened at the one end-side, a position of which relative to the piston rod is fixed at the other end-side, and configured to receive therein at least a part of the cylinder; and a tubular rolling diaphragm having one end disposed at the cylinder and the other end fixed to the outer tube part, and configured to roll in conjunction with displacement of the piston rod with respect to the cylinder. The rolling diaphragm becomes convex toward the other end-side of the outer tube part and is accommodated in the outer tube part, upon contraction of the suspension.

A motor vehicle having: running gear having a chassis and wheel suspensions, which include longitudinal and transverse links for attaching wheels to the chassis; a body having an underfloor and/or an underfloor paneling, the underfloor and/or the underfloor paneling exposing the links; paneling for the links having a recess for air to cool a brake; and a flow guide upstream of a respective paneling. The flow guide is connected to the underfloor or to underfloor paneling and which, together with the respective paneling, divides up the air flow into: a first air flow, which can be fed, upstream of the recess, via a first flow channel of the respective paneling to a first region of the brake, and into a second air flow, which can be fed via the recess of the respective paneling and a second flow channel of the respective paneling to a second region of the brake.

A wear sleeve for a shock body is disclosed. The wear sleeve inner diameter (ID) that is larger than an outer diameter (OD) of a shock body. A wear sleeve OD that is smaller than a spring coupler ID, such that the wear sleeve will fit about the outside of said shock body and between the shock body and the spring coupler.

A wheel support for a motor vehicle, including a main part and a track lever extending from the main part for attaching a track rod via a track rod joint, wherein the track rod joint is fixed or can be fixed to the track lever at an attachment point by a pin on one side of the track lever. A holding protrusion which covers the attachment point forms a securing means for the track rod on the wheel support. The disclosure additionally relates to a method for mounting a wheel support for a motor vehicle.

A method for making an air spring assembly, including the steps of providing a bellow, a support ring, and a guide tube. The support ring is positioned relative to a bellow adapter such that a portion of the bellow adapter extends through the support ring. The bellow is then positioned such that a portion of the bellow extends over the support ring and a portion of the bellow adapter. The guide tube is then positioned relative to the bellow and the support ring, such that a portion of the bellow extends into the guide tube and the guide tube is supported by the bellow adapter, and a portion of the guide tube is supported by a ridge support fixture. The first clamp and second clamp are then moved towards the guide tube, applying force to the guide tube, simultaneously forming a first crimp and a second crimp.

The present invention provides reinforcing braces that may be attached to the factory-supplied chassis mounts for the lower control arms of the steering knuckles of vehicles to reinforce and shield the mounts from objects below the vehicle that may be encountered when traveling through rugged terrain. The braces of the present invention are designed for the front and rear control arm mounts, each brace including a pair of parallel sturdy metal flanges that are generally perpendicularly attached to a sturdy metal lower base plate. Each flange is designed to be attached to one of the parallel flanges of the factory-supplied chassis mounts, and has a generally U-shaped opening therein for receiving mounting hardware and strengthening of the camber adjustment tabs. The sturdy metal lower base plates may extend out and away from the flanges of the brackets to provide a lower shield to protect the chassis and mounting hardware from damage that may occur from contact with large objects that may be encountered below the vehicle. The front base plate may include an elongated section that extends toward the front of the vehicle to provide a shield for deflecting large objects as the vehicle moves forward.