The present invention discloses an air spring comprising a piston, a top plate, a clamp ring, a snap ring, and a flexible member which is affixed to the piston and the top plate, wherein the piston, the top plate and the flexible member define a pressurizable chamber, wherein the snap ring is affixed to the clamp ring, wherein the clamp ring affixes an upper portion of the flexible member to the top plate, wherein the clamp ring affixes the snap ring to the top plate, and wherein the top plate is affixed between the snap ring and the flexible member.

A damper including a damper tube, a piston assembly, a piston rod attached to the piston assembly, and a monolithic base. The piston assembly is slidingly disposed within the damper tube. The monolithic base includes a closed end, an open end, a base portion at the closed end, and a wall portion. The base portion is joined to and seals one end of the damper tube. The base portion includes a concave depression that tapers inwardly from a base portion perimeter to a cup bottom. The wall portion extends longitudinally from the base portion perimeter to the open end such that the cup bottom is positioned between opposing sides of the wall portion. Integrally formed fastening eyes are provided in the opposing sides of the wall portion.

A suspension system for a vehicle includes: a composite leaf spring having a protective member which covers an outer surface of the composite leaf spring; and an abrasion-preventing pad coupled to the composite leaf spring and shielding. The protective member and the abrasion-preventing pad are disposed at a portion of the composite leaf spring to which a U-bolt is mounted.

The present disclosure provides a transverse link for a wheel suspension of a vehicle that includes at least one wheel-side attachment structure and at least one structure-side attachment structure. The wheel-side and structure-side structures are connected to each other by a connection structure which extends therebetween. The connection structure and/or at least one of the attachment structures is/are produced by a generative production method. At least one of the attachment structures is constructed as a generatively produced bushing which has an inner sleeve and an outer sleeve surrounding the inner sleeve. The sleeves are connected to each other by a fold-like structure. The present disclosure further provides a method for producing such a transverse link.

To provide a lubricant composition for shock absorbers, a friction adjusting additive for a lubricant for shock absorbers, and a lubricant additive, each capable of satisfying both operational stability and ride comfort and improving the ride comfort further. The lubricant composition for shock absorbers contains a base oil and a friction adjusting agent and the friction adjusting agent contains a first zinc dithiophosphate represented by the following formula 1: ##STR00001##
[in the formula 1, R.sup.11 to R.sup.14 are alkyl groups in which one or more and three or less is/are a primary alkyl group and the other(s) is/are a secondary alkyl group].

The present disclosure provides a hybrid suspension arm for a vehicle, the hybrid suspension arm having the strength required for a vehicle while being lightweight and having excellent durability. The hybrid suspension arm for a vehicle according to one embodiment of the present disclosure comprises: an arm body comprising aluminum; and an insert molding part made of plastic material which is insert-molded on the arm body and coupled thereto.

A mounting device with an anti-rotation feature is provided. The mounting device includes a base including a cavity adapted to receive a portion of a shock absorber assembly. The base provides for movement of the shock absorber assembly relative to a vehicle body in at least one degree of freedom. The base substantially prevents movement of the shock absorber assembly relative to the vehicle body in at least another degree of freedom. The mounting device includes a pin integrated with the base on a side distal from the cavity. The pin is substantially parallel to an axis of the shock absorber assembly. The pin is adapted to engagingly couple to one or more cushions and a vehicle frame.

A hybrid arm according to an embodiment of the present disclosure may include: a first body made of a metal material and formed with a plurality of end portions; a second body formed so as to fill an inner side of the first body by being insert-injection-molded to the first body; and a ball joint formed integrally at a first end portion among the plurality of end portions of the first body. The ball joint may include: a reinforcement member coupled to the first end portion; a bearing member formed with a space therein; a ball stud including a ball rotatably inserted into the space of the bearing member and a rod extending upward of the ball; and a housing interposed between the reinforcement member and the bearing member and formed integrally with the second body.

The invention relates to a chassis suspension component with a bracket made from a formable base material, preferably sheet steel, and comprising at least one slot for receiving a connecting bolt and at least one stop for an eccentric disc which is or can be connected rotationally fixedly to the connecting bolt. In order to be able to produce the eccentric stop process-reliably and economically without the risk of crack formation, the invention proposes to provide a tab formed from the base material and folded relative to a body portion of the suspension component and having a recess surrounding the slot, which recess defines two elongate stop faces running parallel to each other, wherein the stop faces serve as a stop for the eccentric disc. The invention also relates to a method for producing a chassis suspension component.

A hydraulic life actuator for adjusting a height of a vehicle includes: a damper tube including a closed end; a damper rod protruding from the damper tube opposite the closed end; a sliding spring seat disposed annularly around the damper tube and configured to engage a coil spring; a support collar disposed annularly around the damper tube and fixed to the sliding spring seat, wherein the support collar is configured to translate axially relative to the damper tube; a lifting bracket connected to the support collar and protruding radially from the support collar; and a hydraulic cylinder disposed adjacent and parallel to the damper tube and having a lift piston rod disposed extending outwardly therefrom, wherein the lift piston rod is connected to the lifting bracket and configured to actuate the sliding spring seat between a retracted position and an extended position spaced apart from the closed end.