A tubular type torsion beam is manufactured by bending and welding and coupling a plate material. The plate material has a plurality of protrusions disposed on a plurality of side surfaces in a width direction of the vehicle. The torsion beam is manufactured by molding the plate material in a pipe shape by bending the plate material in the width direction and molding the plate material to dispose the plurality of protrusions to contact each other to form a gap between the plurality of side surfaces of the plate material and then welding and coupling the plurality of side surfaces of the plate material.

In a suspension support bracket including a bracket body including a suspension attachment portion configured such that a shock absorber of a suspension device of a vehicle is attached to the suspension attachment portion, the bracket body is constructed of a single metal plate, and thickness dimensions of a region of the suspension attachment portion of the bracket body and a periphery of the suspension attachment portion are larger than a thickness dimension of another region adjacent to the region of the suspension attachment portion and periphery of the suspension attachment portion.

A link for a wheel suspension of a vehicle may include a middle section and two end sections. The end sections may have connecting points for receiving linking and/or joining elements. The object of providing a link that has sufficient stability and rigidity throughout a service life of that link and that can be produced cost-effectively is accomplished at least in part and at least in some cases by way of the middle section of the link being formed from at least two shells. The at least two shells may in some cases have substantially U-shaped cross sections, and the at least two shells may be joined together by integral bonding, force locking, and/or form fitting in a butt joint or a lap joint.

A plate assembly for a motor vehicle may include a first plate, a second arranged substantially parallel to the first plate, the second plate defining a plurality of perforations, and a mesh core including a plurality of wire bundles, the core arranged between the plates, wherein the mesh core is rigidly joined to an inner surface of each plate via the perforations.

An equalizer for a suspension system includes a pivot arm pivotably connected to first and second plates at a pivot point, first and second bump stops connected between the first and second plates on one side of the pivot point, and third and fourth bump stops connected between the first and second plates on the other side of the pivot point. First through fourth shock absorbers are disposed between the pivot arm and the first through fourth bump stops, respectively.

A suspension arm includes a main body. The main body includes a curved portion curved along a longitudinal direction and has a closed section. The main body includes an inner side wall, an outer side wall, a first side wall, and a second side wall. The inner side wall corresponds to an inner side of a curve of the curved portion. The outer side wall corresponds to an outer side of the curve of the curved portion. A thickness of the inner side wall is larger than a thickness of the outer side wall. In sectional view of the main body perpendicular to the longitudinal direction, each of a length of the first side wall and a length of the second side wall is longer than each of a length of the inner side wall and a length of the outer side wall.

The present disclosure provides a hybrid suspension arm for a vehicle, having excellent durability. A hybrid suspension arm for a vehicle according to one embodiment of the present disclosure comprises: a suspension arm body which is made of metal material and comprises a top plate part and two sidewall parts extending downward from the top plate part to be open downward; and an insert molding which is made of plastic material and is formed by being insert-molded in the suspension arm body, wherein a thickness of at least a portion in the portion of the insert molding that comes in contact with the top plate part and the sidewall parts is in the range of 2 mm to 3 mm.

Currently, some work vehicles and/or off-road vehicles come from the manufacturer lacking tow hooksor even a strong point on the rear bumper assembly and/or the chassis to install a tow hook. A non-limiting example of this sort of vehicle is the Toyota Tundra. It is highly desirable for such a vehicle to be able to be towed by another vehicle and/or have connection points for recovery from stuck in a natural hazard like mud or water. A novel and improved sway bar bushing bracket with a tow hook design is disclosed. In particular, the manufacturer-installed sway bar bushing bracket may be replaced with a reinforced sway bar bushing bracket with an integrated tow hook that may serve as a more robust sway bar bushing bracket, as well as providing a strong connection point with a tow hook.

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 vehicle suspension includes at least one anchor bar, at least one axle lift spring, an auxiliary drop-type axle which may be selectively lifted or lowered and a single, integrated support attaching the at least one axle lift spring and the at least one anchor bar to the auxiliary drop-type axle, wherein the single, integrated support provides the only attachment of the at least one axle lift spring and the at least one anchor bar to the auxiliary drop-type axle, and wherein the support includes an open area configured to allow the passage of a cardan.