A joint fork (1) for connection to a joint. The joint fork having two side plates (2a, 3) that are arranged approximately parallel with one another, and each having a side plate surface (F1, F2). A web (2b) connects the side plates (2a, 3) with one another. A fixing bore (6) is arranged in the web (2b) and has a longitudinal axis (a). The joint forks (1) are coupled to an actuator. The side plate surfaces (F1, F2) form, with the longitudinal axis (a), an angle of inclination (α) and the angle of inclination (α) is in the range from 20° to 70°, in particular around 30°. The actuator is fitted with the joint forks (1).

An apparatus is described for interconnecting a steering knuckle and lower suspension arm. The apparatus includes a ball joint assembly having a height adjustment feature and a non-concentric ball and shaft that together allow for increased range of camber adjustment.

This disclosure is directed towards a chassis system and more particularly to a spindle cross member for the chassis system which is suitable for an articulated vehicle. At least one of the cross members of the chassis system is spindle cross member comprising a main member, having a middle section and tubular end sections. The middle section has an at least partially curved middle section wall which defines a cavity with an opening for receiving a head of a suspension frame of the chassis system. The tubular end sections are located at each end of the middle section located along a longitudinal axis of the spindle cross member. The spindle cross member further comprises means for pivotally attaching the head of the suspension frame to the middle section wall within the cavity.

A suspension assembly for a vehicle may have a first end for pivotal mounting to a structural member of the vehicle and a second end opposite the first end for attachment of a damping arrangement and a stub axle. The suspension assembly may include first and second shell components that are welded together to form a substantially hollow body between the first and second ends.

An independently driving wheel module includes: a base frame including an upper end fixed to a coupling surface of a vehicle body, and a rotation part coupled to the upper end of the base frame such that the rotation part is rotatable with respect to the upper end of the base frame; a connection link including a first end integrally coupled to the rotation part, and a second end having a shape extending downward from the first end of the connection link; a driving wheel disposed at a side of the second end of the connection link and coupled to the second end of the connection link; and a rotation plate including an upper and lower surfaces extending obliquely in misaligned directions, the rotation plate being interposed between the base frame and the vehicle body so as to be rotatable with respect to the base frame or the vehicle body.

A structural arrangement for a vehicle includes a vehicle frame including a first frame member and a second frame member coupled to the first frame member. The vehicle frame extends along a vehicle body axis. The vehicle frame includes a suspension component including a control arm, a bushing, a bolt coupling the suspension component to the second frame member, and a load member coupled to the first frame member at a first attachment point and coupled to the second frame member at a second attachment point. The load member extends generally longitudinally along the vehicle body axis. The suspension component is coupled to the second frame member at the second attachment point and is detachable from the second frame member upon application of a load to the vehicle due to an impact event.

An axle assembly that includes first and second hanger brackets and at least one cross brace. The first and second hanger brackets may be spaced apart from each other and may be adapted to be mounted to a chassis of a vehicle. The cross brace may extend from the first hanger bracket to the second hanger bracket.

A front frame assembly for a motor vehicle includes a suspension attachment structure fixable to a body cell, one or more attachment elements fixed relative to the suspension attachment structure to allow a suspension of the motor vehicle to be coupled to the suspension attachment structure, and an absorption element to absorb a front crash of the motor vehicle, the absorption element being fixed relative to the suspension attachment structure and extending in a projecting manner relative to the suspension attachment structure along a first straight axis until ending with one end opposite the suspension attachment structure, wherein the assembly comprises a channel extending with continuity through the absorption element and the suspension attachment structure between an inlet opening obtained at the end along the first axis and an outlet opening obtained in the suspension attachment structure along a second axis transversal to the first axis.

A subframe assembly for a vehicle and a method for manufacturing the same is disclosed. The subframe assembly includes a crossmember, a straight arm, and a side bracket. The crossmember includes an end bracket disposed at an end thereof. The straight arm is received into and metallurgically bonded to the end bracket of the crossmember. The side bracket includes a base, and a rear bracket arm. The base is metallurgically bonded to a side of the straight arm adjacent to the end of the crossmember. The rear bracket arm extends from an end of the base and defines a hole adapted to receive a screw or pin for connecting a control arm of a wheel suspension to the subframe assembly. The rear bracket arm is at least partially received into and metallurgically bonded to the end bracket of the crossmember.

A bearing device for mounting an axle guide for commercial vehicles includes a first connector which has an axial direction of extension, and a first axial centre in the axial direction of extension, a damping unit, having an outwardly peripheral retaining surface, and a second connector being fixed to the retaining surface, wherein the second connector extends along the axial direction of extension, wherein the second connector has a boundary surface on which an axle guide can be fixed, wherein the boundary surface has a second axial centre in the axial direction of extension, and wherein the first and the second axial centre are offset from each other along a vector of the axial direction of extension.