A motor vehicle multi-link axle having wheel suspension including a lower transverse link and an upper transverse link. A leaf spring extending transversely to a direction of travel of the vehicle and below the upper transverse link. A link element connects an end of the leaf spring to the upper transverse link. The link element having a first connection, connected to the upper transverse link, and a second connection, connected to the leaf spring. The link element adjustable to vary the distance between the first connection and the second connection. The multi-link axle may also include a connecting element that connects the second connection point of the link element to a connection point of the leaf spring, with the connecting adjustable to vary the distance between the second connection point of the link element and the connection point of the connecting element to the leaf spring.

A pivot bearing, especially for a double wishbone axle for steerable wheels, especially front wheels, of a motor vehicle, in one embodiment is made as a one-piece cast part with a seat or recess for accommodation of a wheel bearing and seats or recesses for fastening of the same on the pivot bearing, two seats or recesses for linking of a brake caliper which are disposed substantially vertically with distance from one another, a seat or recess for linking of a track rod, a seat or recess for linking of a lower wishbone, a seat or recess for linking of a connecting rod, which substantially absorbs the longitudinal forces of the wheel, and a seat or recess for linking of an upper wishbone which is connected with the seat or recess for accommodation of the wheel bearing via a neck-like portion starting from same.

A rod-end front suspension is provided for an off-road vehicle. The rod-end front suspension comprises a spindle assembly that is pivotally coupled with an upper suspension arm by way of a first rod-end joint and pivotally coupled with a lower suspension arm by way of a second rod-end joint. A steering rod-end joint coupled with the spindle assembly pivotally receives a steering rod. An axle assembly coupled with the spindle assembly conducts torque from a transaxle to a wheel coupled with the spindle assembly. Each of the first and second rod-end joints comprises a ball rotatably retained within a casing. The ball is fastened within a recess between parallel prongs extending from the spindle assembly. A threaded shank extending from the casing is threadably fixated with the suspension arm, such that the spindle assembly may be moved with respect to the casing and the suspension arm.

A frame for an off road vehicle includes main beams establishing a base plane. Mounting beams, which can be used to support forces from the swing arm of a rear suspension, are spaced outside the main beams and within the base plane, running longitudinally in line with the swing arms of the rear suspension. Right and left longitudinal beams start within the base plane, but rise to their trailing ends so as to not interfere with the suspension travel of the swing arms as they extend back inward over the swing arms. Front and rear support columns can further attach into, secure and support the mounting beams and the longitudinal beams. All of the beams and columns can be formed by cutting cylindrical tubing to length and then curving the cylindrical tubing, each piece within a single plane.

The present invention relates to all terrain vehicles having at least a pair of laterally spaced apart seating surfaces.

A vehicle suspension comprises an assembly of a hub carrier and a support arm, the support arm being attached to the hub carrier at two points spaced from each other in the direction of travel and extending inwardly therefrom to a support arm attachment point for fixing to a chassis, and a trailing link extending from the assembly in a direction transverse to that of the support arm, toward a trailing link attachment point for fixing to the chassis. The trailing link preferably extends from the assembly in a forward direction, and is preferably connected directly to the hub carrier. A strut can extend upwardly toward an attachment point for fixing to a chassis, to provide a spring and damper. The support arm can comprise a pair of arms extending divergently from the attachment point to each of the two points. A toe control link extends generally parallel to but spaced from the rear arm, linking the hub carrier to the chassis to provide geometry control under high load conditions. The invention further relates to a vehicle, comprising a chassis and at least two wheels, one on each side of the vehicle, each wheel being attached to the chassis via such a suspension.

A suspension device for a vehicle of the present invention comprises a knuckle supporting a wheel, an upper arm vertically rotatably connected to a vehicle body and pivotally supporting an upper portion of the knuckle, a lower arm provided below the upper arm and vertically rotatably connected to the vehicle body, and a coupling rod coupling the upper arm and the lower arm, wherein the coupling rod is configured to slant in a vehicle longitudinal direction and be rotatably connected to the upper arm and the lower arm, respectively.

A wheel suspension (1) for a motor vehicle, having a wheel carrier (3) which is mounted so that the wheel carrier (3) can pivot relative to a wheel-guiding control arm (4) that includes a longitudinal control arm section (4a), with a forward body-side bearing (11), and a transverse control arm section (4b), with a rear body-side bearing (12). The rear body-side bearing (12) is axially orientated parallel to a rotational axis (20) of the wheel-guiding control arm (4) that extends through the body-side bearings (11, 12).

A component connection for a wheel suspension of a motor vehicle, with a control arm having a mounting, in particular a rubber mounting, at least at one of its ends. An inner sleeve and a connection component, in particular a wheel carrier, are fixed to one another by a fixing element. The fixing element presses a first contact surface of the inner sleeve, in the axial direction, toward the connection component against an abutment surface of the connection component. The connection component has a supporting surface against which a second contact surface of the inner sleeve rests. Furthermore, the supporting surface is inclined relative to the abutment surface in such a manner that transverse forces occurring, in the radial direction in the area of the mounting, can be supported.

An outdoor power equipment unit having a frame including at least one laterally-extending structural member and at least a pair of opposite, longitudinally-extending side structural members, a first front wheel assembly, and a second front wheel assembly. The unit also includes a first pair of substantially parallel, laterally-extending suspension arms pivotally coupled to the first front wheel assembly to form a first 4-bar linkage arrangement, and a second pair of substantially parallel, laterally-extending suspension arms pivotally coupled to the second front wheel assembly to form a second 4-bar linkage arrangement. The unit further includes at least one longitudinally-extending first side suspension arm coupled to the first front wheel assembly and to a first one of the longitudinally-extending side structural members, and at least one longitudinally-extending second side suspension arm coupled to the second front wheel assembly and to a second one of the longitudinally-extending side structural members.