In a rear suspension device of an automotive vehicle, a shock absorber is provided perpendicularly to a H-shaped lower arm in a side view, respective axis of resilient bushes of pivotal portions which pivotally support upper and lower arms at a vehicle-body side are configured to be parallel to a standard line which extends in a vehicle longitudinal direction in a plan view, and an imaginary axial line which interconnects respective centers of front and rear connection portions, via which the lower arm is connected to a wheel side, is configured to extend obliquely forward and inward relatively to the vehicle longitudinal direction.

A vehicle axle suspension having a leaf spring unit suspending a rigid axle on a structural component or portion of the vehicle. The leaf spring unit arranged on the vehicle to extend parallel with a longitudinal axis of the vehicle. A first bearing unit, secured to the structure, and pivotably connects, at a first pivot axis, to a first end portion of the leaf spring unit. A second bearing unit is secured to the structure. A connection arm pivotably connects at one end, at a second pivot axis, to the second bearing unit. The other end of the connection arm pivotably connects, at a third pivot axis, to a second end portion of the leaf spring unit. The second bearing unit including at least one resilient spring element engaging the connection arm wherein the connection arm is supported on the resilient spring element from a pivoting about the second pivot axis a predetermined extent.

A vehicle axle suspension having a leaf spring unit suspending a rigid axle on a structural component or portion of the vehicle. The leaf spring unit arranged on the vehicle to extend parallel with a longitudinal axis of the vehicle. A first bearing unit, secured to the structure, and pivotably connects, at a first pivot axis, to a first end portion of the leaf spring unit. A second bearing unit is secured to the structure. A connection arm pivotably connects at one end, at a second pivot axis, to the second bearing unit. The other end of the connection arm pivotably connects, at a third pivot axis, to a second end portion of the leaf spring unit. The second bearing unit including at least one resilient spring element engaging the connection arm wherein the connection arm is supported on the resilient spring element from a pivoting about the second pivot axis a predetermined extent.

In an embodiment, the present invention provides a stop device for limiting a vertical spring deflection of a motor vehicle leaf spring that is mounted on an axle member, the stop device including: a stop which limits a vertical movement of the leaf spring; a support structure for supporting and mounting the stop on a vehicle support; and a guiding device for receiving and guiding at least one of a cable, a line, and/or a holder. The guiding device is fastened to the support structure.

In an embodiment, the present invention provides a stop device for limiting a vertical spring deflection of a motor vehicle leaf spring that is mounted on an axle member, the stop device including: a stop which limits a vertical movement of the leaf spring; a support structure for supporting and mounting the stop on a vehicle support; and a guiding device for receiving and guiding at least one of a cable, a line, and/or a holder. The guiding device is fastened to the support structure.

The present disclosure relates to a hybrid lower arm including: a metal member including a plurality of end portions, one end portion of the plurality of end portions being connected to a ball joint and another end portion of the plurality of end portions being connected to a vehicular body; a face portion extending downwards along an edge of the metal member between the one end portion and the another end portion; and a guard member configured to surround a portion of the face portion and formed of a material lighter than the metal member.

A leveling system for a lift device includes an axle, a pin, a cradle, and a chassis. The axle is configured to rotatably couple with one or more tractive elements. The pin extends through a bore of the axle. The cradle is pivotally coupled with the pin. The chassis is pivotally coupled with the pin and includes a first actuator and a second actuator. The first actuator and the second actuator each include a body and a rod configured to extend relative to the body. The rods of the first actuator and the second actuator are configured to be extended to engage corresponding surfaces on opposite sides of the cradle. The cradle and the chassis are configured to rock in unison a limited angular amount relative to the axle.

A wheel suspension for a vehicle axle, in particular a front axle, of a two-track vehicle includes a wheel carrier configured to support a vehicle wheel, and a link assembly configured to articulate the wheel carrier to a vehicle body. The link assembly includes at least one two-point link articulated on a side of the wheel carrier to the wheel carrier at a first mounting point and on a side of the vehicle body to the vehicle body at a second mounting point. The two-point link executes a pivotal movement in the event of a head-on collision to enable a collision-proximal vehicle wheel to move backwards. The two-point link includes a stop member to limit the pivotal movement in the event of the head-on collision, by impacting a body-side counterpiece, thereby forming a body-side third mounting point to block and counteract the pivotal movement of the two-point link.

A wheel suspension for a vehicle axle, in particular a front axle, of a two-track vehicle includes a wheel carrier configured to support a vehicle wheel, and a link assembly configured to articulate the wheel carrier to a vehicle body. The link assembly includes at least one two-point link articulated on a side of the wheel carrier to the wheel carrier at a first mounting point and on a side of the vehicle body to the vehicle body at a second mounting point. The two-point link executes a pivotal movement in the event of a head-on collision to enable a collision-proximal vehicle wheel to move backwards. The two-point link includes a stop member to limit the pivotal movement in the event of the head-on collision, by impacting a body-side counterpiece, thereby forming a body-side third mounting point to block and counteract the pivotal movement of the two-point link.

The present invention relates to a stopper (10) for vehicle which is disposed between a vehicle body side member (31) and a wheel side member (32) to restrict a relative amount of movement of both members (31, 32). The stopper includes a cylindrical holding member (11) attached to one of both members (31, 32), and an elastic body (12) which faces the other of both members (31, 32). A folded-back portion (18) bent outward in the radial direction of the holding member (11) and folded back is formed in the holding member (11).