A vehicle includes a vehicle frame and a suspension arm. A bushing is connected to the suspension arm. A lever extends through the bushing. A fastener is fastened to the lever and the vehicle frame. When the lever is impacted by a rigid barrier of a small-offset rigid-barrier (SORB) frontal impact test, the lever breaks the fastener and allows the lever, the bushing, and the suspension arm to release from the vehicle frame.

A cargo vehicle includes a composite floor assembly configured to support cargo, at least one wheel assembly configured to transport the cargo on the composite floor assembly, a suspension assembly associated with the at least one wheel assembly, and an intermediate adapter assembly. The intermediate adapter assembly is permanently coupled to the composite floor assembly and removably coupled to the suspension assembly such that the composite floor assembly is removably coupled to the suspension assembly.

A bushing for use in an axle/suspension system of a heavy-duty vehicle. A beam supports an axle for pivotal movement with a hanger of the heavy-duty vehicle at a pivot connection. A bumper is fixed to the beam and contacts an engagement member of the heavy-duty vehicle to limit the relative pivotal movement of the beam and axle in one direction. A force is applied to the pivot connection in a force application direction that is angularly spaced from horizontal and vertical planes. The pivot connection includes a bushing to connect the beam and the hanger. The bushing includes an elastomeric bushing body with at least one void for decreasing rigidity of the bushing body in a substantially vertical direction. The one void is located in the bushing body angularly spaced from the force application direction. The bushing body is substantially solid along the force application direction.

A vehicle includes a vehicle frame and a suspension arm. A bushing is connected to the suspension arm. A lever extends through the bushing. A fastener is fastened to the lever and the vehicle frame. When the lever is impacted by a rigid barrier of a small-offset rigid-barrier (SORB) frontal impact test, the lever breaks the fastener and allows the lever, the bushing, and the suspension arm to release from the vehicle frame.

A powered vehicle suspension assembly includes a mounting bracket configured to be attached to a powered vehicle frame rail, a trailing arm assembly including a substantially rigid trailing arm having a first end pivotably coupled with the mounting bracket and a second end, where the trailing arm assembly is configured to operably couple with a powered vehicle axle arrangement, a spring arrangement supported by the second end of the trailing arm, and a structural reinforcement cross-member configured to extend between and couple with a pair of powered vehicle frame rails.

A motor vehicle includes a bodywork structural element and a running gear, such as a vehicle back end, that includes at least one arm. The at least one arm includes a top attachment end that is received in a sheet metal clevis supported on a bottom surface of a floor of the bodywork structural element. The attachment end includes at least one transverse tubular sleeve that is received with reduced play between two parallel flanks of the clevis, and an attachment screw capable of passing through two coaxial bores of both flanks and the transverse tubular sleeve to enable attachment of the attachment end into the clevis. The clevis guides the attachment end into a position for aligning the bores of the flanks and the sleeve.

The present invention provides a vehicle body structure comprising a left suspension and a right suspension each including an arm member provided under a floor portion of a vehicle body; a left attachment portion configured to attach a vehicle body side end portion of the arm member of the left suspension to the floor portion; a right attachment portion configured to attach a vehicle body side end portion of the arm member of the right suspension to the floor portion; and a seat fixing portion configured to fix, to the floor portion, a seat provided on the floor portion, wherein the seat fixing portion is located between the left attachment portion and the right attachment portion in a vehicle width direction.

A vehicle suspension link device including a link element with a first and a second connection locus, for connection of the link element to a vehicle support structure and to a vehicle axle respectively, and a sensor element for detecting a movement of the link element, the sensor element being attached to the link element at an attachment point located on a virtual straight axis joining the first connection locus and the second connection locus.

A linking device links an aluminum side rail of a vehicle body structure and an end of a control arm that includes a cylindrical linking ring. The device remarkably includes an aluminum casting including an upper surface attached under the side rail, and a side wall from which emerges, perpendicular to an outer side surface, at least one first control arm interface including a pair of tabs separated from one another by an air-gap value greater than the length of the cylindrical ring, in order to set the end of the control arm.

Lift axle systems for use with trucks and other heavy duty vehicles are described herein. In some embodiments, lift axle systems configured in accordance with the present technology include upper and lower control arms on each side of the vehicle that operably couple an axle to a support system attached to the vehicle chassis. The upper control arm has a first end portion pivotally attached to a support system bracket at an upper bracket location, and a second end portion pivotally attached to the axle at an upper axle location. The lower control arm has a first end portion pivotally attached to the support system bracket at a lower bracket location, and a second end portion pivotally attached to the axle at a lower axle location. In some embodiments, the upper and lower bracket locations lie in a vertical plane that extends parallel to the vertical and longitudinal axes of the vehicle, and the upper axle location is spaced apart from the lower axle location in a lateral direction that extends parallel to the lateral axis of the vehicle.