A leaf spring vehicle suspension system includes a chassis rail and an axle. The suspension system also includes a first stage leaf spring. The suspension system further includes a second stage leaf spring. The suspension system yet further includes a third stage leaf spring operatively coupled at a first end and a second end to the chassis rail, wherein the first stage leaf spring is located below the third stage leaf spring and the second stage leaf spring is located below the first stage leaf spring. The suspension system also include a spacer in abutment with a leaf spring, wherein the spacer is formed of at least one composite material.

A suspension system configured to sit substantially within the profile of a vehicle platform such that none of the elements extend substantially above the plane of the vehicle platform. The suspension system may utilize an adaptable transverse leaf spring in combination with other suspension elements, to allow the vehicle platform to maintain a generally flat profile and accommodate a variety of different body like structures while maintaining the desired roll and ride stability stiffness.

A bearing bush for supporting a motor vehicle part includes an inner tube made of a metal, a sliding sleeve made of a first plastic material and mounted rotatably on the inner tube, and an elastomer bearing which surrounds the sliding sleeve and has at least a first elastomer body and an outer sleeve. A sliding layer made of a second plastic material is applied to an outer circumferential surface of the inner tube, the first plastic material and the second plastic material forming a tribological pairing either of two different polymers from the groups of polyamides, polyoxymethylenes, polyketones, fluoropolymers, polyethylene terephthalates or polybutylene terephthalates, or the tribological pairing being formed from polyketone against polyketone, wherein the polymers of the tribological pairings each are present in a continuous thermoplastic polymer phase.

An oblong, resilient, semi-rigid cantilevered support member can have a pair of spaced apart tapering rods joined by a medial webbing strip. The strip can have a substantially planar back surface tangent with the back edges of the tapering rods to form a substantially quadrangular and planar back side to the member albeit with rounded side edges. The strip can have a generally trapezoidal front surface that is scalloped in a concave manner. The member can be made from a unitary piece of fiber composite material where the orientations of the fibers are varied to provide both bending and torsional strength and stiffness that varies along the length of the member. The member can be coupled to a second latitudinally spaced apart oblong resilient member connected by a pair of longitudinally spaced apart blocks for greater adjustability.

A leaf spring bearing for a vehicle with a transverse leaf spring. The leaf spring bearing includes an upper bearing block and a lower bearing block between which a portion of the transverse leaf spring can be interposed. Each bearing block is formed at least partially of elastic material and comprises an upper support surface and a lower support surface. At least one of the upper and lower bearing blocks has a bearing core and an insert positioned in the elastic material between the upper and lower support surfaces so as to define three layers of the elastic material within the at least one bearing block. At least one of the upper and lower bearing blocks has two support plates arranged either outside the elastic material or at least partially surrounded by the elastic material in the area of the upper and lower support surfaces of the bearing block.

An equalizer includes a pivot arm pivotally connected between first and second spaced-apart plates fixedly connected to each other. First and second bump stops extend from one of the first and second plates to or toward the other of the first and second plates. A first shock absorber is disposed and selectively compressible between the pivot arm and the first bump stop. A second shock absorber is disposed and selectively compressible between the pivot arm and the second bump stop.

A vehicle suspension arrangement includes a leaf spring assembly with at least two leaf springs which are arranged, during use in a vehicle, with a longitudinal extension generally coinciding with the longitudinal extension of said vehicle; the suspension arrangement includes a spring clamping unit connecting the leaf springs to an axle in the vehicle; and wherein each of the leaf springs includes end sections which are configured to be fastened in a vehicle chassis. Furthermore, the spring clamping unit includes a spacer component which is configured for separating the leaf springs in a vertical or horizontal direction.

A vehicle suspension system includes left and right control arm assemblies each having a wheel mount structure, an upper control arm, and a lower control arm. Each control arm includes a first end configured to be pivotably connected to a frame structure of a vehicle and a second end rotatably connected to the wheel mount structure. The vehicle suspension system also includes a transverse leaf spring having an elongated body extending between the control arm assemblies, outer mounting brackets respectively connecting left and right ends of the elongated body to the left and right control arm assemblies, and one or more inner mounting brackets located between the outer mounting brackets. The transverse leaf spring is contoured such that a contoured portion of the elongated body deviates in a downward direction in order to extend below an electric drive system disposed within an internal space between rails of the frame structure.

An equalizer device for a suspension system of a vehicle having a tandem axle has an equalizer body adapted to cooperate with springs of a suspension system. A damping device has a first end that is pivotably mounted in a fixed location relative to the equalizer body and a second end that is pivotably mounted to the vehicle frame. The equalizer body is adaptable to pivoting to transfer a portion of an additional load carried on a forward axle through springs mounted thereon to springs of a rearward axle, thereby substantially equalizing load between the forward axle and the rearward axle. The damping device is adaptable to pivoting in response to pivoting of the equalizer body and dampens movement of the equalizer body when the equalizer body is pivoting to transfer the additional load.

Disclosed are a vehicle suspension spring device and a vehicle suspension system having the same. The vehicle suspension spring device includes a leaf spring unit comprising at least one leaf spring disposed in a lateral direction of a vehicle, a pair of first coupling parts provided at opposite ends of the leaf spring unit in a longitudinal direction and rotatably coupled to a pair of axles on which opposite wheels of the vehicle are mounted, and a pair of second coupling parts provided at two points between the opposite ends of the leaf spring unit in the longitudinal direction to be rotatably coupled to a subframe of the vehicle.