A wheel suspension arrangement is provided for a vehicle having a longitudinal direction, a transverse direction and a vertical direction. The wheel suspension arrangement includes a wheel holder for supporting a vehicle wheel. A first vertical end region of the wheel holder is pivotally attached to a vehicle support structure by a rigid control arm and a second vertical end region of the wheel holder is attached to the vehicle support structure by a leaf spring. A longitudinal direction of the leaf spring is arranged substantially in the transverse direction of the vehicle. The leaf spring is pivotally attached to the vehicle support structure at a transverse center region of the vehicle, and a center of the leaf spring in the transverse direction is located vertically offset from a pivotal attachment location of the leaf spring. The pivotal attachment location of the leaf spring is vertically offset towards the side of the rigid control arm.

The disclosure relates to a connecting assembly for a transverse leaf spring that has a transverse leaf spring made of fiber-reinforced plastic and a bearing device, which encompasses the transverse leaf spring at the bearing point in a form fitting manner, wherein the transverse leaf spring has a ribbed structure at the bearing point, and the bearing device has notches, in which the ribbed structure engages in a form fitting manner.

The disclosure also relates to a transverse leaf spring and a bearing device, suitable for forming such a connecting assembly.

A suspension for a wheeled vehicle include an axle with a mid-section and an end comprising an upper portion and a lower portion defining a space therebetween, a leaf spring having forward and rear ends attached to vehicle structure and a mid-section retained in the space and secured between the upper and lower portions, and a closure element attached to the axle end and at least partially closing an outboard end of the space. The upper and lower axle portions may be formed integrally with the axle mid-section or may be a separately-formed component secured to the axle. The space tapers from a greater vertical dimension at the outboard end thereof to a smaller vertical dimension at an inboard end thereof, and the leaf spring mid-section is wedged into the space. An intermediate element is disposed between the mid-section and at least one of the upper and lower axle portions.

A suspension for a wheeled vehicle includes a leaf spring extending longitudinally relative to the vehicle and having first and second lugs protruding downward therefrom. The lugs are spaced from one another a length of the leaf spring to define a pocket therebetween. An axle passes perpendicularly beneath the leaf spring such that a portion of the axle is disposed in the pocket and is clamped between the lugs. The lugs may be fabricated integrally with the leaf spring.

The disclosure relates to a longitudinal leaf spring device for suspension of a body of a motor vehicle. and the longitudinal leaf spring device comprises a longitudinally formed leaf spring element and a coupling device that mechanically couples the leaf spring element to a motor vehicle axle. According to the disclosure, a holder device is provided that has a base holder element for fixed connection to a vehicle chassis and a suspension adjustment element that faces the leaf spring element and is fixedly connected to the base holder element. In this case, the leaf spring element is connected in a front region, fixedly to the base holder element, and the front region is provided to come into mechanical bearing with the suspension adjustment element in at least one operating state.

The disclosure concerns a spring assembly with a leaf spring. The leaf spring extends in a vehicle longitudinal axis, supports a vehicle axle and is connected at least indirectly to a vehicle superstructure at a front end and at a rear end. In order to provide a wheel suspension with advantageous springing and damping behavior that is optimized with regard to weight and complexity, according to the disclosure it is provided that at least one damping region, which is at least partially fluid-filled, is integrated in the leaf spring.

A suspension structure and a vehicle are disclosed. The suspension structure includes: a leaf spring assembly, a connecting bracket, and a steering knuckle. The leaf spring assembly includes two leaf spring components arranged along a front-to-back direction. Each of the leaf spring components is arranged transversely relative to a main structure. A middle of each leaf spring component is fixedly connected to the main structure. Two free ends are disposed along a length direction of each leaf spring component. The free ends include a mounting portion. The connecting bracket includes a bracket body and a ball pin. The bracket body includes a first arm body and a second arm body. The first arm body intersects one end of the second arm body, and is connected to the ball pin at an intersecting end.

The invention relates to a leaf spring arrangement having a leaf spring made of a fibre-composite material and at least one bearing eye holder, wherein at least one end of the leaf spring is accommodated in a retaining element of the at least one bearing eye holder in a form-fitting manner in a longitudinal direction of the leaf spring, wherein the leaf spring has a length and a central longitudinal plane, wherein the leaf spring has, along its length, perpendicularly to the central longitudinal plane, a cross section in which both a depth and a height are constant along the entire length of the at least one end of the leaf spring, wherein the at least one end of the leaf spring is formed in an undulating manner, wherein the retaining element of the at least one bearing eye holder has a receptacle with a matching undulating shape, wherein the at least one end of the leaf spring has at least one undulation, wherein the receptacle of the at least one bearing eye holder is configured to accommodate the at least one undulation of the leaf spring. The leaf spring arrangement is distinguished by the fact that the at least one end of the leaf spring has at least two undulations, wherein the receptacle of the at least one bearing eye holder is configured to accommodate the at least two undulations of the leaf spring in a form-fitting manner.

An axle unit, includes a control arm and a clamping unit that surround a tube region, wherein a first side of the control arm faces away from the tube region, and a second side of the control arm forms a boundary face on the control-arm side of the tube region, wherein the clamping unit can be brought into supporting abutment with the first side of the control arm and has a boundary face on the clamp side, which face defines the tube region, wherein the clamping unit has a first and second clamping parts each having a wedge portion, wherein the wedge portions are formed in such a way that a displacement of the clamping parts substantially in parallel with a clamping axis toward one another results in a narrowing of the tube region transversely to the clamping axis.

A device for indicating a replacement time of a composite leaf spring constantly monitors durability of the composite leaf spring, which is formed by mixing unidirectional glass fiber and epoxy resin, and informs a driver of an appropriate replacement time of the composite leaf spring based on the monitoring result.