An air suspension arrangement arranged to be connected between a vehicle axle and a vehicle chassis of a vehicle includes a flexible bellows having an upper portion connectable to the vehicle chassis of the vehicle, and a bumper stop, wherein the air suspension arrangement further includes a polymer member arranged between the bumper stop and the flexible bellows for connecting the bumper stop to the flexible bellows. A method for manufacturing the air suspension arrangement and a vehicle including such an air suspension arrangement are also provided.

A drive system of an electric vehicle is disclosed. The vehicle has an arrangement optimized for characteristics of a hydrogen electric truck so as to ensure an available space inside vehicle body frames, thereby allowing a battery, high-voltage electric parts, a hydrogen tank, and the like to be arranged inside the vehicle body frames and increasing space utilization in the vehicle. The drive system includes a motor configured to drive the vehicle, a reducer or a transmission connected to an output side of the motor so as to change a rotational speed of the motor, and a rear axle configured to transmit rotating power output from the reducer or the transmission to vehicle wheels. The motor and the reducer or the transmission together with the rear axle are mounted on a suspension.

The invention relates to a working machine comprising a working machine frame, at least one propulsion axle having an elongated main body comprising a first end portion, a second end portion and a center portion arranged between the first and second end portions. The elongated main body has a main body length (MBL) extending from the first end portion to the second end portion. The working machine further comprises a propulsion axle suspension arrangement arranged between the working machine frame and the propulsion axle, the propulsion axle suspension arrangement comprising a first suspension device and a second suspension device arranged on opposite sides of a center of the elongated main body. The first and second suspension devices are arranged in the center portion of the elongated main body.

A clamp group for a vehicle leaf spring suspension is disclosed. The clamp group secures a longitudinally disposed, leaf spring at separate and distinct locations, between which the leaf spring is undamped and spaced away from the top and bottom pads of the clamp group. Shear stress is reduced and the spring remains active throughout its length.

A wheel suspension of a vehicle intended to extend in a transversal direction of the vehicle in association with first and second wheels arranged on opposite sides of the vehicle, comprising: a subframe unit provided with a set of attachment points for attachment of the subframe unit to a vehicle body structure, wherein the subframe unit comprises a cross member extending along the subframe unit in a transversal direction of the vehicle when the subframe unit is attached to the vehicle; at least a first link member arranged on each side of the subframe unit, wherein each first link member is arranged to connect a corresponding wheel or wheel supporting element with the subframe unit via a pivoted connection; and a spring arrangement arranged to act onto each of the first link members so as to provide for a spring suspension of the first and second wheels.

Brackets for mounting auxiliary suspension systems, such as lift axle systems, to vehicles are disclosed herein. For example, brackets are disclosed for attaching lift axle hanger brackets and lift axle load springs to corresponding frame members. In some embodiments, the frame brackets can include physical features (e.g., a series of graduated steps in an edge portion thereof) to facilitate visual alignment of the lift axle with the vehicle frame members during installation. In other embodiments, the frame brackets can be two-piece brackets that enable the load springs to be removed and replaced without having to detach the frame bracket from the frame rail.

A system for suspending an automobile using an air rear suspension is provided. The system may include an automobile having a body, a front axle, and a rear axle; a linkage bar connected to said body and to said rear axle, wherein said connections allow for relative movement between said body and said rear axle; a cantilever bar having a first cantilever end and a second cantilever end; a damper; and an air spring, wherein said cantilever bar is connected to each of said rear axle and said body at said first cantilever end, wherein said cantilever bar is connected to each of said damper and said air spring at said second cantilever end, wherein said damper and said air spring are each connected to said body, and wherein said linkage bar and said cantilever bar are each configured to move in response to movement of said rear axle relative to said body.

Mounting bracket assemblies including a base bracket and a clamp. The base bracket includes a base bracket wall with a base wall portion having a first surface portion and a second surface portion. The base bracket is positioned along an existing jounce bumper mount of a vehicle with the first surface portion engaging a distal edge of the jounce bumper mount. The clamp is the base bracket and extends peripherally along a side wall portion of the jounce bumper mount in abutting engagement with an outer peripheral surface portion thereof and coextensively therewith. Suspension systems, mounting bracket kits and methods of assembling a mounting bracket assembly are also included.

A suspension system having a knuckle carrier. A pivot mechanism may pivotally couple a control arm to the knuckle carrier. The pivot mechanism may include a preload nut that may exert a preload force on a bearing assembly. A platform may be fixedly disposed on the knuckle carrier. The platform may support an air spring and may have an arm that is coupled to a stabilizer bar subassembly.

An air spring has an air-spring lobe made of elastomer material, which is clamped at the lobe ends thereof via connection parts between the sprung mass and the unsprung mass and is connected by way of the connection parts to the fastening parts of the sprung and the unsprung mass. The connection parts and the air-spring lobe enclose the working chamber that is under internal pressure and contains the air-spring volume. The working chamber is in connection with at least one air connection provided in the connection parts. At least one of the connection parts is connected to the associated fastening part by a releasable snap-in or latching connection and the snap-in or latching connection includes at least one air connection, to which a feed line or a hose for the compressed air supply is connected.