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 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.

A suspension assembly for a vehicle axle. The assembly comprises a support structure, a housing element rotatably connected, about a transverse axis, to a support element in which the support structure is configured in a such a manner that it can rotate in relation to the support element about the longitudinal axis of the vehicle and is secured to the main chassis of the vehicle by a pair of hydraulic cylinders. The support structure comprises a pair of main guides, which can be fixed to the main chassis and a rolling element which slides between the pair of main guides and a contact element with a pair of further guides, the contact element operatively associated with the pair of further guides so as to come into contact with one of the further guides following a rotation about the rolling element.

Vehicle integral bushing rear suspension systems are disclosed. An example rear wheel suspension includes a wheel carrier configured to mount a wheel of a vehicle, the wheel rotatable about a rotational axis, a lower transverse control arm coupled to the wheel carrier below the rotational axis, the lower transverse control arm including a first joint to be disposed on a vehicle structure and a second joint to be disposed on the vehicle structure, the second joint displaced from the first joint along a longitudinal axis, a camber transverse control arm coupled to the wheel carrier above the rotational axis, and a track transverse control arm coupled to the wheel carrier in front of the rotational axis, wherein the lower transverse control arm, the camber transverse control arm and the track transverse control arm couple the wheel carrier to the vehicle structure.

Strut-Pressed Bar to be installed to the suspension of the car composed of two Moaatmg-Flates cut into round shape with the circular shape hole at the center that is big enough to allow the exposure of the tip of the shock-sbsorber shaft. At the rim, the holes will be drilled at the point that is match to the position of the existing bolt on the top caps of the strut-assembly to be fixed to each other. On top of the Mounting-Plate was welded with the U-shape steel plate with 2 holes drilled at the base of the II and both 2 wings extend through the rim of the mounting plate to round the tip of the shock, absorber-shaft in the middle. The strut-bar made of flat aluminium bar bended into the bird-wing shape or stretch letter M, at both ends were vertically welded with the aluminium plate with 2 holes drilled to be mounted tp the die U-shape on the Mounting-Plates

The invention relates to an axle suspension on a vehicle frame, comprising: an axle bracket which in its longitudinal direction is arranged transversely to the vehicle frame and at its longitudinal ends each is provided with a wheel carrier, a pendulum support which is connected with the axle bracket via a swivel bearing and is accommodated in a self-aligning bearing attached to the vehicle frame, wherein the swivel bearing has a swivel axis which extends parallel to the longitudinal axis of the vehicle frame.

A suspension assembly for a commercial vehicle includes a first linkage, an air spring, a carriage, and a second linkage. The first linkage is pivotally coupled at a first end with a structural member of a frame. The structural member extends downwards from the frame. The air spring is coupled with the frame and a second end of the first linkage. The air spring drives the first linkage to pivot about the first end relative to the structural member. The carriage is pivotally coupled with the first linkage at a position between the first end and the second end of the first linkage. The second linkage is pivotally coupled at a first end with the structural member, and pivotally coupled with the carriage at a second end. The structural member, the first linkage, the second linkage, and the carriage define a four-bar linkage.

A vehicle with 3 or more wheels includes at least two wheels aligned on the same axis. The vehicle has an intermediate centerline plane between the wheels parallel to a direction of movement, including a mass suspended in relation to the wheels defining a passenger or containment compartment, and two suspension groups kinematically connecting the suspended mass to the two aligned wheels. An anti-roll stabilizer device has at least one compensation mass kinematically connected to the suspended mass via a guide and movable in relation thereto. The anti-roll stabilizer device has a drive of the compensation mass to distance or bring the compensation mass closer to the centerline plane on the side opposite the displacement of a barycenter of the suspended mass with respect to the same centerline plane, to oppose the displacement with respect to the centerline plane of the position of the barycenter of the suspended mass.

A chassis arrangement (10), in particular for utility vehicles (1), with at least one axle (3) that extends transverse to the travel direction and carries wheels (4). Movement of the axle (3) is damped by vibration dampers (11) provided with end sections (15), and with at least one stabilizer assembly (12) that has two longitudinally extending sections (13) and a transverse section (14) that connects the longitudinally extending sections. An end section (15) of the vibration damper (11) is held directly on and is connected to the stabilizer assembly (12) on an extension (16, 17) of the transversely orientated section (14) beyond the longitudinal section (13).

An anti-roll bar device with a variable rigidity has a first arm assembly having multiple first joining units, a second arm assembly having multiple second joining units, and a variable rigidity unit mounted between the first arm assembly and the second arm assembly and having multiple abutment portions and a variable rigidity coefficient. The first and second joining units are staggered with each other annularly and abut the abutment portions. When a vehicle passes a bumpy terrain, a slight force is exerted on the variable rigidity unit and is absorbed by the variable rigidity unit, such that the vehicle can be kept from tilting and shaking up and down. When the vehicle is in cornering, a larger force is exerted on the variable rigidity unit to increase a rigidity of the variable rigidity unit, such that the variable rigidity unit can transfer torques to keep the vehicle from tilting.