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 work vehicle according to the present invention includes left and right axle cases of a rigid axle type, and left and right suspension mechanisms movable in the up-down direction relative to body frames and separately supporting the left and right axle cases, respectively. The work vehicle also includes (i) a first projection projecting downward from the left or right one of the body frames, (ii) a second projection projecting upward from that position on either the left and right axle cases or a frame body integrated with the axle cases which is opposite to the first projection in the left-right direction, and (iii) a lateral rod having a first end connected with the first projection and a second end connected with the second projection.

Disclosed herein is a steering linkage system that includes a steering tie bar extending between a first and second spindle of the vehicle and a joint attached to the frame of the vehicle. The system further includes a first steering link attached to and extending between a first steering location that is on or connected directly to the joint and a second steering location that is on or connected directly to the steering tie bar. The system includes a second steering link attached to and extending between a third steering location on or connected directly to a middle of the first steering link located between the first and second steering locations, and a fourth steering location on or connected directly to a pitman arm of the vehicle. Further disclosed is a vehicle having the steering linkage system, and a kit for providing the steering linkage system to a vehicle.

A vehicle includes a support structure and a suspension for an oscillatingly supported, rigid axle body. The suspension has a suspension device which is located between the axle body and the support structure and acts in a height direction of the vehicle. The vehicle further includes a plurality of coupling sites and a transverse link extending in a transverse direction of the vehicle. The transverse link is coupled to the support structure via a first link area and via a second link area and a pendulum support to the axle body. The transverse link includes a third link area which, with reference to the pendulum support in the transverse direction of the vehicle, is located opposite the first link area and is flexibly connected with a coupling site of the suspension device.

A lifting mechanism for a vehicle axle is provided wherein a vehicle includes a vehicle frame having a first rail component and a second rail component. A first mounting bracket is attached to the first rail component of the vehicle frame. A lifting component is attached to the first mounting bracket. A lateral load component has a first end attached to the lifting component and a second end attached to the second rail component of the vehicle frame. A bracket attaches the lateral load component to the vehicle axle such that upon extension of the lifting component, the vehicle axle is lifted.

An electric vehicle comprising a portal axle architecture. The electric vehicle having a frame. An axle assembly including a De Dion tube. A first wheel hub and a second wheel hub rotatably coupled with the De Dion tube. A suspension system coupled with the vehicle frame, the suspension system having at least one pair of trailing arms pivotally coupled with the vehicle frame and at least one pair of air springs. A first electric drive assembly in driving engagement with the first wheel hub, and a second electric drive assembly in driving engagement with the second wheel hub.

A tensioning device for attachment to a vehicle suspension system reduces play at ends of a pan hard bar (track bar) of the vehicle suspension system, remedying instabilities that can occur in vehicle suspensions. The device can include a bracket clamped to the pan hard bar at a point between the ends of the pan hard bar, or may be otherwise mounted to a bracket formed on the pan hard bar in OEM installations. The other end of the device is secured to the frame or the axle of the vehicle, generally near an end of the pan hard bar. The device is pre-tensioned to apply force at the ends of the pan hard bar, and includes a damping plunger to also damp forces that vibrate the ends of the pan hard bar, further loosening attachments. The tension is field-adjustable and may be tuned for various applications.

A tensioning device for attachment to a vehicle suspension system reduces play at ends of a pan hard bar (track bar) of the vehicle suspension system, remedying instabilities that can occur in vehicle suspensions. The device can include a bracket clamped to the pan hard bar at a point between the ends of the pan hard bar, or may be otherwise mounted to a bracket formed on the pan hard bar in OEM installations. The other end of the device is secured to the frame or the axle of the vehicle, generally near an end of the pan hard bar. The device is pre-tensioned to apply force at the ends of the pan hard bar, and includes a damping plunger to also damp forces that vibrate the ends of the pan hard bar, further loosening attachments. The tension is field-adjustable and may be tuned for various applications.

A vehicle chassis comprises a pair of beams, each beam having generally parallel side plates extending in height and length dimensions Hc, Lc of the chassis and joined by one or more webs extending between the side plates in the width dimension Wc, which together form its principal loadbearing elements. At least one of the beams includes at least one suspension mount which extends between the side plates and connects the side plates together.

A lifting mechanism for a vehicle axle is provided wherein a vehicle includes a vehicle frame having a first rail component and a second rail component. A first mounting bracket is attached to the first rail component of the vehicle frame. A lifting component is attached to the first mounting bracket. A lateral load component has a first end attached to the lifting component and a second end attached to the second rail component of the vehicle frame. A bracket attaches the lateral load component to the vehicle axle such that upon extension of the lifting component, the vehicle axle is lifted.