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.

A motor vehicle includes a bodywork structural element and a running gear, such as a vehicle back end, that includes at least one arm. The at least one arm includes a top attachment end that is received in a sheet metal clevis supported on a bottom surface of a floor of the bodywork structural element. The attachment end includes at least one transverse tubular sleeve that is received with reduced play between two parallel flanks of the clevis, and an attachment screw capable of passing through two coaxial bores of both flanks and the transverse tubular sleeve to enable attachment of the attachment end into the clevis. The clevis guides the attachment end into a position for aligning the bores of the flanks and the sleeve.

A steering assistance system for an agricultural vehicle includes a rigid axle on which steerable wheels are mounted and which is mounted so as to float relative to a supporting vehicle structure. The system includes a steering angle sensor for detecting a steering angle of the steerable wheels, a swing angle sensor for determining a swing angle of the rigid axle relative to the supporting vehicle structure, an actuating arrangement for influencing the steering angle, and a control unit that calculates a threshold value permissible for the steering angle depending on the detected swing angle. If the detected steering angle exceeds a tolerance range specified for the threshold value, the control unit executes steering interventions for reducing the steering angle by activating the actuating arrangement to satisfy the threshold value.

An agricultural baler including a chassis, an axle system, a main bale chamber carried by the chassis, and a tying assembly configured for tying a twine around a bale within the main bale chamber. The tying assembly includes a plurality of knotters supported by the chassis, a needle yoke having a plurality of needles coupled thereto, an upper tensioner device, and a lower tensioner device located underneath the upper tensioner device. The axle system includes a first axle, and the lower tensioner device is attached to the first axle and correspondingly moves with the first axle.

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.

Described herein are methods and systems of a chassis of a commercial electric vehicle. In various embodiments, the chassis may include a ladder frame with a plurality of frame rails. Batteries and drive units may be packaged within the frame rails of the ladder frame. The chassis may further include an independent front suspension and batteries may be disposed between the suspension members of the independent front suspension.

Described herein are methods and systems of a rear axle of a commercial electric vehicle. In various embodiments, the rear axle includes a curved de Dion axle that includes stub axles, CV cups, each configured to receive a portion of a CV axle, and a central portion disposed downward and rearward of the stub axles. The rear axle includes a curved form factor to allow for a portion of an electric drive unit to be disposed in a manner where a hub centerline connecting the stub axles intersects the electric drive unit.

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 rear axle of a commercial electric vehicle includes a curved de Dion axle that includes stub axles, CV cups, each configured to receive a portion of a CV axle, and a central portion disposed downward and rearward of the stub axles. The rear axle includes a curved form factor to allow for a portion of an electric drive unit to be disposed in a manner where a hub centerline connecting the stub axles intersects the electric drive unit.

An agricultural baler including a chassis, an axle system, a main bale chamber carried by the chassis, and a tying assembly configured for tying a twine around a bale within the main bale chamber. The tying assembly includes a plurality of knotters supported by the chassis, a needle yoke having a plurality of needles coupled thereto, an upper tensioner device, and a lower tensioner device located underneath the upper tensioner device. The axle system includes a first axle, and the lower tensioner device is attached to the first axle and correspondingly moves with the first axle.