A body prop assembly for supporting portions of a tilting trailer assembly. Said body prop assembly comprising a body prop, a hinge assembly, two sidetracks. Said body prop assembly configured to attach to said tilting trailer assembly between tilting portions and a trailer platform. Said tilting portions selectively rotate with respect to said trailer platform on a tilting hinge. Said tilting hinge defines a tilting axis of said tilting trailer assembly. Said body prop is configured to selectively hold a portion of said tilting portions at an incline. Lower guides are configured to slide through portions of said two sidetracks in order to adjust a lower portion of said body prop assembly. Said body prop comprises an upper portion, a side portions and said lower guides. Said upper portion is substantially parallel with said lower guides.

A body prop assembly for supporting portions of a tilting trailer assembly. Said body prop assembly comprising a body prop, a hinge assembly, two sidetracks. Said body prop assembly configured to attach to said tilting trailer assembly between tilting portions and a trailer platform. Said tilting portions selectively rotate with respect to said trailer platform on a tilting hinge. Said tilting hinge defines a tilting axis of said tilting trailer assembly. Said body prop is configured to selectively hold a portion of said tilting portions at an incline. Lower guides are configured to slide through portions of said two sidetracks in order to adjust a lower portion of said body prop assembly. Said body prop comprises an upper portion, a side portions and said lower guides. Said upper portion is substantially parallel with said lower guides.

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.

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 cabin control valve assembly for a vehicle includes a cabin control valve with at least one port P, and at least one solenoid direction control valve that is integrated with the cabin control valve at the at least one port P such that pressurised air that enters through an inlet port of the cabin control valve reaches an inlet of the at least one solenoid direction control valve. The at least one solenoid direction control valve is configured to allow, based on at least one signal indicative of at least one parameter related to the vehicle, delivery of pressurised air to a corresponding cylinder coupled to the cabin control valve assembly for operation of the cylinder.

A tailgate latch system and tilting tailgate for a pickup truck are described. The pickup truck may include a moveable bed that tilts from a resting position in which the moveable bed is generally parallel to the ground to a tilted position in which the moveable bed is angled relative to the ground.

A tailgate latch system and tilting tailgate for a pickup truck are described. The pickup truck may include a moveable bed that tilts from a resting position in which the moveable bed is generally parallel to the ground to a tilted position in which the moveable bed is angled relative to the ground.

A machine includes a first cylinder coupled to a first wheel and a second cylinder coupled to a second wheel. A first proportional dampening valve fluidly connects to the first cylinder and a second proportional dampening valve fluidly connects to the second cylinder. First accumulators are fluidly connected to the first cylinder and the first proportional dampening valve, and second accumulator(s) are fluidly connected to the second cylinder and the second proportional dampening valve. Additionally, a first proportional flow control valve fluidly connects to the first cylinder and a second proportional flow control valve fluidly connected to the second cylinder. An electronic control module (ECM) communicatively couples to the first proportional flow control valve and the second proportional flow control valve to adjust a ride height of the first wheel via the first cylinder and a ride height of the second wheel via the second cylinder.

A utility vehicle includes a plurality of ground-engaging members, a frame, a powertrain assembly, a front suspension assembly, and a rear suspension assembly. A cargo bed may be supported by the frame at the rear of the vehicle. The vehicle also includes an operator seat and at least one passenger seat positioned within an operator area. In one embodiment, the vehicle includes doors to enclose the operator area.

In a vehicle with a cargo receiving portion for transportation of cargo and for transfer of the cargo onto a cargo take-up station, the cargo receiving portion is disposed on a chassis with running gear coupled with a drive unit and a vehicle control unit is provided. The cargo receiving portion is linked tiltably around a tilting axle on the chassis and is open or openable at one delivery rim at least. The tilting axle and the delivery rim are disposed relative to one another so that, in tilted position, the cargo can be transferred via the delivery rim onto the cargo take-up station, wherein, for transfer of the cargo onto the cargo take-up station, the cargo receiving portion is tilted around the tilting axle by a change of the vector of velocity of the vehicle and/or by a torque generated by a spring loading of the cargo receiving portion.