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.

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.

A wheel suspension for a motor vehicle with an auxiliary frame connected through auxiliary frame bearings with the vehicle body. A support spring is arranged between the vehicle body and a spring link at the auxiliary body, and exerts spring forces on the spring link and thus indirectly on the auxiliary frame. The support spring is arranged near the auxiliary bearings which act in the vehicle direction between the auxiliary frame and the vehicle body. Due to the proximity of the auxiliary bearings to the support spring, a part of the spring forces exerted by the support spring is directly guided through the support bearings into the vehicle body.

A driverless transport system comprising a chassis (1), drive wheels (2) and jockey wheels (3), wherein, on each of a first side of the chassis (1) and a second side of the chassis (1) opposite the first side, a floating axle (4) arranged in the longitudinal direction is pivotably connected to the chassis (1) at a connection point (5) assigned in each case, a drive wheel (2) being arranged at one end of each of the floating axles (4) and a jockey wheel (3) being arranged at the opposite end of each of the floating axles (4), the driverless transport system additionally having a floating axle (6) arranged in the transverse direction which is aligned transversely to the two floating axles (4) arranged in the longitudinal direction and is pivotably or fixedly connected to the chassis (1) at an assigned connection point (5), a jockey wheel (3) being arranged at each end of the floating axle (6) arranged in the transverse direction.

A suspension includes a knuckle to which a wheel of a vehicle is fastened, a steering drive portion connected to the knuckle, a lower arm positioned at a lower end portion of the steering drive portion and including a first end portion connected to the knuckle and a second end portion connected to a vehicle body frame, a connecting link including a first end portion connected to an upper end portion of the steering drive portion, an upper arm connected to a second end portion of the connecting link, a damper connecting the upper arm and the vehicle body frame, and a push rod including a first end portion connected to the upper arm and a second end portion connected to the lower arm.

A lubrication system includes a coupling; a bushing in the coupling; a lubricant inlet to the coupling; a flat surface against a front surface of the bushing; and a path for lubricant to flow from the lubricant inlet to a groove on the front surface of the bushing and out between the flat surface and the front surface to lubricate an interface between the flat surface and the front surface.

A utility vehicle configured for traveling off-road includes: a chassis; and a drive wheel assembly coupled with the chassis and including: a drive wheel assembly rotatable portion configured for rotating and thereby for enabling the utility vehicle to traverse a ground; a hub carrier coupled with the drive wheel assembly rotatable portion, which is configured for rotating relative to the hub carrier; and an electric motor configured for causing the drive wheel assembly rotatable portion to rotate, the electric motor including a stator which is fixedly coupled with the hub carrier.

An A-Arm assembly for All-Terrain Vehicles. The A-arm assembly comprises an A-Arm with a slug. The slug can enhance assembly of an A-Arm and reduce manufacturing costs. An A-Arm slug can enable efficient assembly of A-Arms to an ATV. The slug can accommodate different style A-Arms, for example, the slug can have a beveled or angled face to match a square end of an A-Arm. Alternatively, the slug can have an angled spindle connecting portion and square faces that match an A-Arm.

A suspension apparatus for a vehicle including a drive unit configured to provide driving power to a wheel, a first knuckle coupled to the drive unit and configured to transmit a steering force to the wheel, a second knuckle disposed to face the first knuckle and configured to support the first knuckle so that the first knuckle is rotatable, a suspension arm extending from a vehicle body and configured to absorb impact applied to the wheel, a bushing unit provided between the second knuckle and the suspension arm and configured to support the second knuckle so that the second knuckle is rotatable relative to the suspension arm and a rotation restriction unit provided on the bushing unit and configured to selectively restrict a rotation direction of the second knuckle.

A vehicle height control system includes an arm including a first end portion connected to a vehicle body and a second end portion coupled to a wheel, a bearing unit fixed to the vehicle body, a crank coupled to the bearing unit, a push rod including a first end portion connected to the crank and a second end portion connected to the arm, and a spring reaction force variable device coupled to the bearing unit and configured to vary reaction force applied to the crank.