The present disclosure relates to a suspension system for an all-terrain vehicle. The suspension system includes a mount for a rear wheel shaft having a front portion and a rear portion; a toe controlling rod having an outer end coupled to the front portion and an inner end opposite the outer end; and a brake coupled to the rear portion. The present disclosure also relates to another suspension system for an all-terrain vehicle and an all-terrain vehicle.

A vehicle has a frame, seats, two front and two rear suspension assemblies, two front and two rear wheels, and a motor. Each rear suspension assembly has a trailing arm, a knuckle pivotally connected to the trailing arm, a lower link having laterally outward and inward ends pivotally connected to the trailing arm at a first connection point and to the frame at a second connection point respectively, an upper link having laterally outward and inward ends pivotally connected to the trailing arm at a third connection point and to the frame at a fourth connection point respectively, and a toe link having laterally outward an inward ends pivotally connected to the knuckle at a fifth connection point and to the frame at a sixth connection point respectively. The fifth connection point is laterally further from a longitudinally and vertically extending center plane than the first and third connection points.

A wheel suspension for the rear axle of a vehicle includes a wheel carrier for fastening a rear wheel. A link system, which includes at least two links for fastening to a body of the vehicle, is fastened to the wheel carrier. One of the at least two links is a combination link with a basic body and two link portions for fastening at two positions of the body of the vehicle.

A swing arm type suspension for a rear wheel of an off road vehicle can use two or three tie rods to control toe-in of the knuckle. The rear end of the swing arm is split between an upper clamping arm and a lower clamping arm defining an eye, with the knuckle connected to the upper and lower clamping arms by joint bearings, and with either the transmission shaft or one of the tie rods extending through the eye of the swing arm to the knuckle. The front of the swing arm can be connected to the vehicle frame using a cross-shaft joint. Camber, toe-in and half-track width are controlled to result in a smaller turning radius with better ride characteristics.

A frame for an off road vehicle includes main beams establishing a base plane. Mounting beams, which can be used to support forces from the swing arm of a rear suspension, are spaced outside the main beams and within the base plane, running longitudinally in line with the swing arms of the rear suspension. Right and left longitudinal beams start within the base plane, but rise to their trailing ends so as to not interfere with the suspension travel of the swing arms as they extend back inward over the swing arms. Front and rear support columns can further attach into, secure and support the mounting beams and the longitudinal beams. All of the beams and columns can be formed by cutting cylindrical tubing to length and then curving the cylindrical tubing, each piece within a single plane.

An outdoor power equipment unit includes a front wheel independent suspension system. The front wheel independent suspension system includes a frame, a first front wheel assembly, a second front wheel assembly, a first laterally-extending suspension arm pair, and a second laterally-extending suspension arm pair. The first laterally-extending suspension arm pair includes a first suspension arm and a second suspension arm, both coupled to the frame and the first front wheel assembly. The second laterally-extending suspension arm pair includes a third suspension arm and a fourth suspension arm, both coupled to the frame and the second front wheel assembly. Both the first suspension arm pair and the second suspension arm pair are configured to independently pivot about the frame such that each of the first front wheel assembly and the second front wheel assembly are vertically displaceable relative to the frame.

A swing arm type suspension for a rear wheel of an off road vehicle can use two or three tie rods to control toe-in of the knuckle. The rear end of the swing arm is split between an upper clamping arm and a lower clamping arm defining an eye, with the knuckle connected to the upper and lower clamping arms by joint bearings, and with either the transmission shaft or one of the tie rods extending through the eye of the swing arm to the knuckle. The front of the swing arm can be connected to the vehicle frame using a cross-shaft joint. Camber, toe-in and half-track width are controlled to result in a smaller turning radius with better ride characteristics.

A vehicle has a frame, driver and passenger seats, two front and two rear suspension assemblies, two front and two rear wheels, and a motor operatively connected to at least two of the wheels. Each rear suspension assembly has a trailing arm having a front end pivotally connected to the frame, a knuckle pivotally connected to a rear portion of the trailing arm, a link having a laterally outward end pivotally connected to the trailing arm and the knuckle and a laterally inward end pivotally connected to the frame, and a fastener fastening the laterally outward end of the link, the knuckle and the trailing arm together.

A vehicle may include a CVT unit or a power source which requires ambient air. An air inlet for an air intake system coupled to the CVT unit or the power source which requires ambient air may be provided in a side of a cargo carrying portion of the vehicle. The vehicle may include a rear radius arm suspension.

An apparatus for connecting a stabilizer bar to a vehicle includes a support for attaching to the vehicle. The support defines a space for receiving a bushing through which the stabilizer bar can extend. The support includes tabs to which a heat shield can be attached. The heat shield is spaced apart from the bushing to define a gap between the heat shield and the bushing to protect the bushing from heat emitted from the vehicle exhaust system or engine.