A sealing comprises a seal portion and a plate portion fixed to the seal portion. The seal portion can have an undulating configuration of at least one peak and at least one valley, and the plate portion can circumferentially surround the seal portion. The seal portion can be made of a first material and the plate portion can be made of a second material more rigid than the first material. The seal portion can have a radially inward facing contact surface that defines a central opening of the sealing.

An independent suspension system includes two suspension oil cylinders, respectively arranged between wheels at two sides and a frame: and a steering mechanism, configured to be driven by a steering booster oil cylinder to drive the wheels at two sides to turn. The independent system also includes two swing links arranged corresponding to the wheels at two sides, an end at one side of each of the swing links is hinged to a wheel hub of the wheel at the corresponding side via a spherical hinge, and an end at another side of each of the swing links is hinged to a fixing member fixed below a main speed reducer via two spherical hinges respectively along a fore-and-aft direction. A crane having the independent suspension system is further provided.

An independent suspension system includes two suspension oil cylinders, respectively arranged between wheels at two sides and a frame: and a steering mechanism, configured to be driven by a steering booster oil cylinder to drive the wheels at two sides to turn. The independent system also includes two swing links arranged corresponding to the wheels at two sides, an end at one side of each of the swing links is hinged to a wheel hub of the wheel at the corresponding side via a spherical hinge, and an end at another side of each of the swing links is hinged to a fixing member fixed below a main speed reducer via two spherical hinges respectively along a fore-and-aft direction. A crane having the independent suspension system is further provided.

A suspension device for an in-wheel motor driven wheel is provided. An upper suspension arm is pivotally supported on the vehicle body for supporting the wheel in a vehicle upper position higher than an axle. A link member pivotally connects the wheel to the upper suspension arm and has an absorber connecting portion connected to a lower end of the shock absorber. The shock absorber connecting portion is disposed in the vehicle bottom position lower than an upper end portion of the in-wheel motor unit. The shock absorber is disposed between the vehicle body and the in-wheel motor unit and inclined so as to be closer to the vehicle body toward the lower end.

A suspension device for an in-wheel motor driven wheel is provided. An upper suspension arm is pivotally supported on the vehicle body for supporting the wheel in a vehicle upper position higher than an axle. A link member pivotally connects the wheel to the upper suspension arm and has an absorber connecting portion connected to a lower end of the shock absorber. The shock absorber connecting portion is disposed in the vehicle bottom position lower than an upper end portion of the in-wheel motor unit. The shock absorber is disposed between the vehicle body and the in-wheel motor unit and inclined so as to be closer to the vehicle body toward the lower end.

A pivot bearing for independent wheel suspension of a steerable front wheel of a vehicle having at least one upper bearing with a connection to a spring strut for attachment to the body. To improve the safety of the passenger cell in the event of a frontal collision, the connection has a separating device that brings about separation of the attachment of the pivot bearing to the spring strut and to the body of the vehicle at the upper bearing in the event of a frontal impact.

Steering boxes currently available on the market in order to convert the rotation of the steering wheel into the angular rotation of the wheels are not suitable to be partially built into the rim of the wheels of an electric car. In addition, existing boxes do not allow the independent rotation of the wheels or wide turning radii. These limitations are overcome using a system comprising: a body into which at least one motor is built using corresponding supports, which motor(s) actuate(s) the steering rotation axle of each steered wheel in the upper part of the body, and, in the lower part, a transmission gearbox and a stationary circular crown gear with which driving pinions mesh, said pinions rotating about the crown gear, thereby rotating the entire body and the rotation axle of the wheel built into the body together with suitable means.

A shock absorber assembly includes a pressure tube having an upper end and a lower end and defining an interior, a rod guide disposed adjacent the upper end, a first compression valve assembly adjacent the lower end, a rod operatively coupled to the pressure tube having a first end and a second end, an extender coupled to the second end of the rod, a piston assembly coupled to the extender between the rod guide and the first compression valve assembly with the piston assembly disposed within the interior and slideably coupled to the pressure tube, with the piston assembly dividing the interior into an upper and a lower working chamber, a second compression valve assembly coupled to the extender between the piston assembly and the first compression valve assembly, and a cup disposed within the lower working chamber and defining a bore shaped to receive the second compression valve assembly.

A shock absorber assembly includes a pressure tube having an upper end and a lower end and defining an interior, a rod guide disposed adjacent the upper end, a first compression valve assembly adjacent the lower end, a rod operatively coupled to the pressure tube having a first end and a second end, an extender coupled to the second end of the rod, a piston assembly coupled to the extender between the rod guide and the first compression valve assembly with the piston assembly disposed within the interior and slideably coupled to the pressure tube, with the piston assembly dividing the interior into an upper and a lower working chamber, a second compression valve assembly coupled to the extender between the piston assembly and the first compression valve assembly, and a cup disposed within the lower working chamber and defining a bore shaped to receive the second compression valve assembly.

A steering system including a plurality of steering devices respectively provided for a plurality of steerable wheels that belong to at least one of a front-wheel side and a rear-wheel side of a vehicle, wherein the plurality of steering devices respectively include a plurality of steering actuators, and wherein each of at least one of the plurality of steering actuators is disposed on an inner side of a corresponding one of side members of the vehicle.