A chassis component for a motor vehicle is disclosed. The chassis component (1) is manufactured at least partially from a multi-layer steel sheet (10, 20, 30). The multi-layer steel sheet (10, 20, 30) includes at least three steel layers, including two outer steel layers (11, 12; 21, 22; 31, 32) and one inner steel layer (13, 23, 33). At least one outer steel layer (11, 12; 21, 22; 31, 32) of the multi-layer steel sheet (10, 20, 30) has a tensile strength of at least 1200 MPa. A method for producing a chassis component for a motor vehicle, in particular a wheel (1) or a part thereof, is also disclosed.

A non-inflatable tire for an agricultural implement, including a sole, a tread, and a pair of sidewalls connecting the sole to the tread is provided. A first sidewall extends from the sole to the tread, while the second includes an internal portion which extends from the sole to the tread and an external portion projecting from the tread. The first sidewall and the tread are designed so as to jointly hold the external portion of the second sidewall in line with the internal portion.

Disclosed is a vehicle support device comprising a polygonal surface which may be affixed to a front edge of an at least one circumferential plate (110) or to a midline of an at least one circumferential plate (110). The polygonal surface (105) may be a pentagon polygon having five sides, a hexagon polygon having six sides, an octagon polygon having eight sides, or any polygonal shape. The polygonal front surface may have an at least one asymmetrical side. The polygonal front surface (105) may have a plurality of lug bolt supports (120), which may have five lug bolt supports (120), seven lug bolt supports (120), eight lug bolt supports (120), or twelve lug bolt supports (120). The vehicle support device may have an axle support centerline (125), a vehicle support device centerline (130), and an non-zero centerline offset (135) between the axle support centerline (125) and the vehicle support centerline (130) to provide for offset alignment of the vehicle support device in a vehicle wheel well. The vehicle support device may be used to support any wheeled automobile, trailer or tractor, to provide levelness and stability of the vehicle, prevent UV and time or gravity-caused degradation of the tires, and extend the life of the tires, and on other vehicles with modification. For most automobiles, trailers, and tractors, the vehicle support device may replace one or more of the tires and wheels on an axle to securely and solidly support the vehicle on ground or a on concrete pad.

The present invention provides a new style or design for a steel wheel 200 in passenger vehicle with improvement in performance and aesthetics. In the new design of the steel wheel 200, a vent-hole outer region 214 is folded 206 inwardly to form two ends, wherein one end is welded to an outboard bead seat 212 of the steel wheel rim and the other end welded to a portion of an outboard flange portion 204. The inward folding 206 of the vent hole outer region 214 increases the vent-hole 205 area and thereby improves better air flow and cooling of a brake drum. The passenger vehicle steel wheel 200 design enables for spot welding throughout the circumference of the rim-disc contact surface for better contact and higher load/moment transfer. Further, the passenger vehicle steel wheel 200 may utilize an existing rim without any special machining or modification.

A tubular type torsion beam is manufactured by bending and welding and coupling a plate material. The plate material has a plurality of protrusions disposed on a plurality of side surfaces in a width direction of the vehicle. The torsion beam is manufactured by molding the plate material in a pipe shape by bending the plate material in the width direction and molding the plate material to dispose the plurality of protrusions to contact each other to form a gap between the plurality of side surfaces of the plate material and then welding and coupling the plurality of side surfaces of the plate material.

Disclosed is a vehicle support device comprising a polygonal surface which may be affixed to a front edge of an at least one circumferential plate (110) or to a midline of an at least one circumferential plate (110). The polygonal surface (105) may be a pentagon polygon having five sides, a hexagon polygon having six sides, an octagon polygon having eight sides, or any polygonal shape. The polygonal front surface may have an at least one asymmetrical side. The polygonal front surface (105) may have a plurality of lug bolt supports (120), which may have five lug bolt supports (120), seven lug bolt supports (120), eight lug bolt supports (120), or twelve lug bolt supports (120). The vehicle support device may have an axle support centerline (125), a vehicle support device centerline (130), and an non-zero centerline offset (135) between the axle support centerline (125) and the vehicle support centerline (130) to provide for offset alignment of the vehicle support device in a vehicle wheel well.

The vehicle support device may be used to support any wheeled automobile, trailer or tractor, to provide levelness and stability of the vehicle, prevent UV and time or gravity-caused degradation of the tires, and extend the life of the tires, and on other vehicles with modification. For most automobiles, trailers, and tractors, the vehicle support device may replace one or more of the tires and wheels on an axle to securely and solidly support the vehicle on ground or a on concrete pad.

A kit for a wheel comprises a hub component in the form of an annular body defining a central opening for receiving a shaft on which the wheel is to be mounted, at least one outer rim component adapted to form a substantially circular periphery of the wheel and a plurality of spoke components adapted to interconnect the at least one outer rim component and the hub component with each of the spoke components being arranged at a respective angular position about the hub component. Each outer rim component is formable from a blank comprises a main body which defines an outer ground engaging surface of the wheel, a pair of strips consecutively attached to one end of the main body in a manner such that each strip is movable relative to the adjacent element about a transverse folding axis, so that the strips can be folded to define a peak projecting outwardly to form a wheel rim with fins.

The present invention relates to a method for producing a vehicle wheel consisting of sheet metal.

The invention is directed to a heat shield structure (8) for a wheel (1) which comprises a base structure (11) that is at least partially made from a composite material. The heat shield structure (8) is arranged on the base structure (11) and is at least partially covering the base structure (11).

The invention relates to a wheel rim having a rim base (3) of fiber composite material and a wheel disk (2) connected to the rim base (3) in a radial marginal section. The radial marginal section of the wheel disk (2) comprises at least two partial layers (4, 5) on each of which a contoured joining zone (6, 7) which extends substantially axially is formed, the joining zone being flat connected to the rim base (3).