The technology provides a multi-piece wheel for a vehicle that is disassembled to laterally rotate directional tires without needing to dismount a tire from a rim. The multi-piece wheel includes a rim housing with threaded apertures provided at side edges proximate to an outboard flange and an inboard flange. The multi-piece wheel includes a face that is removably coupled to the rim housing, the face having a bore that centers the face on an axle hub, a disk that is concentric with the bore; and spokes that are mechanically coupled to the disk and extend outwardly therefrom, the spokes having apertures at an end opposite to the disk that align with the threaded apertures in the rim housing. The multi-piece wheel further includes a fastener that releasably couples the face and the rim housing and a secondary fastening mechanism that mechanically engages the spokes and the rim housing.

A manufacturing method for a wheel disc, includes forming a flange portion, wherein the flange portion is formed such that an inner mold and an outer mold having a cylindrical inner surface with a first inside radius larger than the first outside radius and placed above the inner mold coaxially to the inner mold are brought close relative to each other in an axial direction by one stroke so that the outer edge of the disc material is bent downward, and the cylindrical inner surface of the outer mold is provided with recessed portions hollowed outwardly in a wheel radial direction, the recessed portions being formed in ranges corresponding to the window portions in the wheel circumferential direction and in a range from a middle position to a bottom end in the wheel axial direction.

A manufacturing method for a wheel disc, includes forming a flange portion, wherein the flange portion is formed such that an inner mold and an outer mold having a cylindrical inner surface with a first inside radius larger than the first outside radius and placed above the inner mold coaxially to the inner mold are brought close relative to each other in an axial direction by one stroke so that the outer edge of the disc material is bent downward, and the cylindrical inner surface of the outer mold is provided with recessed portions hollowed outwardly in a wheel radial direction, the recessed portions being formed in ranges corresponding to the window portions in the wheel circumferential direction and in a range from a middle position to a bottom end in the wheel axial direction.

Disclosed is a method of forming a wheel assembly consisting of a wheel portion and a cover portion. The method includes handling the wheel portion from dunnage to a work cell with an outboard face of the wheel portion facing away from a supporting surface. Next, determining a planar position and a rotational position of wheel portion and retrieving the cover portion. The method proceeds with applying an adhesive to at least one of the back side of the cover portion and the outboard face of the wheel portion. Then, aligning the cover portion with the wheel portion utilizing the planar position and the rotational position. The next step is engaging the cover portion and the wheel portion with one another and maintaining the wheel portion in engagement with the cover portion for a predetermined amount of time with a predetermined amount of pressure to form the wheel assembly.

A combined wheel includes spokes, steel bushings, a rim, a brake pad, pins and a backing ring. The spokes are placed in respective empty slots between adjacent connecting blocks, and clamping grooves therein are matched with the connecting blocks. The pins are installed into holes of the spokes and the connecting blocks. A left end face of a backing ring is matched with the back of the spokes. A plurality of screws connect the backing ring, the connecting blocks and the spokes and are fitted into the steel bushings. The brake pad is fixed to two pluralities of bosses by a second plurality of screws. In use of the combined wheel, both radial force and axial force generated in the running of the wheel can be counteracted on the spokes. The annular brake pad is installed on the inner wall of the rim, thereby increasing the brake radius.

A running wheel (1, 2) for a crane (16), in particular gantry crane, comprising a shaft (3), a wheel rim (4) and a hub (5) connecting the shaft (3) to the wheel rim (4) for rotation therewith, at least one connection between the hub (5) and the shaft (3) and/or between the hub (5) and the wheel rim (4) having a press fit (6) and a first form fit established by a first stop surface (8), the first form fit blocking a relative movement of the hub (5) in relation to the shaft (3) or the wheel rim (4) in a first direction (17) running parallel to an axis of rotation (7) of the running wheel (1, 2), wherein the connection additionally has at least one second form fit established by a second stop surface (9), wherein the second form fit blocks the relative movement of the hub (5) in relation to the shaft (3) or the wheel rim (4) in a second direction (18) opposed to the first direction (17).

An automobile hub with a hollow rim includes a wheel disc and the rim with at least one hollow cavity, in which the rim includes at least two mutually nested rings and an axial end cap at the same ends of the at least two rings, and the hollow cavity consists of the rings and the axial end cap. The outer side of one end of the wheel disc includes axial rim mounting grooves, and the rim is inserted into the rim mounting grooves and fixed to the wheel disc through the end without the axial end cap. By employing the automobile hub with the hollow rim, the hub assembling method, and the automobile having the hub, the weight of the hub can be further reduced, and the hub has sufficient strength.

The invention relates to a wheel, especially for motor vehicles, comprising a wheel rim and a wheel disc, the wheel rim having a rim base made of fiber composite material. The invention is characterized in that the wheel disc (3, 11, 20, 29, 40) can be indirectly connected to the wheel rim (1), in particular the rim base (2), by means of a connecting element (5, 14, 22, 31, 35, 42) which is designed and associated with the rim base (2) in such a way that the connected wheel disc (3, 11, 20, 29, 40) is not in contact with the rim base (2).

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.

The invention relates to a wheel, especially for motor vehicles, comprising a wheel rim and a wheel disc, the wheel rim having a rim base made of fiber composite material. The invention is characterized in that the wheel disc (3, 11, 20, 29, 40) can be indirectly connected to the wheel rim (1), in particular the rim base (2), by means of a connecting element (5, 14, 22, 31, 35, 42) which is designed and associated with the rim base (2) in such a way that the connected wheel disc (3, 11, 20, 29, 40) is not in contact with the rim base (2).