A hubcap for a heavy-duty duty vehicle that includes mounting structure that is formed with and cooperates with a side wall of the hubcap to provide a stiff, rigid structure that enables non-cantilevered connection to a wheel hub. The mounting structure can be a plurality of elongated bosses circumferentially spaced about the side wall that are formed with corresponding elongated bolt openings to enable the non-cantilevered attachment to the wheel hub. The elongated bosses cooperate with the hubcap side wall to provide a stiffened or rigid structure between the elongated bolt openings for increased and more uniform clamping force on a sealing gasket between the hubcap and the wheel hub. The hubcap profile provides clearance for removal of an outboard mounted disc brake rotor in heavy-duty vehicle wheel end assemblies that include such rotor configurations. The hubcap may support simple mounting of a hub odometer.

A vibration absorber for vehicle wheels is capable of absorbing and attenuating vibration of a vehicle wheel and of increasing a vibration absorption capability of the wheel without changing the external appearance and design of the wheel. The vibration absorber includes a vibration absorption unit mounted on a back surface of a center cap of the vehicle wheel to absorb a first vibration in an axial direction of the wheel transmitted through the center cap.

A hubcap comprising a base and a cap rotatably coupled to the base.

A wheel cap includes a cap body having a wheel side face and another face serving as a styling face on an opposite side from the wheel side face; a first engagement leg provided standing out from the wheel side face and configured to be inserted into a through hole of the wheel, with the first engagement leg abutting a first attachment portion of a peripheral edge of the through hole at a first angle with respect to an insertion direction; and a second engagement leg provided standing out from the wheel side face as a pair with the first engagement leg and configured to be inserted into the through hole of the wheel, with the second engagement leg abutting a second attachment portion at the peripheral edge of the through hole at a second angle with respect to the insertion direction, the second angle being greater than the first angle

A floating centercap assembly for a vehicle includes a cap and a counterweight affixed to the cap. A cup is included having a central bearing affixed to the cap wherein the counterweight travels rotationally within a sidewall of the cup. One of a retainer clip and a bracket affixes the cup to the vehicle wheel cover or axle.

The present disclosure pertains to a two piece center cap design which can be securably affixed to a wheel in a manner that does not require the center cap to be removed when installing and removing the wheels from a vehicle. This is achieved by rotating the center cap from a first position covering the lug nuts, to a second position, which does not cover the lug nuts, thereby providing access to the wheel lugs to allow the wheel to be installed and removed.

A wheel center cap ASSY (assembly) for a work vehicle includes a center cap attached to a hub of a wheel coupled to an axle and having a center axis, an adaptor including a cap attachment portion to which the center cap is attached and a plurality of flange portions disposed on the outer side of and along a circumferential direction of the center cap, and a coupling member for coupling the flange portions to the hub.

A design mount includes a design cutout having a design printed or adhered to the design surface and an adhesive tape on the back of the design cutout to mount the design cutout to any design surface. A plurality of design cutouts may be printed on a single sheet of material, and the design cutouts then cut out of the sheet. The design mount may also provide an artwork holder, having a shape that matches the shape of the design cutout. The inner perimeter of the holder may be about 1 mm smaller than the outer perimeter of the design cutout. The artwork holder may be heated, and the design cutout secured within the holder while the holder is heated. The holder then cools, providing a tight fit of the design cutout within the artwork holder.

A brake assembly adapted to be mounted to the flange of an axle housing. The brake assembly includes a stationary plate having a plurality of threaded holes therein. The brake assembly also includes a mounting sleeve positioned adjacent to the axle housing flange opposite the stationary plate. A plurality of holes are provided through the mounting sleeve and are aligned with the threaded holes in the stationary plate. A bolt is received through each of the holes in the mounting sleeve and the aligned holes in the axle housing flange and the threaded holes in the stationary plate to secure the brake to the axle housing. The mounting sleeve may be provided in two or more separate pieces in order to facilitate installation.

A power supply device used for a wheel rim is mounted on a wheel rim of a vehicle. The power supply device includes a magnetism assembly, an axle member, a magnet, a weight block, a seat, a coil module, and a control module. The seat is disposed on the wheel rim. One side of the seat is provided with an axle seat for connection of the axle member. The seat is driven by the wheel rim to turn relative to the magnetism assembly. When the seat is turned to generate power through the magnet and the coil module, the control module selectively transmits the power to a light-emitting device provided on the wheel rim.