An air deflection ring that is configured to be attached to a wheel of a motor vehicle that includes a barrel including a cylindrical inner surface and an opposing cylindrical outer surface, a plurality of spokes that are each separated by an opening and attach the barrel to a center of the wheel. The air deflection ring includes a cylindrical mounting ring that is configured to be fixed to the cylindrical inner surface of the barrel, and an air deflection flange that extends radially inwardly toward the center of the wheel from the cylindrical mounting ring. The cylindrical mounting ring is configured to be fixed to the cylindrical inner surface of the barrel at a location positioned immediately adjacent to the plurality of spokes, and the air deflection flange is configured to direct a flow of air away from the openings during rotation of the wheel.

A wheel of a vehicle, in particular a motor vehicle, has a rim, a hub portion, and at least two spokes connecting the hub portion to the rim. At least one free space between the spokes is covered at least in part by a substantially planar covering element. The covering element is produced from two different material layers.

A tire and rim assembly includes a rim having a pair of flanges, and a pneumatic tire being mounted onto the rim, the pneumatic tire including a pair of bead portions and a rim guard being provided on at least one of the pair of bead portions. In a cross-sectional view of the assembly under a standard state, the rim guard protrudes outwardly in a tire axial direction from a sidewall reference outer surface of the tire so as to cover over one of the pair of flanges. An angle θ of an imaginary rim guard straight line with respect to a tire radial direction is equal to or less than 40 degrees, and a maximum gap (A) in the tire radial direction between the one of the pair of flanges and the rim guard is equal to or less than 2.0 mm.

Provided are a decorative part, a wheel, and a fixation structure of such decorative part and wheel that are unaffected by variations in sizes at the time of manufacturing. The decorative part is to be attached to a vehicular wheel. This decorative part has the fixation portions to be fixed to the wheel; and the first plate-shaped ribs and the second plate-shaped ribs that are arranged at given intervals. The decorative part is to be fixed to the wheel with linear convex portions formed on the wheel being arranged in between and positioned to the first plate-shaped ribs and the second plate-shaped ribs.

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 wheel of a vehicle has a rim, a hub portion and at least two spokes connecting the hub portion to the rim. At least one spoke intermediate space between the spokes is at least partially covered by a single-piece cover element. A wing portion of the cover element is deformed axially away from the wheel when heat is supplied. The cover element is connected directly to the wheel, and the single-piece cover element is formed from a single material.

A wheel cover assembly has a mounting ring, an outer wheel cover, and an inner wheel locking structure. The mounting ring attaches to a vehicle wheel hub via latch mechanisms that latch over an axle flange of the wheel hub. The outer wheel cover has axially-inwardly-extending latches that secure the outer wheel cover to the mounting ring. The inner wheel locking structure includes axially-inwardly-extending latches that pass through openings in the outer wheel cover, securing the outer wheel cover to the mounting ring. The inner locking structure includes latches that pass through openings in the outer wheel cover. This inner locking structure includes locking pins that extend into the locking ring to lock the wheel cover latches to the mounting ring. A pair of inner locking faces on the inner locking structure lock the mounting ring latches to the wheel hub.

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 tire rim protection device, including a rim cover to cover at least a portion of a tire rim, at least one key bolt to connect the rim cover to the tire rim, and a round key to connect to the at least one key bolt, such that the at least one key bolt fastens the rim cover to the tire rim in response to a rotation of the round key.

A wheel hub assembly adapted to be connected to a wheel assembly comprising a wheel rim defining a mounting portion comprises a retaining ring, a hub cap, and at least one retaining bolt. The retaining ring defines a first clamp portion. The hub cap defines a second clamp portion. The at least one retaining bolt is adapted to secure the hub cap relative to the retaining ring such that the mounting portion of the wheel rim is between the first clamp portion and the second clamp portion.