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 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 vehicle wheel has spokes, on which cover elements are provided for a space between the spokes. The cover elements deform according to the temperature in such a way that, at higher temperatures, a passage of air through a region of the space between the spokes is possible, which is covered by the cover element at lower temperatures. In this way, the cover elements do not entirely cover the respective spaces between the spokes, and a rigid cap element is provided per intermediate space in addition to a cover element deforming according to the temperature. Alternatively, two cover elements are provided in each space between the spokes, next to one another in the circumferential direction of the wheel, wherein in the deformed state, one of the cover elements is curved outwards and the other cover element is curved inwards towards the vehicle.

A shaped preform component (200) for a face portion (104) of a composite wheel (100), the shaped preform (200) having a hub (206) that extends around a central axis (Y), the shaped preform component (200) being formed from a cured composite fibre material having a compressibility of <2% volumetric under moulding conditions of 50 bar hydrostatic pressure and a temperature of 60 to 200 C.

A shaped preform component (200A) for a spoke portion (108A) of a composite wheel (100), the shaped preform (200A) comprising: an elongate body (215) configured to be located in a spoke (108) of a composite wheel (100), wherein the shaped preform component (200A) is formed from a cured composite fibre material having a compressibility of <2% volumetric under moulding conditions of 50 bar hydrostatic pressure and a temperature of 60 to 150 C., and wherein the density of the cured composite fibre material is selected to form a counterbalance mass for a mass addition (300) to the composite wheel (100).

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 shading system for tires and wheels being built to a customized shape and size to cover at minimum the sidewall of a tire. The shading system may be comprised of, but is not limited to, multiple layers of shading material offering ultraviolet and heat protection for the covered area and a multipoint harness to secure the shade to the tire.

Methods for wirelessly communicating with vehicle adapted to be at least partially powered by a human are disclosed. An example method may include transmitting data from a device remote from the vehicle and configured to communicate with the vehicle, receiving the data at the vehicle, and configuring a parameter of the vehicle based on the data.

Decorative cover (1) for motor vehicle wheels, which is detachably arranged in the space (5) between spokes (4) of a motor vehicle rim (2), wherein the decorative cover (1) has active lighting, the electrical energy of which can be generated by an energy module (12) fastened to the rear of the decorative cover, wherein the energy generation thereof works independently of the fixed components of the motor vehicle.