Aerodynamic wheel covers may include a hub assembly coupled with a hub of a large vehicle, such as a truck. A base assembly may be coupled to the hub assembly, and a disk assembly may be coupled with the base assembly such that removal and installation of the disk assembly may be accomplished without tools.

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

A hub or wheel assembly includes a retaining element, biasing element, and hand-maneuverable release mechanism. The housing includes an axle bore configured to receive an axle and a pin sleeve including a first end in fluid communication with the axle bore, a second end, and a conduit between the first end and the second end. The retaining element is within the conduit and is configured to operatively engage a groove in an axle. The biasing element is within the conduit and is configured to bias the retaining element towards the axle bore. The hand-maneuverable release mechanism is configured to displace the retaining element away from the axle bore.

The application relates to a wheel hub for vehicle, which comprises a flange, a rim, a spoke, a central hole, and bolt bores distributed around the central hole. According to the disclosure, the flange on the wheel front side is affixed with an extension part comprising a radial extension magnitude extending to the outer periphery of the wheel hub and an axial extension magnitude extending to the wheel front side, the extension part comprises a plurality of sections circumferentially distributed along the flange, so as to form on the wheel front side an envelope circle having a diameter size increased by twice the radial extension magnitude. The present disclosure further satisfies the additional needs of the user with respect to the overall design of the wheel.

A modular billet hub which includes a removable hub ring having a plurality of hub ring openings located around a periphery of the removable hub ring, a removable barrel having a first end and a second end, wherein the first end of the removable barrel is operatively attached to the removable hub ring, a removable billet insert located within the removable hub barrel and located adjacent to the second end of the removable barre, and a retaining ring located within the removable hub barrel and located adjacent to the billet insert in order to retain the billet insert within the removable barrel.

An improved snap-on automotive wheel cover overlay with extended overlay and method for manufacturing the same, wherein when snapped in place over an existing damaged manufacturer's wheel cover, the wheel cover overlay with extended surround of the present invention, in addition to the presence of hook-shaped members for the purpose of securing the former to the latter, is further secured by inserting a tension rotation device from the reversed position of a tire into a manufactured in wheel cover overlay tension tabs assembly, such that tension rotation device prongs of a tension rotation device penetrate through a tension rotation device prong's corresponding openings. Said tension tab rotation device is secured in said tension tabs assembly by the use of a tension rotation device fastener, after which an automobile emblem support device with tension tabs corresponding to a tension tab guide plate slits is inserted to further secure the wheel cover overlay with extended surround of the present invention to an existing damaged manufacturer's wheel cover.

A cover element is adapted for attaching to a vehicle wheel having a wheel hub, a wheel rim provided with a rim base for receiving a tire, and a central body connecting the wheel hub to the wheel rim. The cover element is configured in the shape of a circular disk in order to cover the central body, is distinguished in that the outer surface of the cover element is provided at least in regions with at least one bistable display element, such as an E-paper display element, with a display device, or is formed by at least one such display element. Electric control signals can be applied to the display device via a control unit.

Disclosed are a method of manufacturing a vehicle member including pretreating the surface of an electrically conductive plastic molded product and forming a metal plating layer on the molded product, wherein the metal plating layer includes a copper plating layer, a nickel plating layer and a chromium plating layer, which are sequentially formed, and a vehicle member manufactured by the method.

A composite wheel includes a rim, a connecting ring, a plurality of spokes and a flange all connected in sequence from the outside to the inside. One end of each spoke is provided with a thread, and the other end of each spoke is provided with a first mounting hole.

A vehicle wheel and method of manufacturing the vehicle wheel is disclosed. A first polymeric coating is applied to a surface of an alloy substrate that defines the vehicle wheel. The first polymeric coating defines a first coloration. An intermediate clear polymeric coating is applied over the first polymeric coating. A second polymeric coating is applied over the first polymeric coating with the second polymeric coating defining a second coloration that is distinguishable from the first coloration. A laser scans a pattern over the second polymeric coating resulting in ablation of the second polymeric coating rendering the first polymeric coating visible through the intermediate clear polymeric coating defining a pattern of exposed first polymeric coating. Thus, a two-tone appears is present between the first coloration and the second coloration in the shape of the pattern scanned by the laser.