A system for vehicle wheels including a hub cap assembly, a bracket assembly and a vehicle assembly is disclosed. The hub cap assembly includes a hub cap that includes lights. The hub cap is mounted to a vehicle to allow a user to customize the vehicle to display different colored lights while driving. The hub cap assembly includes a base mounted underneath of the hub cap. The bracket assembly includes a bracket that is mounted to the wheel hub of the vehicle. The base and hub cap are mounted over the wheel hub and secured to the bracket.

An autonomous mobile device has a main body and an extensible mast to raise and lower a payload, such as a camera, relative to the main body. The mast may comprise a set of telescoping sections, with each section comprising two or more pieces that are joined during assembly. A motor moves a flexible rack between a first spool and the mast to raise or lower the mast. For example, during extension a motor-driven pinion engages teeth on the flexible rack, pulling the rack from the first spool and pushing up the mast. A cable stored on a second spool may be extended and retracted with the flexible rack. The cable transfers one or more of data or power between the main body and the payload. A sensor may be used to detect features on the flexible rack to provide data about how far the flexible rack has been extended.

A locking device for locking a wheel of a vehicle is provided, where the device comprising a main module adapted to be attached to a rim of the wheel and configured to cover nuts or bolts that attach the wheel to the vehicle, a tubular center bolt having a threated outer surface and configured to adapt a lock cylinder, the tubular center bolt being further adapted to be connected to the main module via an insert sleeve; and at least one threaded element permanently assembled within a center bore or behind the rim; wherein the tubular center bolt is configured to be threadedly attached to the at least one threaded element to attach the locking device onto the wheel, and wherein the lock cylinder is configured to be arranged in a locking state within the center bolt in which the center bolt is prevented from rotating relative to the main module and the at least one threaded element, and in an open state in which the lock cylinder allows the center bolt to rotate relative to the main module and the at least one threaded element.

A magnetic hub plug apparatus for sealing a wheel hub and detecting wheel bearing failure includes a plug body having a plug outer side, a plug inner side, and a plug edge. A seal ring has a proximal perimeter coupled to the plug inner side, a distal perimeter, and a seal sidewall extending from the proximal perimeter to the distal perimeter. The seal ring is configured to sealingly fit within a wheel hub cap. A magnet extension is coupled to the seal ring. The magnet extension extends from the seal sidewall and dips within an oil reservoir of the wheel hub cap with each rotation. A magnet insert is coupled within the magnet extension to collect particles from a faulty wheel bearing. A plug grip is coupled to the plug body and extends from the plug outer side.

To obtain a structure wherein water having entered the gap between the bottom surface of an annular groove in a rotation-side flange and the inside surface in the axial direction of the brake rotor can be easily drained to the outer space. The outer diameter DO of the annular groove 15 is larger than the diameter DDI of the inscribed circle of the opening portion outside in the axial direction of the water drain holes 17a and is smaller than the diameter DDO of the circumscribed circle of the opening portion outside in the axial direction of the water drain holes 17a.

An improved wheel cover for large commercial vehicle trailers is disclosed. It includes simple and robust mechanism for attachment with the wheel, facilitates easy installation and removal, and provides better aerodynamics and fuel efficiency during travel. In a preferred embodiment, an annular flexible shell cover (covering an annular magnet) of the wheel cover, deforms and frictionally fits into hollow of a corresponding wheel flange, and the annular magnet (lying under the shell cover) keeps the shell cover magnetically attached (with a strong magnetic bonding) with the flange. Hence, in addition to the magnetic bonding, the installed wheel cover is held in place by a friction fitting between the shell cover and the flange. The outer side of the wheel cover can either be kept planar or curved, and its surface can be dimpled or smooth.

The invention concerns wheel center cap assemblies that include an adapter and a wheel center cap that registers with, or is integral with, the adapter. In some embodiments, the adapter includes tracks and lug sleeves that couple with lugs of the vehicle wheel. Each of the lug sleeves is slidably coupled to each of the tracks of the adapter, and each of the lug sleeves is adapted to move along a length of the tracks; this helps ensure that the adapter is universally compatible with multiple wheel models. In other embodiments, an adapter has a body adapted to be inserted within the center aperture of the wheel. A posterior support registers with the adapter and is sandwiched between a rotor of the vehicle and the wheel to secure the adapter inside the aperture of the wheel; a removable wheel center cap registers with the adapter to adorn the wheel.

An end cover for enclosing and protecting a vehicle non-driven wheel hub assembly from a vehicle body inner side. The hub assembly includes an outer ring, an inner ring, and two rows of rolling bodies disposed therebetween. The outer and inner rings define an interior space of the hub assembly in a radial direction. An end of the outer ring facing the vehicle body inner side forms a spigot for connection purposes. The end cover is formed having a pressure fitting part tightly fitted to the spigot from a radial direction, and a radial main body part capable of closing the interior space of the hub assembly from an axial direction. The pressure fitting and the radial main body parts form an elastic retainer. The end cover is largely made of a plastic material, and an at least partially contained metal framework is formed in the elastic retaining region.

A wheel drive unit for a vehicle includes a connecting member separably coupled to a constant velocity joint, a hub housing accommodating the constant velocity joint, and a hub cap to seal the hub housing. In particular, a fixing groove is formed around a first end of the constant velocity joint, and the connecting member is fitted in the fixing groove in a ring shape. When the hub cap is separated from the hub housing, the connecting member can be easily disassembled from the constant velocity joint such that inner components of the wheel drive unit can be easily replaced and repaired.

A wheel assembly that provides a simulated center lock wheel look that also enables exchanging of ornamental face plates with a center hub attachment device that will allow car enthusiasts to easily change the look of their automotive wheels while maintaining a center lock wheel appearance. The assembly includes three components: a base wheel, a plurality of ornamental face plates, and a center hub attachment extending from one of either the hub or the ornamental face plate.