A power generation system is provided configured for installation within a wheel of a vehicle. The system includes a stator having a plurality of face-mounted permanent magnets; and a rotor having a plurality of windings configured to rotate, with rotation of the wheel, in proximity to the permanent magnets thereby generating a current. The stator is mounted to a brake caliper of the vehicle. Also provided is a wheel-based vehicle display system including a light emitting diode (LED) array arranged on or within a wheel of a vehicle; a power source connected thereto; and a controller connected to the LED array. The display system is configured to display at least one of: textual information, visual images or full-motion video.

A wheel center cap engagement system is provided to connect center caps of vehicle wheels to the proper position in a central area of the wheel. The center caps are connected to a mounting plate engageable with the wheel lugs and are held in proper positioning relative to the wheel thereby. A bearing can be interfaced between the center cap and its connection to the mounting plate should rotation of the center cap be desirable.

A wheel center cap engagement system is provided to connect center caps of vehicle wheels to the proper position in a central area of the wheel. The center caps are connected to a mounting plate engageable with the wheel lugs and are held in proper positioning relative to the wheel thereby. A bearing can be interfaced between the center cap and its connection to the mounting plate should rotation of the center cap be desirable.

The present invention provides a non-rotating center cap for use with vehicle wheel. The present invention comprises a support, an interlocking device, an ornamental object, and a sealer cap. The support is the part of the non-rotating center cap that affixes to the center bore of a vehicle wheel, the interlocking device is mounted in a depression formed on the support. The interlocking device biases the orientation and prevents the rotation of an ornamental object that is connected to it. The sealer cap is connected to the support, the sealer cap protects the ornamental object from water, dust, debris and oil, the sealer cap prevents movements of the ornamental object that could be caused by winds when the vehicle is in motion. The ornamental object does not rotate when the vehicle is in motion, which allows the ornamental object to be readily visible.

The present invention provides a non-rotating center cap for use with vehicle wheel. The present invention comprises a support, an interlocking device, an ornamental object, and a sealer cap. The support is the part of the non-rotating center cap that affixes to the center bore of a vehicle wheel, the interlocking device is mounted in a depression formed on the support. The interlocking device biases the orientation and prevents the rotation of an ornamental object that is connected to it. The sealer cap is connected to the support, the sealer cap protects the ornamental object from water, dust, debris and oil, the sealer cap prevents movements of the ornamental object that could be caused by winds when the vehicle is in motion. The ornamental object does not rotate when the vehicle is in motion, which allows the ornamental object to be readily visible.

The present disclosure is directed to a wheel cover that is coupled to a wheel of a vehicle utilizing a mounting assembly that has a bearing block. A retainer assembly in combination with the bearing block of the mounting assembly allows the wheel cover to be coupled to the wheel in a manner such that the wheel cover does not rotate with the forward and backward rotation of the wheel when the vehicle is being driven. The wheel cover covers the wheel and partially covers a gap or space between a tire of the wheel and a fender of the vehicle, which increases the aerodynamic performance of the vehicle. The retainer assembly provides at least one degree of freedom such that the wheel cover may move with the wheel when steering the vehicle in a leftward direction and a rightward direction.

The present disclosure is directed to a wheel cover that is coupled to a wheel of a vehicle utilizing a mounting assembly that has a bearing block. A retainer assembly in combination with the bearing block of the mounting assembly allows the wheel cover to be coupled to the wheel in a manner such that the wheel cover does not rotate with the forward and backward rotation of the wheel when the vehicle is being driven. The wheel cover covers the wheel and partially covers a gap or space between a tire of the wheel and a fender of the vehicle, which increases the aerodynamic performance of the vehicle. The retainer assembly provides at least one degree of freedom such that the wheel cover may move with the wheel when steering the vehicle in a leftward direction and a rightward direction.

A light emitting device for an automobile wheel, is capable of generating electrical energy through torque of an automobile wheel, illuminating an advertisement member using the generated electrical energy, and controlling the advertisement member to display advertisement contents at a correct posture without being tilted in response to a reverse magnetic field generated during the electricity generation process.

A light emitting device for an automobile wheel, is capable of generating electrical energy through torque of an automobile wheel, illuminating an advertisement member using the generated electrical energy, and controlling the advertisement member to display advertisement contents at a correct posture without being tilted in response to a reverse magnetic field generated during the electricity generation process.

A system includes a wheel including a center cap having a first portion configured to rotate with the wheel and a second portion configured to remain stationary. The second portion includes a light source and a power storage module. The system further includes a generator configured to generate power and output the power to at least the power storage module, a power converter coupled between the power storage module and the light source, and a control module. The control module is configured to receive a signal indicative of a key associated with the vehicle being within a defined distance, and in response to receiving the signal, control the power converter to output the power generated by the generator and stored in the power storage module to the light source. Other examples systems and methods for controlling a light source in a wheel of a vehicle are also disclosed.