In one aspect, an armrest lighting control device of a vehicle according to the present disclosure comprises a switch controller configured to produce a lighting color change effect or produce a fade-in/fade-out effect or an effect of turning off lighting by outputting a lighting-off signal from a lighting turning-off position of a switch lighting unit on the basis of a sensor signal from an acceleration sensor made by detecting a change in upward/downward armrest change angle of an armrest having the switch lighting unit directed toward a rear seat.

The present invention provides a method of installing a hood scoop to a designated recessed area of a hood of a Jeep® Wrangler Rubicon vehicle comprising: providing the hood scoop having a protective member and a hood attachment member having a first cable access feature wherein: edge profile of the hood attachment member matches edge profile of the designated recessed area; the designated recessed area includes a hood aperture that provides access to the vehicle's electrical power and control systems; attaching the attachment member to the designated recessed area using conventional attachment means; and attaching a light fixture to the hood scoop wherein the light fixture's cables pass through the first cable access feature and the hood aperture for communication with the vehicle's electrical power and control systems. The present invention also provides the hood scoop described herein.

A vehicle is provided that includes a body defining a roof. A roof rack is operably coupled to the roof through a plurality of mounting features and configured to support cargo. A load cell is positioned on each of the mounting features and configured to sense a load on the roof rack associated with the cargo. A controller is in communication with the load cells and an electronic device and a light source is positioned proximate each of the mounting features. The light source is configured to emit light based on the load sensed by the load cell.

A charging door provided with a projection lamp and a method of controlling projection of the same, includes a base, a charging door panel, a connection member, and a projection lamp module, wherein a charging port is formd in the base, and a vehicle is charged through the charging port, the charging door panel is pivotably mounted to the base, the connection member connects the base and the charging door panel with each other, and a mounting hole is formed in the connection member, and the projection lamp module is mounted in the mounting hole of the connection member, and the projection lamp module is electrically connected to a controller to be turned on or off according to a command signal of the controller and to project light of a predetermined color, based on a command signal of the controller.

The present invention relates to a daylight opening surround (3; 101) for a motor vehicle (1). The surround (3; 101) has a light transmitting element (15; 103) for transmitting light from a light source (19; 111). The present invention also relates to a light transmitting element (15; 103) for a surround (3; 101); a controller for a daylight opening surround (3; 101); and a motor vehicle (1).

A vehicle illumination apparatus is disclosed. The apparatus comprises at least one aperture disposed in a panel of the vehicle. A light source is disposed proximate the aperture and configured to emit a first emission having a first wavelength. A first photoluminescent portion is disposed proximate the panel substantially within the aperture and configured to emit a second emission having a second wavelength in response to receiving the first emission.

Provided is an indirect light-emitting front grill including: a front grill 22; light-emitting members 4, 14; and illuminated members 1, 11 disposed along the design portion. The illuminated members 1, 11 have reflecting portions 2, 12 that reflect light emitted by the light-emitting members 4, 14. The reflecting portions 2, 12 are visible via the front grill viewed from the front, and have a black or dark color or the same color as or a similar color to the front grill 22. This front grill has openings 3, 13 through which currents of air introduced from outside the vehicle are further introduced into the inside of the vehicle, the openings being located nearer to the outer edges of the front grill 22 than to the reflecting portions 2, 12.

A mesh lighting system for emergency vehicles and method for retrofitting a vehicle with emergency lights is disclosed. The system comprises a plurality of independent signalling light sources each supplied by a dedicated source of energy, a control module, and a low powered wireless network connecting said control module with the plurality of light sources. The plurality of independent signalling light sources emit at least one light flash in response to a control signal received from the control module.

A step assembly of a vehicle is provided herein. The step assembly includes a box step having a release button that luminesces in response to excitation light and continues to luminesce for a period of time after the excitation light cease to be provided. A drive mechanism is configured to move the step pad from a stowed position to a deployed position when the release button is pressed.

A light mount for mounting a light to a steering arm on an axle may include a bracket designed to attach to the steering arm; and a bracket orifice extending through a portion of the bracket, the bracket orifice sized to accommodate a light pod fastener extending from a light pod, wherein the bracket and, thus, the light pod rotate with rotation of the steering arm. The bracket may have various forms and may be a Z-shaped bracket, a mounting perch integrated into the structure of a steering arm, or a mounting plate designed to be attached to an existing steering arm.