Visible built-in component for the interior fittings of an aircraft, comprising a partially transparent stone layer or glass layer and a luminous layer arranged thereunder for backlighting the stone layer or glass layer, wherein the luminous layer comprises a plurality of luminous strips and a partially transparent intermediate layer is provided between the luminous layer and the stone layer or glass layer.

An exemplary vehicle container assembly includes an outer bin, an inner bin received within the outer bin, and a lighting assembly that illuminates an interior of the inner bin through a translucent area of the inner bin. An exemplary vehicle container illumination method includes illuminating an interior area of an inner bin through a translucent area of the inner bin.

A cup holder includes a cup holder body which has a bottomed container shape and is capable of accommodating a beverage container; a decorative finisher member which is installed in an upper edge portion of the cup holder body; a light guide member which is interposed between a lower portion of the finisher member and an upper edge portion of the cup holder body. A light-guide-member installation part and a finisher-member fixing part are provided in the cup holder body. The finisher-member fixing part fixes the finisher member to the cup holder body in a state where the finisher member is separated with a gap part from an upper side of the light guide member.

A portable lighting system includes a vehicle that has a hitch receiver and a lighting system. A lighting unit is removably coupled to the hitch receiver. The lighting unit has a telescopically adjustable height ranging between approximately 1.0 meters and 2.5 meters. Moreover, the lighting unit is selectively positioned in a first position having the lighting unit being vertically oriented. In this way the lighting unit may emit light at a height that is sufficient to attract bugs away from a user. The lighting unit is selectively positioned in second position having the lighting unit being horizontally oriented.

A portable lighting system includes a vehicle that has a hitch receiver and a lighting system. A lighting unit is removably coupled to the hitch receiver. The lighting unit has a telescopically adjustable height ranging between approximately 1.0 meters and 2.5 meters. Moreover, the lighting unit is selectively positioned in a first position having the lighting unit being vertically oriented. In this way the lighting unit may emit light at a height that is sufficient to attract bugs away from a user. The lighting unit is selectively positioned in second position having the lighting unit being horizontally oriented.

A vehicle switch is provided that includes a substrate. A holographic film is positioned on the substrate. A first light source and a second light source are configured to emit a light onto the film and a proximity switch assembly is positioned on the substrate. The holographic film is configured to create a projected image above the holographic film.

A light strip device to be secured on or in a window jamb of a window opening of a door leaf of a rail vehicle boarding system in a nondestructively releasable manner, wherein the window opening has a window pane. The light strip device has at least: a) one light strip which is provided with a number of light sources arranged in a mutually spaced manner in rows, and b) one holding and installation profile in which the at least one light strip can be received and which is provided with an attachment to the window jamb, wherein c) the holding and installation profile has at least one light through-opening such that light generated by the light sources can penetrate the light through-openings, and the holding and installation profile is opaque with the exception of the light through-openings or d) the holding and installation profile is at least partly transparent.

An arrangement of a heatsink for insertion in a headlamp, and a holder being provided in the headlamp, in which the heatsink is held. At least one semiconductor light source is provided, which can be cooled with the heatsink (10). A clamping element is provided, with which the heatsink is arranged in a holding manner on the holder and by means of which one or more semiconductor light sources are directly or indirectly held on the heatsink.

A lighting system is provided herein. The lighting system includes a number of lights and a portable electronic device carried by a vehicle occupant. A controller is in communication with a sensing system and configured to detect a cabin location of the electronic device, assign a seating area to the electronic device, and operate only the lights associated with the seating area based on information indicative of an impending departure of the vehicle occupant from the vehicle.

A lighting system is provided herein. The lighting system includes a number of lights and a portable electronic device carried by a vehicle occupant. A controller is in communication with a sensing system and configured to detect a cabin location of the electronic device, assign a seating area to the electronic device, and operate only the lights associated with the seating area based on information indicative of an impending departure of the vehicle occupant from the vehicle.