A light source module of a lamp for a vehicle is capable of realizing a three dimensional pattern image when light sources are turned on by using a plurality of inner lenses combined stepwise and by turning a first light source and a second light source of the light sources on or off.

Provided is a lighting apparatus for an automobile which improves luminous efficiency. To this end, the lighting apparatus for an automobile according to the embodiment of the present invention includes: a light source which produces light; a reflector which reflects the light produced by the light source; and a light guide which is illuminated with the light produced by the light source while the light passes through an interior of the light guide.

A vehicle light device comprising an element made up of a plurality of portions each having a functional surface, at least two consecutive portions being linked together by an articulation. The main feature of a light device according to the invention is that each articulation allows the displacement of the two consecutive portions until their functional surfaces come into continuity with one another.

A vehicle is provided that includes a license plate positioned on a rear of the vehicle, the license plate includes indicia with a first phosphorescent material. A light source is configured to activate the first phosphorescent material and a license plate frame at least partially surrounding the license plate. The license plate frame has an at least partially transparent substrate including a partially transmissive coating. A second phosphorescent material is positioned proximate the partially transmissive coating. The license plate frame also includes a reflective surface and a transparent surface positioned proximate the license plate.

An optical device for a motor vehicle, notably a lighting and/or signaling device for a motor vehicle, comprising a surface light source, wherein the device comprises a light beam shaping member which deflects first light rays of the beam emitted by one face of the surface light source, this member not deflecting second light rays of the beam emitted by the same face of the surface light source.

The lighting device disclosed at an embodiment of the invention comprises: a reflective member; a resin layer disposed on the reflective member; a light emitting device disposed to correspond to one side surface of the resin layer; and a light wavelength conversion layer disposed on one surface of the resin layer. The light wavelength conversion layer includes a main phosphor pattern disposed in a long axis direction of the resin layer, the main phosphor pattern includes a first unit-phosphor pattern disposed in a first region and a second unit-phosphor pattern disposed in a second region, the first region may be located closer to the light emitting device than the second region, and a width of the first unit-phosphor pattern may be less than a width of the second unit-phosphor pattern.

A light source module of a lamp for a vehicle is capable of realizing a three dimensional pattern image when light sources are turned on by using a plurality of inner lenses combined stepwise and by turning a first light source and a second light source of the light sources on or off.

Some embodiments provide an illumination system with an outer housing including a base, a central housing pivotably coupled to the base including a fluid inlet, and an upper housing including a fluid outlet. The inner housing defines a chamber and is coupled to the base, and includes a fluid aperture adjacent to the base, and a fluid aperture adjacent to the upper housing and a viewing aperture. The chamber houses an evaporator system not visible through the outer housing, and an illumination device. Some embodiments include a repellent system with a base including a fluid inlet pivotably coupled to a main housing enclosing an inner region, and including an upper portion with at least one fluid outlet. In some embodiments, an evaporator system within the inner region is not visible through the main housing. Some embodiments include an evaporator assembly that includes a lockable evaporator support to render the system non-refillable.

The disclosure relates to an illumination unit, in particular an elongated illumination unit, on the outside of a motor vehicle, comprising a housing having at least one light emission opening which is closed by a light-transmissive cover plate, wherein the housing has two end regions, arranged in which in each case is an illumination assembly having at least one light source that is designed to emit light through the cover plate. In a rear housing wall, i.e., in a rear wall of the housing, between the two end illumination assemblies are arranged at least one air inlet opening and, separate therefrom, at least one air outlet opening, wherein the air inlet opening is connected to the vehicle interior of the motor vehicle, whereas the air outlet opening is connected to an outer area of the motor vehicle. This establishes during operation of the motor vehicle an automatic air circulation in the interior of the housing from the air inlet opening to the air outlet opening that is brought about by a pressure difference between vehicle interior and outer area of the motor vehicle.

A vehicle lamp includes light sources, and a light guide body configured to guide light emitted from the light sources from one end side toward an other end side of the light guide body. The light guide body has a shape in which a first light guide part located in front of the light sources and a second light guide part extending in one direction between one end side and the other end side are connected. The second light guide part has a plurality of light emitting parts, which are disposed side by side in one direction and which are configured to emit the light by diffusing the light, and transmissive parts which are disposed between the neighboring light emitting parts and which are configured to transmit the light.