A vehicle light includes: a light lens having a base panel made of a transparent plastic material, an outer paint layer disposed on an outer surface of the base panel, and an inner paint layer disposed on an inner surface of the base panel and including a light-transmitting hole formed therein; and a light source installed to be spaced apart from the light lens, in which light from the light source is transmitted out of the light lens through the light-transmitting hole and the base panel.

A vehicle light includes: a light lens having a base panel made of a transparent plastic material, an outer paint layer disposed on an outer surface of the base panel, and an inner paint layer disposed on an inner surface of the base panel and including a light-transmitting hole formed therein; and a light source installed to be spaced apart from the light lens, in which light from the light source is transmitted out of the light lens through the light-transmitting hole and the base panel.

The invention relates to a light element of a vehicle with at least one light source configured to emit light rays, a reflective layer. With a pattern made wholly or partly in the reflective layer. The light element further including an optical element configured to project the light rays from the at least one light source towards the reflective layer. With a dark layer extending along the optical element on the side opposite the reflective layer.

The invention relates to a light element of a vehicle with at least one light source configured to emit light rays, a reflective layer. With a pattern made wholly or partly in the reflective layer. The light element further including an optical element configured to project the light rays from the at least one light source towards the reflective layer. With a dark layer extending along the optical element on the side opposite the reflective layer.

A lighting device disclosed in an embodiment of the invention includes a substrate; a light emitting device disposed on the substrate; a resin layer sealing the light emitting device on the substrate; and a diffusion layer or a reflective substrate disposed on the resin layer, wherein the resin layer includes an oligomer, a monomer, and an additive, wherein the monomer includes IBOA (Iso-bornyl Acrylate), two or more dilution monomers and glycidyl methacrylate (GMA), the additive includes a photoinitiator and an amine-based light stabilizer, and in the oligomer and the monomer, the content of glycidyl methacrylate is 10 to 15%, and the resin layer may be a curable transparent resin cured by ultraviolet light.

A lamp assembly configured to be mounted to a vehicle includes a housing configured to be coupled to a vehicle and at least one light source disposed at least partially within an interior of the housing. The lamp assembly further includes a transparent polymeric lens coupled to the housing so as to substantially enclose the interior of the housing and the at least one light source. The transparent polymeric lens has a chromium-based reflective coating coated on at least a first area of an outer surface thereof. With the at least one light source electrically-connected to the vehicle, the chromium-based reflective coating is at least partially permeable to at least some light which is emitted by the at least one light source and passed through the transparent polymeric lens. At least a second area of the outer surface of the transparent polymeric lens is devoid of the chromium-based reflective coating.

A lamp assembly configured to be mounted to a vehicle includes a housing configured to be coupled to a vehicle and at least one light source disposed at least partially within an interior of the housing. The lamp assembly further includes a transparent polymeric lens coupled to the housing so as to substantially enclose the interior of the housing and the at least one light source. The transparent polymeric lens has a chromium-based reflective coating coated on at least a first area of an outer surface thereof. With the at least one light source electrically-connected to the vehicle, the chromium-based reflective coating is at least partially permeable to at least some light which is emitted by the at least one light source and passed through the transparent polymeric lens. At least a second area of the outer surface of the transparent polymeric lens is devoid of the chromium-based reflective coating.

A lamp assembly configured to be mounted to a vehicle includes a housing configured to be coupled to a vehicle and at least one light source disposed at least partially within an interior of the housing. The lamp assembly further includes a transparent polymeric lens coupled to the housing so as to substantially enclose the interior of the housing and the at least one light source. The transparent polymeric lens has a chromium-based reflective coating coated on at least a first area of an outer surface thereof. With the at least one light source electrically-connected to the vehicle, the chromium-based reflective coating is at least partially permeable to at least some light which is emitted by the at least one light source and passed through the transparent polymeric lens. At least a second area of the outer surface of the transparent polymeric lens is devoid of the chromium-based reflective coating.

A lamp assembly configured to be mounted to a vehicle includes a housing configured to be coupled to a vehicle and at least one light source disposed at least partially within an interior of the housing. The lamp assembly further includes a transparent polymeric lens coupled to the housing so as to substantially enclose the interior of the housing and the at least one light source. The transparent polymeric lens has a chromium-based reflective coating coated on at least a first area of an outer surface thereof. With the at least one light source electrically-connected to the vehicle, the chromium-based reflective coating is at least partially permeable to at least some light which is emitted by the at least one light source and passed through the transparent polymeric lens. At least a second area of the outer surface of the transparent polymeric lens is devoid of the chromium-based reflective coating.

An embodiment of the present invention relates to a lighting device structure that can increase the degree of freedom of a light emitting surface and realize an effect of changing the shape and the three-dimensional feeling of light and there is provided a lighting device including a light guide layer in which light exit surfaces are formed on one surface and on the other surface opposite to the one surface; a light emitting module that is embedded in the light guide layer and disposed at an outer periphery of a light exit surface of the light guide layer; and a light-transmitting printed circuit board that mounts an light emitting device on the light emitting module and is disposed under the light guide layer.