A backlit three-dimensional lamp for a vehicle includes an indicia rendering disposed on a transparent lenticular sheet, an outer lens positioned in front of the transparent lenticular sheet, and a light source positioned behind the transparent lenticular sheet. The light source provides backlighting of the indicia rendering such that the lenticular sheet projects a forward image that hovers beyond the outer lens. A vehicle light assembly includes a light source adapted to produce a substantially homogeneous light, a rendering of indicia located adjacent the light source and facing away from the light source such that the rendering of indicia is backlit by the light source, and an array of light-modifying elements aligned with the light source to at least partially cover the rendering of indicia for creating a projection of the rendering of indicia outside the vehicle light assembly.

Embodiments of the present disclosure relate to a lighting strip, comprising a flexible printed circuit strip which comprises a plurality of wiring portions and a plurality of respective carrying portions, the wiring portions are used to supply electrical power to electric elements disposed on the carrying portions, and the carrying portions protrude from the wiring portions and are adapted to be bent around the wiring portions; a plurality of solid-state lighting elements respectively mounted on the carrying portions; wherein the wiring portion is provided with at least one pitch adjusting portion for adjusting a pitch between two adjacent carrying portions. Embodiments of the present disclosure also relate to a lighting device. According to the lighting strip and lighting device of the present disclosure, the positions of the solid-state lighting elements on the carrying portions, particularly the positions relative to the lighting elements, can be conveniently and precisely adjusted, thereby achieving a desired three-dimensional illumination shaping.

Embodiments of the present disclosure relate to a lighting strip, comprising a flexible printed circuit strip which comprises a plurality of wiring portions and a plurality of respective carrying portions, the wiring portions are used to supply electrical power to electric elements disposed on the carrying portions, and the carrying portions protrude from the wiring portions and are adapted to be bent around the wiring portions; a plurality of solid-state lighting elements respectively mounted on the carrying portions; wherein the wiring portion is provided with at least one pitch adjusting portion for adjusting a pitch between two adjacent carrying portions. Embodiments of the present disclosure also relate to a lighting device. According to the lighting strip and lighting device of the present disclosure, the positions of the solid-state lighting elements on the carrying portions, particularly the positions relative to the lighting elements, can be conveniently and precisely adjusted, thereby achieving a desired three-dimensional illumination shaping.

A light guide (1) for a motor vehicle, wherein the light guide (1) has a light-guiding body (10) made of transparent plastics material, wherein the light-guiding body (10) has at least one light-entrance surface (11) and at least one light-exit surface (12) and wherein the light-guiding body (10) is covered in a region by means of a substantially light-opaque cover material (20), wherein the cover material (20) is applied onto the region by means of an injection molding method. The use of such a light guide (1) in a motor vehicle and a method for producing such a light guide (1).

A light guide (1) for a motor vehicle, wherein the light guide (1) has a light-guiding body (10) made of transparent plastics material, wherein the light-guiding body (10) has at least one light-entrance surface (11) and at least one light-exit surface (12) and wherein the light-guiding body (10) is covered in a region by means of a substantially light-opaque cover material (20), wherein the cover material (20) is applied onto the region by means of an injection molding method. The use of such a light guide (1) in a motor vehicle and a method for producing such a light guide (1).

A device, a light guide, and a method for automotive lighting are provided. The device includes a light source and a light guide. The light source provides light rays. The light guide includes two or more aspheric surfaces having at least a common focal point. The two or more aspheric surfaces are configured to maintain total internal reflection of the light rays in the light guide.

A device, a light guide, and a method for automotive lighting are provided. The device includes a light source and a light guide. The light source provides light rays. The light guide includes two or more aspheric surfaces having at least a common focal point. The two or more aspheric surfaces are configured to maintain total internal reflection of the light rays in the light guide.

A light guide unit configured to guide light incident from a light source which emits the light. The light guide unit includes: a light receiving portion configured to refract incident light from the light source; a guide portion which extends from the light receiving portion and guides incident light through the light receiving portion; and a light emitting portion formed in an opposite direction of the light receiving portion with respect to the guide portion, wherein the light guided by the guide portion is emitted toward the aspheric lens.

A light guide unit configured to guide light incident from a light source which emits the light. The light guide unit includes: a light receiving portion configured to refract incident light from the light source; a guide portion which extends from the light receiving portion and guides incident light through the light receiving portion; and a light emitting portion formed in an opposite direction of the light receiving portion with respect to the guide portion, wherein the light guided by the guide portion is emitted toward the aspheric lens.

A lighting device for a vehicle includes a lighting module for a vehicle having a light source and a panel optically coupled to the light source. The panel includes a plurality of fibers, and a first illumination region of first light output for a first vehicle lighting function and a second illumination region of second light output for a second vehicle lighting function.