A lighting system for specialty lighting, which may be attached to a motor vehicle with a window (e.g., glass, plastic, etc.) that is light transmissive. The lighting system may include one or more light assemblies attached to the window in an interior of the vehicle. The lighting system may include an optical path translator to direct the light emitted out the window of the vehicle and limit the amount of light reflected into the cabin of the vehicle. The lighting system may provide concealed electrical connections for power, signal, and data, as well as concealment for one or more additional aspects of the lighting system.

One or more light sources, one or more detectors, a processor, and a controller are configured to provide spot illumination that follows a moving object, a moving occupant, or a portion of a moving occupant in the vehicle.

A component for a vehicle interior may comprise a display system comprising a light source and a composite structure comprising a base layer, an intermediate layer and a cover layer. The base layer may comprise a surface comprising a set of elements. The composite structure may present a composite visual effect contributed by the composite structure and/or a visual effect contributed by light from the light source. The visual effect contributed by the composite structure may comprise a visual effect without light from the light source and/or a visual effect with light from the light source transmitted through the composite structure. The composite visual effect of the display system may comprise a visual effect of the form/elements of the base layer and/or the form/visual object/pattern of the intermediate layer and/or the form/visual object/pattern of the cover layer.

A component for a vehicle interior may comprise a display system comprising a light source and a composite structure comprising a base layer, an intermediate layer and a cover layer. The base layer may comprise a surface comprising a set of elements. The composite structure may present a composite visual effect contributed by the composite structure and/or a visual effect contributed by light from the light source. The visual effect contributed by the composite structure may comprise a visual effect without light from the light source and/or a visual effect with light from the light source transmitted through the composite structure. The composite visual effect of the display system may comprise a visual effect of the form/elements of the base layer and/or the form/visual object/pattern of the intermediate layer and/or the form/visual object/pattern of the cover layer.

An optical device for a motorcar capable of generating three-dimensional optical and/or visual effects. The optical device comprises: a plurality of light sources, each one adapted to emit a light beam in a predetermined direction; a supporting element whereon the light sources are mechanically and electrically connected; and at least one optical module, which is adapted to be crossed by a light beam to emit light presenting a three-dimensional optical effect. The plurality of light sources include a plurality of micro-LEDs. The optical module include at least one layer of diffractive material. The optical module is arranged substantially parallel to the supporting element whereon the micro-LEDs lie. The optical module is arranged substantially perpendicular to the light beams emitted by the micro-LEDs.

An optical device for a motorcar capable of generating three-dimensional optical and/or visual effects. The optical device comprises: a plurality of light sources, each one adapted to emit a light beam in a predetermined direction; a supporting element whereon the light sources are mechanically and electrically connected; and at least one optical module, which is adapted to be crossed by a light beam to emit light presenting a three-dimensional optical effect. The plurality of light sources include a plurality of micro-LEDs. The optical module include at least one layer of diffractive material. The optical module is arranged substantially parallel to the supporting element whereon the micro-LEDs lie. The optical module is arranged substantially perpendicular to the light beams emitted by the micro-LEDs.

An arrangement of a workpiece which is 3-dimensionally structured at least in partial surface regions, at least having a decoration applied above and/or below the structured workpiece surface, and at least one illumination source is described. The decoration comprises at least one coating material, wherein the amount of the coating material applied to the workpiece in a location-specific manner correlates with the height of the 3-dimensionally structured surface of the workpiece at this location, wherein the 3-dimensionally structured workpiece surface is at least partially translucent and the illumination source is arranged to couple light either laterally and/or at the rear and/or at the front into the workpiece surface. Furthermore, a method for coating 3-dimensionally surface-structured workpieces is presented.

An arrangement of a workpiece which is 3-dimensionally structured at least in partial surface regions, at least having a decoration applied above and/or below the structured workpiece surface, and at least one illumination source is described. The decoration comprises at least one coating material, wherein the amount of the coating material applied to the workpiece in a location-specific manner correlates with the height of the 3-dimensionally structured surface of the workpiece at this location, wherein the 3-dimensionally structured workpiece surface is at least partially translucent and the illumination source is arranged to couple light either laterally and/or at the rear and/or at the front into the workpiece surface. Furthermore, a method for coating 3-dimensionally surface-structured workpieces is presented.

A vehicle interior lighting device includes a light-emitting portion, a case that includes a side wall surrounding the light-emitting portion and houses the light-emitting portion, and a plate-shaped lens fixed to the case so as to cover an opening of the case and an open end of the side wall defining the opening. Light emitted from the light-emitting portion can be extracted from the entire region of a light extraction surface of the lens including an edge without being reflected.

A trim element having a coating layer defining an outer surface and an inner surface, the coating layer including at least two distinct backlit pattern areas separated by at least one opaque area preventing the passage of light from the inner surface to the outer surface. The trim element includes at least one light source for each backlit pattern area, the light source being fixed on the inner surface of the coating layer facing an opaque area while being spaced apart from the corresponding backlit pattern area. The trim element has one light guide per backlit pattern area.