A vehicle lamp assembly, a vehicle lamp and a corresponding motor vehicle. The vehicle lamp assembly including a support, for supporting a light emitting body. The vehicle lamp assembly further includes a housing provided to overlap with at least a part of the support and a first gap formed between the overlapping portions of the housing and the support. The vehicle lamp assembly additionally includes a first light blocking layer, with the first light blocking layer being provided between the overlapping portions of the housing and the support, and at least partially filling the first gap, so as to prevent light from the light emitting body from emitting outwards through the first gap.

A vehicle lamp assembly, a vehicle lamp and a corresponding motor vehicle. The vehicle lamp assembly including a support, for supporting a light emitting body. The vehicle lamp assembly further includes a housing provided to overlap with at least a part of the support and a first gap formed between the overlapping portions of the housing and the support. The vehicle lamp assembly additionally includes a first light blocking layer, with the first light blocking layer being provided between the overlapping portions of the housing and the support, and at least partially filling the first gap, so as to prevent light from the light emitting body from emitting outwards through the first gap.

The invention concerns a method for producing an optical lens element, in particular for illumination purposes, in particular for producing a headlight lens for a vehicle headlight, in particular for a motor vehicle headlight (10), wherein a pre-lens element (42, 43) is injection molded using at least one mold by heating liquefied transparent plastic, wherein the pre-lens element (42, 43) being cooled in such a way that the plastic solidifies, and at least one optically effective surface of the pre-lens element (42, 43) then being heated in such a way that the plastic on the optically effective surface can be shaped, in particular up to a depth of not more than 1000 micrometers, wherein the pre-lens element (42, 43) is pressed with the optically effective surface in a final contour mold to form the lens element.

Provided is a lamp for a vehicle capable of achieving uniform brightness while improving sharpness of a light irradiation pattern. The vehicle lamp includes a light source system; and an optical system configured to allow light emitted from the light source system to be incident to the optical system through a plurality of incident lenses and to exit through a plurality of exit lenses corresponding to the plurality of incident lenses. The plurality of exit lenses include a first exit lens configured to output light therefrom in a first direction, and a second exit lens configured to output light therefrom in a second direction that is tilted by a predetermined angle with respect to the first direction.

Provided is a lamp for a vehicle capable of achieving uniform brightness while improving sharpness of a light irradiation pattern. The vehicle lamp includes a light source system; and an optical system configured to allow light emitted from the light source system to be incident to the optical system through a plurality of incident lenses and to exit through a plurality of exit lenses corresponding to the plurality of incident lenses. The plurality of exit lenses include a first exit lens configured to output light therefrom in a first direction, and a second exit lens configured to output light therefrom in a second direction that is tilted by a predetermined angle with respect to the first direction.

A vehicle lighting apparatus comprising a headlight module comprising a light collecting part, a reflection part, a light outlet part, a first optical channel, and a second optical channel arranged in sequence along a light emitting direction, the first optical channel connecting the light collecting part and the reflection part, the second optical channel connecting the reflection part and the light output part, the connecting position of the lower surface of the second optical channel and the light output part provided with a low beam cut-off line structure for forming a low beam bright-dark cut-off line, the light collected by the light collecting part emitted toward the light outlet part after reflection by the reflection part. The present headlight module is miniaturised and has a high rate of light utilisation.

A lighting body for a vehicle includes a housing, an outer lens configured to form a lamp chamber between the housing and the outer lens, a millimeter wave radar disposed outside the lamp chamber and transmits millimeter waves toward a side outward of the vehicle, and a light source disposed in the lamp chamber and emits light toward the side outward of the vehicle through the outer lens, the millimeter wave radar being held in the housing in a state the millimeter wave radar is combined with the housing from an inward side of the vehicle, a first functional membrane allows penetration of the millimeter waves and allows penetration and reflection of the light being formed on the outer lens, and a second functional membrane allows penetration of the millimeter waves and allows at least reflection of the light reflected by the first functional membrane being formed on the housing.

A lighting body for a vehicle includes a housing, an outer lens configured to form a lamp chamber between the housing and the outer lens, a millimeter wave radar disposed outside the lamp chamber and transmits millimeter waves toward a side outward of the vehicle, and a light source disposed in the lamp chamber and emits light toward the side outward of the vehicle through the outer lens, the millimeter wave radar being held in the housing in a state the millimeter wave radar is combined with the housing from an inward side of the vehicle, a first functional membrane allows penetration of the millimeter waves and allows penetration and reflection of the light being formed on the outer lens, and a second functional membrane allows penetration of the millimeter waves and allows at least reflection of the light reflected by the first functional membrane being formed on the housing.

A light assembly includes a light source and a lens. The lens includes a hardcoat surface that protects the lens. The light source is positioned close to the lens, and a microtexture is defined in the hardcoat material to increase diffusion of the light to overcome the limitations of the close spacing between the lens and the light source. The hardcoat material and microtexture may be applied to both sides of the lens or one side of the lens. The light source may be a plurality of spaced apart LEDs. The microtexture may be applied to the entire surface of the lens or select regions of the lens. The microtexture is defined after the hardcoat is applied, and is defined via removal or disruption of hardcoat material. The microtexture may be defined in different ways to vary the appearance of the microtexture.

A light assembly includes a light source and a lens. The lens includes a hardcoat surface that protects the lens. The light source is positioned close to the lens, and a microtexture is defined in the hardcoat material to increase diffusion of the light to overcome the limitations of the close spacing between the lens and the light source. The hardcoat material and microtexture may be applied to both sides of the lens or one side of the lens. The light source may be a plurality of spaced apart LEDs. The microtexture may be applied to the entire surface of the lens or select regions of the lens. The microtexture is defined after the hardcoat is applied, and is defined via removal or disruption of hardcoat material. The microtexture may be defined in different ways to vary the appearance of the microtexture.