A plastic glazing of a window of a vehicle having a light feature includes a first vehicle window glazing component, a second vehicle window glazing component molded onto the first vehicle window glazing component, and a light unit configured to produce light for the light feature. The light unit being integrated with at least one of the following: the first vehicle window glazing component and the second vehicle window glazing component. The light unit further configured to direct the light for the light feature through or from at least one of the following: the first vehicle window glazing component and the second vehicle window glazing component. The plastic glazing is a one-piece molded plastic construction. At least one of the first vehicle window glazing component and the second vehicle window glazing component is translucent or transparent.

A lighting device for vehicles with a plurality of light sources and with a plurality of light guide elements each assigned to each of the light sources, which are arranged in front of the light sources in the main emission direction, wherein the light guide elements are designed as micro light guide elements and that an optical separation is provided between neighboring micro light guide elements and/or in the main radiation direction behind the micro light guide elements so that a scattered light portion emitted by a first light source cannot be irradiated or emitted by a light guide element assigned to a second light source.

A lighting element includes a circuit board including at least one illuminator, a housing having an optical element in register with the at least one illuminator on the circuit board and the housing including a peripheral wall enveloping a periphery of the circuit board, a heat sink in alignment with the housing.

The present invention relates to a vehicle control device provided in a vehicle and a control method of a vehicle. A vehicle control device according to an embodiment of the present invention includes a beam output unit for irradiating light to a road surface of a periphery of a vehicle, and a processor for sensing whether an object approaching toward a vehicle door is present or not via a sensing unit provided in the vehicle when a control command for opening the vehicle door is received after the vehicle stops, and, controlling the beam output unit so that information notifying the object approaching toward the vehicle door is irradiated to the road surface of the periphery of the vehicle door in a state in which the vehicle door is closed based on the presence of the object approaching toward the vehicle door.

A first marker group is mounted on a front face of a vehicle. A second marker group MG2 is mounted on a rear face of the vehicle. A third marker group is mounted on a left-side face of the vehicle. A fourth marker group is mounted on a right-side face of the vehicle. Each marker group includes at least one marker. Each marker is designed to have at least one from among the shape, spatial pattern, temporal pattern, color, reflection ratio, luminance, and layout defined so as to allow a sensing system mounted on another vehicle to acquire information with respect to the vehicle in the sensing operation thereof.

A mount for inverted light has a back, two spaced apart feet beneath the back, two tabs outwardly from the back, each tab having two pieces, an arcuate shroud opposite the back and an adjustment mechanism for the tabs. Opposite the back, the feet and tabs have a low friction surface limiting engagement of the mount with door glass. The adjustment mechanism includes knobs turning rack pinion gearing and knobs ratcheting one piece of a tab outwardly from the other. Beneath the shroud, the mount has two rests that receive a light attached to them aimed downward from the shroud. The mount has an elongated form for a generally centered position along the width of a door's window.

A method for manufacturing a color slide for an automobile projection lamp includes: forming a plurality of same color pattern units on a glass substrate, each of the color pattern units being composed of a plurality of color coating layers. The plurality of color coating layers are formed by sequentially depositing materials having different colors on a surface of the glass substrate in accordance with different colors. Finally, the glass substrate is cut and separated in unit of one color pattern unit to form an independent color slide with the color pattern. The color slide can be mounted to an automobile projection lamp system for projecting the color pattern.

A puddle lamp including a light source composed of a single light emitting body, a lens set, a projection film with a fixed image and a projection lens is provided. The lens set is disposed at a light path downstream side of the light source. The projection film is disposed at a light path downstream side of the lens set. The lens is disposed at a light path downstream side of the projection film. An optical axis of the light source is substantially parallel to an optical axis of the lens set, and an optical axis of the projection lens is not perpendicular to an image plane of the puddle lamp. Furthermore, another puddle lamp is also provided.

A first marker group is mounted on a front face of a vehicle. A second marker group MG2 is mounted on a rear face of the vehicle. A third marker group is mounted on a left-side face of the vehicle. A fourth marker group is mounted on a right-side face of the vehicle. Each marker group includes at least one marker. Each marker is designed to have at least one from among the shape, spatial pattern, temporal pattern, color, reflection ratio, luminance, and layout defined so as to allow a sensing system mounted on another vehicle to acquire information with respect to the vehicle in the sensing operation thereof.

The puddle lamp for a vehicle includes a collimating unit for collimating light emitted from a light source unit; a logo mask having a predetermined pattern that includes a region through which the light is transmitted and a region through which the light is obstructed; an image forming unit for forming an image corresponding to the pattern by the light that passes through the logo mask from the collimating unit; and a holder in which the collimating unit and the image forming unit are assembled. The image forming unit includes a lens assembly in which a plurality of lenses are stacked and assembled, and the lens assembly includes a first lens and a second lens disposed on and coupled to the first lens via at least one fastening portion that extends from the first lens.