A rotation center decoupling type aiming lamp applied to a vehicle includes an aiming device in which an aiming axis spaced apart from an aiming point reference line of an aiming point axis at a distance of an aiming adjustment height is operated as a rotation center of the reflector, and an aiming angle is changed through an aiming point axis to which the reflector is attached by a reflector bracket, such that the rotation center of the reflector adjusting a light radiation direction may be formed at a position above or ahead of the aiming point reference line, thereby reducing an occupation space of the aiming device and securing stability of the aiming driving, and particularly, a sufficient rear shock absorption space may also be secured in the aiming lamp, thereby securing structural robustness while satisfying low-speed collision regulations.

An automotive vehicle includes a headlamp housing mounted to a body of the vehicle. An airflow opening extends through the headlamp housing. A light guide coupled to the housing forms a portion of an airflow passage extending from the airflow opening into an interior of the body of the vehicle. A surface of the light guide is etched with a design extending along a length of the airflow passage. An LED light generating unit is positioned adjacent an end of the light guide to pass light from the light generating unit through the light guide that illuminates the etched design.

A lighting device including at least two LED light sources configured for individual activation; at least two light guides arranged adjacent to one another, each including an edge surface facing a respective one of the LED light sources, a back surface extending from the edge surface provided with a plurality of diffuser extractor elements, and a front surface extending from the edge surface and opposite the back surface; and opaque barrier walls provided between the at least two light guides and extending from the rear wall to the front wall, to mechanically and optically separate the light guides. The light guides are configured to receive light from the LED light sources, with the diffuser extractor elements arranged shaped redirect received light traveling within the light guide to be projected through the front surface.

The present disclosure relates to a lamp for a vehicle, the lamp including: a light source provided in a housing; an inner lens provided in front of the light source; a cover member disposed between the inner lens and the light source and configured to move between a first position at which a front side of the light source is opened and a second position at which the front side of the light source is closed; and a drive part configured to selectively move the cover member from the first position to the second position, thereby improving marketability and design characteristics of the lamp.

A vehicle exterior part is configured to be arranged frontward of a millimeter wave radar device with respect to the transmission direction of millimeter waves. The vehicle exterior part includes an ornamental body, a light source that emits light, and a light diffuse reflection member. The light diffuse reflection member is millimeter wave-transmissive and diffuses and reflects light. The ornamental body includes a base and an ornamental layer. The base is millimeter wave-transmissive and diffuses and transmits the light. The ornamental layer is millimeter wave-transmissive and arranged frontward of the base with respect to the transmission direction. The light source, the ornamental body, and the light diffuse reflection member are arranged so that the light emitted from the light source is diffused and reflected by the light diffuse reflection member and directed toward the base.

The present disclosure relates to a lamp for a vehicle, the lamp including: a light source provided in a housing; an inner lens provided in front of the light source; a cover member disposed between the inner lens and the light source and configured to move between a first position at which a front side of the light source is opened and a second position at which the front side of the light source is closed; and a drive part configured to selectively move the cover member from the first position to the second position, thereby improving marketability and design characteristics of the lamp.

Machine for welding workpieces made of plastic materials of the type comprising: two workpiece-carrying fixtures each provided with a template having a recess adapted to accommodate a respective plastic workpiece to be welded; a moving assembly adapted to selectively couple and press the two workpiece-carrying fixtures to/against each other, so as to tighten the plastic workpieces housed in the templates one against the other; a vibrating member which is adapted to vibrate on command a first workpiece-carrying fixture; automatic piece locking means adapted to selectively lock/immobilise the plastic workpiece to be welded inside the template of the first workpiece-carrying fixture; and an electronic control unit adapted to drive/control said automatic piece locking means.

A lighting and/or signaling device, in particular for the automotive industry, comprising a container body which delimits a containment housing closed by a lenticular body, which accommodates at least one light source adapted to emit a light beam which at least partially crosses the lenticular body, at least one decorative element, applied on an external wall of the lenticular body, opposite to the containment housing. An internal wall of the decorative element, directly facing the external wall of the lenticular body, comprises at least one welding pin, which creates a welding point with the lenticular body. At least one spacer element defines a minimum clearance and a volume or gap between the external wall of the lenticular body and the internal wall of the element decorative element. At least one conveyor element favors the outflow of liquids which have penetrated through the clearance into the volume.

According to the present invention, there is provided a mobile-object-mounted display device (1, 1A) that is mounted on a mobile object (20) and performs display toward an outside of the mobile object (20), including one or a plurality of light emitting elements (3d) and a light emitting element support body (3e) that supports the one or plurality of light emitting elements (3d) along a surface having a three-dimensional shape.

In order to ensure accuracy for positioning two molding members spaced from each other and an outer lens disposed in an opening between the two molding members, a vehicle lighting device includes: a first molding member; a second molding member that is formed separately from the first molding member and is spaced from the first molding member through an opening; and an outer lens, disposed in the opening, having a transmissive surface through which lamp light is transmitted from a depth side toward a front side. The first molding member and the second molding member each have a molding-side positioning portion configured to be positioned relative to the transmissive surface of the outer lens. The outer lens has a first lens-side positioning portion configured to be positioned relative to the first molding member and a second lens-side positioning portion configured to be positioned relative to the second molding member.