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 small-vehicle direction indicator device includes a directional signal light for small vehicles, such as saddle riding type vehicles, the directional signal light including a lighting unit and a plurality of light sources that are arrayed in the lighting unit in a vehicle width direction. The small-vehicle direction indicator device performs a dynamic direction indication by chain-reactive switch-ons or switch-offs of the plurality of light sources when the directional signal light is activated. In the directional signal light, between the plurality of light sources, a light-blocking wall made of an opaque member is arranged, and wherein a plurality of the light-blocking walls are arrayed in the vehicle width direction.

An illumination device for a vehicle headlamp that provides headlamp levelling. The illumination device includes a primary light module configured to emit light in a main direction, wherein the primary light module is rotatable around a rotation axis; a moveable shield cover for shielding the primary light module; and a motion device for moving simultaneously the primary light module around the rotation axis and the shield cover with respect to each other between (a) non-illuminating positions, wherein the shield cover is in front of the primary light module, and (b) illuminating positions, wherein the shield cover is moved away from the light path of the light module. In each illuminating position, the primary light module is in a defined angular position of a determined operating angular range around the rotation axis to project the light distribution in different angular positions in front of the illumination device for headlamp levelling.

One of the problems solved by an embodiment of the present invention is to solve the problem of light leakage. A light shielding component according to the present invention comprising a covering portion, and a snap-fit portion, wherein the covering portion is used to cover a light guide to block the transmission of light rays; and the snap-fit portion comprises at least one slot, which is used to fix the light shielding component. Compared with the prior art, the advantage of the solution of the present invention is that by using a light shielding component, the light beam leakage is better blocked, and a better visual effect is achieved.

The invention relates to an optical element having a plurality of projection lenses (4) and at least one housing (2). in which the projection lenses (4) are accommodated. The projection lenses (4) are connected to the housing (2) by overmolding the projection lenses (4) during the production of the housing 2 by means of an injection molding method. Furthermore. the invention relates to a projection module having the optical element, to a vehicle having the optical element and to a method for producing the optical element.

The invention relates to a vehicle lamp which integrates the turn signal light, the side marker light and the headlight comprising: a headlight circuit board, a second circuit board, a reflector panel, a transparent light guide, a mask and a housing, said headlight circuit board is provided with a headlight light source facing said reflector panel, said second circuit board is provided with a second light source facing said transparent light guide, and said transparent light guide is provided with optical stripes for refracting or reflecting said second light source, and said second circuit board and said headlight circuit board are disposed between said reflector panel and said housing, said reflector panel and said transparent light guides are all connected to said mask. The vehicle lamp which integrates the turn signal light, the side marker light and the headlight of the invention has beautiful appearance, light weight and suitable for large-scale promotion and application.

A vehicle light includes: a light lens having a base panel made of a transparent plastic material, an outer paint layer disposed on an outer surface of the base panel, and an inner paint layer disposed on an inner surface of the base panel and including a light-transmitting hole formed therein; and a light source installed to be spaced apart from the light lens, in which light from the light source is transmitted out of the light lens through the light-transmitting hole and the base panel.

A vehicular exterior rearview mirror assembly includes a mirror head accommodating a mirror reflective element and an illumination module, which includes a light source, a first mask, and a second mask. When the light source is powered, emitted light that passes through the first mask is a first color and emitted light that passes through the second mask is a second color. With the mirror assembly mounted at a vehicle, and when the light source is powered to emit light, light emitted by the light source passes through the first mask to project a first projected image onto a ground region and passes through the second mask to project a second projected image onto the ground region. The first projected image includes a first logo portion having the first color, and the second projected image includes a second logo portion having the second color.

A lamp assembly configured to be mounted to a vehicle includes a housing configured to be coupled to a vehicle and at least one light source disposed at least partially within an interior of the housing. The lamp assembly further includes a transparent polymeric lens coupled to the housing so as to substantially enclose the interior of the housing and the at least one light source. The transparent polymeric lens has a chromium-based reflective coating coated on at least a first area of an outer surface thereof. With the at least one light source electrically-connected to the vehicle, the chromium-based reflective coating is at least partially permeable to at least some light which is emitted by the at least one light source and passed through the transparent polymeric lens. At least a second area of the outer surface of the transparent polymeric lens is devoid of the chromium-based reflective coating.

A lamp assembly configured to be mounted to a vehicle includes a housing configured to be coupled to a vehicle and at least one light source disposed at least partially within an interior of the housing. The lamp assembly further includes a transparent polymeric lens coupled to the housing so as to substantially enclose the interior of the housing and the at least one light source. The transparent polymeric lens has a chromium-based reflective coating coated on at least a first area of an outer surface thereof. With the at least one light source electrically-connected to the vehicle, the chromium-based reflective coating is at least partially permeable to at least some light which is emitted by the at least one light source and passed through the transparent polymeric lens. At least a second area of the outer surface of the transparent polymeric lens is devoid of the chromium-based reflective coating.