The invention relates to a glazing having a first anchoring support being configured to engage with an electrical connector that is part of an electrically actuated device comprising at least one electrically actuated component and first and second electrical connectors that are connectable with an electrical power supply. Upon electrically connecting the first and second electrical connectors to the power supply, the electrically actuated component has electrical power supplied thereto and is in an energized state. When the first electrical connector is engaged with the first anchoring support, the electrical device is releasably fixed to the glazing. Connecting the power supply to the first anchoring support and the second electrical connector causes the electrically actuated component to switch from an unenergized state to the energized state. Mounting arrangements and vehicle lights to be mounted to a component of the structure of a vehicle are also described.

A luminaire head comprising: a thermally conductive metal body comprising a plate like portion, a tube portion and at least one cooling fin; said plate like portion extending in a longitudinal direction (L) of the metal body and having a flat first surface and a second surface opposite said first surface, said tube portion extending in said longitudinal direction at said second surface; said at least one cooling fin extending away from said second surface adjacent to the tube portion; and at least one support substrate with a plurality of light emitting elements, said at least one support substrate being arranged against the first surface, at least in an area opposite the tube portion.

An improved lighting device includes a tower body, a pair of parallel PCBs attached to the tower body, a connector and a set of wires connecting the connector and the PCBs. The wires are wrapped inside a RF shielding and disposed inside a supply cable. Each PCB includes two arrays of LEDs. Each array of LEDs includes three LEDs. A set of omni-directional heat sinks are attached to the base of the tower body. Each sink includes a set of tinned stranded copper ropes. The copper ropes each have a free end. The lighting device further includes a plug metal retention nut attached to the connector, a ratcheting inner collar attached to the tower body, and a mounting collar. The mounting collar has tabs, a ratchet mechanism having a series of troughs spaced by approximately one millimeter, and two guidance grooves. The mounting collar is couple with the ratcheting inner collar.

The invention relates to a lamp with elongated housing, comprising elongated housing and at least a light-emitting unit arranged on the housing; each of the light-emitting unit comprising: light source arranged in the housing; fastening member arranged in the housing; mounting hole arranged on the outer wall of the housing; lamp holder arranged in the mounting hole and fastened to the fastening member; lens arranged in the lamp holder. In the present invention, each light source can be provided with a lamp holder, and the light emitted by each light source can be emitted through the lens on the corresponding lamp holder, so that the beam angle of each light source can be controlled in a small range to form a light spot.

A track light is provided. The track light includes a guide track, a driving power source, and a light source. The guide track may include a track housing and a conductive cable. The track housing may include an accommodating cavity, the accommodating cavity may include a connection opening, and the conductive cable may be fixed in the accommodating cavity. The driving power source may include a driving housing, an elastic conductive terminal and an output terminal, the elastic conductive terminal may pop out of the driving housing, and the output terminal may be located at a side of the driving housing and may be electrically connected with the elastic conductive terminal. The light source may include a light emitting component and an input terminal, the light emitting component may be electrically connected with the input terminal.

An optical light source cover configured to be fixed at a reaction bearing, the optical light source cover including an interlocking element configured to attach the optical light source cover at the reaction bearing, wherein the interlocking element includes an interlocking arm, wherein the interlocking arm extends from the optical light source cover in an insertion direction of the optical light source cover into the reaction bearing and includes a free end that is in front in the insertion direction and a connected end that is connected to the optical light source cover, wherein the interlocking element includes a first interlocking hook that is wedge shaped, wherein a first wedge tip of the first interlocking hook is oriented in a direction towards the free end of the interlocking element.

A lighting unit includes a housing, a bus bar and a circuit substrate. In a state where the bus bar is installed in the housing, a base part and a first spring part of the bus bar are held by the housing in a first direction, and the bus bar is positioned with respect to the housing in the first direction. In a state where the circuit substrate is installed to the bus bar installed in the housing, a bus bar contact part of the circuit substrate contacts a substrate contact part provided to a second spring part of the bus bar such that the circuit substrate is held by the base part and the second spring part in the first direction, and the circuit substrate is positioned with respect to the bus bar in the first direction.

A strip light has an elongated light module that mounts to a mounting frame with a lamp body bracket. The lamp body bracket is elongated and has a front mounting frame panel, a rear mounting frame panel, a right mounting frame panel, and a left mounting frame panel extending from a lamp body bracket base panel of the lamp body bracket. A first rotating shaft lock is mounted to the lamp body bracket base panel on a first axis of rotation. A second rotating shaft lock is mounted to the lamp body bracket base panel on second axis of rotation. The light module is secured to the lamp body bracket by a pair of rotating locks. An LED light board has LED chips. A hook groove system with a first groove and a second groove is mounted or formed underneath the LED light board.

A light source module provided includes a heat sink, a circuit board, a lamp shade, and a fixing member. The circuit board is provided with one side tightly attached to the heat sink, and the other side is provided with a plurality of light sources. The lamp shade is provided with a plurality of optical lenses, the plurality of the optical lenses are respectively formed by a plurality of recesses forming on a front surface of the lamp shade, and a plurality of arc protrusions corresponding to the plurality of the recess forming on a back surface of the lamp shade. The fixing member is configured to fix the lamp shade on the heat sink to receive the circuit board in a space defined by the lamp shade and heat sink. Further, a lighting apparatus is also provided.

The invention describes an LED lighting assembly comprising a reflector unit comprising a number of reflector regions; an LED carrier realized to support at least one LED arrangement; and at least one positioning feature for positioning the LED carrier relative to the reflector unit, wherein a positioning feature is arranged in the same plane as the optical center of the LED arrangement. The invention further describes a method of manufacturing such an LED lighting assembly.