An apparatus, system and method for aiming solid state lighting modules that are mounted in a lighting fixture. The apparatus comprises an aiming station space from a projection surface. At least one reference laser projects from at or near the aiming station to the projection surface. The lighting module is preliminary attached to a supporting structure or rail that is mounted at the aiming station. An aiming laser is temporarily attached to the housing. The module is manually adjusted on its mounting rail to align its aiming laser with a reference position on the projection surface. The module is then locked in to position.

A lampholder and a luminaire are provided. The lampholder includes a recess, a base of which has a luminous unit installing side; and a reflecting flank, extending from the recess and having a reflecting face facing the luminous unit installing side. The luminaire includes the lampholder. With the lampholder and the luminaire, conventionally discrete lampholder and light reflecting shade are made into an integral lampholder, so that structure is more simple, and the connecting step of a light emitting shade and a lampholder is cut down. In addition, the recess configuration of the lampholder is usable for accommodating an externally arranged power supply of a luminous unit, thereby saving the storage space, and reducing the warehousing and logistics costs.

An elongate tubular lighting assembly having a body with a length between spaced first and second ends. The tubular lighting assembly has a source of illumination and first and second connectors respectively at the first and second body ends. The first connector has cooperating first and second parts having first and second surfaces. The first and second connector parts are configured so that the first and second surfaces are placed in confronting relationship to prevent separation of the first and second connector parts with the body in an operative state as an incident of the first connector part moving relative to the second connector part from a position fully separated from the second connector part in a substantially straight path that is transverse to the length of the body into an engaged position.

In an illumination device, a surface light emission module includes a panel power input unit connected to a base power input unit and a panel power output unit connected to a base power output unit for supplying power to a surface light emission panel. A connection panel, by being installed in an unselected scheduled light emission region, directly connects the base power input unit to the base power output unit.

An LED lighting kit comprises an extrusion (300), an LED strip (100), a tapered wedge (1500), and a mounting clip (1200). The extrusion itself may have a recessed linear groove of sufficient width and depth to seat the LED strip. The clip is sized and shaped to springably engage ledges (320) in a first channel (310) of the extrusion when the strip is mounted. In one aspect, two extrusions are butted end-to-end and are aligned by inserting the tapered wedge into the first channel of each extrusion prior to butting them together. The extrusion contains a second channel (315) that houses the LED strip. A translucent diffuser (900) is springably inserted into the second channel, thereby diffusing light that is emitted by the LED strip.

A lighting device, assembly and method includes, in an embodiment, a lighting device having a light source. The lighting device also has a heat transfer device. The heat transfer device includes a primary conductor connected to the light source and a plurality of secondary conductors connected to the primary conductor. The secondary conductors define at least one heat transfer passageway extending in the upward direction.

A lamp for a vehicle includes a light source assembly that includes a plurality of light sources that irradiates light, and a lens that outputs the light irradiated from the light source assembly forward, the lens includes a lens body having an incident surface, to which light is input from the light source assembly, and an emission surface, from which the light input to the incident surface is output, and a plurality of lens holes formed in the lens body, and that forms specific light distribution patterns with the light irradiated from the light source assembly. The lens body includes a guide area defined as an area located between adjacent lens holes, and that guides light traveling between the plurality of lens holes forward.

This document describes techniques directed to active thermal-control of a floodlight and associated floodlights. As described, an example floodlight includes a first heat-transfer subsystem that uses a fully enclosed heat sink to transfer heat from an array of LEDs to a first housing component of the floodlight. The floodlight further includes a second heat-transfer subsystem to transfer heat from one or more PSUs to a second housing component of the floodlight. Described techniques include using thermistors located throughout the floodlight to actively monitor a temperature profile within the floodlight and, if one or more operating-temperature thresholds are violated, reducing power consumption within the floodlight.

The present invention relates to a lighting arrangement (1) for outdoor illumination, the lighting arrangement comprising at least one first light source for emitting a first light and at least one second light source arranged at a distance from the first light source and arranged for emitting a second light. The lighting arrangement further comprises a modulating optical element (7) for converting the first light into a modulated first light providing a first illumination pattern on a first target surface (4), wherein the first illumination pattern comprises a sequence of alternating illuminance peaks. The modulating optical element (7) further converts the second light into a modulated second light providing a second illumination pattern on a second target surface (4), wherein the second illumination pattern comprises a sequence of alternating illuminance peaks. The first and the second target surfaces at least partially overlap, and the first illumination pattern is substantially complementary to the second illumination pattern.

An illumination device includes a housing, a first light-emitting element, a second light-emitting element, a substrate, and a reflector. The housing has a first light-outlet portion and a second light-outlet portion separated from each other. The first light-emitting element is disposed in the housing and suitable for emitting a first beam. The second light-emitting element is disposed in the housing and suitable for emitting a second beam emitted from the second light-outlet portion. The substrate is disposed in the housing and electrically connected to the first light-emitting element and the second light-emitting element. The reflector is disposed in the housing and located on a transmission path of the first beam. The reflector is suitable for reflecting the first beam to the first light-outlet portion.