A luminaire includes a housing, a downlight that includes one or more first light sources configured to emit a first light downwardly from the housing, a waveguide, and one or more second light sources. The waveguide is formed of a portion of an optical material and characterized by opposing planar faces joined by one or more edge faces about a periphery of the optical material. The waveguide forms at least a portion of an uppermost optical surface of the luminaire. The one or more second light sources are coupled with the housing and configured to emit a second light into the optical material through at least one of the one or more edge faces. The waveguide is configured to emit at least a portion of the second light upwardly from an upper one of the planar faces.

A driving device of an embodiment includes a first rotational unit and a holding unit. The first rotational unit is disposed with an object to be operated on one surface side intersecting with a first rotating shaft, and rotationally moves around the first rotating shaft with the object to be operated. The holding unit is disposed on another surface side of the first rotational unit, rotates with the first rotational unit, and holds a cable for supplying power to the object to be operated at a position away from the first rotational unit toward the other surface side, while placing the cable along the first rotating shaft.

A luminaire includes: a light-emitting module; a base having a front surface on which the light-emitting module is disposed; a cover which is translucent and covers the light-emitting module: a controller which is disposed on a back surface of the base and controls the light-emitting module; a first antenna which transmits and receives a first polarized wave; and a control wire which connects the controller and the first antenna. The control wire includes an exposed portion which is a portion of the control wire in a longitudinal direction of the control wire and which is disposed between the base and the cover to transmit and receive a second polarized wave that differs from the first polarized wave in a polarization direction.

A portable LED spotlight comprises a main light, a connecting frame, side light assemblies and a base is provided. Slots are formed in two sides of the connecting frame. Positioning pins are disposed at the bottoms of the slots. Mounting plates matched with the slots are disposed on the side light assemblies which are connected to the connecting frame through the mounting plates. Each mounting plate includes a connecting block. Grooves allowing the positioning pins to be clamped in the each mounting plate are formed in the connecting blocks. Contacts are disposed on two sides of the grooves. A rotary knob is disposed on the base.

There is a provided a lighting system comprising a first cable and a second cable for receiving a voltage difference. The first cable extends between a first pair of installation locations and the second cable extends between a second pair of installation locations. The lighting system also comprises a plurality of light emitting diode (LED) strips, each LED strip electrically connected to and extending between the first cable and second cable. The lighting system also comprises a cable tensioner system coupled to the first cable and second cable for adjusting the tension of the first cable and second cable.

The present application relates to a lighting device and in particular to a lamp, a transition member for mounting a lamp, a lamp body and a junction box assembly, by which problems such as inconvenient operation and low efficiency in connecting wires during the mounting of a lamp can be solved. The lamp provided by the present application comprises a lamp body and a transition member which is configured to mount the lamp body in a mounting position. The transition member comprises a mounting portion and a placement portion; the mounting portion is configured to be mounted in said mounting position; and the placement portion enables the lamp body to be placed thereon before the mounting is completed, and in this state, wires connected between the lamp body and the mounting position are not shielded so that it is possible to connect the wires.

An LED cove light system having a wall piece mounted to a back surface of a cove, the wall piece having a top edge which is at the same height as a top surface of a front wall of the cove. A light fixture component is removably attachable at an angle to the wall piece and carries one or more LEDs positioned to project light from the cove out into an adjacent space of a room.

A light tube with wire guide includes a hollowed tube body, two caps, a wire guide, and a plurality of wires. The two caps respectively cover two ends of the hollowed tube body. The wire guide is located at an outer side wall of one of the two caps. The wire guide includes a guiding slot communicating with the hollowed tube body. The wires are disposed in the wire guide and extended along the guiding slot. One ends of the wires are located in the hollowed tube body or located in one of the two caps, and the other ends of the wires extend to the guiding slot and are exposed out of the hollowed tube body.

An integrated lighting insert is provided for multi-function automotive vehicle lighting that has minimal space requirements and provides different lighting functions in a single device with an electronic control module that can easily interface with vehicle electronics. The insert a housing and a plurality of light transmission portions, a plurality of light sources integrated into the housing, each one configured for a different predetermined function associated with a particular use of a condition of or a state of the automobile. An electrical circuit is used along with a communications bus and individual controller circuits associated with the light sources fix controlling the light functions.

An uplight device for use with a luminaire that has a housing configured to be supported from a surface by a stem with a wireway. The uplight device includes a body having a radially outwardly directed annular flange, a vertically oriented annular rim encircling the annular flange, and a passageway extending through the body, and an uplight substrate supported on a first side of the annular flange. The uplight substrate includes a plurality of light emitting sources arranged in an array on a first side of the uplight substrate. The uplight device further includes an optical lens covering the first side of the annular flange and the uplight substrate. The body of the uplight device is configured to be coupled between the stem and housing of the luminaire such that the passageway communicates with the wireway of the stem and a chamber of the luminaire.