An LED filament light including a bulb, a support bar, at least two electrode wires and at least two LED filament strips. Each LED filament strip including a base, an LED chip is set on the base and an electrode is fixed at both ends of the base. One end of the electrode is electrically connected with an LED chip on the base, the other end of the electrode is electrically connected with an electrode of another LED filament or electrically connected to one end of the electrode wires so that the support bar is fixed to the bulb, and the other end is connected with at least one. As the support bar is set to replace the existing LED filament light core and metal wire, and creatively the LED filament electrodes directly is connected to each other.

The present invention discloses a focus-adjustable lamp, provided with an illuminating mechanism on the top end thereof, wherein the illuminating mechanism comprises a light-emitting element, a shield body shielding the outer side of the light-emitting element, a heat dissipating member closely matched with the light-emitting element, and a cover body located on the top end of the illuminating mechanism, the illuminating mechanism is further provided with a light-converging cylinder rotationally sleeving the outer side of the shield body, and the light-converging cylinder is capable of rotating back and forth along a circumferential direction of the shield body to adjust the size of a light spot projected by the light-emitting element on the ground.

A recessed light includes a top board, a main body, a reflector, a plurality of retaining mechanisms, a shading plate, a transparent plate, a light output plate, an LED ring, a bottom bracket, and a plurality of elastic strips. The light output plate, the transparent plate, and the shading plate are sequentially mounted in the main body. The LED ring is mounted in the main body, and surrounds the transparent plate. The top board is located above the main body. The reflector is located under the main body. The retaining mechanisms connect the top board and the bottom bracket. Each of the retaining mechanisms includes a connecting piece and a locking piece removably mounted on the connecting piece. The elastic strips are mounted on the main body. The reflector is retained by the elastic strips.

A recessed light includes a top board, a main body, a reflector, a plurality of retaining mechanisms, a shading plate, a transparent plate, a light output plate, an LED ring, a bottom bracket, and a plurality of elastic strips. The light output plate, the transparent plate, and the shading plate are sequentially mounted in the main body. The LED ring is mounted in the main body, and surrounds the transparent plate. The top board is located above the main body. The reflector is located under the main body. The retaining mechanisms connect the top board and the bottom bracket. Each of the retaining mechanisms includes a connecting piece and a locking piece removably mounted on the connecting piece. The elastic strips are mounted on the main body. The reflector is retained by the elastic strips.

A modular lighting fixture that is capable of receiving interchangeable functional modules includes a body having a main portion and a second portion. The main portion has a hollow interior defining an interior space extending in a longitudinal direction from a first open end of the main portion to a second end of the main portion. The second portion is provided at the first end and extends outwardly in a transverse direction, wherein the interior space is configured to receive and retain a functional module configured to provide non-light emitting function. A light emitting means is provided on the second portion of the body and configured to emit light.

The present invention discloses a waterproof stage light with efficient heat dissipation comprising a light source component, a heat dissipating system and a waterproof main housing, wherein an opening is arranged at the rear end of the main housing, the heat dissipating system is in seal connection with the opening; one end of the heat dissipating system is positioned inside the main housing and the other end is positioned outside the main housing; and the light source component is arranged on the end of the heat dissipating system that is positioned inside the main housing. The stage light according to the present invention, which is simple in structure and convenient in use, improves the operation effect, normal service life, and reliability and stability of the stage light, and has a waterproof function, the stage light thus can be normally used outdoors with expanding application.

The present invention discloses a waterproof stage light with efficient heat dissipation comprising a light source component, a heat dissipating system and a waterproof main housing, wherein an opening is arranged at the rear end of the main housing, the heat dissipating system is in seal connection with the opening; one end of the heat dissipating system is positioned inside the main housing and the other end is positioned outside the main housing; and the light source component is arranged on the end of the heat dissipating system that is positioned inside the main housing. The stage light according to the present invention, which is simple in structure and convenient in use, improves the operation effect, normal service life, and reliability and stability of the stage light, and has a waterproof function, the stage light thus can be normally used outdoors with expanding application.

A light emitting diode (LED) tube lamp configured to receive an external driving signal includes an LED module for emitting light, the LED module comprising an LED unit comprising an LED; a rectifying circuit for rectifying the external driving signal to produce a rectified signal, the rectifying circuit having a first output terminal and a second output terminal for outputting the rectified signal; a filtering circuit connected to the LED module, and configured to provide a filtered signal for the LED unit; and a protection circuit for providing protection for the LED tube lamp. The protection circuit includes a voltage divider comprising two elements connected in series between the first and second output terminals of the rectifying circuit, for producing a signal at a connection node between the two elements; and a control circuit coupled to the connection node between the two elements, for receiving, and detecting a state of, the signal at the connection node. The control circuit includes or is coupled to a switching circuit coupled to the rectifying circuit, and the switching circuit is configured to be triggered on or off by the detected state, upon the external driving signal being input to the LED tube lamp, to allow discontinuous current to flow through the LED unit.

A lampshade (100) comprising a shade member, a lamp support bracket, and first and second attachment means (160, 170) comprising one or more of a magnet, hook and loop fasteners, releasable clamps, adhesive portions, and threaded fasteners, the first attachment means (160) located at a first position on the lampshade (100) arranged for releasably attaching a second lampshade (200) or the lamp support bracket (705), the second attachment means (170) located at a second position on the lampshade arranged for releasably attaching a third lampshade (300) or the lamp support bracket (705), such that, in use, two or more lampshades are connectable together, in a user-defined arrangement for attachment to a light apparatus (600), wherein the lamp support bracket (705) comprises at least one arm (715) for supporting the lampshade thereon, the lamp support bracket being arranged such that a first portion (755) of the arm is moveable relative to a second portion (765) of the arm in a rotational, translational, and/or telescopic manner, in order to adjust the size of the at least one arm.

A waveguide body comprises a length from a first end to a second end along a longitudinal axis, and a coupling portion that comprises first and second coupling surfaces. The first and second coupling surfaces define, at least in part, an elongate coupling cavity along the entire length of the waveguide body and a surface located opposite the coupling cavity. The waveguide body further comprises first and second opposed sections extending along the length of the waveguide body. The first and second opposed sections further comprise respective first and second lower surfaces disposed at different first and second side section angles with respect to a first axis lying in a plane normal to the longitudinal axis. The first axis bisects the coupling portion. Among other things, such a waveguide may be included in a luminaire along with a light source.