A lighted mirror relates to a technical field of mirrors and includes a mirror body, a light-transmitting plate defining a first middle hole, a frame body, and an LED light strip structure. The first middle hole is defined on a middle portion of the light-transmitting plate. A rear portion of the mirror body is attached to a front surface of the light-transmitting plate and seals the first middle hole. The frame body is disposed on the rear portion of the mirror body and disposed in the first middle hole. The LED light strip structure is disposed on an outer side face of the frame body and disposed in the first middle hole. A first light-transmitting structure is disposed on the outer side surface of the light-transmitting plate. Second light-transmitting structures disposed around the mirror body are disposed on the front surface of the light-transmitting plate.

Provided is Provided is a light fixture comprising: a body made from a metal; a circular LED board; a plurality of led light sources placed on the board, the LED light sources illuminating in an inwardly direction; a light guide positioned directly in front of the LED lights in such configuration that light from the LED light sources travels to inside of the guide through a side of the light guide; a reflective paper positioned above the light guide; a lens below the light guide; a ring below the lens for keeping the lens in place; and clips attached to the body for securing the light fixture in place.

The present disclosure is directed towards a luminaire having an optical waveguide and a light source. The optical waveguide has a hollow cylindrical structure with a first surface and a second surface at the opposite ends of the cylindrical structure and an external surface and an inner surface extending between the first surface and the second surface. The light source illuminates the first surface of the optical waveguide. The external surface of the optical waveguide is constructed such that the light from the light source exits from the inner surface. The luminaire directs the light from the light source towards the nadir and prevents glare to the eyes of the people in the surrounding space.

An LED lamp includes: a lamp shell having a circular cross-section along a central axis of the lamp shell comprising a lamp neck and a sleeve; a heat sink comprising a plurality of fins, sleeving over the sleeve and connecting to the lamp neck; a power source comprising a power board and a plurality of electronic components mounted thereon disposed in the lamp neck and the sleeve; a light board comprising an opening at center portion and disposed at second end of the heat sink and physically and thermally connecting to the heat sink; a plurality of LED chips mounted on the light board and electrically connecting to the power source; and a lamp cover disposed at the second end of the heat sink and covering the plurality of LED chips; wherein the sleeve and the opening of the light board defines a first heat dissipating channel, the plurality of fins and the opening of the light board defines a second heat dissipating channel, the first heat dissipating channel and the second heat dissipating channel share the opening of the light board, and the power source is disposed in the first heat dissipating channel.

Eyewear including an optical element, a controller, a support structure configured to support the optical element and the controller, light sources coupled to the controller and supported by the support structure, and a diffuser positioned adjacent to the light sources and supported by the support structure, the diffuser including microstructures that diffuse light emitted by the light sources in a radial anisotropic diffusion pattern or a prism-like diffusion pattern.

The present invention relates to the field of indoor electrical appliances, and in particular to a fan lamp, including a lamp head assembly, a lampshade, a PCB controller, a brushless motor fan and a filament assembly. In the present application, a fan, light and a light-transmitting lampshade are combined to provide a multifunctional usage scenario suitable for different needs; and the entire device becomes more compact by installing a PCB controller and a brushless motor fan in the center of the lampshade. Meanwhile, by disposing the PCB controller in an installation part, the overall structure is more integrated, and the exposure of external connecting wires is reduced.

A lamp set module with a T-shaped connecting rod which includes a mounting base and at least two luminous modules. Each of the at least two luminous modules includes a luminous frame, a frame module and a connecting rod, one end of the connecting rod is connected to a middle of the frame module, and the other end of the connecting rod is connected to the mounting base. The luminous frame includes a luminous member and a light-transmitting shield. The luminous member is arranged within the light-transmitting shield, and a lower surface of the frame module is covered and fixed on the light-transmitting shield. The frame module and the light-transmitting shield are respectively provided with a buckling member, and buckling members can be buckled and connected with each other. Each luminous module is independent and can be transported independently, which reduces transportation cost, provides a stable structure after being combined.

Luminaires are described herein employing waveguides and associated architectures for dynamic alteration of illuminance distribution patterns. The waveguide includes a light extraction component. The waveguide transmits light from a light source to the light extraction component by total internal reflection (TIR). The light extraction component includes one or more reversibly moveable surfaces for altering illuminance distribution patterns of the luminaire in response to one or more forces applied to the light extraction component by a force application assembly of the luminaire.

An LED water spray pad is provided, which includes a pad body provided with one or more water flow channels, the pad body is provided with one or more water spray holes that are penetrated through, and each water spray hole is communicated to the water flow channels; one or more light strips, provided on the pad body and configured to emit various colors of light; one or more water inlet members that are connected to the pad body to allow water to enter the water flow channels through the water inlet members. This application has the effect of increasing the attractiveness of the water spray pad.

Some embodiments of the present light fixtures include a body, a waveguide, and one or more independently-controllable light sources. The waveguide is configured to be coupled to the body and may include a first end configured to receive light emitted from at least one of the light source(s) and to direct the received light to (and in some embodiments, emit the received light from) a second end of the waveguide. In some embodiments of the present fixtures, the waveguide defines an opening through which light emitted from at least one of the light source(s) can pass, the light source(s) being coupled to the body such that a first one of the light source(s) emits light into the first end of the waveguide and a second one of the light source emits light through the opening.