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.

The invention relates to a signal light for a motor vehicle that has a fiber optic rod, which has a light emitting surface and a rear surface, in which deflection elements are located, and which has two side walls, and numerous pairs of reflectors and light sources, which are in a row in the rear surface, and which project light bundles through the fiber optic rod, transverse thereto. The fiber optic rod has two rear walls, each of which has deflection element edge and side wall edge, and extends longitudinally between the deflection elements and the side walls. The side wall edges are further apart than the deflection element edges in a cross section of the fiber optic rod that is transverse to the longitudinal direction thereof.

A lighting device defining an interior storage space accessible by removing a lid from the main body portion of the lighting device. The main body portion is embodied as a first light emitting component and the lid is embodied as a second light emitting component. Each of the first light emitting component and the second light emitting component are configured for emitting a light output. The lighting device additionally includes a tray that may fit within the interior storage space of the lighting device.

A light emitting diode, LED, filament arrangement (100), comprising at least one LED filament (110) comprising an array of a plurality of light emitting diodes, LEDs. The at least one LED filament (110) is of an elongated shape, and is at least partially extending along an axis, A. The at least one LED filament comprises at least one branch (120, 121) extending from the elongated LED filament (110) and is arranged at an angle, , to the axis A.

Apparatus, methods and systems for light tape. The light tape may include a first segment. The light tape may include a first array of light emitting diodes (LEDs). The first array of LEDs may be disposed along the first segment. The first array of LEDs may emit light in a first direction. The light tape may include a second array of LEDs. The second array of LEDs may be disposed along the first segment. The second array of LEDs may emit light in a second direction. The light tape may include a first extension extending from the first segment. The first extension may be physically connected to a second extension extending from a second segment. The first extension may form a joint when connected to the second extension. The joint may include at least one LED disposed on each of the first extension and the second extension.

A magnetic conductive track and a lighting fixture are disclosed by the present disclosure. The magnetic conductive track includes a mounting main body and conductive substrates, each conductive substrate includes a magnetic attraction layer, an insulating layer, and a conductive layer, the magnetic attraction layer faces a mounting side of the mounting main body, the conductive layer faces a connecting side of the mounting main body and is exposed outside, and the magnetic attraction layer is used for attracting and connecting the lighting device.

An Improved light-emitting diode lighting system is described. The system can comprise a plurality of elongated interconnectable light segments and a plurality of mounts. Each end of the light segment can comprise an integrated plug. Each mount can be configured to connect to and end of the light segments, and each mount can comprise an enclosure having an opening that comprises a first socket connector compatible with the plug. A bracket can extend from the enclosure such that when the mounts are assembled with the plurality of elongated interconnectable light segments, the brackets rest on a top surface of a drop ceiling system while the enclosure rests at least partially below the top surface of the drop ceiling system. One of the mounts can comprise a power cable capable of receiving power from an external power source and delivering the power to the elongated interconnectable light segments.

A lighting device defining an interior storage space accessible by removing a lid from the main body portion of the lighting device. The main body portion is embodied as a first light emitting component and the lid is embodied as a second light emitting component. Each of the first light emitting component and the second light emitting component are configured for emitting a light output. The lighting device additionally includes a tray that may fit within the interior storage space of the lighting device.