A swimming pool lamp is disclosed, including a lamp body provided in the swimming pool, and a wireless control component for sending and receiving remote control signals. Because the lamp body and the wireless control component are split setup, it can effectively avoid the wireless control component getting into water to affect the signal transmitting and receiving. The lamp body can be remotely controlled by a terminal provided, and the terminal can change luminous effects of LED lamp beads provided on the surface of the lamp panel. A mechanical button is provided on the surface of the lamp body, so that the luminous effects of the LED lamp beads on the lamp panel can be controlled by the mechanical button in conjunction with a control button without using the terminal for remote control, thus realizing a variety of control effects of the swimming pool lamp.

Disclosed is a lighting device, including a base, a top plate, a power supply unit and pillars, where the top plate is located above the base and is arranged corresponding to the base, the power supply unit is fixed on the base, both ends of each of the pillars are fixedly connected to the base and the top plate, a first lighting unit is arranged on a side of one of the pillars facing an interior of the lighting device, and the first lighting units are electrically connected to the power supply unit. A plurality of frames capable of displaying an internal space of the lighting device is formed by cooperating between the pillars and the base and the top plate, the first lighting units in different directions are arranged to achieve a lighting function, and the power supply unit is integrated into the base to provide a charging function.

Disclosed is a waterproof lamp head structure, including a lampshade and a lamp cap, where a connecting portion is arranged at a bottom of the lampshade, a cavity is arranged inside the lamp cap, and the connecting portion is detachably connected to the cavity; a lamp holder is arranged between the lampshade and the lamp cap, the lamp holder includes a fixing base, a fixing post, and plugs, and the fixing base includes first and second end faces; a bottom surface of the connecting portion is tightly abutted against the first end face; a connecting seat is arranged inside the lamp cap, grooves corresponding to the plugs are formed inside the connecting seat, and a top surface of the connecting seat is abutted against the second end face; the lamp holder is provided with through holes, and the through holes are communicated with interiors of the lampshade and the grooves.

A lighting system for emitting light, the system comprising a first and a second lighting module as well as a plug for connecting the two lighting modules to each other, each lighting module comprises a housing, the housing having a first side and a second side, opposite to the first side, such that the second side of the first lighting module is connected to the first side of the second lighting module when the two lighting modules are connected via the plug, each housing comprises at least one Light Emitting Diode, LED, for emitting the light, a controller arranged for wirelessly communicating with the other one of the two lighting modules via a magnetic field antenna, the magnetic field antennawherein the first lighting module has the magnetic field antenna positioned in the housing close to, or adjacent, its second side and wherein the second lighting module has the magnetic field antenna positioned in the housing close to, or adjacent, its first side such that when the two lighting modules are connected using the plug, the magnetic field antennas of the first and second module are aligned.

The application discloses a lighting device. The lighting device includes a device body, having a first length in an axial direction; a plurality of lighting components arranged within the device body, wherein the lighting components is configured to emit light outward, such that a lighting area is generated by the lighting components; two support brackets being respectively connected to two ends of the device body in the axial direction; wherein each of the lighting component has different orientations, such that an angular coverage of the lighting area in a circumferential direction is at least 300.

An LED filament and a lamp are disclosed. The LED filament includes a substrate, a conductive circuit, a control chip, light-emitting chips, and electrical connection terminals. The conductive circuit includes an independent signal control circuit. The control chip is a bare-die chip, and has a VDD interface, a GND interface, an IN interface, an OUT interface, and LED control output ports. Two ends of the substrate have four electrical connection terminals electrically connected to the VDD interface, the GND interface, the IN interface and the OUT interface, respectively. Both ends of the first light-emitting chips are electrically connected to the LED control output ports and the VDD interface to form a light-emitting circuit. All components are integrated and packaged, small in size and easy to shape, so as to reduce production costs and diversify the shapes of lamps.

A composite structure includes a structural composite including a plurality of reinforcing fibers encapsulated in a first polymer resin. M sets of traces are arranged on the structural composite. N sets of microLEDs are arranged on the structural composite and connected to the M sets of traces, respectively, where M and N are integers greater than zero. One or more cables are connected to the M sets of traces. The structural composite, the M sets of traces, the N sets of microLEDs, a portion of the one or more cables are encapsulated in a second polymer resin. The second polymer resin includes an integrated lens adjacent to the N sets of microLEDs.

Disclosed is a light tube, a light fixture, and a light body. The light tube comprises at least one tube member and at least one flexible filament. The tube member includes a light-transmitting tube and one or more inner layers. The at least one flexible filament penetrates into the tube member. The light fixture comprises a light holder and the light tube. The at least one tube member includes a sealed end and a connecting end. The at least one tube member is mounted on the light holder. The light body comprises the light tube and a light cap. The light cap is fixedly connected with the connecting end of the at least one tube member. A drive power board is disposed in the light cap. Positive and negative pins of the drive power board are electrically connected with a top end and a side end of the light cap, respectively.

An assembly includes a glazing with an interior glass sheet having a through hole, an exterior glass sheet, and at least one intermediate plastic layer; a light-emitting diode module with a light emitting diode having an illuminating part, and a base; a support plate fixed to a face of the interior glass sheet opposite the at least one intermediate plastic layer, the support plate including several lugs extending away from the interior glass sheet and a spring element. The illuminating part is positioned in the through hole, with the base retained by the lugs, and pressed against the glazing by the spring elements.

A lighting element is designed for horticultural lighting. The lighting element comprises a body for housing one or more lighting units, and the body comprises one or more lighting segments. Each of the lighting segments comprises the one or more lighting units. The one or more lighting units may be disposed on each of the lighting segments comprise one or more corresponding lens for directing beams of light. The lighting segments may be configured at various angles as a function of the vegetation subjected to the beams of light.