A hand-held spotlight, having: a housing provided with an accommodating cavity; a power supply box detachably disposed in the accommodating cavity; a switch base connected to the housing and provided with a first clamping block; and a cover body hinged with the housing, wherein the cover body is capable of covering an opening of the accommodating cavity to confine the power supply box within the accommodating cavity, and the cover body is provided with a second clamping block, which is clamped with the first clamping block when the cover body covers the opening of the accommodating cavity, thereby restricting the flipping of the cover body.

The present invention provides a lighting system comprising a main power source, a light source driver electrically coupled to the main power source, and a light source unit driven by the light source driver. The light source driver is encased within a dedicated or independent driver housing. The light source driver and the driver housing are physically and electrically connected to the light source unit via a flexible cord. The length of the flexible cord is so configured that the light source unit can be installed at different locations inside a building without moving the light source driver around.

The explosion-proof lamp provided includes a light source cavity and a drive cavity independent of each other. The drive cavity is has a power driver and a junction box, is connected to the light source cavity via a conducting wire, and drives and controls a light source in the light source cavity to be turned on. The light source cavity includes a heat sink, a glass cover, and the light source. The glass cover and the heat sink are connected to form the cavity, and the light source is mounted in the cavity. The heat sink includes a heat dissipation bottom plate and a plurality of heat dissipation fins annularly mounted on the heat dissipation bottom plate, absorbs heat generated in the light source cavity, and dissipates the heat into an external environment.

The present invention relates to a decorative lighting panel for mounting to a home exterior via mounting holes, brackets, bolts, etc. The panel has a frame that includes a groove between a front surface and rear surface of the panel. A plurality of illumination sources in the form of LED strips or chips are disposed in the groove, for providing illumination and a retractable plastic cover is designed to reveal the LEDs when pulled down. The plastic cover generally covers the LEDs when illumination is not required. The panel has wireless capabilities allowing a remote control or a handheld electronic device with an installed software application to remotely control the operations of the panel. The panel is designed to be electrically connected to other similar panels to form a series of panels for creating a long segment of illumination.

An LED high bay includes a housing, a hand-separable connector, and an LED driver disposed within the housing. The housing includes a first housing portion, a second housing portion hingedly attached to the first housing portion, and at least one hand-operable latch opposite the hinge and configured for fixing the second housing portion to the first housing portion. The LED driver may be replaced by opening the housing by releasing the latch and disconnecting the LED driver from the connector, while the LED high bay remains installed or held to a structure, or portion thereof, with a support member.

A plant light supplementing lamp is provided. The plant light supplementing lamp includes an electronic ballast, a mounting bracket, a lamp support, lamp holders and a lamp shade; a number of the lamp holders is two, the lamp holders are respectively located at a top and a bottom of the lamp support, limiting plates are provided on a front side of a top of the electronic ballast, an adapter is clamped on an inner side of the limiting plate, sliding grooves are provided in left and right side surfaces of the adapter, and fixing grooves are provided in corners of the left and right side surfaces of the adapter.

The present utility discloses An LED power supply, comprising a housing, a light-emitting mode switching component a circuit board, an output socket, and an input conductive plug, wherein the housing comprises a main housing and an end cover, the main housing is integrally formed, an accommodating cavity is provided inside the main housing, one end of the main housing is closed and the other end thereof is provided with an opening, the input conductive plug and one end of the main housing are cast integrally, one end of the input conductive plug is located in the accommodating cavity, the side wall of the main housing is provided with a through hole, a part of the light-emitting mode switching component forms a sealing fit with the through hole and is fixed with the main housing, at least a part of the circuit board is located in the accommodating cavity and is electrically connected with the input conductive plug, one end of the light-emitting mode switching component is matched or fixed with the circuit board, after the end cover is fixed with the opening of the main housing, the end cover forms a sealed combination with the main housing, the output socket is provided on the end cover, the axial direction of the output socket is parallel to the input conductive plug, or the included angle formed by the axial direction of the output socket and the input conductive plug is less than 3 degrees. The present utility model provides with improved waterproof reliability.

The present disclosure provides a multifunctional LED lamp, which includes: a main lamp body; one or more LED light-emitting modules connected with the main lamp body; a face recognition module disposed on the main lamp body; an infrared sensing module disposed on the main lamp body; a photosensitive module disposed on the main lamp body; and a control module in communication connection with the face recognition module, the infrared sensing module, and the photosensitive module. The multifunctional LED lamp includes multiple working modes, and the control module controls working states of the face recognition module, the infrared sensing module, and the photosensitive module to switch the working modes. By installing different sensors, the LED lamp of the present disclosure integrates various functions such as lighting, security warning, entertainment, lighting, health, etc., and can realize different working modes by combining different sensors.

An elongated lighting module having an asymmetric illumination source formed from at least two rows of light emitting diodes (LEDs) that extend along the long axis of the module and are independently controllable. The lighting modules are powered via a wiring harness that extends down a support pole to a power converter stack having LED drivers to control the modules. The power supply for lighting module includes a power enclosure having individual light emitting drivers for powering the rows of light emitting diodes that can adjust the power level to compensate for the loss of power from another of the light emitting drivers. The power supply may also include a backup that can be switched over to power the rows of light emitting diodes in the event of a failure.

An illustrative light fixture provides an emitter housing and a driver housing in a single fixture with an airflow channel defined between the emitter and driver housings. The airflow channel minimizes thermal conduction between the emitter and driver housings, and maximizes thermal convective cooling for at least one of the emitter housing and driver housing. The emitter housing includes vertical fins extending into the airflow chamber. The left and right sides of the emitter and driver housings define top and bottom edges that are respectively coplanar with the top and bottom edges of the vertical fins.