A work light has two housings with an elongated LED array in each housings, a hinge arrangement pivotally connecting the housings to each other for movement between a deployed position with front surfaces in the same plane for casting all light substantially in one direction, and a compact position with a rear surfaces against each other, for casing light in opposite directions, the hinge arrangement allowing intermediate angled positions for casting light in different directions, and a pair of legs pivotally connected to the hinge arrangement for rotation between an extended position with the legs on opposite sides of the hinge arrangement and a storage position with the legs on one side of the hinge arrangement and allowing intermediate angled positions between the legs for creating stand positions and allowing free rotation between the housings and the legs to cast light in any selected set of directions.

An LED device holder, an LED lighting system and a method of manufacturing an LED lighting system are described herein. An LED lighting system includes a holder defining an aperture. The aperture has a perimeter and a fillet adjacent the perimeter. The fillet has a radius greater than or equal to 2.0 mm and less than or equal to 4.6 mm. An LED array is mechanically coupled to the holder. The LED array has a light emitting surface exposed through the aperture.

An LED device holder, an LED lighting system and a method of manufacturing an LED lighting system are described herein. An LED lighting system includes a holder defining an aperture. The aperture has a perimeter and a fillet adjacent the perimeter. The fillet has a radius greater than or equal to 2.0 mm and less than or equal to 4.6 mm. An LED array is mechanically coupled to the holder. The LED array has a light emitting surface exposed through the aperture.

A recessed downlight fixture and method for installation is provided. The recessed downlight fixture can be installed in a retrofit application, after a ceiling is installed, through a pre-existing opening in that ceiling. Alternatively, a recessed downlight fixture according to a second embodiment can be installed before a ceiling is present. In either embodiment, the light source coupled to, for example, a heat sink, can be universally moved in three degrees of movement, rotationally, along a tilt axis, or further within the ceiling to increase or decrease the recess. All such universal adjustments can take place through and below the ceiling opening during or after installation.

A canopy light including a frame, a venting cap, an electrical assembly and a light transcending cover. The frame has a cavity defined by a base and an upstanding structure defining an upper perimeter edge. A component cavity venting system includes a drainage chamber in communication with the cavity through a communicating port. The drainage chamber has an ingress opening. A drain opening is isolated from the communicating port, to allow drainage from the drainage chamber, while substantially preclude the passage of a fluid through the drain opening, into the drainage chamber and through the communicating port into the cavity. The venting cap extends over the ingress opening of the drainage chamber, substantially sealing the same. The electrical assembly includes a power supply and at least one LED light assembly, positionable within the cavity. The light transcending cover extends over the cavity of the frame about the upper perimeter edge, and structurally configured to permit at least some of the light generated by the LED light assembly to be directed therethrough.

An illumination device is provided. The illumination device includes a substrate including a light-emitter. An instrument main body includes a substrate arrangement surface, with the substrate being on the substrate arrangement surface. A cover is attached to the instrument main body, covers the substrate, and is transparent. An antenna is on the cover and configured to receive a signal from an outside of the illumination device. A driver is on the instrument main body and configured to supply power to the light-emitter. A controller is configured to control the power supplied from the driver to the light-emitter based on the signal received by the antenna. The cover includes a diffusion factor from 40% to 90%.

The invention provides an LED panel light and a frame component. The frame component includes a frame and a moving plate, wherein the moving plate is assembled at the inner side of the frame movably, an extrusion space is formed between the opposite faces of the moving plate and the frame, an expansion piece is assembled in the extrusion space, the moving plate is close to a light guide plate located at the inner side of the moving plate due to an extrusion counterforce of the expansion piece, and the side face of the moving plate in the face of the light guide plate is provided with a light source assembling area for assembling a light source component.

The invention provides an LED panel light and a frame component. The frame component includes a frame and a moving plate, wherein the moving plate is assembled at the inner side of the frame movably, an extrusion space is formed between the opposite faces of the moving plate and the frame, an expansion piece is assembled in the extrusion space, the moving plate is close to a light guide plate located at the inner side of the moving plate due to an extrusion counterforce of the expansion piece, and the side face of the moving plate in the face of the light guide plate is provided with a light source assembling area for assembling a light source component.

The present invention relates to an adaptable sensor assembly to be mounted to a light fixture in a fixture opening of the light fixture. A mount extends from the sensor housing. A break point is defined in the mount. First and second mount portions are located on either side of the break point. Each of the first and second mount portions are able to connect to the light fixture at the fixture opening. The first mount portion may connect to the light fixture if the light fixture has a large gasket lip, and the second portion may connect to the light fixture if the light fixture has a short gasket lip.

The present invention relates to an adaptable sensor assembly to be mounted to a light fixture in a fixture opening of the light fixture. A mount extends from the sensor housing. A break point is defined in the mount. First and second mount portions are located on either side of the break point. Each of the first and second mount portions are able to connect to the light fixture at the fixture opening. The first mount portion may connect to the light fixture if the light fixture has a large gasket lip, and the second portion may connect to the light fixture if the light fixture has a short gasket lip.