A light lamp for a vehicle includes a plurality of light function modules, each of the plurality of light function modules including: a light source module including a light source; a light distribution module disposed in front of the light source module and configured to distribute light emitted by the light source module; and a dissipation module disposed behind the light source module and configured to dissipate heat generated by the light source, wherein the light source module further includes: a light source lens; a light emission body configured to accommodate the light source lens; a light emission cover configured to cover the light emission body; a phosphor assembly connected to the light emission body; and a reflection unit disposed in front of the light source lens and configured to receive the light passing through the light source lens and to reflect the received light toward the light source lens.

A downlight apparatus has a main housing, a light source plate, two elastic wings, a driver circuit, a driver box. The driver box contains the driver circuit and has two first positioning devices. The back cover is disposed with two second positioning devices corresponding to the first positioning devices. The driver circuit does not occupy whole space of the driver box.

A high bay light fixture (100) comprising multiple heat sink structures (102, 104, 106, 108) attached to an electronics housing (110), and light sources (132, 134, 136, 138) attached to the multiple heat sink structures (102, 104, 106, 108). Each heat sink structure (102, 104, 106, 108) includes a bottom wall (202) and side walls (204, 206, 208, 210) that extend up from the bottom wall (202). Each light source (132, 134, 136, 138) is attached to the bottom wall (202) of a respective heat sink structure (102, 104, 106, 108) on a surface of the bottom wall (202) facing away from the electronics housing (110). Each heat sink structure (102, 104, 106, 108) is spaced from other heat sink structures of the multiple heat sink structures (102, 104, 106, 108) that are adjacent to the heat sink structure (102, 104, 106, 108).

The present invention discloses a swimming pool lamp, comprising: a light-emitting lamp body and a controller, wherein the light-emitting lamp body comprises a mounting substrate and several RGBIC lamp beads installed on the mounting substrate; One end of the controller is electrically connected to the light-emitting lamp body, and the other end is connected to the power supply device through a power cord to supply power to the light-emitting lamp body; wherein, any RGBIC lamp bead comprises several light-emitting chips and a programmable driving IC electrically connected to the light-emitting chip. The swimming pool lamp provided by the present invention is connected to a controller through a light-emitting lamp body, and multiple lighting modes are switched and controlled through several RGBIC lamp beads in the light-emitting lamp body.

The present invention discloses a waterproof stage light with efficient heat dissipation comprising a light source component, a heat dissipating system and a waterproof main housing, wherein an opening is arranged at the rear end of the main housing, the heat dissipating system is in seal connection with the opening; one end of the heat dissipating system is positioned inside the main housing and the other end is positioned outside the main housing; and the light source component is arranged on the end of the heat dissipating system that is positioned inside the main housing. The stage light according to the present invention, which is simple in structure and convenient in use, improves the operation effect, normal service life, and reliability and stability of the stage light, and has a waterproof function, the stage light thus can be normally used outdoors with expanding application.

An illumination device includes a first heat source, a second heat source, a third heat source, a first porous heat dissipation element, a second porous heat dissipation element, a third porous heat dissipation element, a first guide pipe, and a second guide pipe. The first porous heat dissipation element is connected to the first heat source, the second porous heat dissipation element is connected to the second heat source, and the third porous heat dissipation element is connected to the third heat source. The first guide pipe is connected to the first porous heat dissipation element and the third porous heat dissipation element, and the second guide pipe is connected to the second porous heat dissipation element and the third porous heat dissipation element. The disclosure also provides a projection device with the aforementioned illumination device.

The present application relates to an active radiator with omnidirectional air convection and a stage lighting fixture using the same. The active radiator includes a radiator body provided with heat dissipation channels and a heat transfer assembly which is at least partially transversely arranged inside the radiator body and in form of an integrity therewith. The present application of simple structure and convenient in use can achieve efficient heat dissipation through omnidirectional active heat dissipation of the stage lighting fixture, and can also reduce overall costs and is easy to install.

A searchlight assembly has a first housing portion and a second housing portion, wherein each of the first housing portion and the second housing portion has operably secured to form an enclosed space: a heat sink, a reflector and a lens. The first housing portion and the second housing portion being are joined to form a housing assembly. The first housing portion heat sink and the second housing portion heat sink are disposed adjacent to one another and form a cooling medium flow path there between, and the heat sink elements of each heat sink thermally communicate with the flow path. A first LED is directly thermally coupled to the heat sink within in the first housing portion enclosed space and a second LED is directly thermally coupled to the heat sink within the second housing portion enclosed space.

A light fixture including a light source and heat pipes that are connected to an array of fins which cool the light source. The light fixture is configured such that the thermal mass is minimised local to the light source. The heat pipes are arranged so that they are aligned with the light emitting areas of the light source. The heat pipes and fins form a structure which supports the light source.

A thermal management system includes a heat sink configured to receive heat from a heat source, and an elongated, thermally-conductive member in thermal contact with the heat sink along a length of the heat sink such that a thermal gradient along the length of the heat sink is generally constant.