Disclosed embodiments relate to a combination axial fan and LED lighting system configured to fit into the footprint of a standard ceiling tile. Disclosed embodiments further include ceiling tiles with a built-in fan and/or LED lighting. The disclosed systems may include a housing container and an axial fan. The fan has a fan cavity including air diversion mechanism to direct air from the fan cavity toward the lighting and fan components. The inventions include an airflow surface to direct air existing the fan cavity along an LED light fixture. Moreover, disclosed embodiments include one or more UV light sources which irradiate contaminants as air flows through the ceiling tile.

An adjustable LED lighting system includes a plurality of LEDs, at least one driver, and a programmable signal generator to control a drive frequency. The signal generator includes a clock, an input module to receive commands for driving the LEDs, and a frequency adjustment module to drive the frequency of the one or more LEDs. The LEDS are driven at a target or specified frequency for a time period that is specified with a start time and/or an end time. The LED lighting system allows for a variable frequency of outputs during different time periods and/or in response to specific use commands. The LED lighting system includes one or more target frequencies for one or more target time periods. The LED lighting system stores the target frequencies and target time periods and make the frequency modifications at the user-specified times.

To effective cool inside a lens casing in an LED lighting apparatus that hermetically houses LED elements in the lens casing, the present LED lighting apparatus includes a tubular lens casing having a first end face at which lighting lenses are provided and a second end face, a substrate on which LED elements are mounted, and a base part provided on the second end face side of the lens casing. The base part has a concave part housing therein the substrate. The lens casing is coupled to the base part by a coupling part with the second end face thereof fitted to the concave part, thereby sealing the internal space of the lens casing. The base part has heat radiating columns formed to protrude therefrom to an outside space, and the heat radiating columns radiate heat that the LED elements generate in the internal space through heat exchange with air.

LED light bulbs include openings in base or cover portions, and optional forced flow elements, for convective cooling. Thermally conductive optically transmissive material may be used for cooling, optionally including fins. A LED light engine may be fabricated from a substrate via planar fabrication techniques and shaped to form a substantially rigid upright support structure. Mechanical, electrical, and thermal connections may be made between a LED light engine and a LED light bulb.

An automotive LED lamp unit includes a plate-like mounting member, LED light sources arranged on two opposite sides of the plate-like mounting member, and a heat sink. The heat sink includes cooling fins and a tapered portion facing the LED light sources and being connected to one end of the plate-like mounting member.

A combination axial fan and LED lighting system configured to fit into the footprint of a standard ceiling tile. The system includes a housing container and an axial fan. The fan has a fan cavity including air diversion mechanism to direct air from the fan cavity toward the lighting and fan components. The invention includes an airflow surface to direct air existing the fan cavity along an LED light fixture.

A cooling device includes a rotator including a heat generation portion to generate heat, and a rotation axis around which the heat generation portion rotates, multiple heat receiving fins each having a heat receiving face extending in an axial direction of the rotation axis of the rotator, and a storage case storing the rotator and the multiple heat receiving fins. The multiple heat receiving fins are on an inner face of the storage case and arrayed in an array direction orthogonal to the axial direction.

A cove light fixture with a hidden integrated air return is provided. The cove lighting structure can include a return air structure comprising a vent configured to receive return air. The cove lighting structure can include a cove structure connected with a platform extended laterally from the return air structure. The cove lighting structure can include a light fixture comprising a light source configured to provide cove lighting. The light fixture can be positioned above the platform and between the cove structure and the return air structure.

A cooling device for a lighting unit of a motor vehicle, in particular for an LED headlight, at least comprising a metallic base plate, a heat sink, and a fan that is accommodated on a fan mount. The heat sink and the fan mount are situated on the base plate in such a way that an air flow that is generatable by the fan is directed onto the heat sink. The fan mount being made of a metal.

A combination axial fan and LED lighting system. The system includes a housing container and an axial fan. The fan has a fan cavity including air diversion mechanism to direct air from the fan cavity toward the lighting and fan components. The invention includes an airflow surface to direct air existing the fan cavity along an LED light fixture. The invention includes a vented mechanical equipment casing configured to include an opening to direct a portion of the air exiting the fan cavity into an equipment chamber housing the mechanical equipment and configured to direct the air to encounter the mechanical equipment and operate to reduce the temperature of the equipment.