A wavelength converter includes a rotating device, a substrate rotated by the rotating device, and a wavelength conversion element and a plurality of fins provided on a first surface of the substrate, and the first surface is so provided as to face an opening of an air introduction channel through which air for cooling the wavelength conversion element is introduced.

A wavelength converter includes a rotating device, a substrate rotated by the rotating device, and a wavelength conversion element and a plurality of fins provided on a first surface of the substrate, and the first surface is so provided as to face an opening of an air introduction channel through which air for cooling the wavelength conversion element is introduced.

A heat sink arrangement can be comprised of a substantially planar base and fins extending upwards from the planar base. The planar base can be shaped in accordance with a light-emitting diode (LED) light fixture. An improved heat sink that the planar base is a component of can be capable of fitting within the LED light fixture. The space between the fins can form air pathways. Each fin can be substantially arced in shape, originating from a central region of the planar base and ending at an outside edge of the planar base.

A heat sink arrangement can be comprised of a substantially planar base and fins extending upwards from the planar base. The planar base can be shaped in accordance with a light-emitting diode (LED) light fixture. An improved heat sink that the planar base is a component of can be capable of fitting within the LED light fixture. The space between the fins can form air pathways. Each fin can be substantially arced in shape, originating from a central region of the planar base and ending at an outside edge of the planar base.

A lighting module for a motor vehicle including: a support plate; at least one source of light which is arranged on a first face of the support plate; a heat dissipater which is arranged on a second face of the support plate, opposite the first face; a fan which is arranged between the heat dissipater and a plenum, the fan being designed to aspirate a flow of hot air which is dissipated by the heat dissipater, and is obtained from an incoming flow of air; a plenum which is designed to cover the fan, the plenum including a peripheral skirt which is designed to surround the heat dissipater; an optical assembly which cooperates with rays of light of the at least one source of light, in order to produce a light beam.

A light includes a housing having an upper portion and a lower portion. The lower portion defines a battery port. The light also includes a heat sink extending upward from the lower portion. The heat sink includes a body defining a central aperture that extends along a central axis, a plurality of light support surfaces arranged around a perimeter of the body, and a top support member attached to tops of the plurality of light support surfaces. The light further includes a first plurality of LEDs coupled to the plurality of light support surfaces to emit light in a 360 degree pattern, a second plurality of LEDs supported on a surface of the top support member that is perpendicular to the plurality of light support surfaces, and a battery pack received in the battery port to power the first plurality of LEDs and the second plurality of LEDs.

A light includes a housing having an upper portion and a lower portion. The lower portion defines a battery port. The light also includes a heat sink extending upward from the lower portion. The heat sink includes a body defining a central aperture that extends along a central axis, a plurality of light support surfaces arranged around a perimeter of the body, and a top support member attached to tops of the plurality of light support surfaces. The light further includes a first plurality of LEDs coupled to the plurality of light support surfaces to emit light in a 360 degree pattern, a second plurality of LEDs supported on a surface of the top support member that is perpendicular to the plurality of light support surfaces, and a battery pack received in the battery port to power the first plurality of LEDs and the second plurality of LEDs.

The invention proposes a solid-state light heat dissipation metal shell (1) and a light-source engine, a. using the shell as a heat sink and adopting a metal plate to process and shape; b. optimizing the wall thickness of the heat dissipation metal shell (1); c. the side wall (2) is made by the stretch of the metal plate from a rear shell (9) or/and a front shell (4), and provided with a ventilation window (3) with a louver type or staggered structure; d. a reflecting cup (26) is provided to solve the glare problem. The invention also proposes a production method and a mold thereof.

The invention proposes a solid-state light heat dissipation metal shell (1) and a light-source engine, a. using the shell as a heat sink and adopting a metal plate to process and shape; b. optimizing the wall thickness of the heat dissipation metal shell (1); c. the side wall (2) is made by the stretch of the metal plate from a rear shell (9) or/and a front shell (4), and provided with a ventilation window (3) with a louver type or staggered structure; d. a reflecting cup (26) is provided to solve the glare problem. The invention also proposes a production method and a mold thereof.

A lighting apparatus and system and method for controlled lighting are provided. In one embodiment, a lighting apparatus comprises a heat sink including a center passageway passing from a chimney inlet to a driver circuit housing, a plurality of internal heat sink fins within the center passageway, and a plurality of external heat sink fins adjacent the driver circuit housing. A flow channel is between each set of two adjacent heat sink fins of the plurality of heat sink fins to provide a plurality of internal inlet flow channels and a plurality of external outlet flow channels, with each flow channel aligned with one of a plurality of PCBs, each having an LED mounted thereon.