An LED illumination device for spotlighting includes: a lower case part having a plurality of planar inner side surfaces so that a light-emitting hole on the bottom surface thereof can be a polygonal shape; an upper case part, positioned above the lower case part, for receiving a power supply unit; substrates which are respectively coupled to the planar inner side surfaces of the lower case part and in which LEDs are mounted such that a light-emitting surface can be directed to the central part of the polygon; and a plurality of heat dissipation fins which are protrudingly positioned along the circumference of the lower case part, wherein the spaces between the heat dissipation fins communicate in the longitudinal direction of the lower case part. A case is manufactured as a single structure and components such as a power supply unit, LED-mounted substrates, reflective plates, etc. can be assembled within the case through the light-emitting hole.

Lighting fixtures are provided. In one example implementation, the lighting fixture can include a housing portion and one or more modular lighting components mechanically coupled to the housing portion. Each modular lighting component can include a lighting assembly (e.g., an LED lighting assembly) and a heat sink portion. The one or more modular lighting components can be selectively removable from the housing portion to configure the lighting fixture for a plurality of different lighting configurations.

An obstruction light is disclosed herein. The obstruction light can include a reflector having a first parabolic portion and a second parabolic portion. The obstruction light can also include a light assembly having at least one array of light sources disposed adjacent to the reflector between the first parabolic portion and the second parabolic portion.

The present disclosure is an improvement in bi-focus lenses. The disclosure relates to the use of multiple channels of LED/Lens combinations to achieve a smooth and continuous range of emitted beam angles of light in a wider range of beam angles than previously possible through only two channels of LED/Lens combinations. The resultant product will produce a continuous range of beam angles in a range exceeding 35 degrees from narrowest bean angle to widest beam angle. The lens channels selected are weighted so as to maximize the contribution of a single channel lens to the overall beam projection.

An LED spotlight includes a lens, a LED light source board and a star shaped or multiple star shaped lighting lined LED light source. The side of the lens is formed as reflective surface. The incident surface is the groove structure of toward away from the sunken of the LED light source. The incident surface includes the first incident portion, the second portion and the transition section between the first incident portion and the second portion. The LED spotlight through setting the incident surface, the exit surface and the reflective surface to become the light allocation structure. The function the light passes through the first incident portion, the second incident portion and the transition section may realize the range between twenty-five degrees and one hundred and twenty in negative degrees adjust. Therefore, the LED spotlight owns the advantage to realize the high efficiency orient light allocation.

An illuminating device includes: first lenses individually corresponding to LEDs; a light control member including light transmission channels individually corresponding to the first lenses and a light blocker surrounding the light transmission channels; and second lenses individually corresponding to the light transmission channels. Each first lens includes a light concentrator for producing concentrated light by concentrating light emitted from a corresponding LED, and a reflector surrounding the light concentrator to produce reflected light by reflecting light emitted from the corresponding LED in a direction across the concentrated light. Each first lens outputs illumination light including the concentrated light and the reflected light produced from the corresponding light emitting diode. Each light transmission channel transmits the illumination light output from a corresponding first lens. The light blocker prevents transmission of the illumination light emitted from each first lens. Each second lens refracts the illumination light transmitted by a corresponding light transmission channel.

A security light having optional connection to multiple power supplies. The lighting controller can sense the appropriate connected supply and automatically connect to three different power supplies which include house voltage connection through a typical junction box, a remote solar charging station, and on board batteries that can be used as a third backup power supply. Additional implementations include power outage detection and backup illumination along with low voltage power supply from a mounting structure.

A light includes a housing with a top face, a bottom face, a first side face, a second side face, and a surface arranged adjacent to the bottom face. The light also includes a head pivotally coupled to the housing, with a diffuser and a plurality of LEDs configured to emit light through the diffuser. The light also includes a power source configured to provide power to the plurality of LEDs. The top face, the bottom face, the first side face, the second side face, and the surface are each configured to support the light, and the surface is oriented at an oblique angle with respect to the bottom face.

The present disclosure sets forth a motion sensing outdoor security light with the flexibility of being mounted to either a wall structure or to an eave or ceiling structure. An adjustable spherical motion sensor housing may be provided with the rotationally adjustable outdoor security light, allowing easy adjustment of motion detection ranges under different mounting schemes without comprising the aesthetic design of the light. The adjustable spherical motion sensor housing may also provide an enlarged horizontal field of view for better performance.

A light includes a housing with a top face, a bottom face, a first side face, a second side face, and a surface arranged adjacent to the bottom face. The light also includes a head pivotally coupled to the housing, with a diffuser and a plurality of LEDs configured to emit light through the diffuser. The light also includes a power source configured to provide power to the plurality of LEDs. The top face, the bottom face, the first side face, the second side face, and the surface are each configured to support the light, and the surface is oriented at an oblique angle with respect to the bottom face.