Patent application number | Description | Published |
20090073688 | Light Fixture with an Adjustable Optical Distribution - A light fixture includes a member having a substantially frusto-conical shape. A channel extends between a wide top end of the member and a narrower bottom end of the member. The member includes multiple surfaces (“facets”) disposed around its outer surface. Each facet is configured to receive one or more light emitting diodes (“LEDs”) in a linear or non-linear array. Each facet can be integral to the member or coupled to the member. The channel is configured to transfer heat generated by the LEDs through convection. Fins can be disposed within the channel, extending from the inner surface of the member to an inner channel. The fins are configured to transfer heat away from, and provide a greater surface area for convecting heat away from, the member. For example, one or both of the channels can transfer heat by a venturi effect. | 03-19-2009 |
20090073689 | Heat Management for a Light Fixture with an Adjustable Optical Distribution - A light fixture includes a member having a substantially frusto-conical shape. A channel extends between a wide top end of the member and a narrower bottom end of the member. The member includes multiple surfaces (“facets”) disposed around its outer surface. Each facet is configured to receive one or more light emitting diodes (“LEDs”) in a linear or non-linear array. Each facet can be integral to the member or coupled to the member. The channel is configured to transfer heat generated by the LEDs through convection. Fins can be disposed within the channel, extending from the inner surface of the member to an inner channel. The fins are configured to transfer heat away from, and provide a greater surface area for convecting heat away from, the member. For example, one or both of the channels can transfer heat by a venturi effect. | 03-19-2009 |
20090310361 | Luminaire with Integral Signage Endcaps - A luminaire with signage endcaps includes a luminaire housing and one or more light emitting elements. The housing typically includes a top member and multiple side members extending down from the top member. The top and side members define the interior of the luminaire housing. Light emitting elements are coupled to the housing. These light emitting elements generally emit light downward from the luminaire and can be coupled along the interior of the housing or positioned along an exterior side of one or more of the side members. A stencil or stencil plate can be positioned along or coupled to one or more others side members. The stencil and stencil plate include openings in the shape of alphanumeric symbols and/or ideograms and include within the openings or have positioned adjacent to the openings a translucent member. Ambient light within the interior of the housing illuminates the stencil and translucent member. | 12-17-2009 |
20100046226 | Light Fixture With An Adjustable Optical Distribution - A light fixture includes a member having a substantially frusto-conical shape. A channel extends between a wide top end of the member and a narrower bottom end of the member. The member includes multiple surfaces (“facets”) disposed around its outer surface. Each facet is configured to receive one or more light emitting diodes (“LEDs”) in a linear or non-linear array. Each facet can be integral to the member or coupled to the member. The channel is configured to transfer heat generated by the LEDs through convection. Fins can be disposed within the channel, extending from the inner surface of the member to an inner channel. The fins are configured to transfer heat away from, and provide a greater surface area for convecting heat away from, the member. For example, one or both of the channels can transfer heat by a venturi effect. | 02-25-2010 |
20100091495 | Modular Extruded Heat Sink - A modular heat sink includes one or more heat sink sections interconnected sequentially to each other to form a polar array. Each heat sink section includes a first connecting part and a second connecting part, where the first connecting part is configured to couple with the second connecting part of another heat sink section. Once assembled, the modular heat sink includes a channel formed substantially through the center of the modular heat sink. Each heat sink section is manufactured using an extrusion process. The assembled modular heat sink has one or more hollow portions within the overall shape that cannot be fabricated in a single extrusion process. One or more LEDs are coupled to the outer surface of the modular heat sink. The modular heat sink, with LEDs coupled thereto, is coupled to a wireway tube and mounted to a post-top light fixture to form an LED luminaire. | 04-15-2010 |
20140126205 | Systems, Methods, and Devices for Sealing LED Light Sources in a Light Module - A light module includes one or more LEDs coupled to a circuit board, a lens disposed over at least one LED, and an adhesive layer disposed between each LED and the lens. A flange extends from at least one side of the lens. The adhesive layer fixes the lens in an optical alignment over the corresponding LED. The adhesive layer includes at least one of a non-permeable layer with an adhesive material on the top and bottom surfaces, a gas-permeable layer with an adhesive material on the top and bottom surfaces, a deposited material, and an over mold material. An alignment tool including one or more optical recesses and one or more alignment features is used in the assembly of at least one of an optical assembly and a light module that includes the optical assembly. The alignment tool facilitates precise alignment of the lenses over the LEDs. | 05-08-2014 |
20140126243 | Edgelit Lighting Fixture and Assembly - Embodiments described herein are directed to a lighting fixture including a lightguide that distributes light from a major surface, a light assembly including light sources arranged linearly, and a frame including a means for providing a force that urges the light assembly against an edge of the lightguide. A standoff or spacer can provide an air gap between a light source of the light assembly and the waveguide edge. In various embodiments, the lighting fixture may incorporate a spring, a spring finger, a spring clip, a screw, or other means for securing the light assembly against the edge of the lightguide. In this manner, substantially all light provided by the light assembly is emitted into the edge of the lightguide. The fixture is formed to accommodate tolerances among elements of the lighting fixture, while maintaining the light assembly securely against the edge of the lightguide. | 05-08-2014 |
20150085504 | Systems and Methods for Improving Service Life of Circuit Boards - In one aspect, a circuit board includes a base board and a layer of an elastic material comprising a first surface and a second surface. The layer of elastic material is adhered to the base board via the first surface. The circuit board further includes an electrical trace disposed on the second surface of the layer of elastic material. At least a portion of the layer of elastic material stretches or shrinks when the base board expands or contracts. A method of manufacturing a circuit includes obtaining an aluminum board, obtaining a layer of an elastic material, and applying a layer of adhering material to a surface of the aluminum board. The method further includes disposing the layer of the elastic material onto the layer of adhering material, and adhering the layer of the elastic material onto the aluminum board via the layer of adhering material. | 03-26-2015 |