A lighting assembly includes a number of LEDs and a lens disposed over each one of the LEDs, the lenses configured to direct light from that LED toward a predetermined area, such that the light intensity from each lens is substantially uniform across the entire predetermined area.
대표청구항▼
1. A method of illuminating an area using an apparatus comprising a light assembly that includes a plurality of light emitting diodes (LEDs) and a plurality of optical elements, each optical element associated with one of the plurality of LEDs and each LED is associated with one of the optical eleme
1. A method of illuminating an area using an apparatus comprising a light assembly that includes a plurality of light emitting diodes (LEDs) and a plurality of optical elements, each optical element associated with one of the plurality of LEDs and each LED is associated with one of the optical elements, the method comprising: directing light from the plurality of LEDs toward the area, wherein directing the light comprises directing the light from each LED of the plurality of LEDs through the associated optical element such that light exiting from each optical element of the plurality of optical elements is directed across all of the area; andwherein each optical element of the plurality of optical elements includes a first element comprising a first convex-shaped surface,a second element comprising a second convex-shaped surface that intersects with the first convex-shaped surface at an acute angle in a region between the first element and the second element, wherein the light from the associated LED exits the associated optical element through the first and the second convex-shaped surfaces, anda third element extending beyond the first convex-shaped element and the second convex-shaped element in a direction away from the associated LED. 2. The method of claim 1, wherein directing the light from the plurality of LEDs further comprises providing a substantially uniform light intensity from each optical element of the plurality of optical elements across all of the area. 3. The method of claim 1, wherein after directing the light from the plurality of LEDs some of the plurality of LEDs fail to operate, the method further comprising directing light from remaining ones of the plurality of LEDs toward the area such that the light from each remaining LED is directed across all of the area. 4. The method of claim 1, wherein the plurality LEDs are arranged in a plurality of rows within a plane, the rows extending along a longitudinal axis of the plane; wherein the plurality of LEDs are thermally coupled to a heat sink that comprises a first section substantially parallel to the plane in which the LEDs are located and a plurality of fins extending away from the first section and substantially perpendicular thereto, a longitudinal axis of each fin being substantially perpendicular to the longitudinal axis of the plane; andwherein the method further comprises extracting heat generated while directing the light towards the area, the heat being extracted from the plurality LEDs using the heat sink. 5. The method of claim 4, wherein the optical elements are configured so that failure of one or more LEDs of the lighting assembly will cause the illumination level of light impinging the area to decrease while the uniformity of light impinging the area remains substantially the same. 6. The method of claim 1, wherein the apparatus further comprises a billboard comprising a billboard display surface that includes the area, wherein directing the light from the plurality of LEDs comprises illuminating the billboard display surface. 7. The method of claim 6, wherein directing the light from the plurality of LEDs comprises illuminating the billboard display surface between outer edges of the billboard display surface, the area comprising substantially all of the billboard display surface between the outer edges. 8. The method of claim 6, wherein: the billboard display surface is 48 feet wide between outer edges of the billboard display surface;the apparatus further comprises a second light assembly, wherein directing the light from the plurality of LEDs comprises illuminating a first portion of the billboard display surface;the method further comprises directing light from the second light assembly to illuminate a second portion of the billboard surface; andthe area comprises substantially all of the billboard display surface so that the light assembly and the second light assembly illuminate substantially all of the billboard display surface between the outer edges of the billboard display surface. 9. The method of claim 1, wherein directing the light from the plurality of LEDs toward the area further comprises spacing each LED of the plurality of LEDs from adjacent LEDs of the plurality of LEDs so that overlapping light from the adjacent LEDs does not create interference patterns or result in dead spots on the area of a display surface being illuminated. 10. The method of claim 9, wherein areas beyond edges of the display surface receive no illumination at all. 11. The method of claim 9, wherein areas beyond edges of the display surface receive a minimal amount of illumination from the plurality of LEDs. 12. A method of illuminating an area, the method comprising: directing light towards the area of the display surface area using an apparatus, the apparatus comprising a light assembly that includes a plurality of light emitting diodes (LEDs) and a plurality of optical elements, each optical element associated with one of the plurality of LEDs and each LED is associated with one of the optical elements, wherein directing the light comprises directing the light from each LED of the plurality of LEDs through the associated optical element such that light exiting from each optical element of the plurality of optical elements is directed across all of the area;wherein each optical element of the plurality of optical elements comprises a first side, a second side opposite the first side, and a third side perpendicular to the first side and the second side,a first element disposed at the first side,a second element disposed at the second side, anda third element disposed at the third side,wherein the third element extends beyond the first element and the second element in a direction away from the associated LED of the plurality of LEDs,wherein, in the direction away from the associated LED, the first element includes a first convex outer surface and the second element includes a second convex outer surface different than the first outer convex surface, andwherein the first convex outer surface has a first peak at a first distance from a point on the associated LED and the second convex outer surface has a second peak spaced from the first peak, the second peak being at a second distance from the point on the associated LED; andwherein the first convex outer surface and the second convex outer surface connect at a connection region that is at a third distance from the point on the associated LED, wherein the third distance is shorter than the first distance as well as the second distance. 13. The method of claim 12, wherein directing the light from the plurality of LEDs comprises illuminating the billboard display surface between outer edges of the billboard display surface, the area comprising substantially all of the billboard display surface between the outer edges. 14. The method of claim 12, wherein: the billboard display surface is 48 feet wide between outer edges of the billboard display surface;the apparatus further comprises a second light assembly, wherein directing the light from the plurality of LEDs comprises illuminating a first portion of the billboard display surface;the method further comprises directing light from the second light assembly to illuminate a second portion of the billboard surface; andthe area comprises substantially all of the billboard display surface so that the light assembly and the second light assembly illuminate substantially all of the billboard display surface between the outer edges of the billboard display surface. 15. The method of claim 12, wherein directing the light from the plurality of LEDs further comprises providing a substantially uniform light intensity from each optical element of the plurality of optical elements across all of the area. 16. The method of claim 12, wherein after directing the light from the plurality of LEDs some of the plurality of LEDs fail to operate, the method further comprising directing light from remaining ones of the plurality of LEDs toward the area such that the light from each remaining LED is directed across all of the area. 17. The method of claim 12, wherein the plurality LEDs are arranged in a plurality of rows within a plane, the rows extending along a longitudinal axis of the plane; wherein the plurality of LEDs are thermally coupled to a heat sink that comprises a first section substantially parallel to the plane in which the LEDs are located and a plurality of fins extending away from the first section and substantially perpendicular thereto, a longitudinal axis of each fin being substantially perpendicular to the longitudinal axis of the plane; andwherein the method further comprises extracting heat generated while directing the light towards the area of the display surface, the heat being extracted from the plurality LEDs using the heat sink. 18. The method of claim 17, wherein the optical elements are configured so that failure of one or more LEDs of the lighting assembly will cause the illumination level of light impinging the area of the display surface to decrease while the uniformity of light impinging the area of the display surface remains substantially the same. 19. The method of claim 12, wherein directing the light from the plurality of LEDs toward the area further comprises spacing each LED of the plurality of LEDs from adjacent LEDs of the plurality of LEDs so that overlapping light from the adjacent LEDs does not create interference patterns or result in dead spots on the area of a display surface being illuminated. 20. The method of claim 19, wherein areas beyond edges of the display surface receive no illumination at all. 21. The method of claim 19, wherein areas beyond edges of the display surface receive a minimal amount of illumination from the plurality of LEDs. 22. A method of illuminating a display surface of a billboard, the method comprising: directing light towards the display surface of a billboard using an apparatus that comprises a light assembly that includes a substantially planar circuit board, a heat sink, a plurality of light emitting diodes (LEDs), and a plurality of optical elements, each optical element associated with one of the plurality of LEDs and each LED is associated with one of the optical elements and each LED overlying the heat sink and separated therefrom by the circuit board; andextracting heat generated while directing the light towards the display surface, the heat being extracted from the plurality LEDs using the heat sink;wherein directing the light comprises directing the light from the light assembly such that light exiting from the light assembly is directed across an area of the display surface;wherein the plurality of LEDs are arranged in a plurality of rows on a first surface of the circuit board, the rows extending along a longitudinal axis of the circuit board;wherein the heat sink is thermally coupled to a second surface of the circuit board, the second surface opposite the first surface, the heat sink comprising a first section substantially parallel to second surface of the circuit board and a plurality of fins extending away from the first section and substantially perpendicular thereto, a longitudinal axis of each fin being substantially perpendicular to the longitudinal axis of the circuit board; andwherein each optical element of the plurality of optical elements comprises a first side, a second side opposite the first side, and a third side perpendicular to the first side and the second side,a first element disposed at the first side,a second element disposed at the second side, anda third element disposed at the third side,wherein the third element extends beyond the first element and the second element in a direction away from the associated LED of the plurality of LEDs,wherein, in the direction away from the associated LED, the first element includes a first convex outer surface and the second element includes a second convex outer surface different than the first outer convex surface, andwherein the first convex outer surface has a first peak at a first distance from a point on the associated LED and the second convex outer surface has a second peak spaced from the first peak, the second peak being at a second distance from the point on the associated LED; andwherein the first convex outer surface and the second convex outer surface connect at a connection region that is at a third distance from the point on the associated LED, wherein the third distance is shorter than the first distance as well as the second distance. 23. The method of claim 22, wherein directing the light from the plurality of LEDs comprises illuminating the billboard display surface between outer edges of the billboard display surface, the area comprising substantially all of the billboard display surface between the outer edges. 24. The method of claim 22, wherein: the billboard display surface is 48 feet wide between outer edges of the billboard display surface;the apparatus further comprises a second light assembly, wherein directing the light from the plurality of LEDs comprises illuminating a first portion of the billboard display surface;the method further comprises directing light from the second light assembly to illuminate a second portion of the billboard surface; andthe area comprises substantially all of the billboard display surface so that the light assembly and the second light assembly illuminate substantially all of the billboard display surface between the outer edges of the billboard display surface. 25. The method of claim 22, wherein directing the light from the plurality of LEDs further comprises providing a substantially uniform light intensity from each optical element of the plurality of optical elements across all of the area. 26. The method of claim 22, wherein after directing the light from the plurality of LEDs some of the plurality of LEDs fail to operate, the method further comprising directing light from remaining ones of the plurality of LEDs toward the area such that the light from each remaining LED is directed across all of the area. 27. The method of claim 22, wherein the optical elements are configured so that failure of one or more LEDs of the lighting assembly will cause the illumination level of light impinging the area of the display surface to decrease while the uniformity of light impinging the area of the display surface remains substantially the same. 28. The method of claim 22, wherein directing the light from the plurality of LEDs toward the area further comprises spacing each LED of the plurality of LEDs from adjacent LEDs of the plurality of LEDs so that overlapping light from the adjacent LEDs does not create interference patterns or result in dead spots on the area of a display surface being illuminated. 29. The method of claim 28, wherein areas beyond edges of the display surface receive no illumination at all. 30. The method of claim 28, wherein areas beyond edges of the display surface receive a minimal amount of illumination from the plurality of LEDs.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (96)
Bartilson Bradley W. (Chippewa Falls WI), Air jet impingement on miniature pin-fin heat sinks for cooling electronic components.
Bohler, Christopher L.; Pollard, Anthony D.; Burkholder, Greg E.; Petroski, James T.; Sommers, Mathew L.; Karlicek, Jr., Robert F.; Weaver, Jr., Stanton E.; Becker, Charles A., High power LED power pack for spot module illumination.
Kristoffersen, Martin; Biernath, Rolf W.; Corrigan, Thomas R.; Freier, David G.; Johnston, Raymond P.; Meis, Michael A.; Meyer, Kenneth A. P.; Savvateev, Vadim N.; Tolbert, William A.; Tuma, Phillip E., Lighting assemblies and systems.
Koo, Won Hoe; Yoon, Sang Ho; Kim, Hyun Jung; Lee, Ki Un; Kim, Hyung Jin; Min, Kyeong Ik, Optical lens, LED module having the optical lens, and lighting apparatus having the LED module.
Ng, Fook Chin; Pang, Siew It; Poh, Ju Chin; Yoganandan, Sundar A. L. N.; Chew, Tong Fatt; Mok, Thye Linn, System and method for light source with discontinuity-containing diffusant.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.