Forty-eight by fourteen foot outdoor billboard to be illuminated using only two lighting assemblies
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F21S-004/00
F21V-021/00
G09F-013/22
G09F-013/02
출원번호
US-0992680
(2016-01-11)
등록번호
US-9349307
(2016-05-24)
발명자
/ 주소
Auyeung, David Siucheong
Hall, William Y.
Magarill, Simon
출원인 / 주소
Ultravision Technlologies, LLC
대리인 / 주소
Slater Matsil, LLP
인용정보
피인용 횟수 :
1인용 특허 :
96
초록▼
A forty-eight foot wide outdoor billboard can be illuminated at night using only two lighting assemblies. First and second areas of a display surface of the billboard are simultaneously illuminated by emitting light from a number of LEDs mounted in a common plane and redirecting the light toward the
A forty-eight foot wide outdoor billboard can be illuminated at night using only two lighting assemblies. First and second areas of a display surface of the billboard are simultaneously illuminated by emitting light from a number of LEDs mounted in a common plane and redirecting the light toward the display surface using a plurality of optical elements. Each optical element is disposed over only one associated LED and includes a first portion, a second portion and a third portion arranged to direct the light toward the first area of the display surface so that visual media content of the display surface is visible without any additional light.
대표청구항▼
1. A billboard comprising: a support structure;a display surface mounted on the support structure, the display surface having visual media content displayed thereon, the visual media content comprising a picture and/or text, wherein the display surface has a width of forty-eight feet along an upper
1. A billboard comprising: a support structure;a display surface mounted on the support structure, the display surface having visual media content displayed thereon, the visual media content comprising a picture and/or text, wherein the display surface has a width of forty-eight feet along an upper edge and a lower edge of the display surface and a height of fourteen feet along a left side edge and a right side edge of the display surface, the display surface comprising a first portion extending from the lower edge to the upper edge adjacent the left side edge and a second portion extending from the lower edge to the upper edge adjacent the right side edge, the first and second portions together extending from the left side edge to the right side edge;a walkway attached to the support structure adjacent the lower edge of the display surface, wherein an uppermost surface of the walkway is vertically spaced at a distance lower than the lower edge of the display surface;a first lighting assembly that includes a first plurality of light emitting diodes (LEDs) and a first plurality of optical elements, the first plurality of LEDs being thermally coupled to a first heat sink, wherein the LEDs of the first plurality of LEDs are arranged in a plurality of rows, each row including a plurality of LEDs mounted so that all of the LEDs of the first lighting assembly are arranged in a common orientation, and wherein each optical element of the first plurality of optical elements is disposed over only one associated LED, the optical elements each including a first portion, a second portion and a third portion arranged to direct the light across the first portion of the display surface, wherein the first lighting assembly is attached to the walkway and all of the LEDs of the first lighting assembly are mounted in a single assembly; anda second lighting assembly that includes a second plurality of LEDs and a second plurality of optical elements, the second plurality of LEDs being thermally coupled to a second heat sink, wherein the LEDs of the second plurality of LEDs are arranged in a plurality of rows, each row including a plurality of LEDs mounted so that all of the LEDs of the second lighting assembly are arranged in a common orientation, and wherein each optical element of the second plurality of optical elements is disposed over only one associated LED, the optical elements each including a first portion, a second portion and a third portion arranged to direct the light across the second portion of the display surface, wherein the second lighting assembly is attached to the walkway at a location laterally spaced from the first lighting assembly and all of the LEDs of the second lighting assembly are mounted in a single assembly, wherein the display surface can be illuminated using only the first lighting assembly and the second lighting assembly so that the visual media content can be viewed without additional light. 2. The billboard of claim 1, wherein all of the display surface can be illuminated using only the first lighting assembly and the second lighting assembly such that an intensity of light directed across all of the display surface is provided with a uniformity that achieves a 3:1 ratio of average illumination to minimum illumination. 3. The billboard of claim 2, wherein the first lighting assembly comprises an optics panel that comprises the first plurality of LEDs and the first plurality of optical elements, wherein the first lighting assembly is configured to direct light from each LED across the display surface with a uniformity that achieves, for each LED, a 3:1 ratio of average illumination to minimum illumination; and wherein the second lighting assembly comprises an optics panel that comprises the second plurality of LEDs and the second plurality of optical elements, wherein the second lighting assembly is configured to direct light from each LED across the display surface with a uniformity that achieves, for each LED, a 3:1 ratio of average illumination to minimum illumination. 4. The billboard of claim 1, wherein the LEDs and the optical elements of the first lighting assembly are arranged in groups on a first plurality of circuit boards, each circuit board including two rows of LEDs and optical elements of the first lighting assembly; and wherein the LEDs and the optical elements of the second lighting assembly are arranged in groups on a second plurality of circuit boards, each circuit board including two rows of LEDs and optical elements of the second lighting assembly. 5. The billboard of claim 4, wherein the first lighting assembly includes two circuit boards arranged in a first row that extends in a direction parallel to the lower edge of the display surface, and wherein the second lighting assembly includes two circuit boards arranged in a second row that extends in the direction parallel to the lower edge of the display surface. 6. The billboard of claim 5, wherein the first lighting assembly further includes two additional circuit boards arranged in a third row parallel to the two circuit boards arranged in the first row, and wherein the second lighting assembly further includes two additional circuit boards arranged in a fourth row parallel to the two circuit boards arranged in the second row. 7. The billboard of claim 4, wherein the first lighting assembly includes three circuit boards arranged in a first row that extends in a direction parallel to the lower edge of the display surface, and wherein the second lighting assembly includes three circuit boards arranged in a second row that extends in the direction parallel to the lower edge of the display surface. 8. The billboard of claim 1, wherein each optical element of the plurality of optical elements of the first and the second lighting assemblies comprises a first side, a second side opposite the first side, and a third side perpendicular to the first side and the second side; wherein the first portion comprises a first element comprising a first convex-shaped surface disposed at the first side;wherein the second portion comprises a second element comprising a second convex-shaped surface disposed at the second side, wherein the second convex-shaped surface intersects with the first convex-shaped surface at an acute angle in a region between the first element and the second element, wherein light from an associated LED exits the optical element through the first and the second convex-shaped surfaces; andwherein the third portion comprises a 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. 9. The billboard of claim 1, wherein each optical element of the plurality of optical elements of the first and the second lighting assemblies comprises a first side, a second side opposite the first side, and a third side perpendicular to the first side and the second side; wherein the first portion of the optical element comprises a first element disposed at the first side;wherein the second portion of the optical element comprises a second element disposed at the second side;wherein the third portion of the optical element comprises a third element disposed at the third side; andwherein the third element extends beyond the first element and the second element in a direction away from an associated LED. 10. The billboard of claim 9, wherein the first element includes a first outer surface and a first inner surface facing the associated LED, and the second element includes a second outer surface and a second inner surface facing the associated LED; wherein the first inner surface is located at a first nearest distance from the associated LED and the second inner surface is located at a second nearest distance from the associated LED; andwherein a region between the first inner surface and the second inner surface is at a third nearest distance from the associated LED, wherein the third nearest distance is shorter than either the first nearest distance or the second nearest distance. 11. A billboard comprising: a support structure;a display surface mounted on the support structure, the display surface having visual media content displayed thereon, the visual media content comprising a picture and/or text, wherein the display surface has a width of forty-eight feet along an upper edge and a lower edge of the display surface and a height of fourteen feet along a left side edge and a right side edge of the display surface, the display surface comprising a first area extending from the lower edge to the upper edge adjacent the left side edge and a second area extending from the lower edge to the upper edge adjacent the right side edge, the first and second areas together extending from the left side edge to the right side edge;a first lighting assembly directed toward the display surface, wherein the first lighting assembly comprises: a first carrier;a first lighting unit secured to the first carrier, the first lighting unit comprising a single planar circuit board, a plurality of light emitting diodes (LEDs) attached to the single planar circuit board, and a plurality of optical elements, wherein each optical element is disposed over only one associated LED, wherein the first lighting unit is configured to direct light across the first area of the display surface;a second lighting unit secured to the first carrier, the second lighting unit comprising only a single planar circuit board, a plurality of LEDs attached to the single planar circuit board, and a plurality of optical elements, wherein each optical element is disposed over only one associated LED, wherein the second lighting unit is configured to direct light across the first area of the display surface; anda third lighting unit secured to the first carrier, the third lighting unit comprising only a single planar circuit board, a plurality of LEDs attached to the single planar circuit board, and a plurality of optical elements, wherein each optical element is disposed over only one associated LED, wherein the third lighting unit is configured to direct light across the first area of the display surface; anda second lighting assembly directed toward the display surface, wherein the second lighting assembly comprises: a second carrier;a fourth lighting unit secured to the second carrier, the fourth lighting unit comprising only a single planar circuit board, a plurality of LEDs attached to the single planar circuit board, and a plurality of optical elements, wherein each optical element is disposed over only one associated LED, wherein the fourth lighting unit is configured to direct light across the second area of the display surface;a fifth lighting unit secured to the second carrier, the fifth lighting unit comprising only a single planar circuit board, a plurality of LEDs attached to the single planar circuit board, and a plurality of optical elements, wherein each optical element is disposed over only one associated LED, wherein the fifth lighting unit is configured to direct light across the second area of the display surface; anda sixth lighting unit secured to the second carrier, the sixth lighting unit comprising only a single planar circuit board, a plurality of LEDs attached to the single planar circuit board, and a plurality of optical elements, wherein each optical element is disposed over only one associated LED, wherein the sixth lighting unit is configured to direct light across the second area of the display surface;wherein the display surface can be illuminated using only the first lighting assembly and the second lighting assembly so that the visual media content can be viewed without any light other than light from the first lighting assembly and the second lighting assembly. 12. The billboard of claim 11, wherein the first lighting assembly is configured to uniformly illuminate the first area of the display surface, and wherein the second lighting assembly is configured to uniformly illuminate the second area of the display surface. 13. The billboard of claim 12, wherein each and every LED of the first lighting assembly is configured to uniformly illuminate the first area of the display surface, and wherein each and every LED of the second lighting assembly is configured to uniformly illuminate the second area of the display surface. 14. The billboard of claim 12, wherein the first lighting assembly is configured such that the light from the first lighting assembly is directed across the first area with a uniformity that achieves a 3:1 ratio of average illumination to minimum illumination; and wherein the second lighting assembly is configured such that the light from the second lighting assembly is directed across the second area with a uniformity that achieves a 3:1 ratio of average illumination to minimum illumination. 15. The billboard of claim 11, wherein the optical elements of the first lighting assembly each include a first portion, a second portion and a third portion arranged to direct the light across the first area of the display surface; and wherein the optical elements of the second lighting assembly each include a first portion, a second portion and a third portion arranged to direct the light across the second area of the display surface. 16. The billboard of claim 15, wherein each optical element of the plurality of optical elements of the first and the second lighting assemblies 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 comprising a first convex-shaped surface disposed at the first side;a second element comprising a second convex-shaped surface disposed at the second side, wherein the second convex-shaped surface 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 optical element through the first and the second convex-shaped surfaces; 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. 17. The billboard of claim 15, wherein each optical element of the plurality of optical elements of the first and the second lighting assemblies 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;a 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;wherein the first element includes a first outer surface and a first inner surface facing the associated LED, and the second element includes a second outer surface and a second inner surface facing the associated LED;wherein the first inner surface is located at a first nearest distance from the associated LED and the second inner surface is located at a second nearest distance from the associated LED; andwherein the first inner surface and the second inner surface connect at a connection region that is at a third nearest distance from the associated LED, wherein the third nearest distance is shorter than either the first nearest distance or the second nearest distance. 18. The billboard of claim 11, wherein the first carrier is formed from a thermally conductive material, wherein a plurality of fins extend away from the first, the second and the third lighting units. 19. The billboard of claim 11, wherein the first lighting assembly further comprises: a seventh lighting unit secured to the first carrier;an eighth lighting unit secured to the first carrier; anda ninth lighting unit secured to the first carrier. 20. A billboard comprising: a support structure;a display surface mounted on the support structure, the display surface having a width of forty-eight feet along an upper edge and a lower edge of the display surface and a height of fourteen feet along a left side edge and a right side edge of the display surface, the display surface comprising a first portion extending from the lower edge to the upper edge adjacent the left side edge and a second portion extending from the lower edge to the upper edge adjacent the right side edge, the first and second portions together extending from the left side edge to the right side edge;a first lighting assembly including a first plurality of light emitting diodes (LEDs) arranged in a first row and a second row, the first lighting assembly also including a first plurality of optical elements arranged in the first row and the second row over the plurality of LEDs such that each optical element overlies only one associated LED, the optical elements each including a first portion, a second portion and a third portion arranged to direct light from the first plurality of LEDs across the first portion of the display surface; anda second lighting assembly including a second plurality of LEDs arranged in a first row and a second row, the second lighting assembly also including a second plurality of optical elements arranged in the first row and the second row over the second plurality of LEDs such that each optical element overlies only one associated LED, the optical elements each including a first portion, a second portion and a third portion arranged to direct light from the second plurality of LEDs across the second portion of the display surface;wherein the first lighting assembly is mounted at a first location, and wherein the second lighting assembly is mounted at a second location, wherein the first location is laterally spaced from the second location along the width of the display surface; andwherein the display surface of the billboard can be illuminated using only the first lighting assembly and the second lighting assembly so that visual media content on the display surface can be viewed without additional lighting. 21. The billboard of claim 20, wherein the first and the second lighting assemblies are configured to uniformly illuminate the entirety of the display surface such that a light intensity across the display surface is provided at a uniformity ratio of average illumination to minimum illumination, the uniformity ratio being 3:1. 22. The billboard of claim 20, wherein the optical elements of the first and the second lighting assemblies are arranged so that areas beyond edges of the display surface receive minimum illumination. 23. The billboard of claim 20, wherein each optical element of the plurality of optical elements of the first and the second lighting assemblies 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 comprising a first convex-shaped surface disposed at the first side;a second element comprising a second convex-shaped surface disposed at the second side, wherein the second convex-shaped surface 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 optical element through the first and the second convex-shaped surfaces; 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. 24. The billboard of claim 20, wherein each optical element of the plurality of optical elements of the first and the second lighting assemblies 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;a 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;wherein the first element includes a first outer surface and a first inner surface facing the associated LED, and the second element includes a second outer surface and a second inner surface facing the associated LED;wherein the first inner surface is located at a first nearest distance from the associated LED and the second inner surface is located at a second nearest distance from the associated LED; andwherein the first inner surface and the second inner surface connect at a connection region that is at a third nearest distance from the associated LED, wherein the third nearest distance is shorter than either the first nearest distance or the second nearest distance. 25. A method of illuminating a forty-eight by fourteen foot outdoor billboard using only two lighting assemblies, wherein the billboard comprises a display surface having visual media content displayed thereon, the visual media content comprising a picture and/or text, wherein the display surface has a width of forty-eight feet along an upper edge and a lower edge of the display surface and a height of fourteen feet along a left side edge and a right side edge of the display surface, the display surface comprising a first area extending from the lower edge to the upper edge near the left side edge and a second area extending from the lower edge to the upper edge near the right side edge, the first and second areas together extending from the left side edge to the right side edge, the method comprising: illuminating the first area of the display surface by emitting light from a first plurality of LEDs mounted in a common plane in a first assembly and redirecting the light across the first area using a first plurality of optical elements, each optical element being disposed over only one associated LED and including a first portion, a second portion and a third portion arranged to direct the light across the first area of the display surface so that the visual media content of the first area is visible without any additional light; andat the same time, illuminating the second area of the display surface by emitting light from a second plurality of LEDs mounted in a common plane in a second assembly and redirecting the light across the second area using a second plurality of optical elements, each optical element being disposed over only one associated LED and including a first portion, a second portion and a third portion arranged to direct the light across the second area of the display surface so that the visual media content of the second area is visible without any additional light. 26. The method of claim 25, wherein illuminating the first area and illuminating the second area comprises uniformly illuminating all of the display surface. 27. The method of claim 26, wherein illuminating all of the display surface comprises illuminating the entire display surface such that a light intensity across the display surface is provided at a uniformity ratio of average illumination to minimum illumination, the uniformity ratio being 3:1. 28. The method of claim 25, wherein illuminating the first area and illuminating the second area comprises illuminating the first area and illuminating the second area so that areas beyond edges of the display surface receive minimum illumination. 29. The method of claim 25, wherein each optical element of the plurality of optical elements of the first and the second assemblies 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 comprising a first convex-shaped surface disposed at the first side;a second element comprising a second convex-shaped surface disposed at the second side, wherein the second convex-shaped surface 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 optical element through the first and the second convex-shaped surfaces; 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. 30. The method of claim 25, wherein each optical element of the plurality of optical elements of the first and the second assemblies 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;a 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;wherein the first element includes a first outer surface and a first inner surface facing the associated LED, and the second element includes a second outer surface and a second inner surface facing the associated LED;wherein the first inner surface is located at a first nearest distance from the associated LED and the second inner surface is located at a second nearest distance from the associated LED; andwherein the first inner surface and the second inner surface connect at a connection region that is at a third nearest distance from the associated LED, wherein the third nearest distance is shorter than either the first nearest distance or the second nearest distance.
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