Luminaire with improved lateral illuminance control
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F21V-008/00
F25D-027/00
출원번호
US-0366711
(2006-03-02)
등록번호
US-7374313
(2008-05-20)
발명자
/ 주소
Cassarly,William J.
Davenport,Thomas L. R.
Davenport,John M.
Jenson,Chris H.
출원인 / 주소
Energy Focus, Inc.
Optical Research Associates
대리인 / 주소
Bruzga,Charles E.
인용정보
피인용 횟수 :
6인용 특허 :
29
초록▼
A luminaire with improved lateral illuminance control comprising a light pipe with a longitudinal center is disclosed. A light-extraction means applied to a radial swath of the light pipe has a longitudinal portion having dimension along its length, centered about a slice on the light pipe longitudi
A luminaire with improved lateral illuminance control comprising a light pipe with a longitudinal center is disclosed. A light-extraction means applied to a radial swath of the light pipe has a longitudinal portion having dimension along its length, centered about a slice on the light pipe longitudinally; said slice being orthogonal to the longitudinal center and located in a propagation plane through which light propagates to a virtual target area intersecting the propagation plane. The light pipe intervenes between the radial swath and the target area. A first average efficiency point of the light-extraction means corresponds to the minimum distance to the target area being at least approximately 20% less than a respective, second average efficiency point corresponding to a respective maximum distance to such area. The light-extraction means efficiency varies from the first average efficiency point to the second average efficiency point though more than one non-zero value.
대표청구항▼
What is claimed is: 1. A luminaire with improved lateral illuminance control, comprising: a) a light pipe with a longitudinal center; b) light-extraction means applied to a radial swath of the light pipe having a longitudinal portion with a dimension along the length of the light pipe that is cente
What is claimed is: 1. A luminaire with improved lateral illuminance control, comprising: a) a light pipe with a longitudinal center; b) light-extraction means applied to a radial swath of the light pipe having a longitudinal portion with a dimension along the length of the light pipe that is centered about a slice of the light pipe; said slice being orthogonal to the longitudinal center, and being located in a propagation plane through which light propagates to a virtual target area that intersects the propagation plane; the light pipe intervening between the radial swath and the target area; c) a first average efficiency point of the light-extraction means in the radial swath corresponding to the minimum distance to the target area being at least approximately a predetermined percentage less than a respective, second average efficiency point of the light-extraction means in the radial swath corresponding to a respective maximum distance to the target area; the predetermined percentage being 20%; and d) the efficiency of the light-extraction means in the radial swath vanes from the first average efficiency point to the second average efficiency point though more than one non-zero value. 2. The luminaire of claim 1, wherein the predetermined percentage is 50%. 3. The luminaire of claim 1, wherein the predetermined percentage is 85%. 4. The luminaire of claim 1, wherein the minimum distance from the longitudinal center to the target area is less than the length of the light pipe extraction means. 5. The luminaire of claim 1, wherein the shape of the light pipe creates a blurred image of the extractor pattern. 6. The luminaire of claim 5, wherein the light pipe shape is round or elliptical. 7. The luminaire of claim 1, wherein the efficiency of the light-extraction means also varies along the length of the light pipe. 8. The luminaire of claim 1, wherein the efficiency of the light-extraction means in the radial swath varies from the first average efficiency point to the respective, second average efficiency point in a smooth manner, lacking discontinuities. 9. The luminaire of claim 7, wherein the efficiency of the light-extraction means in the radial swath varies from the first average efficiency point to the respective, second average efficiency point monotonically. 10. The luminaire of claim 1, wherein the efficiency of the light-extraction means in the radial swath varies from the first average efficiency point to the second average efficiency point in a stepwise manner. 11. The luminaire of claim 10, wherein the efficiency of the light-extraction means in the radial swath varies from the first average efficiency point to the respective, second average efficiency point monotonically. 12. The luminaire of claim 1, wherein the at least 90 percent of the intersecting region of the target area and the propagation plane lies on one side of a point of said region corresponding to said minimum distance. 13. The luminaire of claim 1, wherein the intersecting region of the target area and the propagation plane is divided, to within 15 percent of the dimension of said intersecting region, on each side of a point of said region corresponding to said minimum distance. 14. The luminaire of claim 1, wherein, along the length of the light pipe, the light-extraction means is disposed alternately, first, in a respective portion on a first radial side of the light-extraction means, and then, in a respective portion on a second radial side of the light-extraction means. 15. The luminaire of claim 14, wherein, along the length of the light pipe, proximally adjacent portions of the light-extraction means do not radially overlap each other. 16. The luminaire of claim 14, wherein, along the length of the light pipe, proximally adjacent portions of the light-extraction means radially overlap each other. 17. The luminaire of claim 1, wherein the efficiency of the light-extraction means varies along the radial swath in such manner as to result in substantially uniform illuminance along a corresponding lateral distribution of light reaching the target area. 18. The luminaire of claim 1, wherein the efficiency of the light extraction means at an angle θ in the radial swath corresponding to the angular difference, in the propagation plane, between the shortest path of light propagation to the target area and a desired path of light propagation to the target area second average efficiency point with respect to said longitudinal center is given by: wherein: a) K is a constant; b) θmax is the angular difference, in the propagation plane, between the shortest path of light propagation to the target area and the longest path of light propagation to the target area; c) θoversize is the angular difference, in the propagation plane, between the longest path of light propagation to the target area, and the longest path of light propagation to an overshoot region bordering the target area; d) f(θ) is a balancing factor. 19. The luminaire of claim 18, wherein f(θ) is a swath of constant efficiency. 20. The luminaire of claim 18, wherein f(θ) is zero. 21. The luminaire of claim 18, wherein the average value of f(θ) is less than the average value of 22. The luminaire of claim 18, wherein N vanes between the range of 1 and 4. 23. The luminaire of claim 22, wherein N is approximately 3. 24. The luminaire of claim 18, wherein θoversize is between 0 and 30 degrees. 25. The luminaire of claim 24, wherein θoversize is between approximately 10 and 15 degrees. 26. The luminaire of claim 18, wherein the efficiency of the light-extraction means also varies along the length of the light pipe. 27. The luminaire of claim 1, wherein the light-extraction means is adjustable to accommodate the angular distributions of light from each one of the light sources of a metal halide lamp, an LED lamp or a halogen lamp, one at a time. 28. The luminaire of claim 1, wherein the light-extraction means is adjustable to accommodate the angular distribution of light from a high illuminance light source with luminance greater than 100,000 Nit. 29. The luminaire of claim 28, wherein the light-extraction means is adjustable to accommodate the angular distribution of light from a high illuminance light source with luminance greater than 1,000,000 Nit. 30. The luminaire of claim 1, wherein the light-extraction means is adjustable to accommodate the angular distributions of light from an array of LED lamps having different colors. 31. The luminaire of claim 1, wherein the luminaire is placed inside of a freezer case and the source is placed outside of the freezer case. 32. A plurality of luminaires for collectively illuminating a common, virtual target area with improved lateral illuminance control, each luminaire comprising a light pipe having: a) light-extraction means applied to a radial swath of the light pipe having a dimension along the length of the light pipe that is centered about a slice of the light pipe; said slice being orthogonal to the longitudinal center, and being located in a propagation plane through which light propagates to the virtual target area which intersects the propagation plane; the light pipe intervening between the radial swath and the target area; b) a first average efficiency point of the light-extraction means in the radial swath corresponding to the minimum distance to the target area being at least approximately a predetermined percentage less than a respective, second average efficiency point of the light-extraction means in the radial swath corresponding to a respective maximum distance to the target area; the predetermined percentage being 20%; and c) the efficiency of the light-extraction means in the radial swath varies from the first average efficiency point to the second average efficiency point though more than one non-zero value. 33. The luminaire of claim 32, wherein the predetermined percentage is 50%. 34. The luminaire of claim 32, wherein the predetermined percentage is 85%. 35. The arrangement of claim 32, wherein the plurality of luminaires consists of two luminaires. 36. The arrangement of claim 35, wherein the two luminaires are generally parallel to each other. 37. The luminaire of claim 32, wherein, for each light pipe: a) the angular difference, in the propagation plane, between the shortest path of light propagation to the target area and the longest path of light propagation to the target area exceeds a coverage angle of 30 degrees; and b) the efficiency of the light-extraction means varies along the radial swath in such manner as to result in substantially uniform illuminance along a corresponding swath of light reaching the target area. 38. The luminaire of claim 37, wherein the coverage angle is between 40 and 100 degrees. 39. The luminaire of 27, wherein the minimum distance from the longitudinal center of each light pipe to the target area is between about 10 cm and 30.5 cm. 40. The luminaire of claim 27, wherein the minimum distance from the longitudinal center of each light pipe to the target area is between about 10 cm and 14 cm. 41. The luminaire of 27, wherein the minimum distance from the longitudinal center of each light pipe to the target area is less than the length of the light pipe extraction means. 42. A luminaire, with improved lateral illuminance control, comprising: a) a light pipe with a longitudinal center; b) a plurality of separate light-extraction swath patterns for respectively illuminating different target areas; at least one swath pattern comprising: i) light-extraction means applied to a radial swath of the light pipe having a dimension along the length of the light pipe that is centered about a slice of the light pipe; said slice being orthogonal to the longitudinal center, and being located in a propagation plane through which light propagates to a virtual target area that intersects the propagation plane; the light pipe intervening between the radial swath and the target area; ii) a first average efficiency point of the light-extraction means in the radial swath corresponding to the minimum distance to the target area being at least approximately a predetermined percentage less than a respective, second average efficiency point of the light-extraction means in the radial swath corresponding to a respective maximum distance to the target area; the predetermined percentage being 20%; and iii) the efficiency of the light-extraction means in the radial swath varies from the first average efficiency point to the second average efficiency point though more than one non-zero value. 43. The luminaire of claim 42, wherein the predetermined percentage is 50%. 44. The luminaire of claim 42, wherein the predetermined percentage is 85%. 45. The luminaire of claim 42, where the light pipe contains only two swath patterns.
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