IPC分类号:
F21S8/08 | F21V5/00 | F21V5/04 | F21V7/00 | F21W131/103 | F21Y115/10
国民经济行业分类号:
C4350 | C3545 | C3871 | C3976
当前申请(专利权)人:
SIGNIFY HOLDING B.V.
原始申请(专利权)人:
SIGNIFY HOLDING B.V.
当前申请(专利权)人地址:
High Tech Campus 48, AE Eindhoven, NL
发明人:
ANSEMS, JOHANNES, PETRUS, MARIA | VISSENBERG, MICHEL, CORNELIS, JOSEPHUS, MARIE | VDOVIN, OLEXANDR, VALENTYNOVYCH | BUKKEMS, PETER, JOHANNES, MARTINUS
代理机构:
VERWEIJ, PETRONELLA DANIËLLE
摘要:
A light emitting device (1) comprising at least one light source (2) adapted for, in operation, emitting light (7, 9), at least one free-shape refractive lens element (3) configured to aim light (7) emitted by the at least one light source (2) in a first direction towards a surface (22) to be illuminated by the light emitting device (1), the lens element (3) comprising a first end (11) adapted for facing in a direction towards the surface (22) and a second end (20) adapted for facing in a direction away from the surface (22), at least one first TIR element (4), the first TIR element (4) being a collimating TIR element configured to collimate and redirect light (9) emitted from the at least one light source (2) in a second direction away from the surface (22) into light (9') propagating parallel and in a downward direction, the first TIR element (4) comprising a light incoupling surface (19) and a light outcoupling surface (13), the light incoupling surface (19) being arranged at the second end (20) of the lens element (3), and at least one second TIR element (5) configured to redirect light (9') redirected by the first TIR element (4) into light (9'') propagating in a direction towards the surface (22) and comprising an intensity distribution with two intensity peaks at wide angles that are aligned with the intensity peaks of light (7') aimed by the lens element (3), the at least one second TIR element (5) being arranged at the light outcoupling surface (13) of the first TIR element (4).
技术功效语段:
[0009]It is an object of the present invention to overcome this problem, and to provide a light emitting device for street lighting purposes with which light losses are lowered and the efficiency increased, and which also enables controlling redirected light to the high degree needed to produce the desired peaked intensity distribution.
权利要求:
1. A light emitting device (1) comprising: at least one light source (2) adapted for, in operation, emitting light (7, 9), at least one free-shape refractive lens element (3) configured to aim light (7) emitted by the at least one light source in a first direction towards a surface (22) to be illuminated by the light emitting device, the free-shape refractive lens element (3) comprising a first end (11) adapted for facing in a direction towards the surface to be illuminated and a second end (20) adapted for facing in a direction away from the surface to be illuminated, at least one first TIR element (4), the first TIR element being a collimating TIR element configured to collimate and redirect light (9) emitted from the at least one light source in a second direction away from the surface to be illuminated into light (9') propagating parallel and in a downward direction, the first TIR element (4) comprising a light incoupling surface (19) and a light outcoupling surface (13), the light incoupling surface (19) of the first TIR element being arranged at the second end (20) of the free-shape refractive lens element, and at least one second TIR element (5) configured to redirect light (9') collimated and redirected by the first TIR element into light (9") propagating in a direction towards the surface to be illuminated and comprising an intensity distribution with two intensity peaks at wide angles that are aligned with the intensity peaks of light (7') aimed by the free-shape refractive lens element, the at least one second TIR element (5) being arranged at the light outcoupling surface (13) of the first TIR element (4), the light outcoupling surface (13) indicating the position where the first TIR element is ending and the second TIR element is beginning.
2. A light emitting device according to claim 1, wherein the at least one second TIR element (5) is an asymmetric element or a tilted prism-shaped element or an element being mirror symmetric in a vertical plane perpendicular to the surface to be illuminated, and asymmetric in an orthogonal direction across the surface to be illuminated.
3. A light emitting device according to any one of the above claims, wherein the at least one second TIR element (5) comprises a plurality of light outcoupling elements (14), the light outcoupling elements comprising a shape being prism-shaped, cone-shaped or a combination of prism-shaped and cone-shaped.
4. A light emitting device according to any one of the above claims, wherein the at least one second TIR element (5) comprises a plurality of light outcoupling elements (14), the light outcoupling elements comprising a cross-sectional shape being any one of triangular, asymmetric triangular and isosceles triangular, or the light outcoupling elements comprising a curvature or a spline shape.
5. A light emitting device according to any one of the above claims, wherein the at least one second TIR element (5) is provided with a surface texture, a surface coating or an anti-reflection coating (25).
6. A light emitting device according to any one of the above claims, wherein the at least one free-shape refractive lens element (3), the at least one first TIR element (4) and the at least one second TIR element (5) are provided in one piece.
7. A light emitting device according to any one of the above claims, wherein the at least one free-shape refractive lens element (3), the at least one first TIR element (4) and the at least one second TIR element (5) are injection molded or cast or molded or 3D printed or compression molded or embossed.
8. A light emitting device according to any one of the above claims and comprising an array of light sources (2) and associated with each light source of the array of light sources a free-shape refractive lens element (3), a first TIR element (4) and a second TIR element (5).
9. A light emitting device according to claim 8 and comprising a lens plate (101) comprising an array of units, each unit comprising a free-shape refractive lens element (3), a first TIR element (4) and a second TIR element (5).
10. A light emitting device according to claim 9, wherein the lens plate (101) is provided in one piece.
11. A luminaire comprising a light emitting device (1) according to any one of the above claims.
12. A luminaire according to claim 11, and further comprising a pole (26), wherein the parallel, downward direction is parallel to a longitudinal extension of the pole, within an angle of 5 degrees with the longitudinal extension of the pole, or within an angle of 30 degrees with the longitudinal extension of the pole.
13. A luminaire according to claim 11, and further comprising a suspension arrangement (27, 28), wherein the parallel, downward direction is parallel to the vertical within an angle of 5 degrees with the vertical, or within an angle of 30 degrees with the vertical.
14. A luminaire according to any one of claims 11 to 13, the luminaire being an industry luminaire, a tunnel luminaire, a road lighting luminaire, a wall washing luminaire or a street lighting luminaire.