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    • 5. 发明申请
    • A LIGHT EMITTING APPARATUS
    • 发光装置
    • WO2016139046A1
    • 2016-09-09
    • PCT/EP2016/052973
    • 2016-02-12
    • PHILIPS LIGHTING HOLDING B.V.
    • HIKMET, Rifat, Ata, MustafaJUTTE, Petrus, TheodorusVDOVIN, Olexandr, Valentynovych
    • F21K99/00F21V9/16G03B21/20F21S8/10
    • F21V9/30F21K9/61F21K9/62F21S41/125F21S41/14F21S41/16F21S41/24F21W2131/10F21W2131/406F21Y2115/10F21Y2115/30G02B27/0944G02B27/0955G02B27/0977G02B27/0994G02B27/425G03B21/204G03B21/2066G03B21/208
    • The present invention relates to a light emitting apparatus comprising, an element (104) arranged to convert light of a first wavelength (110) into light of a second wavelength (112), emit the light of the second wavelength (112), and to reflect light of the first wavelength (110), a reflector (106) arranged to reflect light of the first wavelength (110), and transmit light of the second wavelength (112), a light source (102) emitting light of the first wavelength (110) on the reflector (106) such that the refiected light of the first wavelength (110) is directed towards the element (104), a lens (108) arranged to focus light of the first wavelength (110) reflected by the reflector (106) onto the element (104), and to collect light emitted and refiected from the element (104), wherein the element (104) is arranged to emit light of the second wavelength (112) with an angular distribution (116) within a collection angle of the lens (108), wherein the element (104) is further arranged to reflect light of the first wavelength (110) with an angular distribution (118) substantially within the collection angle of the lens (108) and with an intensity distribution such that a portion (120) of the light of the first wavelength (110) that is reflected with an angular distribution outside a region (122) covered by the reflector (106) is larger than a portion (124) of the light of the first wavelength (110) that is reflected with an angular distribution within the region (122) covered by the reflector (106).
    • 本发明涉及一种发光装置,包括:将第一波长(110)的光转换成第二波长(112)的光的元件(104)发射第二波长(112)的光,并且 反射第一波长(110)的光,布置成反射第一波长(110)的光并且透射第二波长(112)的光的反射器(106),发射第一波长的光的光源(102) (110)上的反射器(110)的反射器(110)的反射器(110)的反射器(110)的反射器(110)的反射器 (106)到元件(104)上,并收集从元件(104)发射和反射的光,其中元件(104)被布置成以角度分布(116)内的角分布(116)发射第二波长(112)的光 所述透镜(108)的收集角度,其中所述元件(104)还被布置成 以基本上在透镜(108)的收集角度内的角度分布(118)反射具有第一波长(110)的光,并具有强度分布,使得第一波长(110)的光的一部分(120)表示 被反射器(106)覆盖的区域(122)外侧的角度分布反射的大于在区域(122)内以角度分布反射的第一波长(110)的光的部分(124) 被反射器(106)覆盖。
    • 7. 发明申请
    • HIGH RADIANCE LIGHT EMITTING DIODE LIGHT ENGINE
    • 高辐射发光二极管轻型发动机
    • WO2016089726A1
    • 2016-06-09
    • PCT/US2015/062904
    • 2015-11-30
    • INNOVATIONS IN OPTICS, INC.
    • BRUKILACCHIO, Thomas John
    • G02B6/00
    • G02B6/4212G02B6/04G02B6/29364G02B6/4206G02B6/4215G02B6/4272G02B6/4286G02B6/4292G02B6/4296G02B19/0066G02B21/0076G02B21/16G02B27/0994H05B33/0803
    • Described is a light emitting diode (LED) high radiance illumination system that includes at least one LED die and a tapered collection optic. An aperture in a reflective surface at the output end of the tapered collection optic recovers light is configured to emit light to an adjacent optical fiber bundle. The reflective surface surrounding the aperture reflects light back through the tapered collection optic, resulting in increased radiance. The system provides uniform high intensity in near and far fields and is suitable for applications including surgical and microscopy illumination with high color rendering index, and stable and adjustable intensity and correlated color rendering. Illumination can include one or more colors, including white light. The system has improved thermal and optical performance and is generally more compact and lower in cost relative to conventional systems.
    • 描述了包括至少一个LED管芯和锥形收集光学器件的发光二极管(LED)高辐射照明系统。 在锥形收集光学器件的出射端处的反射表面中的孔径恢复光被配置为向相邻的光纤束发射光。 围绕光圈的反射表面通过锥形收集光学器件反射光线,从而增加辐射度。 该系统在近场和远场均匀提供高强度,适用于具有高显色指数的手术和显微照明,以及稳定可调的强度和相关色彩的应用。 照明可以包括一种或多种颜色,包括白光。 该系统具有改善的热和光学性能,并且通常比常规系统更紧凑和成本更低。
    • 9. 发明申请
    • OPTICAL FILM STACK FOR LIGHT DUCT
    • 光导胶片胶片
    • WO2015168003A1
    • 2015-11-05
    • PCT/US2015/027758
    • 2015-04-27
    • 3M INNOVATIVE PROPERTIES COMPANY
    • GEISLER, Karl J. L.NIELSEN, Paul A.
    • F21S2/00F21V7/00
    • F21S11/007G02B5/0215G02B5/0231G02B5/0263G02B5/04G02B5/045G02B5/28G02B5/285G02B6/0035G02B6/0038G02B6/0076G02B6/0096G02B27/0994G02B27/143
    • A film stack reflects incident light in some areas and transmits incident light in other areas, and it redirects incident light with one or more structured surfaces. The spatially variable reflection and transmission is achieved at least in part with reflective strips, and the reflective strips are attached to a first major surface of a structured optical film in the film stack. A second major surface of the structured optical film, opposite the first major surface, attaches to a substrate. The reflective strips attach to the structured optical film by a first discontinuous adhesive layer, having first adhesive areas. The structured optical film attaches to the substrate by a second discontinuous adhesive layer, having second adhesive areas. A major portion of the first adhesive areas, and a major portion of the second adhesive areas, is circumscribed by the reflective strips. The film stack may be part of a light duct.
    • 薄膜叠层在一些区域反射入射光,并将入射光透射到其他区域,并将入射光与一个或多个结构化表面重定向。 空间可变的反射和透射至少部分地由反射条实现,并且反射条附接到膜堆中的结构化光学膜的第一主表面。 结构化光学膜的与第一主表面相对的第二主表面附着于基底。 反射条通过具有第一粘合区域的第一不连续粘合剂层附着到结构化光学膜。 结构化光学膜通过具有第二粘合区域的第二不连续粘合剂层附着到基板。 第一粘合剂区域的主要部分和第二粘合剂区域的主要部分被反射条限定。 薄膜叠层可以是光导管的一部分。