Highly collimating reflector lens optic and light emitting diodes
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F21S-004/00
F21V-021/00
G02B-019/00
F21V-005/02
F21V-013/04
F21V-005/04
F21Y-103/02
F21V-007/00
F21Y-101/02
F21W-111/00
B64F-001/20
F21W-111/06
출원번호
US-0815642
(2010-06-15)
등록번호
US-8851707
(2014-10-07)
발명자
/ 주소
Peck, John Patrick
출원인 / 주소
Dialight Corporation
인용정보
피인용 횟수 :
3인용 특허 :
29
초록▼
The present invention is directed to a beacon light with a light emitting diode (LED) optic. In one embodiment, the LED optic includes at least one LED comprising an LED plane, a first reflector positioned above the LED plane and comprising a curved cross-section, wherein the at least one LED is pos
The present invention is directed to a beacon light with a light emitting diode (LED) optic. In one embodiment, the LED optic includes at least one LED comprising an LED plane, a first reflector positioned above the LED plane and comprising a curved cross-section, wherein the at least one LED is positioned approximately 90 degrees with respect to an optical axis of the first reflector and at least one second reflector positioned above the LED plane.
대표청구항▼
1. A light-emitting diode (LED) optic, comprising: at least one LED comprising an LED plane, wherein the LED plane comprises a plane located at a mounting position of the at least one LED and is perpendicular to a central light emitting axis of the at least one LED;a first reflector positioned above
1. A light-emitting diode (LED) optic, comprising: at least one LED comprising an LED plane, wherein the LED plane comprises a plane located at a mounting position of the at least one LED and is perpendicular to a central light emitting axis of the at least one LED;a first reflector positioned above the LED plane and comprising a parabolic cross-section, wherein the first reflector collimates light emitted by the at least one LED that is reflected by the first reflector parallel to an optical axis of the first reflector, wherein the central light-emitting axis of the at least one LED is positioned approximately 90 degrees with respect to the optical axis of the first reflector; andat least one second reflector positioned above the LED plane and the at least one LED, wherein the at least one second reflector comprises a substantially planar surface along an axis substantially parallel to the optical axis of the first reflector and the LED plane, wherein the at least one second reflector is positioned to reflect light that is emitted from the at least one LED in a downward direction that would not reflect off of the first reflector. 2. The LED optic of claim 1, wherein the at least one second reflector comprises a substantially planar surface along an axis substantially perpendicular to the central light-emitting axis of the at least one LED. 3. The LED optic of claim 1, wherein the at least one second reflector reflects light to an angle greater than 100° with respect to the central light-emitting axis of the at least one LED. 4. The LED optic of claim 1, further comprising: at least one lens positioned below the LED plane. 5. The LED optic of claim 4, wherein a light emitted from the at least one LED reflects off of the at least one second reflector and then passes through the at least one lens. 6. The LED optic of claim 4, wherein the at least one lens collimates light emitted from the at least one LED and reflected off of the at least one second reflector. 7. The LED optic of claim 4, wherein the at least one lens comprises a Fresnel lens. 8. The LED optic of claim 4, wherein, at a reflector cross section, at least 50% of light emitted from the at least one LED that is emitted between +50° and +80° is reflected by the second reflector to angles between +100° and +130° with respect to the central light-emitting axis of the at least one LED. 9. The LED optic of claim 8, wherein at least 50% of the light emitted from the at least one LED at the reflector cross section that is emitted between +50° and +80° is first reflected by the at least one second reflector and then refracted by the at least one lens. 10. The LED optic of claim 1, wherein, at a reflector cross section, at least 60% of light emitted from the at least one LED that is emitted between −90° and +50° is reflected by the first reflector to angles between −5° and +5° with respect to an optical axis. 11. An optic, comprising: at least one light emitting means comprising a light emitting means plane, wherein the light emitting means plane comprises a plane located at a mounting position of the at least one light emitting means and is perpendicular to a central light emitting axis of the at least one light emitting means;a first reflecting means positioned above the light emitting means plane and comprising a parabolic cross-section, wherein the first reflecting means collimates light emitted by the at least one light emitting means that is reflected by the first reflecting means parallel to an optical axis of the first reflecting means, wherein the central light-emitting axis of the at least one light emitting means is positioned approximately 90 degrees with respect to the optical axis of the first reflecting means; andat least one second reflecting means positioned above the light emitting means plane and the at least one light emitting means, wherein the at least one second reflecting means comprises a substantially planar surface along an axis substantially parallel to the optical axis of the first reflector and the light emitting means plane, wherein the at least one second reflecting means is positioned to reflect light that is emitted from the at least one light emitting means in a downward direction that would not reflect off of the first reflecting means. 12. The optic of claim 11, wherein the at least one second reflecting means comprises a substantially planar surface along an axis substantially perpendicular to the central light-emitting axis of the at least one light emitting means. 13. The optic of claim 11, wherein the at least one second reflecting means reflects light to an angle greater than 100° with respect to the central light-emitting axis of the at least one light emitting means. 14. The optic of claim 11, further comprising: at least one collimating means positioned below the light emitting means plane. 15. The optic of claim 14, wherein a light emitted from the at least one light emitting means reflects off of the at least one second reflecting means and then passes through the at least one collimating means. 16. The optic of claim 14, wherein the at least one collimating means collimates light emitted from the at least one light emitting means and reflected off of the at least one second reflecting means. 17. The optic of claim 14, wherein the at least one collimating means comprises a Fresnel lens. 18. The optic of claim 14, wherein the at least one collimating means is positioned below a path of light that is collimated by the plurality of reflecting means. 19. The optic of claim 14, wherein at least 60% of light emitted from the at least one light emitting means at a reflector cross section that is emitted between −90° and +50° is reflected by the first reflecting means to angles between −5° and +5° with respect to an optical axis. 20. The optic of claim 11, wherein at least 50% of the light emitted from the at least one light emitting means at the reflector cross section that is emitted between +50° and +80° is first reflected by the at least one second reflecting means and then refracted by the at least one collimating means. 21. A method, comprising: positioning at least one first reflector above a light-emitting diode (LED) plane of at least one LED, wherein the at least one first reflector comprises a parabolic-cross section and the at least one LED is positioned approximately 90 degrees with respect to an optical axis of the at least one first reflector, wherein the at least one first reflector collimates light emitted by the at least one LED that is reflected by the first reflector parallel to the optical axis of the at least one first reflector, wherein the LED plane comprises a plane located at a mounting position of the at least one LED and is perpendicular to a central light emitting axis of the at least one LED;positioning at least one second reflector above the LED plane and the at least one LED, wherein the at least one second reflector comprises a substantially planar surface along an axis substantially parallel to the optical axis of the at least one first reflector and the LED plane, wherein the at least one second reflector is positioned to reflect light that is emitted from the at least one LED in a downward direction that would not reflect off of the at least one first reflector;positioning at least one lens below the LED plane; andtransmitting light from the at least one LED onto the at least one first reflector and the at least one second reflector, wherein at least one lens collimates light reflected by the at least one second reflector.
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