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CN101818867B - LED anti-dazzle lamp - Google Patents

LED anti-dazzle lamp Download PDF

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Publication number
CN101818867B
CN101818867B CN 201010150009 CN201010150009A CN101818867B CN 101818867 B CN101818867 B CN 101818867B CN 201010150009 CN201010150009 CN 201010150009 CN 201010150009 A CN201010150009 A CN 201010150009A CN 101818867 B CN101818867 B CN 101818867B
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led
anti
dazzle
lamp
led anti
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CN 201010150009
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Chinese (zh)
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CN101818867A (en )
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周明杰
王鑫
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海洋王照明科技股份有限公司
深圳市海洋王照明技术有限公司
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Abstract

本发明涉及一种LED防眩灯,包括固定座、安装在所述固定座上表面的LED以及包覆所述固定座及LED的反光罩,所述固定座固定于靠近所述反光罩内表面的一侧,所述反光罩的内表面包括多个以小于180°的夹角依次拼接的反射平面,所述反光罩具有一供反射光线出射的透光口。 The present invention relates to an LED lamp glare, comprising a holder, mounted on the fixed base and a coating on the surface of the fixing base of the LED and the LED reflector, the reflector closer to the fixing base is fixed to the inner surface side of the inner surface of the reflector comprises a plurality reflecting plane at an angle of less than 180 ° spliced ​​sequentially, said reflector having a light-transmitting opening for reflecting light emitted. 利用反光罩将LED所发出的所有光线包围住,使得LED的光线必然先经反光罩的内表面反射后再从透光口射出,而不会直接入射到人眼,因此能够实现防眩目的。 The LED reflector using all light emitted surrounded, so that the LED light emitted from the first light-transmitting opening is bound by the inner surface of the reflector and then reflected, and not directly incident to the human eye, it is possible to achieve anti-glare.

Description

LED防眩灯 LED lights glare

技术领域 FIELD

[0001 ] 本发明涉及LED灯具,更具体地说,涉及一种LED防眩灯。 [0001] The present invention relates to LED lamps, and more particularly, relates to an LED lamp glare.

背景技术 Background technique

[0002] 在灯具的设计及照明设计过程中,眩光是一个重要的参考因素。 [0002] In the lighting fixture design and process design, a glare is important considerations. 随着LED的广泛应用,人们也需要采用LED这种寿命长、能耗小的光源来生产防眩灯具。 With the wide application of LED, it is also required that an LED with a small long-life, energy source to produce the antiglare lamps. 现有的LED防眩灯主要是在LED外罩有一个透光件,通过将透光件表面镀层、磨砂等处理方式来达到防眩的目的。 Conventional LED glare light primarily in a translucent LED housing member, by coating the surface of the light transmitting member, scrub and other processing to achieve the purpose of the antiglare. 但是对透明件进行所述的特殊处理方式不仅程序复杂、成本高,而且制得的透明件对光线的损耗大,使整个灯具的效率低,一般为60%左右。 However, the transparent member for special treatment is not only complicated procedures, high cost, and a large braking member obtained transparent to light loss, a low efficiency of the lamp, typically about 60%.

发明内容 SUMMARY

[0003] 本发明要解决的技术问题在于,针对现有技术的采用透明件进行防眩所存在的缺陷,提供一种无需透明件也可实现防眩目的LED防眩灯。 [0003] The present invention is to solve the technical problem that a defect is present in the antiglare transparent member against the prior art, there is provided a transparent member can be achieved without blinding glare of the LED lamp.

[0004] 本发明解决其技术问题所采用的技术方案是:构造一种LED防眩灯,包括固定座、安装在所述固定座上表面的LED以及包覆所述固定座及LED的反光罩,所述固定座固定于靠近所述反光罩内表面的一侧,所述反光罩的内表面包括多个以小于180°的夹角依次拼接的反射平面,所述反光罩具有一供反射光线出射的透光口。 [0004] aspect of the present invention to solve the technical problem that is: configuration of an LED lamp glare, including holder, mounting of the reflector surface and covering the LED and LED holder of the fixed seat the fixing base is fixed to a side close to the inner surface of the reflector, said reflector surface comprises a plurality of inner reflecting plane at an angle of less than 180 ° spliced ​​sequentially, a reflector for reflecting light having a translucent exit port.

[0005] 在本发明所述的LED防眩灯中,所述LED包括多个直线排列的子LED,且所述直线排列方向垂直于所述多个反射平面相拼接的顺/逆时针方向。 [0005] In the antiglare LED lamp of the present invention, the LED comprises a plurality of linearly arranged sub LED, and the direction perpendicular to the linearly arranged plurality of planar reflective spliced ​​cis / counterclockwise.

[0006] 在本发明所述的LED防眩灯中,所述反光罩内表面包括依次拼接的第一反射平面至第N反射平面,N为大于I的整数,所述反光罩上在所述第一反射平面的前端还设有第零平面,所述固定座卡合固定在所述第零平面上,且所述固定座底面与所述第零平面平行。 [0006] In the antiglare LED lamp of the present invention, the inner surface of the reflector comprising a first reflective planar successively spliced ​​to the second reflecting plane N, N being an integer greater than I, the reflector on the end of the first reflection plane is further provided with a first zero-plane, the holder is fixed on the engagement zeroth plane, and a bottom surface of the fixing base parallel to the first plane zero.

[0007] 在本发明所述的LED防眩灯中,所述第零平面与所述第一反射平面之间的夹角为96°。 [0007] In the antiglare LED lamp of the present invention, the angle between the plane and the reflection plane of the first zero 96 °.

[0008] 在本发明所述的LED防眩灯中,所述多个反射平面为宽度相等且宽度边依次相接的矩形。 [0008] In the antiglare LED lamp of the present invention, the plurality of reflective planar rectangular sides and a width equal to the width sequentially in contact.

[0009] 在本发明所述的LED防眩灯中,所述N等于十二,所述第一反射平面至第十二反射平面相邻两反射平面之间的夹角依次为158〜162°、108〜112°、168〜172°、168〜172°、88 〜92°、244 〜248°、168 〜172°、168 〜172°、168 〜172°、168 〜172°、168 〜172。 [0009] In the antiglare LED lamp of the present invention, the N is equal to twelve, the first to twelfth reflecting plane reflection plane angle between the two adjacent reflective surfaces were 158~162 ° , 108~112 °, 168~172 °, 168~172 °, 88 ~92 °, 244 ~248 °, 168 ~172 °, 168 ~172 °, 168 ~172 °, 168 ~172 °, 168 ~172. .

[0010] 在本发明所述的LED防眩灯中,所述第一至第十二反射平面的长度比为48. 5〜 [0010] In the antiglare LED lamp of the present invention, the length ratio of the first to twelfth 48. The reflection plane is -5 to

49.5 : 50. 5 〜51. 5 : 6. 5 〜7. 5 : 27. 5 〜28. 5 : 28. 5 〜29. 5 : 5. 5 〜6. 5 : 22. 5 〜 49.5: 50.5 ~51 5: 6.5 ~ 7 5: 5 ~28 27.5: 28.5 ~29 5: 5.5 5 ~ 6: ~ 22.5

23.5 : 18. 5 〜19. 5 : 14. 5 〜15. 5 : 14. 5 〜15. 5 : 13. 5 〜14. 5 : 12. 5 〜13. 5。 23.5: 18.5 ~19 5: 5 14.5 ~ 15: 5 ~ 15 14.5: 13.5 5 ~ 14: 12.5 ~ 13 5.

[0011] 在本发明所述的LED防眩灯中,所述第一至第十二反射平面的长度比为49 : 51 : [0011] In the present invention, the antiglare LED lamp, the length ratio of the first to twelfth reflection plane is 49: 51:

7 : 28 : 29 : 6 : 23 : 19 : 15 : 15 : 14 : 13。 7:28: 29: 6: 23: 19: 15:15: 14: 13.

[0012] 实施本发明的LED防眩灯,具有以下有益效果:利用反光罩将LED所发出的所有光线包围住,使得LED的光线必然先经反光罩的内表面反射后再从透光口射出,而不会直接入射到人眼中,因此能够实现防眩的目的。 [0012] embodiment of the present invention, an LED lamp glare, has the following advantages: the use of the reflector of all light emitted by the LED surrounded, so that the LED light emitted from the first light-transmitting opening is bound by the inner surface of the reflector and then reflected without incident directly to people's eyes, it is possible to achieve the purpose of anti-glare. 同时,本发明无需特殊处理的透光件,具有结构简单、成本低、能量损耗小的优点。 Meanwhile, the light-transmitting member of the present invention without special treatment, has a simple structure, low cost, low energy consumption advantages.

附图说明 BRIEF DESCRIPTION

[0013] 下面将结合附图及实施例对本发明作进一步说明,附图中: [0013] The accompanying drawings and the following embodiments of the present invention is further illustrated drawings in which:

[0014] 图1是本发明LED防眩灯的优选实施例的结构示意图; [0014] FIG. 1 is an LED lamp glare schematic structural diagram of the preferred embodiment;

[0015] 图2是图1所示实施例中反光罩的正视图; [0015] FIG. 2 is a view of the front view of the reflector of Figure 1 embodiment;

[0016] 图3是采用图1所示实施例进行照明的光斑图。 [0016] FIG. 3 is an embodiment shown in FIG. 1 for illuminating a spot of FIG.

具体实施方式 detailed description

[0017] 本发明涉及一种LED防眩灯,用于将LED 10的光线通过反射而不会直接射入人眼,从而起到防眩的作用,其主要包括作为光源的LED 10、用于安装LED 10的固定座40以及将固定座40和LED 10包覆在内的反光罩20,反光罩20具有透光口21使LED 10所发出的光线经反射后从透光口21射出。 [0017] The present invention relates to an LED lamp glare, for the light reflected by the LED 10 and not directly into the eye, and thus acts as an anti-glare, which includes a main LED light source 10, for mounting the LED 40 and the base 10 of the LED holder 40 and the coating 10 including the reflector 20, reflector 20 having a light-transmitting opening 21 so that the light emitted by the LED 10 is emitted from the light-transmitting opening 21 after reflection.

[0018] 如图1、图2所示,反光罩20用于反射光线的内表面具有N个以顺/逆时针依次拼接的反射平面,N为大于I的整数,本实施例中,N为十二,则十二个反射平面依次为第一反射平面SI至第十二反射平面S12。 [0018] As shown in FIG 1, FIG. 2, the inner surface of the reflector 20 for reflecting light having N cis / counterclockwise turn splicing reflection plane, N being an integer larger than I, in the present embodiment, N is twelve, twelve reflection plane of the order of a first reflecting plane to twelfth SI reflection plane S12. 十二个反射平面依次相连从而围成一个包围空间,且起始端的第一反射平面SI与末端的第十二反射平面S12之间隔有距离而形成透光口21,LED10发出的光线可在此包围空间反射后最终从透光口21出射,而不是直射照进人眼引起眩光、不舒服的感觉。 Twelve connected thereby sequentially reflecting plane enclose an enclosing space, and the starting end of the first reflection plane and the spacer SI twelfth reflection plane S12 has a distance of the end of the light transmissive opening 21 is formed, light can be emitted in this LED10 after the enclosed space finally reflected from the translucent exit port 21, rather than as direct glare into the eyes to cause uncomfortable feeling.

[0019] 反光罩20的内表面还具有一个第零平面S0,第零平面SO接在第一反射平面SI的前端且与第一反射平面成小于180°角,本实施例中,第零平面SO与第一反射平面SI之间的夹角为96°。 [0019] The inner surface of the reflector 20 further has a planar zeroth S0, SO zeroth plane contact with the front end of the first reflection plane and the SI of the first reflection plane angle of less than 180 °, in this embodiment, the zeroth plane the angle between the first reflection plane SI and SO of 96 °. 固定座40装在第零平面SO上,且上表面所安装的LED 10底部与第零平面80平行,LED 10面向多个反射平面围成的包围空间且位于反光罩内表面和透光口21所在平面共同围成的空间内,从而使LED 10发出的所有光线都必然先照射到反光罩20的内表面后再反射出去。 Holder 40 is mounted on the zeroth plane SO, and the upper surface of the bottom portion 10 mounted with the LED 80 zeroth plane parallel to, the plurality of LED reflecting plane 10 facing the enclosed space surrounded by the reflector surface and within the light-transmitting opening 21 and the common plane of the space surrounded, so that all light rays emitted from LED 10 are irradiated to the inner surface of the bound first reflector 20 is then reflected off. LED 10包括多个子LED,多个子LED并列排成一排且所排列的直线方向垂直于所述多个反射平面相拼接的顺/逆时针方向。 LED 10 includes a plurality of sub-LED, a plurality of parallel sub-LED in a row direction and are arranged in a straight line perpendicular to the plane of the plurality of reflective spliced ​​cis / counterclockwise.

[0020] 本实施例中,第一至第十二反射平面为宽度相等且宽度边依次相接的矩形,所述多个子LED沿第零平面SO的宽度方向并列排成一排。 [0020] In this embodiment, the first to twelfth reflecting plane and a width equal to the width of the rectangular edge in contact successively, the plurality of parallel sub-LED in a row in the width direction of the zero level of SO. 第一至第十二反射平面的相邻两反射平面之间的夹角依次为158〜162°、108〜112°、168〜172°、168〜172°、88〜92°、244 〜248。 The angle between adjacent first to twelfth two reflective surfaces reflecting plane were 158~162 °, 108~112 °, 168~172 °, 168~172 °, 88~92 °, 244 ~248. 、168 〜172。 168 ~172. 、168 〜172。 168 ~172. 、168 〜172。 168 ~172. 、168 〜172。 168 ~172. 、168 〜172。 168 ~172. ,能获得最佳配光的角度依次为160° UlO0、170。 , To get the best angle of the light distribution of the order of 160 ° UlO0,170. 、170。 170. 、90。 90. 、246。 246. 、170。 170. 、170。 170. 、170。 170. 、170°、170°。 , 170 °, 170 °. 同时,获得最佳配光效果的第一至第十二反射平面的长度比为49 : 51 : 7 : 2 Meanwhile, the length ratio of the first to twelfth reflective surfaces for optimum light distribution effect is 49: 51: 7: 2

8 : 29 : 6 : 23 : 19 : 15 : 15 : 14 : 13,每一个反射平面的长度变化范围在长度比的单位I的±0. 5之间,也即第一至第十二反射平面的长度比为48. 5〜49. 5 : 50. 5〜51. 5 : 6. 5〜7. 5 : 27. 5 〜28. 5 : 28. 5 〜29. 5 : 5. 5 〜6. 5 : 22. 5 〜23. 5 : 18. 5 〜19. 5 : 14. 5 〜 8:29: 6:23: 19: 15:15: 14: 13, the range of variation per unit length between each reflecting plane than the length I of ± 0 5, i.e., the first to twelfth reflecting plane the length ratio of 48. 5 5~49: 5~51 50. 5: 5 ~ 7 6 5: 5 27.5 ~28: 5 ~29 28.5: 5.5 ~ 6. 5: 22. 5 ~23 5: 5 ~19 18.5: 14.5 ~

15.5 : 14. 5 〜15. 5 : 13. 5 〜14. 5 : 12. 5 〜13. 5。 15.5: 14.5 5 ~ 15: 5 ~ 14 13.5: 12.5 ~ 13 5.

[0021] 其中,第一和第二反射平面近似竖直地位于第零平面上,也即近似垂直地位于LED10—侧,这样的结构设置目的在于,第一和第二反射平面临近LED10,从而LED 10向二者上发出的光线被挡住并反射到其他反射平面上。 [0021] wherein the first and second reflector positioned approximately vertically on the plane of the zeroth, i.e. approximately vertically positioned LED10- side, such a configuration setting object, the first and second reflecting plane near the LED 10, thereby LED 10 is blocked by the light emitted and reflected on both reflection plane to the other. 这样可加强第一和第二反射平面相对的另一侧的光照强度,最大限度地减小光强的损耗。 Such light intensity can enhance the opposite side of the first and second reflecting plane, to minimize the loss of light intensity. 而这样设置的另一个优势在于,反光罩20的与第一反射平面SI相对应的外表面部分也随形地为近似垂直于LED 10的平面,其平面结构可以轻松地安装到墙壁、天花板、顶棚等平面结构上,从而方便将整个灯具做成壁挂或者吸顶灯具,且安装简单,操作方便。 And further advantage of this is that, with the first reflector reflecting plane SI corresponding to the outer surface portion 20 can be formed with approximately perpendicular to the plane of the LED 10, a planar structure which can be easily mounted to the wall, ceiling, a planar structure such as a ceiling, made to facilitate the entire wall or ceiling lighting equipment, and easy to install and operate.

[0022] 采用前文所述的角度关系和边长比得到的反光罩内表面的末端将延伸至LED 10底部平面所处的空间平面上或者超过LED 10底部的空间平面而低于第零平面SO所处的空间平面,从而将LED 10发出的所有光线均罩在内,使光线必然先到达反射面而后在反射透出,即便是LED 10的180度角发出的最接近第零平面SO的光线也不例外。 Space plane [0022] The previously described angular relationship of the end and side ratio obtained inner reflector surface extends to the bottom of the plane in which the LED 10 or LED spatial plane than 10 and lower than the bottom plane of the zeroth SO in which the spatial plane, so that all the LED light rays 10 are emitted from the inner cover, so that the light necessarily reaches the reflecting surface to the reflector and then revealed, even light plane closest to the zero angle of sO LED 180 issued 10 No exception. 也就是说,所有光线均不会直接射入人眼而是经过反射后从透光口21射出,不论从哪个角度来看本发明的灯具,都不会给人眩光的感觉,从而起到防眩的效果。 That is, all the light rays are incident on the human eye does not directly but after reflection from the translucent exit port 21, no matter from which angle the lamp according to the present invention, will not give the feeling of glare to play an anti- dazzling effect.

[0023] 同时,可在透光口21上安装普通的可透光的透光件30,即可实现防眩光照明的效果,而无需采用价格高的那些需要特别磨砂等处理的透明件,可大大降低成本。 [0023] Meanwhile, the light-transmitting opening 21 mounted on a common light-transmissive light-transmitting member 30, to achieve the effect of anti-glare lighting, without employing expensive transparent member that requires special treatment scrubs, can significantly reduce costs. 为了使本实施例的反光罩20内表面具有最佳的防眩效果,所有反射平面上均喷涂有漫反射材料。 In order that the inner surface of the reflector 20 of the embodiment having the best embodiment of the anti-glare effect, are sprayed with diffusely reflecting reflective material on all planes.

[0024] 图3为图1、图2所示的优选实施例在实际照明中位于透光口21正下方的光斑图。 [0024] FIG. 1 FIG. 3 is a spot diagram of the light-transmitting opening is located directly beneath the actual illumination 21 shown in FIG preferred embodiment. 由图可知,光斑亮度均匀,整个灯具达到了均匀配光的效果。 The figure shows a uniform spot brightness of the lamp to achieve the effect of uniform distribution of light. 而由于本发明通过反光罩20的内表面达到防眩效果,位于透光口21位置上的透光件30可选用完全透光的元件,不需要特殊处理的透光件,因此也不会由于光线穿过特殊透光件而损耗能量,通过实验验证,本发明的LED防眩灯其光源发出的能量有80%可从透光口21透出,相比现有技术而言要高得多。 And because the present invention the inner surface 20 of the reflector to achieve the effect of glare, light-transmissive member 21 located on the light-transmitting port member 30 can be selected completely transparent, light-transmissive member does not require special treatment, and therefore is not due to the special light through the light-transmitting member and the energy loss, by experimental verification, LED lamp according to the present invention, the antiglare energy which 80% of light emitted from the light-transmitting opening 21 can be revealed, as compared to the prior art in terms of much higher .

[0025] 同时,采用反射平面拼接成的反光罩20内表面,相较于光滑曲面的反光面来说,在加工过程中没有对曲率等的苛刻要求,简化加工程序。 [0025] Meanwhile, a plane reflective spliced ​​into the inner surface of the reflector 20, compared to the smooth surface of the reflecting surface, in the process not demanding of curvature simplifies machining program.

[0026] 而将LED 10设置于靠近反光罩内表面的一侧,而第一反射平面的外表面可安装到墙壁或其他安装位置上,因此LED 10的进出线缆可方便地直接贴近墙壁等安装位置上,从而方便了布线方式。 [0026] and the LED 10 provided in the side close to the inner surface of the reflector, and an outer surface of the first reflective surfaces may be mounted to a wall or other mounting position, the LED and out of the cable 10 may be conveniently close to the wall or the like directly the mounting position, thereby facilitating wiring. 传统的光源位于灯具正中间的结构,其布线和安装则要受限制得多。 Conventional light sources located in the middle of the structure of the lamp, which is mounted and the wiring will have much more restricted.

[0027] 将LED 10设置于灯具一侧的结构还具有另一个优点,使得透光口21位于灯具的另一侧,则透光件30只需考虑一侧的放置,相对于传统的环形或圆形透光件30需要考虑两侧或者圆周的结构来说,本发明的透光件30其定位和连接也大大简化。 [0027] The structure of LED 10 disposed on one side of the lamp also has another advantage, that the other side of the light transmissive opening 21 of the lamp, the light transmitting member 30 only need to consider placement side, relative to a conventional annular or circular light-transmitting member 30 to consider both sides of the structure or the circumference, the connector 30 and the light-transmitting member positioned according to the present invention is also greatly simplified. 反光罩20的另一侧还可设置有辅固定架50,用于将整个灯具固定到墙壁或者可安装的位置上。 The other side of the reflector 20 may also be provided with a secondary bracket 50 for the entire luminaire can be fixed to the wall or mounting position.

[0028] 上面结合附图对本发明的实施例进行了描述,但是本发明并不局限于上述的具体实施方式,上述的具体实施方式仅仅是示意性的,而不是限制性的,本领域的普通技术人员在本发明的启示下,在不脱离本发明宗旨和权利要求所保护的范围情况下,还可做出很多形式,这些均属于本发明的保护之内。 , Binding of ordinary [0028] The above drawings, embodiments of the present invention have been described, but the present invention is not limited to the specific embodiments described above specific embodiments are merely illustrative, and not restrictive the art in light of the present invention, the scope of the present invention without departing from the spirit and the protection of the claims, can also make many of these fall within the protection of the present invention.

Claims (6)

  1. 1. 一种LED防眩灯,其特征在于,包括固定座、安装在所述固定座上表面的LED以及包覆所述固定座及LED的反光罩,所述固定座固定于靠近所述反光罩内表面的一侧,所述反光罩的内表面包括多个以小于180°的夹角依次拼接的反射平面,所述反光罩具有一供反射光线出射的透光口; 所述反光罩内表面包括依次拼接的第一反射平面至第N反射平面,所述反光罩上在所述第一反射平面的前端还设有第零平面,所述固定座卡合固定在所述第零平面上,且所述固定座底面与所述第零平面平行;所述第一反射平面和第二反射平面近似垂直地位于第零平面上; 所述N等于十二,所述第一反射平面至第十二反射平面相邻两反射平面之间的夹角依次为158 〜162°、108 〜112。 1. An LED lamp glare, characterized in that the holder comprises, mounted on the fixed base and a coating on the surface of the fixing base of the LED and LED reflectors, the fixed seat to close said reflector side of the inner surface of the cover, the inner surface of the reflector comprises a plurality reflecting plane at an angle of less than 180 ° spliced ​​sequentially, said reflector having a light-transmitting opening for reflecting light emitted; the inner reflector a first reflective surface comprising a reflective plane-plane through N spliced ​​sequentially, on said front end of said first reflector reflecting plane is further provided with a first zero-plane, said fixed base fixed to said engaging plane zeroth and a bottom surface of the fixing base parallel to the first plane zero; the first reflecting plane and the second reflecting plane located approximately on a plane perpendicular to the zeroth; said N is equal to twelve, the first to the second reflecting plane twelve reflection plane angle between two adjacent reflective surfaces were 158 ~162 °, 108 ~112. 、168 〜172。 168 ~172. 、168 〜172。 168 ~172. 、88〜92 °、244〜248 °、168 〜172。 , 88~92 °, 244~248 °, 168 ~172. 、168〜172° 、168〜172° 、168〜172° 、168〜172° ; 所述透光口由起始端的第一反射平面与末端的第十二反射平面之间隔有距离而形成。 , 168~172 °, 168~172 °, 168~172 °, 168~172 °; reflection of the light transmissive opening spaced from the first reflecting plane and the plane of the end of the twelfth starting end forming distance.
  2. 2.根据权利要求1所述的LED防眩灯,其特征在于,所述LED包括多个直线排列的子LED,且所述直线排列方向垂直于所述多个反射平面相拼接的顺/逆时针方向。 The antiglare LED lamp according to claim 1, wherein said LED comprises a plurality of sub-LED arranged in line, and the straight line arrangement direction perpendicular cis / inverse phases to the plurality of planar reflective spliced clockwise direction.
  3. 3.根据权利要求1所述的LED防眩灯,其特征在于,所述第零平面与所述第一反射平面之间的夹角为96°。 3. The LED lamp according to the antiglare claimed in claim 1, characterized in that the angle between the plane of the zeroth and the first reflection plane is 96 °.
  4. 4.根据权利要求1所述的LED防眩灯,其特征在于,所述多个反射平面为宽度相等且宽度边依次相接的矩形。 The antiglare LED lamp according to claim 1, wherein said plurality of reflective planar rectangular sides and a width equal to the width sequentially in contact.
  5. 5.根据权利要求3所述的LED防眩灯,其特征在于,所述第一至第十二反射平面的长度比为48. 5〜49. 5 :50. 5〜51. 5 :6. 5〜7. 5 :27. 5〜28. 5 :28. 5〜29. 5 :5. 5〜6. 5 :22. 5〜23. 5 :18. 5〜19. 5 :14. 5〜15. 5 :14. 5〜15. 5 :13. 5〜14. 5 :12. 5〜13. 5。 5. The LED lamp according to the antiglare claimed in claim 3, wherein the length ratio of the first to twelfth reflection plane is 48. 5 5~49: 5~51 5 50: 6. 5 5 ~ 7:... 27 5 5~28: 5~29 5 28: 5 ~ 6 5 5: 5 22 5~23: 5~19 5 18: -5 to 14 15.5: 5 14 5~15: 5~14 5 13:.... 12 5 5~13.
  6. 6.根据权利要求4所述的LED防眩灯,其特征在于,所述第一至第十二反射平面的长度比为49 :51 :7 :28 :29 :6 :23 :19 :15 :15 :14 :13。 The antiglare LED lamp according to claim 4, characterized in that the length ratio of the first to twelfth reflection plane is 49: 51: 7: 28: 29: 6: 23: 19: 15: 15: 14: 13
CN 201010150009 2010-04-19 2010-04-19 LED anti-dazzle lamp CN101818867B (en)

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CN101614362A (en) 2008-06-27 2009-12-30 富准精密工业(深圳)有限公司;鸿准精密工业股份有限公司 LED lamp
CN101660715A (en) 2008-08-25 2010-03-03 富准精密工业(深圳)有限公司;鸿准精密工业股份有限公司 Light-emitting diode lamp

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US5642933A (en) 1993-12-29 1997-07-01 Patlite Corporation Light source structure for signal indication lamp
US7578600B2 (en) 2003-10-10 2009-08-25 Federal Signal Corporation LED light assembly with reflector having segmented curve section
CN101614362A (en) 2008-06-27 2009-12-30 富准精密工业(深圳)有限公司;鸿准精密工业股份有限公司 LED lamp
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