CN103925496A - Reflection lens type led lamp - Google Patents
Reflection lens type led lamp Download PDFInfo
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- CN103925496A CN103925496A CN201410160018.8A CN201410160018A CN103925496A CN 103925496 A CN103925496 A CN 103925496A CN 201410160018 A CN201410160018 A CN 201410160018A CN 103925496 A CN103925496 A CN 103925496A
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Abstract
The invention provides a reflection lens type LED lamp. The reflection lens type LED lamp comprises a lamp bulb shell, a lamp cap body, a substrate and a lens. The bottom face of the lens is arranged on the substrate, the lamp cap body is covered with the lamp bulb shell, the middle of the top face of the lens is sunken towards the substrate to form a reflecting face, a light outlet side face is formed on the outer side face of the upper portion of the lens, the light outlet side face and the reflecting face form an annular convex lens structure, a containing groove is formed in the lower portion of the lens and formed in the bottom face of the lens, the top of the containing groove serves as a light inlet face, a first LED light source and a second LED light source are arranged on the substrate, the first LED light source is arranged around the periphery of the lens, the second LED light source is arranged in the containing groove, and the reflecting face is used for reflecting most of light emitted by the second LED light source and refracted by the light inlet face towards the light outlet side face. The reflection lens type LED lamp has the advantages that omni-bearing uniform light emitting is achieved, and the structure is simple.
Description
Technical field
The present invention relates to lighting field, particularly a kind of mirror lens formula LED lamp.
Background technology
In recent years, because the development of LED industry is rapid, LED light fixture progressively replaces traditional lighting.For room lighting LED bulb lamp, to the basic demand of its light distribution and brightness, be: bulb is luminous not only will possess isotropic directivity, and light distribution will try one's best evenly, avoid light and shade uneven, otherwise that user will feel is depressed.For standard LED bulb lamp is produced, the star of american energy has been issued the new standard of LED illumination, has stipulated that omnirange LED(is also referred to as directionless lamp in standard) light distribution.In this regulation, under bulb, regulation is in the situation of 0 °, and in each scope of 135 ° of its both sides, its luminous flux at least will reach 20% of lamp total light flux, and within the scope of 135 °~180 °, its luminous flux at least will reach 5% of lamp total light flux.Namely large at 270 ° of scope inner glow intensities of bulb side inferior segment and will be evenly distributed, within the scope of 90 °, top, luminous flux can not be too little.As everyone knows, LED light source is due to encapsulation, and its light-emitting area is 180 ° to the maximum, and light-emitting area is narrow, cannot realize omnibearing luminous.The LED bulb lamp of existing use, luminous for realizing wide-angle, be that LED light source is arranged on the three-dimensional convex in bulb lamp mostly.For example, Shen Qing Publication day is on August 18th, 2010, application number is that 201010146167.0 Chinese invention patent application discloses a kind of LED bulb lamp that improves light transmittance, LED module is fixed on a plurality of inclined-planes, although it is large that lighting angle becomes, bulb lamp tail end luminous flux is few, does not reach omnibearing luminous requirement, exist complex structure simultaneously, make difficult shortcoming.
Summary of the invention
In view of this, be necessary the mirror lens formula LED lamp that provides a kind of Omnibearing even luminous, simple in structure.
The technical solution used in the present invention is: a kind of mirror lens formula LED lamp, comprise bulb housing, body, substrate, lens, the bottom surface of these lens is arranged on this substrate, this bulb housing covers on this body, the middle part of this lens end face is recessed to form reflecting surface towards this substrate, the lateral surface on this lens top forms bright dipping side, this bright dipping side and this reflecting surface form ring-type convex lens structures, the bottom of these lens is provided with accepting groove, this accepting groove is opened in the bottom surface of these lens, the top of this accepting groove is incidence surface, this substrate is provided with the first LED light source and the second LED light source, described the first LED light source arranges around this lens periphery, described the second LED light source is arranged in this accepting groove, most of light that this reflecting surface is used for described the second LED light source to send and pass through this incidence surface refraction is towards this bright dipping offside reflection.
In sum, mirror lens formula LED lamp of the present invention is provided with the first LED light source and the second LED light source, these first LED light sources are arranged at this lens periphery and directly illuminate top and the sidewall of this bulb housing, the light that these second LED light sources send is through these lens, by these lens, realize the control of light incident and exit direction to illuminate the bottom of this bulb housing, like this, make whole lamp reach the luminous effect of Omnibearing even, due to without LED module is fixed on a plurality of inclined-planes, make this mirror lens formula LED lamp also have advantages of simple in structure.
Accompanying drawing explanation
Fig. 1 is the three-dimensional exploded view of first embodiment of the invention mirror lens formula LED lamp.
Fig. 2 is the profile after the assembling of the formula of mirror lens shown in Fig. 1 LED lamp.
Fig. 3 is the profile of lens in the formula of mirror lens shown in Fig. 1 LED lamp.
Fig. 4 is the light path schematic diagram of lens in the formula of mirror lens shown in Fig. 1 LED lamp.
Fig. 5 is the distribution curve flux figure of the formula of mirror lens shown in Fig. 1 LED lamp.
Description of reference numerals:
100 mirror lens formula LED lamp 10 bulb housing 20 bodys
30 substrate 40 lens 31 first LED light sources
32 second LED light source 41 reflecting surface 42 bright dipping sides
43 incidence surface 44 accepting grooves
The specific embodiment
Below by specific embodiment, the present invention will be described in detail:
Fig. 1 is the decomposing schematic representation of first embodiment of the invention mirror lens formula LED lamp, this mirror lens formula LED lamp 100 comprises bulb housing 10, body 20, substrate 30, lens 40, the bottom surface of these lens 40 is arranged on this substrate 30, this bulb housing 10 covers on this body 20, this bulb housing 10 was hemisphere cell-shell, and this bulb housing 10 is provided with printing opacity scattering material.
Please refer to Fig. 2, this substrate 30 is planar structure, and this substrate 30 is provided with the first LED light source 31 and the second LED light source 32, and this first LED light source 31 and the second LED light source 32 comprise respectively plurality of LEDs light source.LED light source in these first LED light sources 31 is respectively around peripheral rounded being arranged on this substrate 30 of these lens 40, and this radius of circle is greater than the maximum radius of this lens 40 projection on this substrate.Make these lens 40 can not block the light that this first LED light source 31 sends to this bulb housing top.
Please refer to Fig. 2 to Fig. 4, these lens 40 are two-part structure, the lateral surface on these lens 40 tops forms bright dipping side 42, the middle part of these lens 40 end faces is recessed to form reflecting surface 41(as shown in Figure 2 towards this substrate 30), this reflecting surface 41 near the cambered surface at these lens 40 middle parts (being axis) towards protruding out away from these bright dipping side 42 directions, the middle part of this bright dipping side 42 protrudes out towards the direction away from this reflecting surface 41, and this bright dipping side 42 forms ring-type convex lens structures (as shown in Figure 1) with this reflecting surface 41.The bottom of these lens 40 is provided with accepting groove 44, and this accepting groove 44 is opened in the bottom surface of these lens 40.This accepting groove 44 is cylindric, and in these lens 40, the external diameter on the top at 42 places, bright dipping side is greater than the external diameter of the bottom at these accepting groove 44 places.The top of this accepting groove 44 is incidence surface 43, and these second LED light sources 32 are arranged in this accepting groove 44, and this incidence surface 43 is positioned at the top of these the second LED light sources 32.The middle part of this incidence surface 43 is recessed to form globoidal structure (as shown in Figure 3) towards the direction away from these the second LED light sources 32, and this incidence surface 43 more reflects towards this reflecting surface 41 for the light that this second LED light source 32 is sent.This reflecting surface 41 reflects towards this bright dipping side 42 for these second LED light sources 32 being sent and passed through most of light of these incidence surface 43 refractions.This incidence surface 43 protrudes out towards the direction away from this reflecting surface 41 near the cambered surface at middle part, to coordinate with this reflecting surface 41, forms ring-type convex lens structures.Due in lens, thicker part distribution of light is more, so this ring-type convex lens structures can make the light that this second LED light source 32 sends more reflect towards this reflecting surface 41.
During work, first, the light that these first LED light sources 31 send does not pass through lens, shines directly into the top of this bulb housing 10.Secondly, when the light that these second LED light sources 32 send incides on the reflecting surface 41 of these lens 40, by the setting of these reflecting surface 41 cambered surfaces, most of light will produce total reflection on the reflecting surface at these lens 40 41, because this reflecting surface 41 and this bright dipping side 42 form ring-type convex lens structures, the light that total reflection is returned like this can be to the larger position outgoing of convex lens structures thickness, and because the effect of the converging light of convex lens is irradiated by the bottom of backward this bulb housing 10 of these exiting surface 42 outgoing, illuminate the bottom of this bulb housing 10.Like this, because top and the bottom of this bulb housing 10 is all illuminated, can realize omnibearing luminous.Why make this incidence surface 43 and this reflecting surface 41 form convex lens structures, object is to make the light that these second LED light sources 32 send can more be injected into the middle and upper part of this reflecting surface 41 and total reflection occurs.The light that these first LED light sources 31 and the second LED light source 32 send, through the diffusion of this bulb housing 10, makes this mirror lens formula LED lamp 100 realize Omnibearing even luminous.Fig. 5 is the distribution curve flux figure of this mirror lens formula LED lamp 100, and from this distribution curve flux, the wide-angle that this mirror lens formula LED lamp 100 can be realized more than 300 degree is luminous.
In sum, mirror lens formula LED lamp 100 of the present invention is provided with the first LED light source 31 and the second LED light source 32, these first LED light sources 31 are arranged at these lens 40 peripheries and directly illuminate top and the sidewall of this bulb housing 10, the light that these second LED light sources 32 send is through these lens 40, the control realizing light incident and exit direction by these lens 40, to illuminate the bottom of this bulb housing 10, like this, make whole lamp reach the luminous effect of Omnibearing even, due to without LED module is fixed on a plurality of inclined-planes, this mirror lens formula LED lamp 100 is also had advantages of simple in structure.In addition, the light sending due to these first LED light sources 31 directly scatters out from this bulb housing 10 without lens, makes this mirror lens formula LED lamp 100 also have higher optical efficiency.
Understandable, for not obstructed the light by these lens 40, the edge that these second LED light sources 32 can be arranged in this substrate 20 approaches this bulb housing 10 places.Preferably, can also on this reflecting surface 41, be provided with reflector layer (not shown), this reflector layer (not shown) is for reflecting light towards this bright dipping side 42.This incidence surface 43 can be plane.
The foregoing is only preferred embodiment of the present invention, in order to limit the present invention, within the spirit and principles in the present invention not all, any modification of making, be equal to replacement, improvement etc., within all should being included in the scope of protection of the invention.
Claims (9)
1. a mirror lens formula LED lamp, comprise bulb housing, body, substrate, lens, the bottom surface of these lens is arranged on this substrate, this bulb housing covers on this body, it is characterized in that: the middle part of this lens end face is recessed to form reflecting surface towards this substrate, the lateral surface on this lens top forms bright dipping side, this bright dipping side and this reflecting surface form ring-type convex lens structures, the bottom of these lens is provided with accepting groove, this accepting groove is opened in the bottom surface of these lens, the top of this accepting groove is incidence surface, this substrate is provided with the first LED light source and the second LED light source, described the first LED light source arranges around this lens periphery, described the second LED light source is arranged in this accepting groove, most of light that this reflecting surface is used for described the second LED light source to send and pass through this incidence surface refraction is towards this bright dipping offside reflection.
2. mirror lens formula LED lamp according to claim 1, it is characterized in that: this accepting groove is cylindric, this incidence surface is positioned at the top of this second LED light source, the middle part of this incidence surface is recessed to form globoidal structure towards the direction away from this second LED light source, and this incidence surface is for reflecting more light towards this reflecting surface.
3. mirror lens formula LED lamp according to claim 2, is characterized in that: this incidence surface protrudes out towards the direction away from this reflecting surface near the cambered surface at middle part, coordinates form ring-type convex lens structures with this reflecting surface.
4. mirror lens formula LED lamp according to claim 1, is characterized in that: these lens are two-part structure, and the external diameter on the top at this place, lens bright dipping side is greater than the external diameter of the bottom at this accepting groove place.
5. mirror lens formula LED lamp according to claim 4, is characterized in that: the middle part of this bright dipping side protrudes out towards the direction away from this reflecting surface.
6. mirror lens formula LED lamp according to claim 1, is characterized in that: this reflecting surface near the cambered surface at middle part towards protruding out away from this bright dipping side surface direction.
7. mirror lens formula LED lamp according to claim 1, is characterized in that: this substrate is planar structure, and described the first LED light source is circular and is arranged on this substrate, and this radius of circle is greater than the maximum radius of these lens projection on this substrate.
8. mirror lens formula LED lamp according to claim 1, is characterized in that: this reflecting surface is provided with reflector layer, and this reflector layer is used for light towards this bright dipping offside reflection.
9. mirror lens formula LED lamp according to claim 1, is characterized in that: this bulb housing was hemisphere cell-shell, and this bulb housing is provided with printing opacity scattering material.
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CN201410160018.8A CN103925496A (en) | 2014-04-21 | 2014-04-21 | Reflection lens type led lamp |
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CN201410160018.8A CN103925496A (en) | 2014-04-21 | 2014-04-21 | Reflection lens type led lamp |
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Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104712936A (en) * | 2015-03-18 | 2015-06-17 | 四川联恺环保科技有限公司 | LED spotlight |
CN104791636A (en) * | 2015-05-07 | 2015-07-22 | 立达信绿色照明股份有限公司 | Reflection lens type led lamp |
CN104848058A (en) * | 2015-04-16 | 2015-08-19 | 立达信绿色照明股份有限公司 | Adjustable LED lighting device |
CN104948944A (en) * | 2014-08-11 | 2015-09-30 | 立达信绿色照明股份有限公司 | Wide-angle LED lamp |
CN105465636A (en) * | 2016-01-28 | 2016-04-06 | 漳州立达信光电子科技有限公司 | Led lamp |
TWI554722B (en) * | 2014-07-30 | 2016-10-21 | A lens structure and a light source module using the lens structure | |
CN106523980A (en) * | 2015-09-11 | 2017-03-22 | 上海三思电子工程有限公司 | Led signal lamp |
CN108870319A (en) * | 2018-06-27 | 2018-11-23 | 赛尔富电子有限公司 | A kind of illuminating lens and corresponding lighting unit |
CN112303594A (en) * | 2019-07-31 | 2021-02-02 | 安徽芯瑞达科技股份有限公司 | Optical lens, light-emitting device and display |
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CN201892045U (en) * | 2010-02-08 | 2011-07-06 | 东莞莹辉灯饰有限公司 | Novel illuminating bulb |
WO2012042460A1 (en) * | 2010-09-29 | 2012-04-05 | Koninklijke Philips Electronics N.V. | Tube luminescent retrofit using high power light emitting diodes |
CN103032729A (en) * | 2011-10-06 | 2013-04-10 | 日立空调·家用电器株式会社 | Lighting device |
CN203348993U (en) * | 2013-06-26 | 2013-12-18 | 广东恒润光电有限公司 | Candle lamp |
CN103511977A (en) * | 2012-06-19 | 2014-01-15 | 欧司朗股份有限公司 | Lens and omni-directional lighting device and modified lamp provided with lens |
CN203836671U (en) * | 2014-04-21 | 2014-09-17 | 立达信绿色照明股份有限公司 | Reflection lens type light-emitting diode (LED) lamp |
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CN201892045U (en) * | 2010-02-08 | 2011-07-06 | 东莞莹辉灯饰有限公司 | Novel illuminating bulb |
WO2012042460A1 (en) * | 2010-09-29 | 2012-04-05 | Koninklijke Philips Electronics N.V. | Tube luminescent retrofit using high power light emitting diodes |
CN103032729A (en) * | 2011-10-06 | 2013-04-10 | 日立空调·家用电器株式会社 | Lighting device |
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Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
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TWI554722B (en) * | 2014-07-30 | 2016-10-21 | A lens structure and a light source module using the lens structure | |
CN104948944A (en) * | 2014-08-11 | 2015-09-30 | 立达信绿色照明股份有限公司 | Wide-angle LED lamp |
CN104948944B (en) * | 2014-08-11 | 2017-04-19 | 漳州立达信光电子科技有限公司 | Wide-angle LED lamp |
CN104712936A (en) * | 2015-03-18 | 2015-06-17 | 四川联恺环保科技有限公司 | LED spotlight |
CN104848058A (en) * | 2015-04-16 | 2015-08-19 | 立达信绿色照明股份有限公司 | Adjustable LED lighting device |
CN104791636A (en) * | 2015-05-07 | 2015-07-22 | 立达信绿色照明股份有限公司 | Reflection lens type led lamp |
CN106523980A (en) * | 2015-09-11 | 2017-03-22 | 上海三思电子工程有限公司 | Led signal lamp |
CN106523980B (en) * | 2015-09-11 | 2020-09-25 | 上海三思电子工程有限公司 | LED signal lamp |
CN105465636A (en) * | 2016-01-28 | 2016-04-06 | 漳州立达信光电子科技有限公司 | Led lamp |
CN108870319A (en) * | 2018-06-27 | 2018-11-23 | 赛尔富电子有限公司 | A kind of illuminating lens and corresponding lighting unit |
CN108870319B (en) * | 2018-06-27 | 2024-08-02 | 赛尔富电子有限公司 | Lighting lens and corresponding lighting unit |
CN112303594A (en) * | 2019-07-31 | 2021-02-02 | 安徽芯瑞达科技股份有限公司 | Optical lens, light-emitting device and display |
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Effective date of registration: 20170119 Address after: Xingtai Industrial Park Economic Development Zone, Changtai County, Fujian city of Zhangzhou province 363999 Applicant after: ZHANGZHOU LIDAXIN PHOTOELECTRON TECHNOLOGY CO., LTD. Address before: 363999 Xingda Road, Fujian city of Zhangzhou province Changtai Xingtai County Development Zone Applicant before: Leedarson Green Lighting Co., Ltd. |
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WD01 | Invention patent application deemed withdrawn after publication | ||
WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20140716 |