CN101818859A - Batwing type light distribution glare prevention LED lighting device - Google Patents
Batwing type light distribution glare prevention LED lighting device Download PDFInfo
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- CN101818859A CN101818859A CN201010005539A CN201010005539A CN101818859A CN 101818859 A CN101818859 A CN 101818859A CN 201010005539 A CN201010005539 A CN 201010005539A CN 201010005539 A CN201010005539 A CN 201010005539A CN 101818859 A CN101818859 A CN 101818859A
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Abstract
The invention relates to a batwing type light distribution glare prevention LED lighting device which belongs to the technical field of semiconductor lighting. The device comprises glare prevention LED lighting units comprising LED light sources, composite type reflectors and shielding lattice bars, LED glare prevention lighting modules consisting of the glare prevention LED lighting units and LED glare prevention lighting module sets consisting of the LED glare prevention lighting modules, wherein the LED light sources are arranged between every two adjacent shielding lattice bars; the shielding lattice bars are configured and fixed along the drawing axial directions of the composite type reflectors; the inner walls of the composite type reflectors are asymmetrical reflecting surfaces; the light distribution curves of the LED glare prevention lighting modules formed by arraying the glare prevention LED lighting units are in a batwing type; and the shielding lattice bars limit glare generated by the LED light sources along the axial directions of the composite type reflectors. The invention has scientific and reasonable structure, easy production and manufacture, convenient assembly and good glare prevention effect, reduces the manufacture and assembly difficulties and the production cost and is beneficial to large-scale application.
Description
Technical field
The present invention relates to a kind of LED lighting device of anti-dazzle of the LED lighting unit that has asymmetric luminous intensity distribution and an anti-dazzle characteristic, belong to technical field of semiconductor illumination.
Background technology
In light optics design, the light distribution requirements that many places illumination apparatus is arranged is the lateral wing type luminous intensity distribution, and (shown in Figure 1A) this luminous intensity distribution characteristics are light intensity with a distribute side of 0 ° of axis of orientation of asymmetric mode; The light distribution requirements that also has many places illumination apparatus is a bat aerofoil profile luminous intensity distribution (shown in Figure 1B), this luminous intensity distribution characteristics be light intensity with symmetric mode distribute and 0 ° of direction light intensity value less than the light intensity numerical value on the angle around it.
Led light source is different from the traditional electrical light source, the light distribution of led light source in three dimensions has certain directionality, the curve of light distribution of at present general led light source is lambert's type (as shown in Figure 2), use the lighting device of led light source, the luminous intensity distribution design of traditional electrical light source can not be simply applied mechanically in its luminous intensity distribution design.At present, the luminous intensity distribution design of the lighting device of led light source mainly contains: add optical lens or optics reflector in led light source, provide the luminous intensity distribution management with lens or reflector; Or led chip is carried out transparent colloid cover encapsulation, substitute optical lens with transparent colloid and carry out the luminous intensity distribution management.Wherein, the luminous intensity distribution design that adds optical lens or optics reflector has been widely used in (as LED shot-light, flashlight etc.) in the less lighting device of beam angle, but be difficult to realize lateral wing type luminous intensity distribution and bat aerofoil profile luminous intensity distribution by designing separately, still generally change the luminous intensity distribution design at present by the installation site of change led light source or the angle of installed surface, increased the complexity and the difficulty of Design of Luminaires, it is poor to be suitable for versatility.Carry out the luminous intensity distribution design that luminous intensity distribution is managed and cover the alternative optical lens that installs additional of encapsulation with transparent colloid, itself is very high to the requirement of parts and process, the production cost height, and difficulty is big, and yield rate is not high; Realize flank formula luminous intensity distribution and Batwing type light distribution, need, further improved the difficulty of design, processing and the assembling of lighting device to a great extent by extremely complicated arrangement; This luminous intensity distribution design is subjected to the restriction of led chip profile and self curve of light distribution simultaneously, must design different colloid encapsulation to the different LED chip, and it is very poor to be suitable for versatility.Simultaneously, the management device of above-mentioned several luminous intensity distribution designs all has higher requirement to assembling, and the less error in the assembling process all might cause bigger influence to whole light distribution effect.
When people observe a certain visual object, if the luminous object of a high brightness is arranged in the visual field, will influence observing effect, and can make the people feel uncomfortable.Glare phenomenon that Here it is.It is an important indicator estimating lighting quality.When light source or reflecting surface brightness are too greatly or brightness ratio is too big between light source and the background, all can cause dazzle.Led light source has the advantages that volume is little, brightness is high, therefore in the LED illumination is used, is easy to produce dazzle, and above-mentioned several luminous intensity distribution design, all never special structure that prevents dazzle that is provided with.
Summary of the invention
The objective of the invention is at above shortcomings in the present led light source use, it is simpler, convenient to provide a kind of and existing LED luminous intensity distribution design to compare, and more helps limiting dazzle and has more the glare prevention LED lighting device of the Batwing type light distribution of the luminous intensity distribution design that is suitable for versatility.
For realizing purpose of the present invention, the invention provides a kind of glare prevention LED lighting device of Batwing type light distribution, it is characterized in that being provided with and comprise led light source 1, the glare prevention LED lighting unit U that composite type reflectors 2 and shielding glazing bar 3 are formed, form LED anti-dazzle lighting module by the glare prevention LED lighting unit, form LED anti-dazzle illumination module by LED anti-dazzle lighting module, LED anti-dazzle illumination module is made up of LED anti-dazzle lighting module any permutation and combination in three dimensions, led light source 1 is arranged between two adjacent shields glazing bars 3, shielding glazing bar 3 is arranged in composite type reflectors 2 stretching axial restraints, the inwall of composite type reflectors 2 is the asymmetric reflection face, light intensity is becoming asymmetric distribution perpendicular to composite type reflectors 2 axis directions, the dazzle that shielding glazing bar 3 restriction led light sources 1 produce along composite type reflectors 2 axis directions, the distribution curve flux of the LED anti-dazzle lighting module that is rearranged by glare prevention LED lighting unit U is the bat aerofoil profile, and the distribution curve flux of the LED anti-dazzle illumination module that is rearranged by LED anti-dazzle lighting module is the bat aerofoil profile.
Described LED anti-dazzle lighting module carries out forward and reverse repeated arrangement that interlaces by glare prevention LED lighting unit U along composite type reflectors 2 axis directions to be formed, the bat aerofoil profile of the distribution curve flux that constitutes its lighting device for being combined by the lateral wing type distribution curve flux of forward and reverse lateral wing type distribution curve flux.
Described LED anti-dazzle lighting module is rotated repeated arrangement by glare prevention LED lighting unit U along composite type reflectors 2 axis directions to be formed, and the distribution curve flux that constitutes its lighting device is the lateral wing type distribution curve flux of forward and the bat aerofoil profile that reverse lateral wing type distribution curve flux combines.
One or more glare prevention LED lighting unit carries out repeated arrangement along its composite type reflectors 2 axis directions in three dimensions, the LED anti-dazzle modules A M that can form asymmetric luminous intensity distribution, its illuminating light distribution is similar to the luminous intensity distribution of glare prevention LED lighting unit, is flank formula luminous intensity distribution.
Even number glare prevention LED lighting unit carries out forward and reverse repeated arrangement that interlaces along its composite type reflectors axis direction in three dimensions, the LED anti-dazzle module SM that forms symmetrical luminous intensity distribution, its illuminating light distribution is similar to the mirror image stack of the luminous intensity distribution of glare prevention LED lighting unit U, is Batwing type light distribution.
The LED anti-dazzle module of a plurality of above-mentioned asymmetric luminous intensity distributions is carried out forward and reverse repeated arrangement that interlaces along its composite type reflectors axis direction in three dimensions, can form LED anti-dazzle composite module CM, its luminous intensity distribution can be Batwing type light distribution, also can be the stack of flank formula luminous intensity distribution and Batwing type light distribution, to satisfy special light distribution requirements.
The LED anti-dazzle modules A M of single above-mentioned asymmetric luminous intensity distribution or the LED anti-dazzle module SM of symmetrical luminous intensity distribution, or LED anti-dazzle composite module CM, all can realize illumination and luminous intensity distribution management separately, also can be with above-mentioned three class LED anti-dazzle modules A M, SM, CM in three dimensions) be combined into LED anti-dazzle module with common realization illuminating light distribution and management with any permutation and combination method.
The LED anti-dazzle module SM of the LED anti-dazzle modules A M of asymmetric luminous intensity distribution or symmetrical luminous intensity distribution, or the compound mode of LED anti-dazzle composite module CM in three dimensions, according to concrete application need, it can be repeated arrangement compound mode along arbitrary line section or curved section in the three dimensions, or with respect to the mirror image permutation and combination method of any space plane, also the box-like permutation and combination method of any repetition-mirror set in three dimensions can be, the combined type permutation and combination method of the rotation in the three dimensions and repetition, mirror image can also be.
Above-mentioned by the LED anti-dazzle modules A M of a plurality of asymmetric luminous intensity distributions or the LED anti-dazzle module SM of symmetrical luminous intensity distribution, or the LED anti-dazzle module that in three dimensions, combines of LED anti-dazzle composite module CM, can also form more complicated LED anti-dazzle module by any arrangement mode in the three dimensions, to adapt to more complicated luminous intensity distribution demand.
Described composite type reflectors 2 is whole processing component or overall package parts.Belong to asymmetrical reflector, its inwall is the asymmetric reflection surface; It act as the light that constraint led light source 2 sends, and it is concentrated on led light source 1 over against direction one side, to form side according to centralized light beam form, promptly forms flank formula luminous intensity distribution.
Described shielding glazing bar 3 is whole processing component or overall package parts.It act as the light beam along composite type reflectors 2 axis directions that constraint led light source 1 is sent, to prevent producing dazzle on this direction.
Described composite type reflectors 2 and shielding glazing bar 3 are whole processing component or overall package parts.Inwall is the composite type reflectors of asymmetric reflection face, cover and reflect the light in led light source directive orientation angle zone, to form light distribution effect,, can obtain to meet the flank formula light distribution effect of application demand by adjusting the reflector cross sectional shape to other angular regions side lightings.This reflector mirrors picture is arranged, can be obtained the Overlay of this flank formula luminous intensity distribution and its mirror image luminous intensity distribution, i.e. the Batwing type light distribution effect.Between led light source, set up anti-dazzle shielding glazing bar, to reach the effect that effectively prevents dazzle.Enforcement of the present invention does not need through numerous and diverse design and complicated processing, assembling process, both can realize flank formula luminous intensity distribution or Batwing type light distribution preferably, or flank formula luminous intensity distribution and Batwing type light distribution stack, can effectively suppress the combined type luminous intensity distribution design of dazzle simultaneously.
Design science of the present invention, rational in infrastructure, manufacture easily, easy to assembly, anti-dazzle is effective.Adopting inwall is the composite type reflectors and the shielding glazing bar of asymmetric reflection face, be easy to realize flank formula luminous intensity distribution, Batwing type light distribution and flank formula-comparatively complicated luminous intensity distribution demands such as Batwing type combination luminous intensity distribution, implementation procedure is easy relatively, manufacturing, processing, assembly difficulty have been reduced, thereby reduced production cost, be beneficial to large-scale application.Be combined into module, module with single lighting unit and carry out the illuminating light distribution design, its modular nature makes the luminous intensity distribution design process further obtain simplifying, and helps improving the suitable versatility of its management device simultaneously.
Description of drawings
Figure 1A is a flank formula distribution curve flux of the present invention;
Figure 1B is a Batwing type light distribution curve of the present invention;
Fig. 2 is lambert's shape distribution curve flux of led light source;
Fig. 3 A contains the perspective view of the glare prevention LED lighting unit U of a LEDs light source 1 for the present invention;
Fig. 3 B contains the cross section luminous intensity distribution simulation schematic diagram of the glare prevention LED lighting unit U of a LEDs light source 1 for the present invention;
Fig. 3 C contains the distribution curve flux schematic diagram of the glare prevention LED lighting unit U of a LEDs light source 1 for the present invention;
Fig. 4 A contains the perspective view of the glare prevention LED lighting unit U of two LEDs light sources 1 for the present invention;
Fig. 4 B contains the cross section luminous intensity distribution simulation schematic diagram of the glare prevention LED lighting unit U of two LEDs light sources 1 for the present invention;
Fig. 4 C contains the distribution curve flux schematic diagram of the glare prevention LED lighting unit U of two LEDs light sources 1 for the present invention;
Fig. 5 A is the perspective view of the LED anti-dazzle modules A M of the asymmetric luminous intensity distribution of the present invention;
Fig. 5 B is the decomposition texture schematic diagram of the LED anti-dazzle modules A M of the asymmetric luminous intensity distribution of the present invention;
Fig. 5 C is the luminous intensity distribution schematic cross-section of the LED anti-dazzle modules A M of the asymmetric luminous intensity distribution of the present invention;
Fig. 5 D is the distribution curve flux schematic diagram of the LED anti-dazzle modules A M of the asymmetric luminous intensity distribution of the present invention;
Fig. 6 A is the perspective view of the LED anti-dazzle modules A M of the asymmetric luminous intensity distribution of the present invention;
Fig. 6 B is the decomposition texture schematic diagram of the LED anti-dazzle modules A M of the asymmetric luminous intensity distribution of the present invention;
Fig. 6 C is the luminous intensity distribution schematic cross-section of the LED anti-dazzle modules A M of the asymmetric luminous intensity distribution of the present invention;
Fig. 6 D is the distribution curve flux schematic diagram of the LED anti-dazzle modules A M of the asymmetric luminous intensity distribution of the present invention;
Fig. 7 A is the perspective view of the LED anti-dazzle module SM of the present invention's symmetry luminous intensity distribution;
Fig. 7 B is the decomposition texture schematic diagram of the LED anti-dazzle module SM of the present invention's symmetry luminous intensity distribution;
Fig. 7 C is the luminous intensity distribution schematic cross-section of the LED anti-dazzle module SM of the present invention's symmetry luminous intensity distribution;
Fig. 7 D is the distribution curve flux schematic diagram of the LED anti-dazzle module SM of the present invention's symmetry luminous intensity distribution;
Fig. 8 A is the perspective view of the LED anti-dazzle module SM of the present invention's symmetry luminous intensity distribution;
Fig. 8 B is the decomposition texture schematic diagram of the LED anti-dazzle module SM of the present invention's symmetry luminous intensity distribution;
Fig. 8 C is the luminous intensity distribution schematic cross-section of the LED anti-dazzle module SM of the present invention's symmetry luminous intensity distribution;
Fig. 8 D is the distribution curve flux schematic diagram of the LED anti-dazzle module SM of the present invention's symmetry luminous intensity distribution;
Fig. 9 A is the perspective view of the LED anti-dazzle module of the present invention's symmetry luminous intensity distribution;
Fig. 9 B is the decomposition texture schematic diagram of the LED anti-dazzle module of the present invention's symmetry luminous intensity distribution;
Fig. 9 C is the luminous intensity distribution schematic cross-section of the LED anti-dazzle module of the present invention's symmetry luminous intensity distribution;
Fig. 9 D is the distribution curve flux schematic diagram of the LED anti-dazzle module of the present invention's symmetry luminous intensity distribution;
Figure 10 A is the luminous intensity distribution schematic cross-section of the LED anti-dazzle module formed of the LED anti-dazzle modules A M repeated arrangement of asymmetric luminous intensity distribution;
Figure 10 B is the distribution curve flux schematic diagram of the LED anti-dazzle module formed of the LED anti-dazzle modules A M repeated arrangement of the expressed asymmetric luminous intensity distribution of Figure 10 A;
Figure 10 C is the luminous intensity distribution schematic cross-section of the LED anti-dazzle module that rearranges of the LED anti-dazzle modules A M mirror image of asymmetric luminous intensity distribution;
The distribution curve flux schematic diagram of the LED anti-dazzle module that Figure 10 D rearranges for the LED anti-dazzle modules A M mirror image of the expressed asymmetric luminous intensity distribution of Figure 10 C;
Figure 10 E is the luminous intensity distribution schematic cross-section of the box-like LED anti-dazzle module that rearranges of LED anti-dazzle modules A M repetition-mirror set of asymmetric luminous intensity distribution;
Figure 10 F is the distribution curve flux schematic diagram of the box-like LED anti-dazzle module that rearranges of LED anti-dazzle modules A M repetition-mirror set of the expressed asymmetric luminous intensity distribution of Figure 10 E;
Figure 10 G is the luminous intensity distribution schematic cross-section of the box-like LED anti-dazzle module that rearranges of LED anti-dazzle modules A M rotation-mirror set of asymmetric luminous intensity distribution;
Figure 10 H is the distribution curve flux schematic diagram of the box-like LED anti-dazzle module that rearranges of LED anti-dazzle modules A M rotation-mirror set of the expressed asymmetric luminous intensity distribution of Figure 10 G;
Figure 10 I is the luminous intensity distribution schematic cross-section of the LED anti-dazzle modules A M rotation-repetition-box-like LED anti-dazzle module that rearranges of mirror set of asymmetric luminous intensity distribution;
Figure 10 J is the distribution curve flux schematic diagram of the LED anti-dazzle modules A M rotation-repetition-box-like LED anti-dazzle module that rearranges of mirror set of the expressed asymmetric luminous intensity distribution of Figure 10 I;
Among the figure: the 1LED light source, 2 composite type reflectors, 3 shielding glazing bars, U has the LED lighting unit of asymmetric luminous intensity distribution and anti-dazzle characteristic, the LED anti-dazzle lighting module of the asymmetric luminous intensity distribution of AM, the LED anti-dazzle lighting module of SM symmetry luminous intensity distribution, h is applied to the composite type reflectors-shielding glazing bar unitary member of LED lighting unit, H is applied to the composite type reflectors-shielding glazing bar unitary member of LED lighting module, a is applied to the monoblock type parts of the reflector overall package of LED lighting module, A is applied to the monoblock type parts of the reflector overall package of LED illumination module, and B is applied to the integrally assembled type shielding glazing bar of LED illumination module.
The specific embodiment
As shown in Figure 3, Figure 4, glare prevention LED lighting unit U is made up of led light source 1, composite type reflectors 2 and two shielding glazing bars 3 separated by a distance.The compound cross-section that is shaped as of composite type reflectors 2 forms along a certain straightway or curved section stretching, and shielding glazing bar 3 is arranged in composite type reflectors 2 stretching axial restraints.This LED lighting unit U provides perpendicular to the light distribution characteristic of the composite type reflectors 2 axis directions combined type reflecting surface by composite type reflectors 2, is flank formula luminous intensity distribution; Its dazzle along composite type reflectors 2 axis directions is suppressed by shielding glazing bar 3.
Described glare prevention LED lighting unit U, its inside can only be equipped with a LEDs light source, also can be equipped with plurality of LEDs light source 1, led light source 1 places in the open cavity that two shielding glazing bars 3 and composite type reflectors 2 surround, when plurality of LEDs is arranged in composite type reflectors 2 axis directions, do not influence as shown in Figure 2) perpendicular to the light distribution effect in this composite type reflectors 2 axis direction planes.
Described composite type reflectors 2 can directly be processed into a global facility, also can be the combiner that a plurality of separated components are assembled into, wherein each parts each be responsible for a part of reflector space.Its inwall, promptly the combined type reflecting surface is the high light reflectivity surface, the cross sectional shape of inwall is the combined shaped of many straightways or curved section.
The separate part that described shielding glazing bar 3 can be separation is assemblied in described LED lighting unit U, also can be machined directly to a global facility h with described composite type reflectors 2.Described shielding glazing bar 3 can be selected semi-transparent glazing bar for use, or selects the opaque glazing bar with high light reflectivity surface for use, and its cross sectional shape is the combined shaped of many straightways or curved section.
Form described high light reflectivity surface, can select for use the high metal material of reflecting rate directly to make, for example select the minute surface aluminium sheet for use; Also can cover and increase the light reflective layer not having high reflective material surface, for example the moulding surface is covered and is added mirror film.
Form described semi-transparent glazing bar, can select for use trnaslucent materials directly to be processed into, or select transparent material for use and do translucent processing in its surface, for example surperficial frosted is handled; Can also select opaque material for use, and in Surface Machining mesh loophole.
Single LEDs light source 1 power, luminous flux are limited, be difficult to satisfy the needs that illumination is used, therefore, a plurality of above-mentioned glare prevention LED lighting unit U can be carried out the array permutation and combination along its composite type reflectors 2 axis directions and become LED anti-dazzle module, to reach enough luminous fluxes, satisfy the needs that illumination is used.
This array permutation and combination, can carry out repeated arrangement along its composite type reflectors 2 axis directions by one or more LED lighting unit U, form the asymmetric luminous intensity distribution flank formula luminous intensity distribution that illuminating light distribution is similar to single led lighting unit U) LED anti-dazzle modules A M shown in Fig. 5, Fig. 6 and embodiment 1, embodiment 2); Can also carry out forward and reverse repeated arrangement that interlaces along its composite type reflectors 2 axis directions by the above-mentioned LED lighting unit of even number U, form the symmetrical luminous intensity distribution Batwing type light distribution that illuminating light distribution is similar to the lens picture stack of single led lighting unit U) LED anti-dazzle module SM (shown in Fig. 7, Fig. 8 and embodiment 3, embodiment 4).
Described one or more LED lighting unit U arranges along its composite type reflectors 2 axis directions, resulting LED anti-dazzle module, it arranges axis can be the single straight line consistent with composite type reflectors 2 axis directions of individual module (shown in Fig. 7 and embodiment 3), also can be many straight lines consistent with composite type reflectors 2 axis directions of individual module (shown in Fig. 8 and embodiment 4).
The LED anti-dazzle modules A M of a plurality of above-mentioned asymmetric luminous intensity distributions can also carry out reverse repeated arrangement along its composite type reflectors 2 axis directions in three dimensions, form LED anti-dazzle composite module CM.When the LED of the identical asymmetric luminous intensity distribution of even number anti-dazzle modules A M carries out forward and reverse interlacing during repeated arrangement along its composite type reflectors 2 axis directions, form LED anti-dazzle composite module CM luminous intensity distribution be symmetrical luminous intensity distribution, and its luminous intensity distribution is similar to the mirror image stack (Batwing type light distribution) of the luminous intensity distribution of this asymmetric light-distribution LED anti-dazzle modules A M; When the asymmetric light-distribution LED anti-dazzle modules A M quantity of forming this LED anti-dazzle composite module CM was odd number, its luminous intensity distribution was similar to the stack of one or more Batwing type light distribution and single flank formula luminous intensity distribution.
Described a plurality of LED lighting unit U forms the LED anti-dazzle modules A M of asymmetric luminous intensity distribution or the LED anti-dazzle module SM of symmetrical luminous intensity distribution, or during LED anti-dazzle composite module CM, its composite type reflectors 2 that contains each glare prevention LED lighting unit U can be provided with separately, also can directly be processed into an overall composite reflector 2 and act on a plurality of LED lighting unit U simultaneously.Perhaps a plurality of above-mentioned composite type reflectors 2 that combine by separating component, the parts that its function is identical directly are processed into the monoblock type parts a of the reflector overall package of a plurality of LED of being applied to lighting modules, and be assembled into the composite type reflectors 2 of an integrally assembled type, and act on a plurality of LED lighting unit U simultaneously by the described monoblock type parts a of a plurality of difference in functionalitys.
The LED anti-dazzle module SM of the LED anti-dazzle modules A M of described asymmetric luminous intensity distribution or symmetrical luminous intensity distribution, or among the LED anti-dazzle composite module CM, the shielding glazing bar 3 (shown in Fig. 5, Fig. 8 and embodiment 1, embodiment 4) that its two glare prevention LED lighting unit U that face mutually can shared boundary.All shielding glazing bars 3 that each LED lighting unit U is contained can be provided with separately, also can directly be processed into a composite type reflectors-shielding glazing bar unitary member H who is applied to the LED lighting module, and act on a plurality of LED lighting unit U simultaneously with composite type reflectors 2.
The LED anti-dazzle modules A M of single above-mentioned asymmetric luminous intensity distribution or the LED anti-dazzle module SM of symmetrical luminous intensity distribution, or LED anti-dazzle composite module CM, all can realize the management of illumination and luminous intensity distribution separately, also can in three dimensions, three above-mentioned class LED anti-dazzle modules (AM, SM, CM) be combined into LED anti-dazzle module with common realization illuminating light distribution and management with any permutation and combination method.
The LED anti-dazzle module SM of the LED anti-dazzle modules A M of described asymmetric luminous intensity distribution or symmetrical luminous intensity distribution, or the compound mode of LED anti-dazzle composite module CM in three dimensions, according to concrete application need, it can be repeated arrangement compound mode along arbitrary line section or curved section in the three dimensions, or with respect to the mirror image permutation and combination method of any space plane, also can be any repetition in three dimensions-mirror image combination permutation and combination method, can also be the rotation in the three dimensions and repetition, the box-like permutation and combination method of mirror set.
Above-mentioned by the LED anti-dazzle modules A M of a plurality of asymmetric luminous intensity distributions or the LED anti-dazzle module SM of symmetrical luminous intensity distribution, or the LED anti-dazzle module that in three dimensions, combines of LED anti-dazzle composite module CM, can also form more complicated LED anti-dazzle module by any arrangement mode in the three dimensions, to adapt to more complicated luminous intensity distribution demand.
Identical aforementioned, the composite type reflectors 2 that is comprised in the whole described LED anti-dazzle module both can be separated components with shielding glazing bar 3 and had assembled, also can be machined directly to the several parts that relate to a plurality of LED lighting unit U and assemble, can also directly be processed into a global facility.
As shown in Figure 5, a kind of LED anti-dazzle lighting module AM of asymmetric luminous intensity distribution carries out repeated arrangement by a plurality of LED lighting unit U that have asymmetric luminous intensity distribution and anti-dazzle characteristic along its composite type reflectors 2 axis directions and obtains.The LED lighting unit U that forms this LED anti-dazzle lighting module AM, it provides perpendicular to the light distribution characteristic of the composite type reflectors 2 axis directions combined type reflecting surface by composite type reflectors 2, is flank formula luminous intensity distribution; Its dazzle along composite type reflectors 2 axis directions is suppressed by shielding glazing bar 3.The LED anti-dazzle lighting module AM of this asymmetric luminous intensity distribution, its luminous intensity distribution is similar to the luminous intensity distribution of single led lighting unit Ud, is flank formula luminous intensity distribution.
The LED anti-dazzle lighting module AM of shown asymmetric luminous intensity distribution, its each have asymmetric luminous intensity distribution and an anti-dazzle characteristic LED lighting unit U contain two led light sources 1; The contained led light source 1 of all LED lighting unit U is arranged in straight line along the arragement direction (being composite type reflectors 2 axis directions) of LED lighting unit U; The shielding glazing bar 3 of two adjacent shared boundaries of LED lighting unit U; Its composite type reflectors 2 is the reflector of integrally assembled type, is combined by two monoblock type parts a that are applied to the reflector overall package of LED lighting module.
The LED anti-dazzle lighting module AM of this asymmetric luminous intensity distribution, the monoblock type parts (a) of its composite type reflectors 2 are made for the minute surface aluminium sheet, have the high light reflectivity surface, two monoblock type parts (a) inner wall shape of its composite type reflectors 2 is respectively curved section combination and straightway; Its shielding glazing bar 3 is transparent PC material, and surperficial frosted is handled.
As shown in Figure 6, the LED anti-dazzle lighting module AM of another kind of asymmetric luminous intensity distribution carries out repeated arrangement by a plurality of LED lighting unit U that have asymmetric luminous intensity distribution and anti-dazzle characteristic along its composite type reflectors 2 axis directions and obtains.The LED lighting unit U that forms this LED anti-dazzle lighting module AM, it provides perpendicular to the light distribution characteristic of the composite type reflectors 2 axis directions combined type reflecting surface by composite type reflectors 2, is flank formula luminous intensity distribution; Its dazzle along composite type reflectors 2 axis directions is suppressed by shielding glazing bar 3.The LED anti-dazzle lighting module AM of this asymmetric luminous intensity distribution, its luminous intensity distribution is similar to the luminous intensity distribution of single led lighting unit U, is flank formula luminous intensity distribution.
The LED anti-dazzle lighting module AM of shown asymmetric luminous intensity distribution, its each have asymmetric luminous intensity distribution and an anti-dazzle characteristic LED lighting unit U contain a led light source 1 and a composite type reflectors-shielding glazing bar unitary member h who is applied to the LED lighting unit; All contained led light sources 1 of LED lighting unit U are arranged in straight line.
The composite type reflectors that is applied to the LED lighting unit described in the present embodiment-shielding glazing bar unitary member h, composite type reflectors 2 and two shielding glazing bars 3 that these parts have concentrated single led lighting unit U to be contained, and directly be processed into as a whole by Shooting Technique.This composite type reflectors-shielding glazing bar unitary member h inwall is electroplated specular layer, to form the high light reflectivity surface; Its inwall is the combination of many straightways and many curved sections perpendicular to the cross sectional shape of composite type reflectors 2 axis directions.
The LED anti-dazzle lighting module AM of this asymmetric luminous intensity distribution, there is a determining deviation between per two adjacent LED lighting unit U that have asymmetric luminous intensity distribution and anti-dazzle characteristic that it contained, and realize being linked and packed by the syndeton on its composite type reflectors-shielding glazing bar unitary member h, form the LED anti-dazzle lighting module AM of asymmetric luminous intensity distribution.
As shown in Figure 7, a kind of LED anti-dazzle lighting module SM of symmetrical luminous intensity distribution, the LED lighting unit U that has asymmetric luminous intensity distribution and anti-dazzle characteristic that forms this LED anti-dazzle lighting module SM, identical with the LED lighting unit U that forms the LED anti-dazzle lighting module AM of asymmetric luminous intensity distribution shown in above-mentioned Fig. 6 and the embodiment 2, only become and carry out reverse repeated arrangement by carrying out repeated arrangement along the arrangement mode of its composite type reflectors 2 axis directions for its LED lighting unit U.The LED anti-dazzle lighting module SM of the symmetrical luminous intensity distribution that obtains, its luminous intensity distribution are similar to the lens picture stack of the asymmetric light-distribution LED anti-dazzle modules A M shown in Fig. 6 and the embodiment 2, i.e. the mirror image of flank formula luminous intensity distribution stack is Batwing type light distribution.The realization of its anti-dazzle, its building block and assembling mode all duplicate in the asymmetric light-distribution LED anti-dazzle modules A M shown in Fig. 6 and the embodiment 2.
Embodiment 4
As shown in Figure 8, the LED anti-dazzle lighting module SM of another kind of symmetrical luminous intensity distribution carries out forward and reverse repeated arrangement that interlaces by a plurality of LED lighting unit U that have asymmetric luminous intensity distribution and anti-dazzle characteristic along its composite type reflectors 2 axis directions and obtains.The LED lighting unit U that forms this LED anti-dazzle lighting module SM, it provides perpendicular to the light distribution characteristic of the composite type reflectors 2 axis directions combined type reflecting surface by composite type reflectors 2, is flank formula luminous intensity distribution; Its dazzle along composite type reflectors 2 axis directions is suppressed by shielding glazing bar 3.The LED anti-dazzle lighting module SM of this symmetry luminous intensity distribution, its luminous intensity distribution are similar to the lens picture stack of single led lighting unit U, are Batwing type light distribution.
The LED anti-dazzle lighting module SM of shown symmetrical luminous intensity distribution, its each have asymmetric luminous intensity distribution and an anti-dazzle characteristic LED lighting unit U contain a led light source 1; Contained all led light sources 1 of LED anti-dazzle lighting module SM are arranged in two straight lines that are parallel to each other along the arragement direction (being composite type reflectors 2 axis directions) of LED lighting unit U; The shielding glazing bar 3 of two adjacent shared boundaries of LED lighting unit U; The composite type reflectors 2 of its contained all LED lighting unit U directly is processed into a composite type reflectors-shielding glazing bar unitary member H who is applied to the LED lighting module with shielding glazing bar 3.
The composite type reflectors that is applied to the LED lighting module described in the present embodiment-shielding glazing bar unitary member h, this parts concentrated contain the composite type reflectors 2 and shielding glazing bar 3 of whole LED lighting unit U, and directly be processed into as a whole by Shooting Technique.This composite type reflectors-shielding glazing bar unitary member H inwall is electroplated specular layer, to form the high light reflectivity surface; Its inwall is the combination of many straightways and many curved sections perpendicular to the cross sectional shape of composite type reflectors 2 axis directions.
Embodiment 5
As shown in Figure 9, a kind of LED anti-dazzle module of symmetrical luminous intensity distribution rearranges perpendicular to the axis direction mirror image of its composite type reflectors 2 as the LED anti-dazzle modules A M of Fig. 5 and embodiment 1 described asymmetric luminous intensity distribution by two.Its luminous intensity distribution is similar to the lens picture stack of this asymmetric light-distribution LED anti-dazzle modules A M, is the batswing tab luminous intensity distribution.
In the LED of this symmetry luminous intensity distribution anti-dazzle module, the LED anti-dazzle modules A M mirror image of two asymmetric luminous intensity distributions is arranged, its contained LED lighting unit U orientation unanimity that has asymmetric luminous intensity distribution and anti-dazzle characteristic.Each LED lighting unit U contains two led light sources 1, and all led light sources 1 are arranged in two straight lines that are parallel to each other.
As the LED anti-dazzle modules A M of Fig. 5 and embodiment 1 described asymmetric luminous intensity distribution, contain two monoblock type parts a that are applied to the reflector overall package of LED lighting module.In the described LED anti-dazzle of present embodiment module, there is the monoblock type parts a of two reflector overall package to be machined directly to a monoblock type parts A who is applied to the reflector overall package of LED illumination module.Simultaneously, the LED anti-dazzle modules A M of two asymmetric luminous intensity distributions, its shielding glazing bar 3 that is positioned at same LED lighting unit U position also directly is processed into an integrally assembled type shielding glazing bar B who is applied to LED anti-dazzle illumination module, and acts on the LED anti-dazzle modules A M of two asymmetric luminous intensity distributions simultaneously.
The monoblock type parts A of the reflector overall package of the described LED of being applied to illumination module is that specular aluminium sheet material material is made; The integrally assembled type shielding glazing bar B of the described LED of being applied to anti-dazzle illumination module is that transparent PC material is made, and surperficial frosted is handled.
Above drawings and Examples are to cover the included content of the present invention fully for the present invention being further specified, should not be construed as.
Claims (6)
1. the glare prevention LED lighting device of a Batwing type light distribution, it is characterized in that being provided with and comprise led light source (1), the glare prevention LED lighting unit (U) that composite type reflectors (2) and shielding glazing bar (3) are formed, form LED anti-dazzle lighting module by the glare prevention LED lighting unit, form LED anti-dazzle illumination module by LED anti-dazzle lighting module, LED anti-dazzle illumination module is made up of LED anti-dazzle lighting module any permutation and combination in three dimensions, led light source (1) is arranged between two adjacent shields glazing bars (3), shielding glazing bar (3) is arranged in composite type reflectors (2) stretching axial restraint, the inwall of composite type reflectors (2) is the asymmetric reflection face, light intensity is becoming asymmetric distribution perpendicular to composite type reflectors (2) axis direction, the dazzle that shielding glazing bar (3) restriction led light source (1) produces along composite type reflectors (2) axis direction, the distribution curve flux of the LED anti-dazzle lighting module that is rearranged by glare prevention LED lighting unit (U) is the bat aerofoil profile, and the distribution curve flux of the LED anti-dazzle illumination module that is rearranged by LED anti-dazzle lighting module is the bat aerofoil profile.
2. the glare prevention LED lighting device of Batwing type light distribution according to claim 1, it is characterized in that described LED anti-dazzle lighting module carries out forward and reverse repeated arrangement that interlaces by glare prevention LED lighting unit (U) along composite type reflectors (2) axis direction and forms, the bat aerofoil profile of the distribution curve flux that constitutes its lighting device for combining by the lateral wing type distribution curve flux of forward and reverse lateral wing type distribution curve flux.
3. the glare prevention LED lighting device of Batwing type light distribution according to claim 1, it is characterized in that described LED anti-dazzle lighting module is rotated repeated arrangement by glare prevention LED lighting unit (U) along composite type reflectors (2) axis direction and forms, the distribution curve flux that constitutes its lighting device is the lateral wing type distribution curve flux of forward and the bat aerofoil profile that reverse lateral wing type distribution curve flux combines.
4. the glare prevention LED lighting device of Batwing type light distribution according to claim 1 is characterized in that described composite type reflectors (2) is whole processing component or overall package parts.
5. the glare prevention LED lighting device of Batwing type light distribution according to claim 1 is characterized in that described shielding glazing bar (3) is whole processing component or overall package parts.
6. the glare prevention LED lighting device of Batwing type light distribution according to claim 1 is characterized in that described composite type reflectors (2) and shielding glazing bar (3) are whole processing component or overall package parts.
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CN2010100055398A CN101818859B (en) | 2008-01-22 | 2008-01-22 | Glare prevention LED lighting device of batwing type light distribution |
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CN2008100195752A Division CN101220928B (en) | 2008-01-22 | 2008-01-22 | Anti-dazzle LED illumination device |
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CN102734689A (en) * | 2011-03-31 | 2012-10-17 | 海洋王照明科技股份有限公司 | Enclosure road light |
CN103148456A (en) * | 2013-03-08 | 2013-06-12 | 亿森(常州)光电科技有限公司 | Reflector provided with anti-glare light panels |
CN104864364A (en) * | 2015-06-08 | 2015-08-26 | 赵党生 | Combined type light interception structure and LED lamp and LED lamp tube |
CN104896346A (en) * | 2015-06-19 | 2015-09-09 | 厦门市信达光电科技有限公司 | Anti-dazzle lighting module |
CN104913246A (en) * | 2015-06-19 | 2015-09-16 | 厦门市信达光电科技有限公司 | Anti-dazzling project lamp |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN102734689A (en) * | 2011-03-31 | 2012-10-17 | 海洋王照明科技股份有限公司 | Enclosure road light |
CN102734689B (en) * | 2011-03-31 | 2015-05-20 | 海洋王照明科技股份有限公司 | Enclosure road light |
CN103148456A (en) * | 2013-03-08 | 2013-06-12 | 亿森(常州)光电科技有限公司 | Reflector provided with anti-glare light panels |
CN104864364A (en) * | 2015-06-08 | 2015-08-26 | 赵党生 | Combined type light interception structure and LED lamp and LED lamp tube |
CN104864364B (en) * | 2015-06-08 | 2018-08-10 | 赵党生 | A kind of combined type section photo structure and LED light and LED lamp tube |
CN104896346A (en) * | 2015-06-19 | 2015-09-09 | 厦门市信达光电科技有限公司 | Anti-dazzle lighting module |
CN104913246A (en) * | 2015-06-19 | 2015-09-16 | 厦门市信达光电科技有限公司 | Anti-dazzling project lamp |
CN107975682A (en) * | 2017-11-16 | 2018-05-01 | 江门市江海区康欣电子科技有限公司 | A kind of double light source lamp beads |
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