WO2009046586A1 - A method of providing light distribution, a cup for providing light distribution, and a roadway lamp using the cup - Google Patents

A method of providing light distribution, a cup for providing light distribution, and a roadway lamp using the cup Download PDF

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Publication number
WO2009046586A1
WO2009046586A1 PCT/CN2007/003303 CN2007003303W WO2009046586A1 WO 2009046586 A1 WO2009046586 A1 WO 2009046586A1 CN 2007003303 W CN2007003303 W CN 2007003303W WO 2009046586 A1 WO2009046586 A1 WO 2009046586A1
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WO
WIPO (PCT)
Prior art keywords
cup
light
light distribution
wall
angle
Prior art date
Application number
PCT/CN2007/003303
Other languages
French (fr)
Chinese (zh)
Inventor
Jinbo Jiang
Sandy To
Ben Fan
Wingbun Lee
Chifai Cheung
Original Assignee
He Shan Lide Electronic Enterprise Company Ltd.
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Filing date
Publication date
Application filed by He Shan Lide Electronic Enterprise Company Ltd. filed Critical He Shan Lide Electronic Enterprise Company Ltd.
Publication of WO2009046586A1 publication Critical patent/WO2009046586A1/en

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V7/00Reflectors for light sources
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21SNON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
    • F21S8/00Lighting devices intended for fixed installation
    • F21S8/08Lighting devices intended for fixed installation with a standard
    • F21S8/085Lighting devices intended for fixed installation with a standard of high-built type, e.g. street light
    • F21S8/086Lighting devices intended for fixed installation with a standard of high-built type, e.g. street light with lighting device attached sideways of the standard, e.g. for roads and highways
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21SNON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
    • F21S13/00Non-electric lighting devices or systems employing a point-like light source; Non-electric lighting devices or systems employing a light source of unspecified shape
    • F21S13/02Devices intended to be fixed, e.g. ceiling lamp, wall lamp
    • F21S13/10Devices intended to be fixed, e.g. ceiling lamp, wall lamp with a standard, e.g. street lamp
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V7/00Reflectors for light sources
    • F21V7/0083Array of reflectors for a cluster of light sources, e.g. arrangement of multiple light sources in one plane
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V7/00Reflectors for light sources
    • F21V7/04Optical design
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21WINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO USES OR APPLICATIONS OF LIGHTING DEVICES OR SYSTEMS
    • F21W2131/00Use or application of lighting devices or systems not provided for in codes F21W2102/00-F21W2121/00
    • F21W2131/10Outdoor lighting
    • F21W2131/103Outdoor lighting of streets or roads
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
    • F21Y2115/00Light-generating elements of semiconductor light sources
    • F21Y2115/10Light-emitting diodes [LED]

Definitions

  • the present invention relates to a light distribution method, and more particularly to a light distribution method.
  • the present invention also relates to a lighting fixture accessory for implementing the method, and more particularly to a light distribution cup.
  • the present invention relates to a light fixture, A street light using the above-mentioned light distribution cup. Background technique .
  • the street lamp generally comprises a light pole, a lamp head mounted on the top of the lamp pole, a light distribution cup mounted in the lamp head, and a light source disposed in the light distribution cup.
  • the light from the point source radiates to the three-dimensional space.
  • the function of the light distribution cup is to diverge the point source upwards and horizontally.
  • the light is reflected downwards to improve lighting efficiency.
  • the existing light distribution cups are generally trumpet-shaped, and the light forms a circular spot after the light distribution cup.
  • the light distribution cup of the structure has a reflective wall design that is not scientific enough, and some of the light needs to pass two or more times.
  • the light can be emitted outside the light distribution cup, and even some of the light can not be reflected out, which causes the waste of light energy to a certain extent.
  • the light distribution cup illuminates the road surface to form a circular spot, the light distribution The light reflected by the cup will partially illuminate the outside of the road, and some will overlap with the street light on the other side of the road, resulting in waste of light energy.
  • the street light is distributed in the length of the road, it is also needed. Install more street lights within the unit length to maintain continuity of road brightness.
  • the technical problem to be solved by the present invention is to provide a light distribution method which can convert a singular light emitted by a point source into a rectangular spot with uniform illumination.
  • a light distribution method the light emitted by the light source is directly irradiated to the outside of the light distribution cup, and partially irradiated to the inner wall of the light distribution cup, and then reflected to the outside of the light distribution cup, and the light directly irradiated to the outside of the light distribution cup constitutes a rectangular main spot, and is irradiated
  • the light reflected after the inner wall of the light distribution cup constitutes a rectangular superimposed spot corresponding to the shape of the main spot.
  • the invention has the beneficial effects that: according to the invention, the point light source is converted into a rectangular spot, which is advantageous for the invention to use the reflected light passing through the inner wall of the light distribution cup in a narrow space to form a rectangle corresponding to the shape of the main spot.
  • the illumination efficiency of the present invention is higher, the illumination brightness is more ambiguous, and the light spots are more uniform.
  • the light exiting angle of the main spot is a predetermined value, and the light exiting the inner wall of the cup is the same as the light exiting angle of the main spot, and the light exiting from the cup to the inner wall of the cup is at a predetermined angle. Gradient within the range.
  • the angle of the light beam constituting the main spot is a predetermined value, and the relationship between the distance between the light source and the target illuminant and the spot size can be calculated according to the Pythagorean theorem, and the illumination brightness and the illumination area are determined; due to the reflection of the inner wall of the cup of the light distribution cup
  • the light exiting angle is the same as the light exit angle of the main spot, and the light exiting angle of the reflected light from the cup mouth to the inner wall of the cup is gradually changed within a predetermined angle range, so that the superimposed aperture is superimposed on the peripheral portion of the main aperture light to make the spot more uniform.
  • the light exiting angle of the reflected light that is irradiated onto the inner wall of the light distribution cup is uniformly changed from the cup mouth to the inner wall of the cup bottom.
  • the exit angle of the main spot is 30°; the angle of the light reflected from the inner wall of the light distribution cup is gradually changed from 30° to 0° from the cup to the bottom of the cup.
  • the light exit angle of the main spot is 62°; the light exiting the reflected light from the inner wall of the light distribution cup is gradually changed from 30° to 62° from the cup to the bottom of the cup.
  • the technical problem to be solved by the present invention is to provide a light distribution cup which can emit a rectangular spot with high light extraction rate, high brightness and uniform illumination.
  • a light distribution cup comprising a cup bottom and a cup wall, the inner surface of the cup bottom and the cup wall is provided with a reflective layer, and the center of the bottom of the cup is used for mounting a light source, wherein: the bottom of the cup is rectangular, and the inner surface of the cup wall is inner The concave curved surface, the cup wall is wrapped around the edge of the cup body to form a rectangular cup mouth.
  • the invention has the beneficial effects that: since the cup mouth is rectangular, a rectangular spot can be generated, so that the invention can be used in a narrow space, so that on the one hand, the shape of the light exiting the cup is rectangular; and since the inner surface of the cup wall is inside The concave arc surface, the cup wall is surrounded by the edge of the cup body, forming a rectangular cup mouth, so that the reflected light can produce a rectangular spot similar to the main spot, and the two are superimposed, the illumination brightness is higher, the spot is more uniform, and the illumination efficiency is higher.
  • the main light exiting angle is a predetermined value
  • the concave curved surface of the cup wall is a free curved surface calculated by an integral iteration method according to Snell's law, and the free curved surface has a light exiting angle of the cup mouth which is the same as the main light exiting angle
  • the structure in which the angle of the light reflected from the cup to the bottom of the cup is gradually changed within a predetermined angle range.
  • the wall of the cup has a structure in which the angle of light of the reflected light of the cup to the bottom of the cup changes uniformly.
  • the wall of the cup in the longitudinal direction has a main light-emitting angle of 30°, and the light-emitting angle of the reflected light is gradually changed from 30° to 0° from the cup to the bottom of the cup.
  • the wall of the cup in the width direction has a main light-emitting angle of 62°; the light-emitting angle of the reflected light is gradually changed from 62° to 30° from the cup to the bottom of the cup.
  • a light source mounting hole is disposed in the center of the bottom of the cup.
  • the reflective layer is a dielectric film or a metal film.
  • a street lamp comprising a light pole, a light distribution cup mounted on the top of the light pole, a light source disposed in the light distribution cup, wherein the light distribution cup is the light distribution cup, and the long side of the cup mouth is in the same direction as the road direction.
  • the beneficial effects of the invention are: Since the light distribution cup can produce a rectangular, high-brightness, uniform illumination spot, the distance between the two light poles can be further apart under the same illumination intensity compared with the circular light spot. In this way, the number of street lamps installed on a unit length of the road can be reduced, achieving the effect of saving the number of street lamps and saving energy.
  • a plurality of light distribution cups are mounted on the top of the light pole, and each light source is disposed in each of the light distribution cups.
  • the plurality of light distribution cups are arranged neatly or staggered
  • the light source is a high power LED.
  • FIG. 1 is a schematic structural view of a light distribution cup of the present invention
  • FIG. 2 is a schematic structural view of a cross section of an inner wall of the light distribution cup of the present invention
  • 3a is a schematic view of a light distribution plan in the width direction of the light distribution cup of the present invention.
  • Figure 3b is a schematic view of the light distribution scheme of the light distribution cup of the present invention.
  • Figure 5 is a schematic structural view of a first embodiment of a street lamp of the present invention.
  • Figure 6 is a schematic structural view of a second embodiment of the street lamp of the present invention.
  • FIG. 7 is a second structural schematic view of a lamp cap of a second embodiment of the street lamp of the present invention.
  • Fig. 8 is a third structural schematic view of the base of the second embodiment of the street lamp of the present invention. detailed description
  • the light distribution cup 1 is a rectangular shell, and the bottom 11 of the cup is rectangular, and a light source mounting hole is disposed in the center.
  • the light source should adopt a point light source 14 as long as the light emitted by it is a Lambertian body. Radiation can be used.
  • the light source can be selected from a high power LED, a tungsten lamp or a fluorescent lamp.
  • the four cup walls 12 and 13 are arranged in a rectangular cup mouth, and the inner surfaces of the cup bottom 11 and the cup walls 12 and 13 are provided with a light reflecting layer, which may be a dielectric film such as + TiO Si0 2 or MgF 2 , or may be Metal film such as aluminized, silver plated, can also be directly on the bottom of the cup 11 and the cup wall 12, 13 smooth polished, or other methods that can ensure that the surface achieves a considerable reflective effect.
  • a light reflecting layer which may be a dielectric film such as + TiO Si0 2 or MgF 2 , or may be Metal film such as aluminized, silver plated, can also be directly on the bottom of the cup 11 and the cup wall 12, 13 smooth polished, or other methods that can ensure that the surface achieves a considerable reflective effect.
  • the cup walls 12, 13 should be designed to reflect the light from the point source 14 in the center of the cup bottom 11 to the outside of the light distribution cup 1 to reduce the loss of light energy caused by multiple reflections of light in the light distribution cup 1 according to Sneek.
  • the law can do this by properly designing the angle between the cup walls 12, 13 and the bottom 11 of the cup.
  • the spot light projected by the light distribution cup 1 is finally controlled.
  • the shape and the brightness of each area of the spot are preferably designed to have concave walls on the cup walls 12, 13. .
  • the structure and design principle of the light distribution cup 1 of the present invention will be described below by taking the design of the cup wall 13 in the longitudinal direction of the light distribution cup 1.
  • the center of the cup bottom U that is, the light source 14 is used as the origin to establish two-dimensional. Coordinates, the vertical direction is the Y axis, and the 7J flat direction is the X axis.
  • the light exit angle of the main spot is the maximum angle between the light directly emitted from the light distribution cup and the axis of the light distribution cup (that is, the X axis in FIG. 4), which can be said to be just right.
  • the exit angle of the main spot has a great influence on the shape and brightness of the spot.
  • the designer can use the Pythagorean theorem to determine the actual needs, for example, if the present invention is applied to a street lamp, the reference angle of the exit angle is 30°, the installation height is 12 ⁇ , and the spot having a width of 13.8 is obtained. .
  • the angle of the emitted light of the reflected light refers to the angle between the reflected light that is incident on each of the inner walls 13 of the light distribution cup 1 and the axis of the light distribution cup 1.
  • the reflected light is reflected. Due to the reflection of the four-cup wall 13, the superimposed spot of the composition is also a rectangle similar to the main spot, and the angle of the reflected light of each point on the wall 13 is controlled by designing the curvature of the cup wall 13, thereby controlling the superimposed spot.
  • the shape and brightness of the superimposed light spot are superimposed on the weaker area of the main spot, and finally the brightness of the spot obtained by the light distribution of the light distribution cup is relatively uniform.
  • the maximum exit angle is determined, that is, the angle between the reflected light that is irradiated to the uppermost edge of the cup wall 13 and the axis of the light distribution cup 1.
  • the purpose of the present invention is to superimpose the superimposed spot on the weaker peripheral light of the main spot.
  • the maximum exit angle should be equal to the exit angle of the main spot so that the light that strikes the edge of the left cup can be reflected to the rightmost edge of the main spot; then, the design is illuminated to the wall below the edge of the cup.
  • the exit angle of the reflected light is reduced in proportion, and the reflected light moves toward the inside of the main spot.
  • the superimposed spot of the main spot from the outside to the inside can be formed, so that the overall brightness of the final spot is uniform.
  • the surface of the cup wall that realizes the above-mentioned reflective function is actually a free-form surface calculated by the integral iteration method according to Snell's law. Referring to Fig. 4, the curve of the cross-section of the curved surface satisfies the following equations:
  • Tan(a) y,,., yford + ⁇ , the height of the cup wall 13 (ie, the axis coordinate of the cup mouth) is 10, the width of the bottom of the cup is 6 solid, and the light exit angle of the main spot is 30°, and the irradiation is
  • the light-emitting angle of the reflected light of the inner wall 13 of the light distribution cup is determined by the ratio of 30° to 0° in the order of the cup to the bottom of the cup, and the height of the wall is equally divided into one thousand points.
  • is the current point of numerical calculation
  • ⁇ +1 is the next point of numerical calculation
  • ⁇ , Ay is the micro-quantity of the curve in the x and y directions.
  • the coordinates of each point on the curve can be calculated from the bottom up by the numerical calculation method of the integral iteration.
  • the coordinates of the first point are (3. 00577, 0.01)
  • the coordinates of the second point are (3. 01152, 0. 02 )
  • the coordinates of the third point are (3. 0 ⁇ 726, 0. 03).
  • the coordinates of the last point are (5. 77350, 10).
  • the direction of the ⁇ is divided into 1000 points. To integrate, according to the actual accuracy, you can expand or reduce the integration point accordingly. For the same reason, the free surface of the cup wall in the width direction of the ffi light cup can be designed.
  • the light exiting angle of the main spot in the width direction of the light distribution cup is 62°, and is irradiated to the mouth of the light distribution cup.
  • the light exiting angle of the inner wall 13 is gradually changed from 62° to 30° by the cup mouth to the bottom of the cup. For example, when the final height of the light distribution cup 1 is 12M, a uniform circular spot of 40MX13. 8M is obtained.
  • the calculation of the above points can be assisted by computer software, and then the points are connected into a smooth curve, and then the model is generated by computer graphics software, and finally can be manufactured by CNC machine tool processing or precision casting method.
  • a street lamp using the above-mentioned light distribution cup 1 has two embodiments.
  • One is to install a light distribution cup 1 as described above on the top of the light pole 2, and a light source 14 is disposed in the light distribution cup 1.
  • the light source can be a high pressure sodium lamp or a high power LED, and the rectangular cup mouth of the light distribution cup 1 is in the direction of the road.
  • the length direction of the rectangular spot extends along the direction of the road. Compared with the circular spot, the spot is prevented from overlapping at the center of the road and the portion of the spot is projected outside the road. Under the same illumination intensity, the distance between the two poles can be separated.
  • the number of street lamps installed on a unit-length road can be reduced, saving the number of street lamps and saving energy.
  • a light distribution plate 15 having a astigmatism structure in front of the reflective light distribution cup to be used, which can function as an anti-glare.
  • another embodiment of the street lamp may further include a lamp cap 3 disposed at the top of the lamp post, and a plurality of light distribution cups 1 as described above disposed in the cap 3, each of the light distribution cups 1 A light source 14 is disposed in each of the plurality, and the long sides of all the cups are parallel to the direction of the road.
  • the arrangement of the plurality of light distribution cups 1 may be staggered as shown in FIG. 7, or may be 3303 The neat arrangement shown in Figure 8.
  • the size and brightness of the spot are related to the brightness of the street lamp and the number of LEDs.
  • the following are the test data of the various heights of the present invention and the number of LEDs. The user can select according to actual needs in the implementation design.
  • the luminous flux of the above lamps is the data obtained from a luminaire test.
  • the LEDs selected are 1W LEDs.

Abstract

A method of providing light distribution involves directly irradiating a part of light beam emitting from a light source (14) to the outer of a cup for providing light distribution, leading the other light beam emitting from the light source (14) to irradiate the inner wall (12, 13) of the cup, and then reflecting them to the outer of the cup, wherein the light beam directly irradiated forms a rectangular main light spot, and the light beam reflectively irradiated forms a rectangular light spot which superposes with the main light spot and has a shape corresponding to the shape of the main light spot. A cup for providing light distribution includes a base (11) and walls (12, 13), the center of the base (11) is used for installing a light source (14), the base (11) has a shape of rectangular, the interior surfaces of the walls (12,13) are inwardlydished cambered surfaces, and the walls (12, 13) surround the body of the cup and form a rectangular opening. A roadway lamp using the cup includes a lamppost and the cup provided on the top of the lamppost, the inside of the cup is provided with the light source (14), and the long sides of the opening of the cup and the road have the same direction.

Description

—种配光方法、 配光杯及采用该配光杯的路灯 技术领域  - Light distribution method, light distribution cup and street lamp using the same
本发明涉及一种光路设计方法, 特别涉及一种配光方法; 本发明还涉及一种实现所述方 法的照明灯具配件, 特别涉及一种配光杯; 最后, 本发明涉及一种灯具, 一种使用上述配光 杯的路灯。 背景技术 .  The present invention relates to a light distribution method, and more particularly to a light distribution method. The present invention also relates to a lighting fixture accessory for implementing the method, and more particularly to a light distribution cup. Finally, the present invention relates to a light fixture, A street light using the above-mentioned light distribution cup. Background technique .
路灯一般包括灯杆, 安装在灯杆顶端的灯头, 灯头内安装有配光杯, 配光杯内设置有光 源。 点光源发出的光线向立体空间呈朗伯体辐射, 对于道路照明来说, 我们仅仅需要向下一 个方向的照明就够了, 所以, 配光杯的作用就在于将点光源向上和水平方向发散的光线向下 反射, 以提高照明效率。 现有的配光杯一般是喇叭状的, 光线经配光杯作用后, 形成一个圆 形的光斑, 这种结构的配光杯, 其反射壁设计不够科学, 部分光线需要经过二次或多次反射 后才能射出配光杯外, 甚至有部分光无法反射出去, 在一定程度上造成光能的浪费; 再者, 由于这种配光杯照射到路面形成圆形光斑, 这样, 该配光杯反射的光线就会有部分照射到路 外面, 又会有部分与路另一侧的路灯发生重叠, 造成的光能的浪费; 同时, 由于路灯在道路 的长度方向分布较短,所以还需要在单位长度内安装较多的路灯才能保持道路亮度的连续性。 发明内容  The street lamp generally comprises a light pole, a lamp head mounted on the top of the lamp pole, a light distribution cup mounted in the lamp head, and a light source disposed in the light distribution cup. The light from the point source radiates to the three-dimensional space. For road lighting, we only need illumination in the next direction. Therefore, the function of the light distribution cup is to diverge the point source upwards and horizontally. The light is reflected downwards to improve lighting efficiency. The existing light distribution cups are generally trumpet-shaped, and the light forms a circular spot after the light distribution cup. The light distribution cup of the structure has a reflective wall design that is not scientific enough, and some of the light needs to pass two or more times. After the secondary reflection, the light can be emitted outside the light distribution cup, and even some of the light can not be reflected out, which causes the waste of light energy to a certain extent. Moreover, since the light distribution cup illuminates the road surface to form a circular spot, the light distribution The light reflected by the cup will partially illuminate the outside of the road, and some will overlap with the street light on the other side of the road, resulting in waste of light energy. At the same time, because the street light is distributed in the length of the road, it is also needed. Install more street lights within the unit length to maintain continuity of road brightness. Summary of the invention
本发明要解决的技术问题是: 提供一种配光方法, 该配光方法可以使点光源发出的呈朗 伯体竊射光线转换成照明均匀的长方形的光斑。  The technical problem to be solved by the present invention is to provide a light distribution method which can convert a singular light emitted by a point source into a rectangular spot with uniform illumination.
本发明通过下述技术方案来解决上述的技术问题:  The present invention solves the above technical problems by the following technical solutions:
一种配光方法, 光源发出的光线部分直接照射到配光杯外, 部分照射到配光杯内壁后反 射到配光杯外, 直接照射到配光杯外的光线组成长方形主光斑, 照射到配光杯内壁后反射的 光线组成与所述主光斑形状对应的长方形叠加光斑。  A light distribution method, the light emitted by the light source is directly irradiated to the outside of the light distribution cup, and partially irradiated to the inner wall of the light distribution cup, and then reflected to the outside of the light distribution cup, and the light directly irradiated to the outside of the light distribution cup constitutes a rectangular main spot, and is irradiated The light reflected after the inner wall of the light distribution cup constitutes a rectangular superimposed spot corresponding to the shape of the main spot.
本发明.的有益效果是: 由于本发明将点光源转化成长方形的光斑射出, 有利于本发明在 狭长空间使用 反射光线经配光杯内壁反射后的光线组成与所述主光斑形状对应的长方形叠 加光斑, 这样, 本发明的照明效率更高, 照明亮度更髙, 光斑更均勾。  The invention has the beneficial effects that: according to the invention, the point light source is converted into a rectangular spot, which is advantageous for the invention to use the reflected light passing through the inner wall of the light distribution cup in a narrow space to form a rectangle corresponding to the shape of the main spot. By superimposing the light spots, the illumination efficiency of the present invention is higher, the illumination brightness is more ambiguous, and the light spots are more uniform.
此外, 本发明还可以通过附加以下的技术方案作进一步改进:  In addition, the present invention can be further improved by adding the following technical solutions:
所述组成主光斑的出光角度为预定值, 所述经配光杯杯口内壁反射的光线出光角度与主 光斑的出光角度相同, 杯口至杯底内壁的反射光线的出光角度在预定的角度范围内渐变。 由 于组成主光斑的出光角度为预定值, 就可以根据勾股定理计算光源与目标照明物之间的距离 和光斑大小的关系, 确定照明亮度和照明区域; 由于经配光杯杯口内壁反射的光线出光角度 与主光斑的出光角度相同, 杯口至杯底内壁的反射光线的出光角度在预定的角度范围内渐变 就可以使得叠加光圈叠加与主光圈光线较弱的外围部分, 使得光斑更均匀。 The light exiting angle of the main spot is a predetermined value, and the light exiting the inner wall of the cup is the same as the light exiting angle of the main spot, and the light exiting from the cup to the inner wall of the cup is at a predetermined angle. Gradient within the range. By The angle of the light beam constituting the main spot is a predetermined value, and the relationship between the distance between the light source and the target illuminant and the spot size can be calculated according to the Pythagorean theorem, and the illumination brightness and the illumination area are determined; due to the reflection of the inner wall of the cup of the light distribution cup The light exiting angle is the same as the light exit angle of the main spot, and the light exiting angle of the reflected light from the cup mouth to the inner wall of the cup is gradually changed within a predetermined angle range, so that the superimposed aperture is superimposed on the peripheral portion of the main aperture light to make the spot more uniform. .
所述照射到配光杯内内壁上的反射光线的出光角度由杯口至杯底内壁均匀变化。  The light exiting angle of the reflected light that is irradiated onto the inner wall of the light distribution cup is uniformly changed from the cup mouth to the inner wall of the cup bottom.
在配光杯长度方向上, 主光斑的出光角度为 30° ; 照射到配光杯内壁的反射光线的出光 角度由杯口至杯底依次以 30° 〜0° 渐变。在配光杯宽度方向上, 主光斑的出光角度为 62° ; 照射到配光杯内壁的反射光线的出光角度由杯口至杯底依次以 30° 〜62° 渐变。 这样就可以 使得光源与照明目标物的距离在 12m时, 产生 40X12m的光斑。  In the length direction of the light distribution cup, the exit angle of the main spot is 30°; the angle of the light reflected from the inner wall of the light distribution cup is gradually changed from 30° to 0° from the cup to the bottom of the cup. In the width direction of the light distribution cup, the light exit angle of the main spot is 62°; the light exiting the reflected light from the inner wall of the light distribution cup is gradually changed from 30° to 62° from the cup to the bottom of the cup. This makes it possible to produce a 40X12m spot when the distance between the light source and the illumination target is 12m.
本发明要解决的技术问题是: 提供一种可以发出长方形光斑, 出光率高, 亮度高, 照明 均匀的配光杯。  The technical problem to be solved by the present invention is to provide a light distribution cup which can emit a rectangular spot with high light extraction rate, high brightness and uniform illumination.
本发明通过下述技术方案来解决上述的技术问题:  The present invention solves the above technical problems by the following technical solutions:
—种配光杯, 包括杯底和杯壁, 杯底和杯壁内表面设置有反光层, 杯底中央用于安装光 源, 其特征是: 杯底为长方形, 所述杯壁内表面为内凹弧面, 杯壁绕杯体边缘围置, 构成长 方形的杯口。  a light distribution cup, comprising a cup bottom and a cup wall, the inner surface of the cup bottom and the cup wall is provided with a reflective layer, and the center of the bottom of the cup is used for mounting a light source, wherein: the bottom of the cup is rectangular, and the inner surface of the cup wall is inner The concave curved surface, the cup wall is wrapped around the edge of the cup body to form a rectangular cup mouth.
本发明的有益效果是: 由于杯口为长方形, 可以产生长方形的光斑, 使得本发明可以在 狭长空间使用, 这样一方面保证了光线射出杯口的形状为长方形; 又由于杯壁内表面为内凹 弧面, 杯壁绕杯体边缘围置, 构成长方形的杯口, 使得反射光线可以产生与主光斑相似的长 方形光斑, 两者叠加, 照明亮度更高, 光斑更均匀, 照明效率更高。  The invention has the beneficial effects that: since the cup mouth is rectangular, a rectangular spot can be generated, so that the invention can be used in a narrow space, so that on the one hand, the shape of the light exiting the cup is rectangular; and since the inner surface of the cup wall is inside The concave arc surface, the cup wall is surrounded by the edge of the cup body, forming a rectangular cup mouth, so that the reflected light can produce a rectangular spot similar to the main spot, and the two are superimposed, the illumination brightness is higher, the spot is more uniform, and the illumination efficiency is higher.
上述技术方案还可以通过以下附加技术特征进一步改进:  The above technical solution can be further improved by the following additional technical features:
其主出光角度为一预定值, 所述杯壁的内凹弧面为根据斯涅尔定律用积分迭代法计算的 自由曲面, 该自由曲面具有杯口的反射光线的出光角度与主出光角度相同, 由杯口至杯底的 反射光线的出光角度在预定的角度范围内渐变的结构。  The main light exiting angle is a predetermined value, and the concave curved surface of the cup wall is a free curved surface calculated by an integral iteration method according to Snell's law, and the free curved surface has a light exiting angle of the cup mouth which is the same as the main light exiting angle The structure in which the angle of the light reflected from the cup to the bottom of the cup is gradually changed within a predetermined angle range.
所述杯壁具有杯口至杯底的反射光线的出光角度均匀变化的结构。  The wall of the cup has a structure in which the angle of light of the reflected light of the cup to the bottom of the cup changes uniformly.
其长度方向上的杯壁的具有主出光角度为 30° , 反射光线的出光角度由杯口至杯底依次 以 30° 〜0° 渐变的结构。  The wall of the cup in the longitudinal direction has a main light-emitting angle of 30°, and the light-emitting angle of the reflected light is gradually changed from 30° to 0° from the cup to the bottom of the cup.
其宽度方向上的杯壁具有其主出光角度为 62° ; 反射光线的出光角度由杯口至杯底依次 以 62° 〜30° 渐变的结构。  The wall of the cup in the width direction has a main light-emitting angle of 62°; the light-emitting angle of the reflected light is gradually changed from 62° to 30° from the cup to the bottom of the cup.
所述杯底中央设置有一光源安装孔。  A light source mounting hole is disposed in the center of the bottom of the cup.
所述的反光层为介质膜或者金属膜。  The reflective layer is a dielectric film or a metal film.
所述反光层为铝电镀层。 本发明要解决的另一个技术问题是: 提供一种可以在地面上形成长方形光斑, 出光亮度 高, 照明更均匀的路灯。 The light reflecting layer is an aluminum plating layer. Another technical problem to be solved by the present invention is to provide a street lamp which can form a rectangular spot on the ground, has high light-emitting brightness, and is more uniform in illumination.
本发明通过下述技术方案来解决上述的技术问题:  The present invention solves the above technical problems by the following technical solutions:
—种路灯, 包括灯杆, 安装在灯杆顶部的配光杯, 配光杯内设置有光源, 所述配光杯为 上述的配光杯, 杯口的长边与马路方向同向。  A street lamp, comprising a light pole, a light distribution cup mounted on the top of the light pole, a light source disposed in the light distribution cup, wherein the light distribution cup is the light distribution cup, and the long side of the cup mouth is in the same direction as the road direction.
本发明的有益效果是: 由于所述配光杯能产生长方形, 亮度高, 照明均匀的光斑, 与圆 形的光斑相比, 在相同的照明强度下, 两灯杆间的距离可以相隔更远, 这样在单位长度的马 路上安装路灯的数量可以更少, 达到节省路灯数量和节能的效果。  The beneficial effects of the invention are: Since the light distribution cup can produce a rectangular, high-brightness, uniform illumination spot, the distance between the two light poles can be further apart under the same illumination intensity compared with the circular light spot. In this way, the number of street lamps installed on a unit length of the road can be reduced, achieving the effect of saving the number of street lamps and saving energy.
所述灯杆顶部安装有多个配光杯, 每一配光杯内各设置有一光源。  A plurality of light distribution cups are mounted on the top of the light pole, and each light source is disposed in each of the light distribution cups.
所述的多个配光杯整齐排列或交错排列  The plurality of light distribution cups are arranged neatly or staggered
所述光源为大功率 LED。 附图说明 '  The light source is a high power LED. BRIEF DESCRIPTION OF THE DRAWINGS
下面结合附图和实施例对本发明做进一歩说明,  The present invention will be further described below in conjunction with the accompanying drawings and embodiments.
图 1是本发明配光杯的结构示意图;  1 is a schematic structural view of a light distribution cup of the present invention;
图 2是本发明配光杯内壁截面的结构示意图;  2 is a schematic structural view of a cross section of an inner wall of the light distribution cup of the present invention;
图 3a是本发明配光杯宽度方向配光方案示意图;  3a is a schematic view of a light distribution plan in the width direction of the light distribution cup of the present invention;
图 3b是本发明配光杯长度方向配光方案示意图;  Figure 3b is a schematic view of the light distribution scheme of the light distribution cup of the present invention;
图 4是本发明配光杯杯壁曲面截面曲线的数学模型;  4 is a mathematical model of a curved surface curve of a wall of the light distribution cup of the present invention;
图 5是本发明路灯的第一实施例的结构示意图;  Figure 5 is a schematic structural view of a first embodiment of a street lamp of the present invention;
图 6是本发明路灯的第二实施例的结构示意图之一;  Figure 6 is a schematic structural view of a second embodiment of the street lamp of the present invention;
图 7是本发明路灯的第二实施例的灯头的结构示意图之二;  7 is a second structural schematic view of a lamp cap of a second embodiment of the street lamp of the present invention;
图 8是本发明路灯的第二实施例的灯头的结构示意图之三。 具体实施方式  Fig. 8 is a third structural schematic view of the base of the second embodiment of the street lamp of the present invention. detailed description
参看图 1和图 2,首先介绍本发明配光杯 1的结构及其制造方法进而说明本发明的配光方 法原理和采用该配光杯 1的路灯的结构。 所述的配光杯 1为一长方壳体, 杯底 11为长方形, 中央设置有光源安装孔, 于本发明中, 所述光源应该采用点光源 14, 只要其发出的光线呈朗 伯体辐射即可, 就现有技术而言, 该光源可以选用大功率 LED、钨丝灯或荧光灯等。 四面杯壁 12、 13围置成长方形的杯口, 杯底 11及杯壁 12、 13内表面皆设置有反光层, 该反光层可以 是介质膜如 + TiO Si02或 MgF2, 也可以是金属膜如镀铝、 镀银, 还可以直接在杯底 11及杯壁 12、 13打磨光滑而成, 或其他能够保证该曲面达到相当的反光效果的方法加工而得。 Referring to Figures 1 and 2, the structure of the light distribution cup 1 of the present invention and a method of manufacturing the same will be first described to further explain the principle of the light distribution method of the present invention and the structure of the street lamp using the light distribution cup 1. The light distribution cup 1 is a rectangular shell, and the bottom 11 of the cup is rectangular, and a light source mounting hole is disposed in the center. In the present invention, the light source should adopt a point light source 14 as long as the light emitted by it is a Lambertian body. Radiation can be used. As in the prior art, the light source can be selected from a high power LED, a tungsten lamp or a fluorescent lamp. The four cup walls 12 and 13 are arranged in a rectangular cup mouth, and the inner surfaces of the cup bottom 11 and the cup walls 12 and 13 are provided with a light reflecting layer, which may be a dielectric film such as + TiO Si0 2 or MgF 2 , or may be Metal film such as aluminized, silver plated, can also be directly on the bottom of the cup 11 and the cup wall 12, 13 smooth polished, or other methods that can ensure that the surface achieves a considerable reflective effect.
杯壁 12、 13的设计应该能将杯底 11中央的点光源 14发出的光线一次性反射到配光杯 1 外, 减少光线在配光杯 1多次反射造成的光能量损失, 根据斯涅尔定律通过合理的设计杯壁 12、 13与杯底 11的夹角就能做到这一点,当然为了控制反射光线的角度在一个小范围内变化, 最终控制配光杯 1投射出去的光斑的形状与光斑各区域的亮度, 最好是将杯壁 12、 13设计成 内凹弧面。 .  The cup walls 12, 13 should be designed to reflect the light from the point source 14 in the center of the cup bottom 11 to the outside of the light distribution cup 1 to reduce the loss of light energy caused by multiple reflections of light in the light distribution cup 1 according to Sneek. The law can do this by properly designing the angle between the cup walls 12, 13 and the bottom 11 of the cup. Of course, in order to control the angle of the reflected light to vary within a small range, the spot light projected by the light distribution cup 1 is finally controlled. The shape and the brightness of each area of the spot are preferably designed to have concave walls on the cup walls 12, 13. .
下面以配光杯 1的长度方向的杯壁 13设计为例说明本发明配光杯 1的结构及设计原理, 参考图 3b和图 4, 以杯底 U中央即光源 14处为原点建立二维坐标, 竖直方向为 Y轴, 7J平 方向为 X轴。 首先说明主光斑的出光角度的确定, 所谓主光斑的出光角度即是直接射出配光 杯的光线与配光杯轴线(即是图 4中的 X轴)的最大夹角, 也可以说是恰好越过配光杯边缘 直接射出的那支光线与配光杯轴线的夹角。 该主光斑的出射角对光斑的形状、 亮度有很大的 影响, 在光源 14与目标照明物之间距离不变的情况下, 出射角越大, 光斑的面积也就越大, 亮度越低, 反之亦然, 设计人员可以根据实际需要运用勾股定理来确定, 例如若将本发明运 用于路灯上, 则可参考出射角为 30° , 安装高度为 12Μ, 得到宽度为 13. 8 的光斑。  The structure and design principle of the light distribution cup 1 of the present invention will be described below by taking the design of the cup wall 13 in the longitudinal direction of the light distribution cup 1. Referring to FIG. 3b and FIG. 4, the center of the cup bottom U, that is, the light source 14 is used as the origin to establish two-dimensional. Coordinates, the vertical direction is the Y axis, and the 7J flat direction is the X axis. First, the determination of the light exit angle of the main spot is described. The light exit angle of the main spot is the maximum angle between the light directly emitted from the light distribution cup and the axis of the light distribution cup (that is, the X axis in FIG. 4), which can be said to be just right. The angle between the light that is directly emitted across the edge of the light distribution cup and the axis of the light distribution cup. The exit angle of the main spot has a great influence on the shape and brightness of the spot. When the distance between the light source 14 and the target illuminator is constant, the larger the exit angle, the larger the area of the spot, and the lower the brightness. And vice versa, the designer can use the Pythagorean theorem to determine the actual needs, for example, if the present invention is applied to a street lamp, the reference angle of the exit angle is 30°, the installation height is 12Μ, and the spot having a width of 13.8 is obtained. .
再次说明反射光线出光角度的确定,所谓的反射光线的出光角度,指的是照射到配光杯 1 内壁 13上每一点的反射光线与配光杯 1轴线的夹角, 本发明中, 反射光线由于经过四面杯壁 13的反射,其组成的叠加光斑也必然是与主光斑相似的长方形,再通过设计杯壁 13的曲率控 制杯壁 13上每一点的反射光线的出光角度, 从而控制叠加光斑的形状和亮度, 让该叠加光斑 叠加到主光斑的外围光线较弱的区域,最终使得经本配光杯配光 1得到的光斑亮度比较均勾。 首先确定最大出射角, 即是照射到杯壁 13最上沿的反射光线与配光杯 1轴线的夹角, 本发明 的目的是让叠加光斑叠加到主光斑的外围光线较弱的区域, 这时, 该最大出射角应该与主光 斑的出射角相等, 这样, 照射到左边杯口边缘的光线就可被反射到主光斑最右侧的边缘; 然 后, 设计照射到杯口边缘以下的杯壁的反射光线的出射角等比缩小, 反射光线朝主光斑内部 移动, 这样, 就可以形成为主光斑由外至内补强的叠加光斑, 使得最终光斑整体亮度均匀。  The determination of the angle of the reflected light is again described. The angle of the emitted light of the reflected light refers to the angle between the reflected light that is incident on each of the inner walls 13 of the light distribution cup 1 and the axis of the light distribution cup 1. In the present invention, the reflected light is reflected. Due to the reflection of the four-cup wall 13, the superimposed spot of the composition is also a rectangle similar to the main spot, and the angle of the reflected light of each point on the wall 13 is controlled by designing the curvature of the cup wall 13, thereby controlling the superimposed spot. The shape and brightness of the superimposed light spot are superimposed on the weaker area of the main spot, and finally the brightness of the spot obtained by the light distribution of the light distribution cup is relatively uniform. Firstly, the maximum exit angle is determined, that is, the angle between the reflected light that is irradiated to the uppermost edge of the cup wall 13 and the axis of the light distribution cup 1. The purpose of the present invention is to superimpose the superimposed spot on the weaker peripheral light of the main spot. The maximum exit angle should be equal to the exit angle of the main spot so that the light that strikes the edge of the left cup can be reflected to the rightmost edge of the main spot; then, the design is illuminated to the wall below the edge of the cup. The exit angle of the reflected light is reduced in proportion, and the reflected light moves toward the inside of the main spot. Thus, the superimposed spot of the main spot from the outside to the inside can be formed, so that the overall brightness of the final spot is uniform.
实现上述反光功能的杯壁曲面其实是根据斯涅尔定律用积分迭代法计算的自由曲面, 参 考图 4, 该曲面横截面的曲线满足以下方程组:  The surface of the cup wall that realizes the above-mentioned reflective function is actually a free-form surface calculated by the integral iteration method according to Snell's law. Referring to Fig. 4, the curve of the cross-section of the curved surface satisfies the following equations:
Tan(a) y,,., = y„ + Δγ,, 本发明以杯壁 13高度(即杯口的 Υ轴坐标)为 10隨, 杯底宽度为 6固, 主光斑的出光角 度为 30° ,照射到配光杯内壁 13的反射光线的出光角度由杯口至杯底依次以 30° 〜0° 等比 渐变为例确定曲线上点的坐标, 将杯壁高度等分成一千个点积分于是有: Tan(a) y,,., = y„ + Δγ,, the height of the cup wall 13 (ie, the axis coordinate of the cup mouth) is 10, the width of the bottom of the cup is 6 solid, and the light exit angle of the main spot is 30°, and the irradiation is The light-emitting angle of the reflected light of the inner wall 13 of the light distribution cup is determined by the ratio of 30° to 0° in the order of the cup to the bottom of the cup, and the height of the wall is equally divided into one thousand points.
Ay =0.01  Ay =0.01
Δ<9 =0.03°  Δ<9 =0.03°
上式中 η为数值计算的当前点, η+1为数值计算的下一点, Δχ, Ay, 为曲线在 x及 y方 向变化的微.量。 由初始条件:  In the above formula, η is the current point of numerical calculation, η+1 is the next point of numerical calculation, and Δχ, Ay is the micro-quantity of the curve in the x and y directions. By initial conditions:
α,, = 0  α,, = 0
由上述的方程组可以用积分迭代的数值计算方法从下往上一直算出曲线上每个点的坐 标, 如第一点的坐标为 (3. 00577, 0. 01 ) , 第二点的坐标为 (3. 01152, 0. 02 ) , 第三点的 坐标为 (3. 0Γ726, 0. 03 ) ……最后一点的坐标为 (5. 77350, 10) , 本例中是将 Υ方向分成 1000点来积分, 根据实际精确度的需要, 可以相应扩大或缩小积分点。 同理, 可以设计出 ffi 光杯宽度方向的杯壁的自由曲面。 以主光斑在配光杯宽度方向上的出光角度为 62° , 照射到 配光杯杯口.内壁 13的反射光线的出光角度由杯口至杯底依次以 62° 〜30° 等比渐变为例,最 后得到的配光杯 1安装高度在 12M时, 得到照明均匀的 40MX13. 8M的长方形光斑。 以上取点 计算可以通过计算机软件来辅助完成, 然后将各点连接成光滑曲线, 再通过计算机绘图软件 生成模型, 最后即可通过数控机床加工或精密铸造的方法生产制造。 From the above equations, the coordinates of each point on the curve can be calculated from the bottom up by the numerical calculation method of the integral iteration. For example, the coordinates of the first point are (3. 00577, 0.01), and the coordinates of the second point are (3. 01152, 0. 02 ), the coordinates of the third point are (3. 0Γ726, 0. 03). The coordinates of the last point are (5. 77350, 10). In this example, the direction of the Υ is divided into 1000 points. To integrate, according to the actual accuracy, you can expand or reduce the integration point accordingly. For the same reason, the free surface of the cup wall in the width direction of the ffi light cup can be designed. The light exiting angle of the main spot in the width direction of the light distribution cup is 62°, and is irradiated to the mouth of the light distribution cup. The light exiting angle of the inner wall 13 is gradually changed from 62° to 30° by the cup mouth to the bottom of the cup. For example, when the final height of the light distribution cup 1 is 12M, a uniform circular spot of 40MX13. 8M is obtained. The calculation of the above points can be assisted by computer software, and then the points are connected into a smooth curve, and then the model is generated by computer graphics software, and finally can be manufactured by CNC machine tool processing or precision casting method.
参照图 5, 一种采用上述配光杯 1的路灯, 该路灯有两种实施方式, 一是在灯杆 2顶部安 装一如上述的配光杯 1, 配光杯 1内设置有光源 14, 该光源可以高压钠灯或大功率 LED,所述 配光杯 1的长方形杯口沿马路方向。 这样长方形光斑的长度方向沿马路方向延伸, 与圆形的 光斑相比, 避免了光斑在马路中央重叠和光斑的部分投射到马路外, 在相同的照明强度下, 两灯杆间的距离可以相隔更远, 这样在单位长度的马路上安装路灯的数量可以更少, 达到节 省路灯数量和节能的效果。 此外, 还可以在所用的反射式配光杯的前面加上具有散光结构的 配光板 15, 这样能够起到防炫目的功能。  Referring to FIG. 5, a street lamp using the above-mentioned light distribution cup 1 has two embodiments. One is to install a light distribution cup 1 as described above on the top of the light pole 2, and a light source 14 is disposed in the light distribution cup 1. The light source can be a high pressure sodium lamp or a high power LED, and the rectangular cup mouth of the light distribution cup 1 is in the direction of the road. The length direction of the rectangular spot extends along the direction of the road. Compared with the circular spot, the spot is prevented from overlapping at the center of the road and the portion of the spot is projected outside the road. Under the same illumination intensity, the distance between the two poles can be separated. Further, the number of street lamps installed on a unit-length road can be reduced, saving the number of street lamps and saving energy. In addition, it is also possible to add a light distribution plate 15 having a astigmatism structure in front of the reflective light distribution cup to be used, which can function as an anti-glare.
参考图 6、 7和 8, 路灯的另一种实施方式还可以在所述灯杆顶部设置有一灯头 3, 灯头 3 内设置有多个如上所述的配光杯 1, 每一配光杯 1内各设置有一光源 14, 所有杯口的长边与 马路方向平行, 所述的多个配光杯 1的排列方式可以是如图 7所示的交错排列, 也可以是如 3303 图 8所示的整齐排列。 Referring to Figures 6, 7, and 8, another embodiment of the street lamp may further include a lamp cap 3 disposed at the top of the lamp post, and a plurality of light distribution cups 1 as described above disposed in the cap 3, each of the light distribution cups 1 A light source 14 is disposed in each of the plurality, and the long sides of all the cups are parallel to the direction of the road. The arrangement of the plurality of light distribution cups 1 may be staggered as shown in FIG. 7, or may be 3303 The neat arrangement shown in Figure 8.
光斑的大小, 亮度, 与路灯的髙度和 LED的数量有关, 以下是本发明的各种高度, 和 LED 数量的路灯的测试数据, 用户在实施设计中可以根据实际需要选择。  The size and brightness of the spot are related to the brightness of the street lamp and the number of LEDs. The following are the test data of the various heights of the present invention and the number of LEDs. The user can select according to actual needs in the implementation design.
说明: 以上灯具光通量为一个灯具测试得出的数据。 选用的 LED为 1W LED。 光通 Description: The luminous flux of the above lamps is the data obtained from a luminaire test. The LEDs selected are 1W LEDs. Guangtong

Claims

权利要求 Rights request
、 一种配光方法, 光源发出的光线部分直接照射到配光杯外, 部分照射到配光杯内壁 后反射到配光杯外, 其特征在于: 直接照射到配光杯外的光线组成长方形主光斑, 照射到配光杯内壁后反射的光线组成与所述主光斑形状对应的长方形叠加光斑。 、 根据权利要求 1所述的一种配光方法, 其特征在于: 所述组成主光斑的出光角度为 预定值, 所述经配光杯杯口内壁反射的光线出光角度与主光斑的出光角度相同, 杯 口至杯底内壁的反射光线的出光角度在预定的角度范围内渐变。 a light distribution method, the light emitted by the light source is directly irradiated to the outside of the light distribution cup, and partially irradiated to the inner wall of the light distribution cup and reflected to the outside of the light distribution cup, wherein the light directly irradiated to the light distribution cup is formed into a rectangular shape. The main spot, the light reflected after being irradiated to the inner wall of the light distribution cup, constitutes a rectangular superimposed spot corresponding to the shape of the main spot. The light distribution method according to claim 1, wherein: the light exiting angle of the main spot is a predetermined value, and the light exiting angle reflected by the inner wall of the cup of the light distribution cup and the light exiting angle of the main spot Similarly, the light exiting angle of the reflected light from the cup to the inner wall of the cup is gradually changed within a predetermined angle range.
、 根据权利要求 2所述的一种配光方法, 其特征在于: 所述杯体内壁具有反射光线的 出光角度由杯口至杯底内壁均匀变化的结构。 A light distribution method according to claim 2, wherein: the inner wall of the cup has a structure in which the light exiting angle of the light is uniformly changed from the cup opening to the inner wall of the cup bottom.
、 根据权利要求 3所述的一种配光方法, 其特征在于: 在配光杯长度方向上, 主光斑 的出光角度为 30° ; 照射到配光杯内壁的反射光线的出光角度由杯口至杯底依次以 30° 〜0° 渐变。 The light distribution method according to claim 3, wherein: in the longitudinal direction of the light distribution cup, the light exit angle of the main spot is 30°; and the light exiting the inner wall of the light distribution cup is emitted by the cup mouth Gradually change from 30° to 0° to the bottom of the cup.
、 根据权利要求 3所述的一种配光方法, 其特征在于: 在配光杯宽度方向上, 主光斑 的出光角度为 62° ; 照射到配光杯内壁的反射光线的出光角度由杯口至杯底依次以 30° 〜62° 渐变。 The light distribution method according to claim 3, wherein: in the width direction of the light distribution cup, the light exit angle of the main spot is 62°; and the light exiting the inner wall of the light distribution cup is emitted by the cup mouth Gradually to the bottom of the cup with a gradient of 30° to 62°.
、 一种配光杯, 包括杯底和杯壁, 杯底和杯壁内表面设置有反光层, 杯底中央用于安 装光源, 其特征是: 杯底为长方形, 所述杯壁内表面为内凹弧面, 杯壁绕杯体边缘 围置, 构成长方形的杯口。 a light distribution cup comprising a cup bottom and a cup wall, the inner surface of the cup bottom and the cup wall is provided with a reflective layer, and the center of the bottom of the cup is used for mounting the light source, wherein: the bottom of the cup is rectangular, and the inner surface of the cup wall is The concave curved surface, the cup wall is wrapped around the edge of the cup body to form a rectangular cup mouth.
、 根据权利要求 6所述的一种配光杯, 其特征在于: 其主出光角度为一预定值, 所述 杯壁的内凹弧面为根据斯涅尔定律用积分迭代法计算的自由曲面, 该自由曲面具有 杯口的反射光线的出光角度与主出光角度相同, 由杯口至杯底的反射光线的出光角 度在预定的角度范围内渐变的结构。 A light distribution cup according to claim 6, wherein: the main light exit angle is a predetermined value, and the concave curved surface of the cup wall is a free curved surface calculated by an integral iteration method according to Snell's law The free-form surface has a structure in which the light-emitting angle of the reflected light of the cup mouth is the same as the angle of the main light-emitting, and the light-emitting angle of the reflected light from the cup mouth to the bottom of the cup is gradually changed within a predetermined angle range.
、 根据权利要求 Ί所述的一种配光杯, 其特征在于: 所述杯壁具有杯口至杯底的反射 光线的出光角度均匀变化的结构。 A light distribution cup according to claim 1, wherein: said cup wall has a structure in which the light exiting angle of the reflected light of the cup to the bottom of the cup is uniformly changed.
、 根据权利要求 8所述的一种配光杯, 其特征在于: 其长度方向上的杯壁的具有主出 光角度为 30° , 反射光线的出光角度由杯口至杯底依次以 30° 〜0° 渐变的结构。 、 根据权利要求 8所述的一种配光杯, 其特征在于: 其宽度方向上的杯壁具有其主出 光角度为 62° ; 反射光线的出光角度由杯口至杯底依次以 62° 〜30° 渐变的结构。1、 根据权利要求 6所述的一种配光杯, 其特征在于: 所述杯底中央设置有一光源安装 孔。 A light distribution cup according to claim 8, wherein: the wall of the cup in the longitudinal direction has a main light exit angle of 30°, and the light exit angle of the reflected light is 30° from the cup mouth to the bottom of the cup. 0° gradient structure. A light distribution cup according to claim 8, wherein: the wall of the cup in the width direction has a main light exit angle of 62°; and the light exit angle of the reflected light is 62° from the cup to the bottom of the cup. 30° gradient structure. A light distribution cup according to claim 6, wherein: a light source mounting hole is disposed in the center of the bottom of the cup.
、 根据权利要求 6所述的一种配光杯,其特征在于:所述的反光层为介质膜或者金属膜。 、 根据权利要求 12所述的一种配光杯, 其特征在于: 所述反光层为铝电镀层。 A light distribution cup according to claim 6, wherein the light reflecting layer is a dielectric film or a metal film. A light distribution cup according to claim 12, wherein: said light reflecting layer is an aluminum plating layer.
、 一种路灯, 包括灯杆, 安装在灯杆顶部的配光杯, 配光杯内设置有光源, 其特征在 于: 所述配光杯杯底为长方形, 其杯壁内表面为内凹弧面, 杯壁绕杯体边缘围置, 构成长方形的杯口, 杯口的长边与马路方向同向。 a street lamp comprising a light pole, a light distribution cup mounted on the top of the light pole, and a light source disposed in the light distribution cup, wherein: the bottom of the light distribution cup is rectangular, and the inner surface of the cup wall is a concave arc The cup wall surrounds the edge of the cup body to form a rectangular cup mouth, and the long side of the cup mouth is in the same direction as the road direction.
、 根据权利要求 14所述的一种路灯,其特征在于: 其主出光角度为一预定值,所述杯 壁的内凹弧面为根据斯涅尔定律用积分迭代法计算的自由曲面, 该自由曲面具有杯 口的反射光线的出光角度与主出光角度相同, 由杯口至杯底的反射光线的出光角度 在预定的角度范围内渐变的结构。 A street lamp according to claim 14, wherein: the main light exit angle is a predetermined value, and the concave curved surface of the cup wall is a free curved surface calculated by an integral iteration method according to Snell's law, The free-form surface has a structure in which the light-emitting angle of the reflected light of the cup mouth is the same as the angle of the main light-emitting, and the light-emitting angle of the reflected light from the cup mouth to the bottom of the cup is gradually changed within a predetermined angle range.
、 根据权利要求 15 的一种路灯,其特征在于: 所述杯壁具有杯口至杯底的反射光 线的出光角度均匀变化的结构。 A street lamp according to claim 15, wherein: ???said cup wall has a structure in which the angle of the light emitted from the cup to the bottom of the cup is uniformly changed.
、 根据权利要求 16所述的一种路灯,其特征在于: 其长度方向上的杯壁的具有主出光 角度为 30° , 反射光线的出光角度由杯口至杯底依次以 30° 〜0° 渐变的结构。 、 根据权利要求 16所述的一种路灯,其特征在于: 其宽度方向上的杯壁具有其主出光 角度为 62° ; 反射光线的出光角度由杯口至杯底依次以 62° 〜30° 渐变的结构。 、 根据权利要求 14所述的一种路灯' 其特征在于:所述灯杆顶部安装有多个配光杯, 每一酡光杯内各设置有一光源。 . 、 根据权利要求 19所述的一种路灯, 其特征在于:所述的多个配光杯整齐排列或交错 排列。 A street lamp according to claim 16, wherein: the wall of the cup in the longitudinal direction has a main light-emitting angle of 30°, and the light-emitting angle of the reflected light is 30° to 0° from the cup to the bottom of the cup. The structure of the gradient. A street lamp according to claim 16, wherein: the wall of the cup in the width direction has a main light exit angle of 62°; and the light exit angle of the reflected light is 62° to 30° from the cup to the bottom of the cup. The structure of the gradient. A street lamp according to claim 14, wherein a plurality of light distribution cups are mounted on the top of the light pole, and each light source is disposed in each of the light cups. A street lamp according to claim 19, wherein said plurality of light distribution cups are arranged neatly or staggered.
、 根据权利要求 14所述的一种路灯, 其特征在于:所述光源为大功率 LED。 A street light according to claim 14, wherein said light source is a high power LED.
、 根据权利要求 1 所述的一种路灯,其特征在于:所述配光杯的前面还设置有配光板。 A street lamp according to claim 1, wherein a front side of the light distribution cup is further provided with a light distribution plate.
PCT/CN2007/003303 2007-10-13 2007-11-22 A method of providing light distribution, a cup for providing light distribution, and a roadway lamp using the cup WO2009046586A1 (en)

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