KR100967941B1 - Structure for light distribution of street lamp - Google Patents

Abstract

The present invention relates to a light distribution structure of a street lamp, and more particularly, to a light distribution structure of an improved street light so that the light of the LED street light placed in the width direction of the road can be further spread in the longitudinal direction of the road.

To this end, the light distribution structure of the street lamp according to the present invention includes a support plate having a corrugated cross section having a plurality of valleys and floors, a plurality of light sources installed at regular intervals on an inclined surface of the support plate, and a plurality of holes corresponding to the light sources. And a reflective sheet attached to the support plate such that the light source is positioned in the hole.

As described above, the present invention proposes a light distribution structure in which the light of the LED street light spreads in the longitudinal direction of the road, thereby making it possible to brighten the road portion between the LED street lamps.

LED, street light, light distribution, slope

Description

Light distribution structure of street light {STRUCTURE FOR LIGHT DISTRIBUTION OF STREET LAMP}

The present invention relates to a light distribution structure of a street lamp, and more particularly, to a light distribution structure of an improved street light so that the light of the LED street light placed in the width direction of the road can be further spread in the longitudinal direction of the road.

Recently, LED streetlights have received great attention due to the advantages of high energy efficiency and long lifespan of lamps compared to fluorescent or incandescent streetlights.

1 illustrates a conventional LED street light.

As shown in FIG. 1, the LED street light 10 has a casing 1 and a cover 2, similar to a general street light, and has a reflective sheet 3 and a plurality of LEDs 4 installed therein. It is.

Figure 2 shows the light reaches the road surface when the conventional LED street light is installed on the road.

As shown in FIG. 2, the light emitted from the LED street light 10 spreads in the vertical direction (width direction) and the horizontal direction (length direction) of the road, and the light spreads excessively beyond the width of the road in the vertical direction. It can be seen that it does not spread widely in the horizontal direction.

That is, the LED used as the light source in the LED street light 10 generally has a strong characteristic that the light only extends forward, and thus does not satisfy the condition of road lighting that "light should spread evenly on the road surface". In addition to the general characteristics of the LED, the reflective sheet 3 installed inside the LED street light 10 has a flat structure, so that the LED light does not spread to both sides of the road and is more biased toward the front of the road.

3 shows a horizontal light distribution of a conventional LED street light.

As shown in FIG. 3, the indicator on the left side shows the intensity intensity (cd), and the graph on the right side shows the intensity intensity distribution according to the angle when a semicircle is drawn around the LED street light. In the graph on the right, reference numeral H denotes a light distribution curve in the horizontal direction, and the light distribution curve shows that the luminous intensity is high in the vicinity of the 90 degree direction but low in the vicinity of the 0 degree direction and the 180 degree direction. That is, it can be seen that a lot of light reaches in the front direction of the LED street light, but less light reaches in the side direction.

As such, when the light of the LED street light 10 only spreads forward, only the front of the point where the LED street light 10 is located is unnecessarily lit, and the road between the LED street lights 10 is dark so that the function of the street light cannot be properly performed. have.

The present invention was devised to solve the above problems, and an object of the present invention is to provide an LED street light that can satisfy the conditions of road lighting by allowing the light of the street light to spread evenly on both sides of the road without biasing forward. .

To this end, the light distribution structure of the street lamp according to the present invention includes a support plate having a corrugated cross section having a plurality of valleys and floors, a plurality of light sources installed at regular intervals on an inclined surface of the support plate, and a plurality of holes corresponding to the light sources. And a reflective sheet attached to the support plate such that the light source is positioned in the hole.

In addition, the light distribution structure of the street lamp according to the present invention, the support plate consisting of a first support plate and a second support plate having a cross-section of the corrugated wave having a plurality of valleys and floors and are opened at a predetermined angle with respect to the symmetrical axis plane, And a reflective sheet having a plurality of light sources installed at regular intervals on the inclined surface of the support plate, and a plurality of holes corresponding to the light sources, and attached to the support plate such that the light sources are located in the holes.

In addition, the light distribution structure of the street lamp according to the present invention, the cross-section of the left and right symmetrical triangle centered around the central support extending in the longitudinal direction of the left and right asymmetrical triangle, the longitudinal support extending in the longitudinal direction is symmetrically extended The support plate is provided, and a plurality of light sources are provided at regular intervals on both inclined surfaces of the central support and the first inclined surface of the peripheral support, wherein the first and second surfaces of the first reflective sheet are A second side surface of which is attached in parallel to both inclined surfaces of the central support, and a first side surface of the second reflective sheet is parallel to the first side surface in which the side length is short, and a second side surface of the second reflection sheet has a long side length It is characterized by being attached while maintaining a constant angle with the inclined surface.

In addition, the light distribution structure of the street lamp according to the present invention, a slate plate-shaped support plate having a plurality of valleys and floors, filled inside, a plurality of light sources provided at regular intervals on the inclined surface of the support plate, and a plurality of corresponding to the light source And a reflective sheet attached to the support plate so that the light source is located in the hole.

As described above, the present invention proposes a light distribution structure in which the light of the LED street lamp is spread in the longitudinal direction of the road, thereby making it possible to brighten the road portion between the LED street lamps.

In addition, the present invention is to spread the light in the longitudinal direction of the road, but the light does not go toward the edge of the road, there is an effect that can brighten only the portion of the road that the vehicle passes.

In addition, the present invention by allowing the light to be spread in the longitudinal direction of the road to the light that can meet a constant brightness in the width direction of the road to reach, the effect of ensuring the appropriate brightness in both the road width direction and the longitudinal direction There is.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 illustrates an LED street light according to an embodiment of the present invention.

As shown in FIG. 4, the LED street light 100 has an appearance composed of a case 1 and a cover 2 like the conventional LED street light 10, and has a light distribution structure according to an embodiment of the present invention. 20) is included.

Looking at the light distribution structure 20 of the LED street light 100 according to an embodiment of the present invention, a slate plate structure having a plurality of valleys and floors is installed in the inner plane (5), a plurality of LEDs on the inclined surface of the slate plate structure Are installed at regular intervals. A detailed description of the light distribution structure 20 will be described with reference to FIGS. 5 and 6.

5 is a cross-sectional view of the light distribution structure 20 cut along the width direction of the street light.

As shown in FIG. 5, in the light distribution structure 20, a support plate 21 having a corrugated cross section having a plurality of valleys and floors is installed in the inner plane 5, and on the inclined surface 211 of the support plate 21. The LED driving circuit board 25 is attached, and the LED driving circuit board 25 is provided with a plurality of LEDs 22 at regular intervals, and the reflective sheet 23 having a plurality of holes corresponding to the LEDs 22, 24 is attached to the support plate 21.

In FIG. 5, the support plate 21 is formed by attaching a plurality of unit members 210 having an M-shaped cross section. Alternatively, the support plate 21 may be integrally formed.

FIG. 6 illustrates a separate support plate 21 from the light distribution structure 20.

As shown in FIG. 6, in the structure of the support plate 21, the peripheral support 214 extends in the width direction of the street light symmetrically around the center support 213. Here, the center support 213 is a symmetrical cross section extending in the longitudinal direction of the street light, the peripheral support 214 is a triangle asymmetrical in cross section extending in the longitudinal direction of the street light. That is, the center support 213 and the peripheral support 214 is formed in the form of a triangular prism open bottom.

The support plate 21 includes a first inclined surface 211 provided with the LED 22 and a second inclined surface 212 in which the LED 22 is not provided. Both sides of the central support 213 are formed of the first inclined surface 211, and the peripheral support 214 is formed of the first inclined surface 211 and the second inclined surface 212.

By manufacturing the support plate 21 in the shape of a slate plate structure having an inclined surface as described above and by placing the LED 22 on the inclined surface, the light of the LED 22 does not deviate only in the front direction of the street light 100, It also spreads in the lateral direction of 100). The designer of the LED street light 100 may control the amount of light spread in the lateral direction of the street light 100 by adjusting the angle of the first inclined surface 211 of the support plate 21.

On the support plate 21, reflective sheets 23 and 24 for reflecting the light of the LED 22 are attached. The reflective sheets 23 and 24 reflect the light of the LED 22 to make the light of the LED street light 10 brighter.

The first reflective sheet 24 is installed on the central support 213 of the support plate 21, and the second reflective sheet 23 is installed on the peripheral support 214. The reflective sheets 23 and 24 are composed of two surfaces corresponding to the inclined surfaces of the supports 213 and 214. The first reflective sheet 24 is composed of a first surface 241 and a second surface 242, and the second reflective sheet 23 is composed of a first surface 231 and a second surface 232.

The first surface 241 and the second surface 242 of the first reflective sheet 24 are attached in parallel with both inclined surfaces 211 of the central support 213. The first surface 231 of the second reflective sheet 23 is attached in parallel with the first inclined surface 211 of the peripheral support 214, and the second surface 232 has a predetermined angle with the second inclined surface 212. Attached and held. At this time, the edge of the second surface 232 of the second reflective sheet 23 is in contact with the bottom of the LED 22 provided on the adjacent first inclined surface 211. This is to reflect the light of the LED 22 to the second surface 232 of the second reflecting sheet 23 so that the light of the LED 22 does not spread too much in the lateral direction of the street light 100.

7 shows a light distribution diagram in the light distribution structure of the present invention.

FIG. 7A is a light distribution diagram when the reflecting sheet 23 is attached in parallel with the support plate 21. In FIG. 7B, the reflecting sheet 23 maintains a constant angle with the support plate 21. As shown in FIG. It is the light distribution diagram when attached.

The lower part of the broken line shown in (a) of FIG. 7 is an area outside the illumination effective area, and it can be seen that the light of the LED 22 exists in this area. This means that when the light of the street lamp 100 spreads in the longitudinal direction of the road, the light spreads near the edge of the road, that is, the area where the light does not reach.

Therefore, by attaching the reflective sheet 23 to the support plate 21 while maintaining the same angle as in the embodiment of the present invention, it is possible to raise the light to the lighting effective region as shown in (b) of FIG. As such, when the light of the LED 22 spreads only within the lighting effective area, the road portion through which the vehicle passes may be brighter. The designer of the street lamp 100 adjusts the angle between the second surface 232 of the reflective sheet 23 and the second inclined surface 212 of the support plate 21 to adjust the direction of the light spreading in the lateral direction of the street lamp 100. Can be controlled.

Figure 8 shows the light reaching the road surface when the LED street light 100 of the present invention is installed on the road.

As shown in FIG. 8, the light emitted from the LED street light 100 spreads in a vertical direction (width direction) and a horizontal direction (length direction) of the road. In comparison with FIG. You can see that the light is reduced and spread more widely in the horizontal direction.

9 shows a light distribution diagram according to the light distribution structure 20 of the present invention.

As shown in FIG. 9, when looking at the horizontal light distribution curve H, it can be seen that the intensity of the light intensity is substantially increased in the vicinity of the 0 degree direction and the 180 degree direction when compared with the conventional light distribution curve of FIG. 3. This means that there are more lights in the roadway than before.

10 shows a light distribution structure according to another embodiment of the present invention.

As shown in FIG. 10, the support plate 21 described in FIG. 6 is opened at a predetermined angle with respect to the left and right symmetry axis surfaces of the central support 213. That is, the support plate 21 is opened at a predetermined angle with respect to the left and right symmetry axis planes and separated into the first support plate 21a and the second support plate 21b. Accordingly, both inclined surfaces 211 of the center support 213 and both sides 241 and 242 of the first reflective sheet 24 are also separated.

The light distribution structure as shown in FIG. 10 is to prevent the light of the LED 22 from spreading in the lateral direction of the street lamp 100 and also to spread in the front direction of the street lamp 100. When the first support plate 21a and the second support plate 21b are opened to both sides, the LED 22 installed on the support plate 21 is slightly directed toward the front of the street lamp 100, so that the light may go more toward the front direction. . The designer of the street lamp 100 may adjust the amount of light directed toward the front direction by adjusting the angles at which the first support plate 21a and the second support plate 21b extend to both sides.

FIG. 11 is a light distribution distribution diagram of the light distribution structure of FIG. 10.

As shown in FIG. 11, it can be seen that the light distribution curve V in the vertical direction of FIG. 11 protrudes more forward in the vicinity of the 90 degree direction when compared with the light distribution curve V in the vertical direction of FIG. 9. This indicates that the light intensity goes out further toward the front of the street light 100.

The light distribution structure 20 described so far has a structure in which the reflective sheet 23 is attached to the plurality of unit members 210 or the support plate 21 integrally formed while maintaining a constant angle. The support plate 21 may be manufactured by lifting the inclined surface 212 from the beginning so as to be attached in parallel with the support plate 21.

12 is a sectional view of a support plate according to another embodiment.

Referring to the supporting plate 21 shown in FIG. 12, when compared with the supporting plate 21 of FIG. 6, the first inclined surface 211 is the same but the second inclined surface 212 is the second surface 232 of the reflective sheet 23. You can see that the angle rises by). However, as the second inclined surface 212 rises by the angle of the second surface 232 of the reflective sheet 23, the length of the sides of the first inclined surface 211 except the outermost side becomes short, and the second inclined surface The side length of 212 can be long. When the support plate 21 is manufactured as described above, the reflective sheet 23 attached to the support plate 21 may be attached in parallel with both the inclined surfaces 211 and 212 of the support plate 21.

Meanwhile, according to the change of the second inclined surface 212 of the support plate 21, the design of the LED driving circuit board 25 attached to the first inclined surface 211 should also be changed. As the second inclined surface 212 rises upward, the side length of the first inclined surface 211 is shortened as described above. When the previous LED driving circuit board 25 is used as it is, the LED on the first inclined surface 211 is increased. The attachment position of (22) is raised upward. Therefore, the design of the circuit board is changed such that the position of the LED 22 on the LED driving circuit board 25 is lower than before, so that the position of the LED 22 on the first inclined surface 211 is kept constant.

The supporting plate 21 described in FIGS. 5, 6, and 12 has a slate plate structure in which all of the supporting plates 21 are empty, but may be manufactured in a form in which the inside of the supporting plate 21 is filled.

FIG. 13 shows that the inside of the support plate 21 of FIG. 12 is filled. This can be equally applied to the support plate 21 of FIGS. 5 and 6. The LED 22 attached on the support plate 21 generates heat while emitting light, which must be released to the outside. In general, the support plate 21 is made of a metal material having high thermal conductivity such as aluminum to emit heat of the LED 22 to the outside. When the support plate 21 is formed into a filled shape, the heat of the LED 22 is more effectively. Can be released.

Those skilled in the art can improve or change the technical idea of the present invention in various forms. Therefore, it should be understood that the embodiments of the present invention described with reference to the drawings should not be construed as limiting the technical spirit of the present invention, and the protection scope of the present invention is limited only by the matters described in the claims.

1 is a view showing a conventional LED street light.

2 is a view showing a state in which light reaches the road surface when the conventional LED street light is installed on the road.

3 is a horizontal distribution distribution diagram of a conventional LED street light.

4 is a view showing an LED street light according to an embodiment of the present invention.

5 is a cross-sectional view of a light distribution structure according to an embodiment of the present invention.

6 is a cross-sectional view of the support plate in the light distribution structure according to the embodiment of the present invention.

7 is a light distribution diagram in a light distribution structure according to an embodiment of the present invention.

8 is a view showing a state in which light reaches the road surface when the LED street light of the present invention is installed on the road.

9 is a light distribution distribution diagram in the light distribution structure according to the embodiment of the present invention.

10 is a light distribution structure diagram according to another embodiment of the present invention.

11 is a light distribution diagram according to another embodiment of the present invention.

12 is a sectional view of a support plate according to another embodiment of the present invention.

13 is a sectional view of a support plate according to another embodiment of the present invention.

Claims (13)

A support plate having a corrugated cross section with multiple valleys and floors, A plurality of light sources installed at regular intervals on the inclined surface of the support plate; A reflective sheet having a plurality of holes corresponding to the light source and attached to the support plate such that the light source is located in the hole; The support plate is composed of a plurality of first inclined surface with the light source and the second inclined surface without the light source is disposed, the reflective sheet is composed of a first surface and a second surface, And the first surface of the reflective sheet is attached in parallel with the first inclined surface of the support plate, and the second surface of the reflective sheet is attached at a constant angle with the second inclined surface of the support plate. A support plate having a corrugated cross section having a plurality of valleys and floors, and having a first support plate and a second support plate disposed at an angle with respect to the symmetrical symmetry plane; A plurality of light sources installed at regular intervals on the inclined surface of the support plate; A reflective sheet having a plurality of holes corresponding to the light source and attached to the support plate such that the light source is located in the hole; The support plate is composed of a plurality of first inclined surface with the light source and the second inclined surface without the light source is disposed, the reflective sheet is composed of a first surface and a second surface, And the first surface of the reflective sheet is attached in parallel with the first inclined surface of the support plate, and the second surface of the reflective sheet is attached at a constant angle with the second inclined surface of the support plate. delete The method according to claim 1 or 2, Light distribution structure of the street light, characterized in that the edge of the second surface is in contact with the lower side of the light source provided on the adjacent first inclined surface. The method according to claim 1 or 2, Light distribution structure of the street light, characterized in that the light source is an LED. There is provided a support plate consisting of a triangle having a left-right symmetrical cross-section and having a longitudinally extending asymmetrical cross-section and a peripheral support extending longitudinally symmetrically about a central support extending in the longitudinal direction. A plurality of light sources are provided at regular intervals on both of the inclined surfaces of the central support and the first inclined surface of the inclined surfaces of the peripheral supporters. First and second surfaces of the first reflecting sheet are attached in parallel with both inclined surfaces of the central support, The first surface of the second reflective sheet is attached in parallel with the first inclined surface having a short side length, and the second surface of the second reflective sheet is attached at a constant angle with the second inclined surface having a long side length, Light distribution structure of the street light, characterized in that the edge of the second surface of the second reflecting sheet is in contact with the lower side of the light source provided on the adjacent first inclined surface. delete The method of claim 6, Light distribution structure of the street light, characterized in that the light source is an LED. A slate plate shaped support plate having a plurality of valleys and floors and filled therein; A plurality of light sources installed at regular intervals on the inclined surface of the support plate; A reflective sheet having a plurality of holes corresponding to the light source and attached to the support plate such that the light source is located in the hole; The support plate is composed of a central support and a plurality of peripheral supports extending symmetrically around the central support, Both inclined surfaces of the central support have the same first inclined surface, and both side inclined surfaces of the peripheral support have a first inclined surface and a second inclined surface. delete 10. The method of claim 9, The light distribution structure of the street lamp, characterized in that the light source is provided on the first inclined surface and the light source is not provided on the second inclined surface. 10. The method of claim 9, And a side length of the first inclined surface is smaller than a side length of the second inclined surface. 10. The method of claim 9, The support plate is a light distribution structure of the street light, characterized in that made by forming a highly conductive metal material.

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