KR101073473B1 - Uniformity factor of intensity of illumination improved holding frame for led and lighting apparatus for street lamp using the same - Google Patents

Abstract

The present invention relates to an LED fixed frame and a lighting device for a street lamp including the same, which can improve the uniformity by uniformizing the illuminance of the surface irradiated with light as a whole. In the case of LED lighting having a relatively low brightness of the part, the amount of light to the lateral part is increased so that the brightness is relatively high, thereby improving the uniformity of the whole surface including the surface irradiated by the lateral light. An LED fixing frame and a lighting device for a street lamp including the same.

Description

Uniformity factor of intensity of illumination improved holding frame for LED and lighting apparatus for street lamp using the same}

The present invention relates to an LED fixed frame and a lighting device for a street lamp including the same, which can improve the uniformity by uniformizing the illuminance of the surface irradiated with light as a whole. In the case of LED lighting having a relatively low brightness of the part, the amount of light to the lateral part is increased so that the brightness is relatively high, thereby improving the uniformity of the whole surface including the surface irradiated by the lateral light. An LED fixing frame and a lighting device for a street lamp including the same.

In general, lighting devices are used to illuminate indoors or outdoors brightly, and are used for various purposes, including street lamps, traffic signals, and warning lights. In particular, street lamps are installed on sidewalks or on roads, and are safe for vehicles that operate at night. And it plays an important role to make the passage of pedestrians convenient.

On the other hand, the lighting device for the street lamp has been used a variety of light sources such as incandescent lamp, high-pressure mercury lamp, fluorescent lamp and sodium lamp, but recently, attention is focused on lighting devices using a small power consumption, excellent light brightness, long life I am getting it.

However, the LED has high light intensity but strong straightness, so that the brightness in the forward direction is relatively greater than the brightness in the lateral direction, as shown in FIG. 1, for example, the brightness in the 0 ° direction toward the front is shown. If it is 100, the brightness in the 60 ° direction toward the side is 50, so that the brightness of the LED 11 is different between the front and the side.

Therefore, as shown in FIG. 2, the lighting device for the street lamp using the LED 11 by the light difference I ₁ -I ₂ and the distance difference r ₂ -r ₁ existing between the front and the side, respectively. Since the lower illuminance E ₁ and the side illuminance E ₂ are different from each other, as shown in FIG. 3, the direct direction C, which is illuminated by the light toward the front of the light emitted from the LED 11, and There was a problem that the uniformity factor was bad because of the large difference in roughness in the outer direction O illuminated by the light toward the side.

This can be clearly seen from FIG. 4B, which shows the luminance distribution of the lighting apparatus for the street lamp of FIG. 4A and the illuminance distribution on the road surface illuminated accordingly.

Therefore, as an example, when the vehicle travels at high speed along the road R, the high and low illuminance may be repeated, causing glare for the driver, and at the same time, disturbing the vision and not accurately recognizing objects or people on the road. There was a problem that would cause an accident.

In addition, in order to satisfy the standard level of roads, street lamps are installed more than necessary, and the installation of such street lamps hurts the aesthetics of the city, wastes energy, and duplicates the lighting due to the overlapping installation of street lamps. Similarly, there was a problem that the leveling system was bad.

The present invention has been proposed in order to solve the above problems, and when the LED lighting is relatively low in the lateral side than the portion facing forward due to high straightness, the light intensity is increased by increasing the amount of light to the side portion In order to provide an LED fixing frame and a lighting device for a street lamp including the same to improve the uniformity that can improve the uniformity of the entire surface, including the surface irradiated by the side lighting as it increases.

To this end, the LED fixing frame to improve the uniformity according to the present invention is arranged horizontally, the horizontal frame that the center LED is installed on the surface facing the light emitting side; A first inclined frame disposed at one end of the horizontal frame and having an inclined surface facing the outside of the horizontal frame and having a first side LED installed at a surface facing the light emitting side; A first reflecting vane disposed at an end of the first inclined frame, the inclined surface being installed to face the inside of the horizontal frame; A second reflective vane disposed at an end of the first reflective vane and installed such that an inclined surface faces the inside of the horizontal frame; A second inclined frame disposed at the other end of the horizontal frame and having an inclined surface facing the outside of the horizontal frame and having a second side LED installed at a surface facing the light emitting side; A third reflecting vane disposed at an end of the second inclined frame, the inclined surface being installed to face the inside of the horizontal frame; And a fourth reflective vane disposed at an end of the third reflective vane, the fourth reflective vane being inclined to face the inside of the horizontal frame.

At this time, the first blocking block disposed between the horizontal frame and the first inclined frame and a second blocking block disposed between the horizontal frame and the second inclined frame, further comprising the first blocking block and the second blocking block Grooves are formed in each of the grooves, so that the photometric light emitted from the central LED passes through the groove to emit light toward the side portion, or the photometric light emitted from the first side LED and the second side LED passes through the groove to form a central portion. It is preferable to make it emit light toward.

The groove may be a depth through which light having a beam angle of 30 ° to 60 ° passes through the photometric light emitted from the central LED, the photometric light emitted from the first side LED, and the photometric light emitted from the second side LED. It is preferable that it is formed.

In addition, the first inclined frame is formed integrally with the first blocking block, one surface of the first blocking block is the first inclined frame, and the second inclined frame is integrally formed with the second blocking block. And it is preferable that one surface of the second blocking block is the second inclined frame.

In addition, it is preferable that the inclination angles of the first inclined frame and the second inclined frame are 110 degrees to 130 degrees, respectively.

In addition, it is preferable that the inclination angles of the first reflective wing and the first inclined frame and the inclination angle of the third reflective wing and the second inclined frame are 102 ° to 110 °, respectively.

In addition, it is preferable that the inclination angles of the second reflection wing and the first reflection wing and the inclination angles of the fourth reflection wing and the third reflection wing are 168 ° to 176 °, respectively.

The ratio of the number of the first side LEDs installed on the first inclined frame, the center LEDs installed on the horizontal frame and the second side LEDs installed on the second inclined frame is 2: 1: 2. Do.

On the other hand, the lighting device for a street lamp according to the present invention is characterized in that a plurality of LED fixing frame is arranged side by side to improve the uniformity consisting of the above configuration.

The LED fixing frame and the lighting device for a street lamp including the same to improve the uniformity according to the present invention as described above includes a central LED emitting light toward the front, the first side LED and the second side LED emitting light toward the side However, since the luminous intensity is increased by the first reflecting wing or the fourth reflecting wing, the first side LED and the second side LED respectively increase the amount of light to the lateral portion so that the luminous intensity is relatively high.

Accordingly, by improving the uniformity of the entire surface including the surface irradiated by the side lighting, it is possible to prevent the driver from causing glare or disturbing vision when lighting the road so that the driver can have a comfortable and sufficient view. do. In addition, the street lamp installation institutions do not need to install the street lamps more than necessary to satisfy the standard of the road, thereby preventing harm to the aesthetics of the city and have an energy saving effect.

1 is a view showing the brightness characteristics of the front and side portions of the lighting device for a street lamp according to the prior art.
2 is a view showing the illuminance difference between the front portion and the side portion by the lighting apparatus for streetlight according to the prior art.
3 is a view showing a road lighting state by the lighting apparatus for streetlight according to the prior art.
Figure 4a is a brightness distribution diagram of the lighting device for a street lamp according to the prior art.
4b is an illuminance distribution diagram of a road surface illuminated by a lighting device for a street lamp according to the prior art.
5 is a perspective view showing a lighting device for a street lamp according to the present invention.
6 is a bottom view of a lighting device for a street lamp according to the present invention.
7 is a partial perspective view showing the LED fixing frame of the lighting device for a street lamp according to the present invention.
8 is a partial cross-sectional view showing the LED fixing frame of the lighting device for a street lamp according to the present invention.
9 is a state diagram showing the brightness of the LED fixing frame of the lighting device for a street lamp according to the present invention.
10A is a light intensity distribution diagram of a lighting device for a street lamp according to the present invention.
10B is an illuminance distribution diagram of a road surface illuminated by a lighting device for street lamps according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail for the LED fixed frame and the lighting device for a street lamp including the same to improve the uniformity according to a preferred embodiment of the present invention.

However, it will be apparent that the LED fixing frame to improve the uniformity according to the present invention described below can be used in various lighting devices using LEDs, including traffic lights or warning lights in addition to the lighting device for street lights.

In addition, hereinafter, the light emitted from the LED is irradiated in the direct (or forward) direction and the lateral irradiation is described as a single line, but the actual luminous flux passes through the unit area for a unit of time. Since it is represented by the size of (light), it will be apparent to those skilled in the art that the light irradiated in the up and down direction and to the side includes all the irradiation surfaces between the front and the side.

First, an LED fixing frame (see F of FIG. 6) for improving the uniformity according to the present invention may be installed and used in the lighting apparatus 100 for a street lamp as shown in FIG. 5.

The street lighting device 100 is, as an example, a main cover 101, a converter cover 102 provided at the front of the main cover 101, and housed therein a power supply converter, and main The rear cover 101 includes a side cover 103 which is provided at the rear of the cover 101 and is used for connection with an arm provided in the support, and a transparent protective cover 104 which is installed below and transmits light emitted from the LED.

Meanwhile, as shown in FIGS. 6 and 7 (the cover is removed), the LED fixing frame F for improving the uniformity according to the present invention includes a horizontal frame 110 and a first inclined frame 120. ), A first reflective wing 131, a second reflective wing 132, a second inclined frame 140, a third reflective wing 151, and a fourth reflective wing 152.

A center LED L0 is installed in the horizontal frame 110, a first side LED L1 is installed in the first inclined frame 120, and a second side LED L2 is installed in the second inclined frame 140. They are installed, and each consists of unit modules partitioned off by side walls (W).

In addition, preferably, the first blocking block 160 disposed between the horizontal frame 110 and the first inclined frame 120 and the second blocking block disposed between the horizontal frame 110 and the second inclined frame 140. It may further include block 170.

In more detail, the horizontal frame 110 is mainly installed to illuminate the lower part (eg, 0 ° direction of FIG. 3) of the street lighting device 100, in which the center LED L0 is installed. Of course, some are also used to illuminate the side (eg, 60 ° direction in FIG. 3).

To this end, the horizontal frame 110 is disposed horizontally, the center LED (L0) is installed on the lower surface facing the light emitting side, when the center LED (L0) is installed on the horizontal frame 110 of the LED By the straightness, the luminous intensity in the direction (i.e., 0 ° direction) toward the lower part is the largest, and the luminous intensity in the lateral (i.e., 60 ° direction) becomes relatively smaller than the direction toward the lower part.

The horizontal frame 110 may be provided with a printed circuit board (PCB) (not shown) for installation of the center LED L0 and may be electrically connected to receive power through the converter. Detailed description of the configuration of the printed circuit board, such as for the installation of the will be omitted.

The first inclination frame 120 is installed with a first side LED (L1) is mainly used to illuminate one side of the lighting device for a street lamp (for example, +60 ° of Figure 3). Of course, some are also used to illuminate the front of the streetlight lighting device (ie, directly below or 0 °).

To this end, the first inclined frame 120 is disposed to be inclined at one end of the horizontal frame 110, the inclined surface is facing the outside of the horizontal frame 110, the first side on the surface facing the light emitting side LED L1 is installed.

Since the first inclination frame 120 is installed to be inclined, the first side LED L1 is also installed at the same inclination angle as the first inclination frame 120, and the first side LED L1 is provided. Since the straightness is strong, the luminous intensity in the vertical direction (ie, 0 °) from the inclined surface of the first inclined frame 120 is the largest, and the luminous intensity toward the side (ie, 60 °) is relatively small.

However, the first inclination frame 120 is preferably installed so that the inclination angle with respect to the horizontal frame 110 is 110 ° to 130 °, where the inclination angle is referred to as the horizontal frame 110 and the first inclination frame 120 ) Means the angle formed by two sides (hereinafter, the same).

Therefore, when the inclination angle of the first inclination frame 120 is 110 ° to 130 °, the angle between the first inclination frame 120 and the ground is 50 ° (ie, 180 ° to 130 °) to 70 ° ( In other words, 180 ° to 110 °), the brightness of LEDs around 60 °, which is the emission limit angle, can be increased.

As the first reflective wing 131 and the second reflective wing 132 increase the light intensity of the light emitted by the first side LED L1, the luminance of the side of the street lighting device 100 is further increased. It is to increase the uniformity by reducing the difference between the partial illumination of the side of the road illuminated by the street lamp lighting apparatus 100 and the direct illuminance below.

To this end, the first reflecting blade 131 is disposed at the end of the first inclined frame 120 and the inclined surface is installed to face the inside of the horizontal frame 110, the second reflecting wing 132 is 1 is disposed at the end of the reflective wing 131 and is installed to face the inside of the horizontal frame 110 at the same time.

Therefore, the light emitted between approximately 31 ° to 60 ° of the light emitted from the first side LED L1 is reflected by the first reflecting vanes 131 and then irradiated to the side portion of the lighting apparatus 100 for the street light. , 1 ° to 30 °, the emitted light is reflected by the second reflecting vane 132 and likewise irradiated to the side portion of the lighting device 100 for a street lamp (for example, illuminance E ₂ portion of FIG. ₂ ).

That is, the side portion of the street lighting device 100 is reflected by the first reflecting wing 131 and the second reflecting wing 132 as well as the light irradiated toward the front of the first side LED (L1). Since the irradiated light is also reflected, it is possible to double the brightness toward the side of the street lighting device 100.

However, as described above, if the inclination angle of the first inclination frame 120 is 110 ° to 130 °, the inclination angle between the first reflecting vane 131 and the first inclination frame 120 is 102 ° to 110. In addition, it is preferable that the inclination angle between the second reflecting vane 132 and the first reflecting vane 131 be 168 ° to 176 °.

If the angle of inclination of the first reflecting vane 131 is less than 102 ° or exceeds 110 °, the luminous intensity may be higher than an appropriate level due to excessive reflection of the light emitted from the first side LED L1 or the light may be exposed to a specific portion. This is because the concentration of the uniformity improves over the prior art, but decreases than the ideal case as described above, even when the inclination angle of the second reflecting vane 132 is less than 168 ° or exceeds 176 °.

The second inclined frame 140 is provided symmetrically on the first inclined frame 120 with respect to the horizontal frame 110, the other side side of the lighting device for the street lamp as the second side LED (L2) is installed (E.g., -60 ° in FIG. 3). Of course, some also illuminate the front of the streetlight lighting device (ie, directly below).

To this end, the second inclined frame 140 is disposed to be inclined at the other end of the horizontal frame 110, the inclined surface of which faces the outside of the horizontal frame 110, the second side on the surface facing the light emitting side LED L2 is installed.

Since the second inclination frame 140 is installed to be inclined, the second side LED L2 is also installed at the same inclination angle as the second inclination frame 140, and the second side LED L2 is provided. ), The straightness is strong, the luminous intensity in the direction perpendicular to the inclined surface of the second inclined frame 140 is the largest, the luminous intensity toward the side is relatively small.

Like the first inclination frame 120 described above, the second inclination frame 140 may be installed such that the inclination angle with respect to the horizontal frame 110 is 110 ° to 130 °. When the inclination angle is 110 ° to 130 °, the angle between the second inclination frame 140 and the ground becomes 50 ° to 70 °, so that the brightness of the LED around 60 °, which is the emission limit angle, can be increased.

In addition, similar to the above-described first reflective wing 131 and the second reflective wing 132, the third reflective wing 151 and the fourth reflective wing 152 also emit light emitted by the second side LED L2. By further increasing the amount of light to increase the brightness on the side of the lighting device for streetlight 100 further improves the uniformity on the road.

To this end, the third reflective vane 151 is disposed at the end of the second inclined frame 140 and the inclined surface is installed to face the inside of the horizontal frame 110, and the fourth reflective vane 152 is made of 3 is disposed at the end of the reflective wing 151 and at the same time the inclined surface is installed to face the inside of the horizontal frame (110).

Accordingly, light emitted between approximately 31 ° to 60 ° of the light emitted from the second side LED L2 is reflected by the first reflecting vanes 131 and then irradiated to the side portion of the lighting apparatus 100 for the street light. , The light emitted from 1 ° to 30 ° is reflected by the second reflecting wing 132 and then irradiated to the side portion of the street lighting device 100 to double the brightness toward the side of the street lighting device 100. Let's do it.

However, as described above, when the inclination angle of the second inclination frame 140 is 110 ° to 130 °, the inclination angles with respect to the third reflecting vane 151 and the third inclination frame are 102 ° to 110 °, It is preferable that the inclination angles of the fourth reflective wing 152 and the third reflective wing 151 be 168 ° to 176 °.

The first blocking block 160 is disposed between the horizontal frame 110 and the first inclined frame 120 to partition the horizontal frame 110 installation portion and the first inclination frame 120 installation portion. At this time, the first blocking block 160 is formed with a first groove 161 to a predetermined depth so that the photometric light emitted from the central LED L0 passes through the first groove 161 and is directed toward the side portion, or vice versa. The photometric light emitted from the first side LED L1 may pass through the first groove 161 to be irradiated toward the center portion.

In addition, the second blocking block 170 is disposed between the horizontal frame 110 and the second inclined frame 140 to partition the horizontal frame 110 installation portion and the second inclination frame 140 installation portion. A second groove 171 is formed in the second blocking block 170 to a predetermined depth so that the photometric light emitted from the center LED L0 is irradiated toward the side through the second groove 171, or vice versa. The photometric light emitted from the LED (L2) can be irradiated toward the center through the second groove 171.

When the first groove 161 and the second groove 171 are formed, it can be used as the side lighting of the lighting device 100 for a street lamp using the center LED L0, and the first side LED L1 and the first groove 161 are formed. 2 side LED (L2) can be used as a front light of the lighting device for streetlight 100, thereby improving the uniformity while increasing energy efficiency.

However, the grooves 161 and 171 as described above have the light emitted from the center LED L0, the light emitted from the first side LED L1, and the light emitted from the second side LED L2 30 °, respectively. It is preferable that it is formed to the depth which can pass the light which has a beam angle of 60 degrees.

That is, light having a beam angle of 30 ° to 60 ° among the photometric light emitted from the center LED L0 passes through the first groove 161 and the second groove 171 disposed on the left and right sides thereof, respectively, to provide a street lighting device. Light having a beam angle of 30 ° to 60 ° out of the photometric light emitted from the first side LED L1 through the first groove 161 passes through the first groove 161 to provide a The light emitted from the second side LED L2 and having a beam angle of 30 ° to 60 ° is emitted through the second groove 171 to be irradiated to the front of the street lighting device 100. do.

In addition, as illustrated, the first inclined frame 120 is integrally formed on the first blocking block 160, and the second inclined frame 140 is integrally formed on the second blocking block 170. Preferably, when one side of the first blocking block 160 is formed to be inclined and one side of the second blocking block 170 is formed to be inclined, one surface of the first blocking block 160 to the first inclined frame 120. In addition, by using one side of the second blocking block 170 as the second inclined frame 140, it is possible to reduce the size of the device and to reduce the cost.

On the other hand, the center LED (L0) and the horizontal frame 110 and the first inclination frame 120 and the second inclination frame 140, respectively, of the LED fixing frame (F) to improve the uniformity according to the present invention as described above and When the first side LED L1 and the second side LED L2 are installed and the power is supplied from the converter through the printed circuit board, the lighting apparatus 100 for the street lamp starts to emit light.

The light emission pattern is shown in FIG. 8, and as shown in FIG. 8, the size of the light flux per unit area toward the side is greater than that of the light flux per unit area toward the front (ie, directly below) of the lighting device for the lamp. You can see that it is bigger. That is, according to the present invention having the above configuration, it can be seen that the luminous intensity toward the side is relatively larger than the front of the lighting device 100 for streetlight.

Therefore, the single LED itself has a lower brightness toward the side than the brightness toward the front by the straightness, and also the side of the street lighting device 100 than a specific point of the road located in front of the street lighting device 100. Even if the distance to a particular point of the road located in the farther, the lighting device for streetlight 100 of the present invention is adjusted to a greater brightness toward the side, it can be seen that the roughness of the road as a whole is uniform uniformity is high.

For example, the luminance characteristics as shown in FIG. 8 are briefly shown in FIG. 9. According to FIG. 9, four first side LEDs L1, two central LEDs L0, and four second side LEDs L2 are illustrated. If the ratio is 2: 1: 2, the ratio of the number of center LEDs L0 and the side LEDs L1 or L2 is 1: 2, so that the number of side LEDs L1 or L2 is It is twice as large as the central LED L0.

Therefore, as described above, if the LED has an inherent straightness, the front luminance of the LED is 100 (hereinafter referred to as '1' in proportion), and the lateral luminance is 50 (hereinafter referred to as '0.5' in proportion) and is laterally To compensate for the low brightness.

In addition, looking at the brightness toward the front of the street lighting device 100 in Figure 9, the front brightness L0 (0 °) by the two central LED (L0) is 2 (luminous intensity 1 × 2), the first side Lateral brightness L1 (-60 °) by four LEDs (L1) is 2 (0.5 x 4 brightness), and lateral brightness L2 (+ 60 °) by four second side LEDs (L2) is 2 (luminous intensity) 0.5 × 4), which together gives a total brightness of 6 (ratio).

On the other hand, looking at the luminous intensity toward one side of the lighting device 100 for the street light, the lateral luminous intensity L0 (+ 60 °) by the two central LEDs (L0) is 1 (luminous intensity 0.5 × 2), the first side LED (L1) The front luminous intensity L1 (0 degrees) by four is four (luminance 1 * 4).

At the same time, the lateral luminous intensity L1 (+ 60 °) by the four first side LEDs L1 reflected by the first reflective vane 131 is 3 (luminance 0.75 × 4) and the second reflective vane ( The lateral luminous intensity L1 (+ 30 °) by the four first side LEDs L1 reflected by 132 is 2 (0.5 luminous intensity 4), which together gives a total luminous intensity of 12 (ratio). do.

Accordingly, it can be seen that the above roughly calculated results provide about twice the luminous intensity compared to the front, and thus the roughness at the road surface R is uniform and improved evenly compared to the prior art. .

Such brightness characteristics are shown in FIG. 10A, and thus the illuminance characteristics in the road surface are shown in FIG. 10B. Comparing Fig. 10b showing the illuminance distribution on the road surface by the streetlight lighting apparatus 100 according to the present invention, it can be seen that the illuminance of the present invention is generally uniform and the uniformity is greatly improved.

On the other hand, the LED fixing frame (F) for improving the leveling agent as described above is divided by the side walls (W) provided on both sides, respectively, if the plurality of LED fixing frame (F) to improve the leveling system of the present invention is arranged side by side It is possible to provide a single lighting device for the street lamp (100).

The specific embodiments of the present invention have been described above. However, the spirit and scope of the present invention is not limited to these specific embodiments, and various modifications and variations can be made without departing from the spirit of the present invention. Those who have it will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

101: main cover 102: converter cover
103: side cover 104: transparent protective cover
110: horizontal frame 120: first side frame
131: first reflective wing 132: second reflective wing
140: second side frame 151: third reflective wing
152: fourth reflective wing 160: first blocking block
161: first groove 170: second blocking block
171: second groove L: light emitting diode (LED)
W: bulkhead

Claims (9)

In the LED fixing frame which can improve the uniformity factor by making the illumination of the surface to which light is irradiated uniformly,
A horizontal frame 110 disposed horizontally and having a center LED L0 installed on a surface facing the light emitting side; Is disposed on one end of the horizontal frame 110, the inclined surface is installed to face the outside of the horizontal frame 110, the first side LED (L1) is installed on the surface facing the light emitting side 1 inclination frame 120; First reflecting vanes (131) disposed at an end of the first inclined frame (120) and installed such that an inclined surface faces an inside of the horizontal frame (110); A second reflective vane 132 disposed at an end of the first reflective vane 131 and installed to face an inner side of the horizontal frame 110; It is disposed on the other end of the horizontal frame 110, the inclined surface is installed to face the outside of the horizontal frame 110, the second side LED (L2) is installed on the surface facing the light emitting side Two inclined frames 140; A third reflecting wing 151 disposed at an end of the second inclined frame 140 and installed such that an inclined surface faces an inside of the horizontal frame 110; And a fourth reflecting vane (152) disposed at an end of the third reflecting vane (151), the inclined surface being installed to face the inside of the horizontal frame (110);
The first blocking block 160 disposed between the horizontal frame 110 and the first inclined frame 120 and the second blocking block 170 disposed between the horizontal frame 110 and the second inclined frame 140. In addition, grooves 161 and 171 are formed in the first blocking block 160 and the second blocking block 170, respectively, so that the metering light emitted from the central LED L0 is the groove 161. Light emitted from the first side LED L1 and the second side LED L2 by passing through the grooves 161 and 171 toward the center portion of the first side LED L1 and the second side LED L2. LED fixed frame to improve the uniformity, characterized in that. delete The method of claim 1,
The grooves 161 and 171 may have light emitted from the center LED L0, light emitted from the first side LED L1, and light emitted from the second side LED L2 between 30 ° and 60 °. The LED fixed frame to improve the uniformity, characterized in that formed in the depth to pass the light having a beam angle of °. The method of claim 1,
The first inclined frame 120 is integrally formed with the first blocking block 160, and one surface of the first blocking block 160 is the first inclined frame 120, and the second inclined frame ( 140 is formed integrally with the second blocking block 170, LED fixing frame to improve the uniformity, characterized in that one surface of the second blocking block 170 is the second inclined frame (140). The method of claim 1,
The first inclination frame 120 and the second inclination frame 140, the inclination angle with respect to the horizontal frame 110, the LED fixed frame to improve the uniformity, characterized in that each of 110 ° to 130 °. The method of claim 5,
The inclination angles of the first reflecting vanes 131 and the first inclined frame 120 and the inclination angles of the third reflecting vanes 151 and the second inclined frame 140 are 102 ° to 110 °, respectively. LED fixed frame to improve uniformity. The method of claim 6,
The inclination angles of the second reflective wing 132 and the first reflective wing 131 and the inclination angles of the fourth reflective wing 152 and the third reflective wing 151 are 168 ° to 176 °, respectively. LED fixed frame to improve uniformity. The method of claim 1,
The first side LED (L1) is installed on the first inclined frame 120, the center LED (L0) is installed on the horizontal frame 110 and the second side LED is installed on the second inclined frame (140) The ratio of the number of (L2) is 2: 1: 2 LED fixed frame to improve the uniformity, characterized in that. A lighting device for a street lamp, characterized in that a plurality of LED fixing frame to improve the leveling agent as described in claim 1 are arranged side by side.

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