KR101147012B1 - Reflector of led street lamp - Google Patents

Abstract

PURPOSE: A reflector for an LED street light capable of preventing the loss of light is provided to enable users to adjust the radiation direction and area of emitted light by installing the reflector on the side of an LED. CONSTITUTION: A reflector for an LED street light comprises the following: reflecting units(10A, 10B) including plural reflecting blocks(10) connected in a row; a connection bar(20) connected to the reflecting units; protrusions formed on the left and right sides around the vertical plane on the reflecting blocks; a vertical unit formed in parallel with the center of the vertical plane; and a fixing protrusion formed n the bottom of the reflecting unit with the constant interval.

Description

Reflector for LED street light {REFLECTOR OF LED STREET LAMP}

The present invention relates to a reflector for an LED street light, and more particularly, to a reflector for an LED street light to efficiently reflect the light emitted from the LED installed as a light source of the street light and to be irradiated in a desired direction.

Street lamps and parks are installed at regular intervals on the side of roads and walkways of parks so that cars and pedestrians can identify them at night. Tower poles are installed on squares to illuminate a wide range. These street lights, park lights or tower poles (hereinafter referred to as street lights) use bulbs such as sodium or incandescent lamps to guide the driving of a car at night using the light from them.

However, conventional street lamps using bulbs such as sodium lamps or incandescent lamps are inconvenient to be replaced at any time due to the short service life of bulbs used as light sources, and it is difficult to control the illumination direction and illumination range of light emitted from the bulbs. As a result, the light reaches not only the driving lane in which the vehicle travels, but also the lane in which the vehicle crosses, thereby obstructing the driver's view and thus preventing safety driving.

Recently, with the development of LED (Light Emitting Diode) manufacturing technology, the use of LED as a light source of the street light is increasing.

When the LED is used as a light source of a street light, the LED has a much longer life compared to a bulb such as an incandescent lamp, thereby reducing maintenance costs due to a long replacement cycle. LEDs are also much smaller than bulbs like sodium, making them easier to handle.

A street lamp using LED as a light source is generally composed of a lamp post and a lamp installed above the lamp post. At this time, the lamp is composed of a substrate as shown in FIG. 1 and a plurality of LEDs installed on the upper surface of the substrate. The upper portion of the transparent diffusion plate or reflector made of PC (Polycarbonate) is installed to diffuse the light emitted from the LED in various directions.

Conventional LED street light is a structure in which a circular PC diffuser plate is installed on the upper part of each of the LEDs installed, which requires a lot of cost and time to install the diffuser plate, and also uses a diffuser plate made of PC material. There is a loss of light by itself, and in addition, there is a problem that the light transmission efficiency is lowered due to the whitening of the diffusion plate of the PC material over time.

As mentioned above, in order to solve the inconvenience of installing a diffusion plate for each LED, a method of installing a diffuser plate having a large size enough to cover all LEDs installed on a substrate has been proposed. In this case, there is a disadvantage that the light emitted from the LED is not uniformly distributed. In addition, when the number of LEDs increases or decreases due to the change in the capacity of the street light, there is inconvenience of having to manufacture and use diffuser plates of different sizes.

In addition, since the diffusion plate of the PC material is still installed and used on the upper part of the LED, the problem of light loss caused by the diffusion plate itself as described above and the problem of lowering the light transmission efficiency of the diffusion plate are not solved.

In addition, according to the structure of the diffusion plate installed on the upper part of the conventional LED, it is not easy to adjust the light emitted from the LED to be irradiated in a desired direction and area.

The present invention has been made to solve the problems of the conventional LED street light diffusion plate as described above, the present invention is excellent in reflection efficiency, can easily cope with the change in the capacity of the street light, and also wants the light emitted from the LED It is an object of the present invention to provide a reflector for an LED street light that can be easily adjusted and irradiated in a direction.

An object of the present invention as described above is a pair of reflecting unit is formed by connecting a plurality of reflecting blocks in series, the reflector for the LED street light; Consists of a connection bar for connecting the pair of reflection units; The reflective block is formed with protrusions having the same shape on the left and right sides of the virtual rectangular vertical plane, respectively. And an upper inclined plane, a left inclined plane, and a right inclined plane connecting the virtual rectangular vertical plane and the vertical part, wherein the upper inclined plane has a triangular shape, and the left inclined plane and the right inclined plane have a trapezoidal shape, respectively. Is achieved.

At this time, the forming angle of the left inclined surface and the right inclined surface is implemented to be formed in an angle range of 15 to 25 ° based on the vertical portion.

And the forming angle of the upper inclined surface is carried out to be formed in the angle range of 50 ~ 60 ° based on the vertical portion.

On the other hand, the bottom of the reflecting unit is carried out to be formed with a fixed projection at regular intervals, and the reflecting block is made of synthetic resin, the outer surface is carried out by chromium plating.

In the present invention, by installing a reflector on the side of the LED instead of installing a diffuser plate on the upper surface of the LED, it is possible to prevent the loss of light due to the use of the diffuser plate and at the same time prevent the degradation, and consequently the reflection efficiency is greatly improved.

In addition, the present invention is limited to the irradiation direction and the irradiation area by the inclined surfaces formed on the reflective block, as a result it can be irradiated only the driving lane without affecting the intersection lane in the driving lane, etc. to prevent the glare of the driver can do.

In addition, the present invention can easily cope with this even if the number of LEDs installed on the substrate of the street lamp is changed because the reflective blocks can be manufactured by being connected in a row and can be cut or connected as necessary.

In addition, the present invention facilitates the installation of the reflector because the installation of the reflector is completed only by removing the fitting hole and the fixing projection, and as a result, the time and cost of the reflector installation are reduced.

1 is a perspective view showing an example of a reflection unit according to the present invention;
2 is a plan view of the present invention,
3 is a bottom view of the present invention,
4 is a perspective view showing an example of a reflective block according to the present invention;
5 is a plan view showing an example of another substrate to the present invention,
6 is a use state diagram showing an example in which the reflection unit according to the present invention is installed.

Hereinafter, the configuration of the present invention through the accompanying drawings showing a preferred embodiment will be described in more detail.

1 to 3, the reflector of the present invention includes a reflection block 10, a reflection unit 10A and 10B in which a plurality of reflection blocks 10 are connected in a line, and a pair of reflection units 10A and 10B. It consists of a connection bar 20 for connecting.

The reflective block 10 is made of synthetic resin and manufactured by injection, and the reflective block 10 has protrusions having the same shape on the left and right sides of a virtual rectangular vertical plane A, as shown in FIG. 4. The protrusions are spaced apart from the vertical centerline C of the virtual rectangular vertical plane A at regular intervals and formed in parallel with the vertical centerline C, and the vertical plane A and the The upper inclined surface 12, the left inclined surface 13 and the right inclined surface 14 connecting the vertical portion 11, whereby the upper inclined surface 12 has a triangular shape, the left inclined surface 13 and the right inclined surface Each 14 has a trapezoidal shape so that the entire structure of the reflective block 10 is as shown in FIG.

)가 15~25°의 각도범위로 형성되는데, 이는 좌우측경사면(13, 14)의 형성각도(

)가 15°보다 작게 되면 LED로부터 발광된 빛이 반사 및 재반사가 너무 과도하여 반사유닛(10A, 10B)의 연결방향으로 너무 많이 퍼지게 되고, 25°보다 큰 경우에는 반사 및 재반사가 원활하지 않아 LED로부터 발광된 빛이 반사유닛(10A, 10B)의 연결방향으로 균등하게 퍼지지 않는 문제를 해결하고자 한데 따른 것이다.At this time, the left and right inclined surfaces 13 and 14 having a trapezoidal shape are formed based on an imaginary vertical plane A.

) Is formed in the angle range of 15 to 25 °, which is the forming angle of the left and right inclined surfaces (13, 14)

Is less than 15 °, the light emitted from the LED is too much reflected and re-reflected, spreading too much in the connection direction of the reflection unit (10A, 10B), if greater than 25 ° reflection and re-reflection is not smooth Therefore, the light emitted from the LED is to solve the problem that does not spread evenly in the connection direction of the reflection unit (10A, 10B).

)는 가상의 수직평면(A)의 수직 중심선(C)과 수직부(11)의 상단을 수평으로 연결하는 수평선(C')을 기준으로 50~60°의 범위로 형성되는데, 이는 상측경사면(12)의 형성각도(

)가 50°보다 작은 경우 삼각형 모양의 상측경사면(12)의 면적이 줄어들기 때문에 그 기능을 제대로 발휘되지 못하는 문제가 있고, 60°보다 큰 경우에는 사다리꼴 모양의 좌우측경사면(13, 14)의 면적이 줄어들어 반사율이 저하되는 동시에 LED로부터 발광된 빛의 길이방향과 직교하는 방향으로의 조사각도가 너무 크게 되는 문제를 해결하고자 한데 따른 것이다.In addition, the forming angle of the upper inclined surface 12 (

) Is formed in a range of 50 to 60 ° based on a horizontal line C 'connecting the vertical center line C of the imaginary vertical plane A to the top of the vertical part 11 horizontally, which is an upper inclined plane ( 12) forming angle (

) Is smaller than 50 °, the area of the triangular upper inclined surface 12 is reduced, so that the function is not properly exhibited, and when larger than 60 °, the area of the trapezoidal left and right inclined surfaces 13 and 14 is larger. This decreases the reflectance and at the same time to solve the problem that the irradiation angle in the direction orthogonal to the longitudinal direction of the light emitted from the LED is too large.

And the outer surface of the reflective block 10 has a smooth surface is chrome plated to increase the reflection efficiency.

In this case, a chamfer 16 may be formed at the lower end of the connection surface to which the reflective block 10 and the reflective block 10 are connected, as shown in FIGS. By inserting the reflection unit (10A, 10B) can be easily cut to the appropriate length.

The pair of reflection units 10A and 10B are configured by connecting a plurality of reflection blocks 10 in the longitudinal direction as shown in FIGS. 2 to 3.

In addition, the connecting bar 20 connects a pair of reflecting units 10A and 10B arranged in parallel to each other to form a reflector. In this case, the connecting bar 20 extends in the longitudinal direction of the reflecting units 10A and 10B. The formation interval may be appropriately selected as necessary, but preferably, one formation interval for each of the two reflection blocks 10.

And it is preferable that the fixing projection 15 protruding downward from the bottom surface, the fixing projection 15 is inserted into the fixing hole 2 formed in the substrate 1 shown in FIG. This will be described later.

Hereinafter, a method of installing the reflector having the above structure and the operation thereof will be described.

In the lamp of the street lamp, a substrate 1 in which a plurality of LEDs 3 are arranged horizontally and vertically is installed, and a fitting hole 2 is formed on the substrate 1 in close proximity to the LED as described above. The fixing holes 16 are inserted and fixed by arranging the reflectors horizontally or vertically according to the irradiation direction and the irradiation area to which the street light is to be irradiated to the fitting holes 2, thereby forming two rows of reflecting units 10A and 10B. The LED is positioned between the reflecting units 10A and 10B of the reflector.

At this time, the length of the reflector is cut by adjusting the length of the reflector according to the number of LEDs 3 arranged horizontally or vertically on the substrate 1, which will be described in more detail. 4 rows of rows and 15 rows of columns are arranged, and if the reflectors are to be arranged vertically, the reflectors are cut or connected as necessary so that the reflectors are provided with 15 reflection blocks 10 on each of the left and right as shown in FIG. Insert the fixing protrusions 16 into the fitting holes 2 to fix them.

If the reflector is manufactured in a form in which 10 left and right reflective blocks 10 are formed, respectively, the reflective units 10A and 10B consisting of ten reflective blocks 10 and the reflective unit consisting of five reflective blocks 10 ( 10A and 10B are arranged in the longitudinal direction, and since the fixing protrusions 16 formed at the bottom of the neighboring reflector are inserted into the fitting holes 2, they are brought into contact with each other so that the reflectors are not physically connected. You don't have to.

After a set of reflectors are installed for a row of LEDs by the above process, the reflectors are not installed in the next row of LEDs, but the reflectors are installed in the next row of LEDs as described above. If the reflectors are installed in the next LED row even if the LEDs are not installed, the LEDs are installed between the outer protrusions of the reflectors provided to the left and right of the LED rows where the reflectors are not installed. Because.

After repeating the above process, the arrangement of the reflector on the substrate is completed, the substrate is turned upside down and inserted into the fitting hole (2) with a hot iron with a sharp tip, etc., and the heat is applied to the fixing protrusion inserted into the fitting hole (2). It melt | dissolves at the edge part of 16, and is firmly fused and fixed to a board | substrate.

Instead of selectively applying heat to the iron or the like, an adhesive or the like may be applied to the fixing protrusion 16 and inserted into the fitting hole 2 to fix the reflector to the substrate 1.

After the installation and fixing of the reflector on the substrate 1 is completed by the above-described process, as shown in FIG. 6, the space formed by the vertical portions 11 of the pair of opposite reflective blocks 10 is automatically formed. Each of the LEDs 3 is arranged, and when the LEDs 3 emit light by this structure, the light emitted from the LEDs 3 is left and right inclined surfaces 13, in the connecting direction of the reflection units 10A and 10B. 14) is reflected and re-reflected along the spread evenly spread, and irradiated vertically by the height of the vertical portion 11 in the direction orthogonal to the connecting direction, and then reflected on the upper inclined surface 12, the irradiation direction As a result, it is possible to inspect the driving lanes without affecting the intersection lanes in the lanes in which the automobiles are driven. As a result, the driver can prevent the glare of the driver and promote safe driving.

As described above, in the present invention, instead of installing a diffuser plate on the upper surface of the LED, a reflector is provided on the side of the LED to prevent the loss of light caused by using the diffuser plate, and at the same time, the irradiation direction and the irradiation area of the light emitted from the LED Appropriately adjusted.

1: substrate 2: fitting hole
3: LED 10: reflective block
10A, 10B: Reflector Unit 11: Vertical Section
12: Upper inclined plane 13: Left inclined plane
14: right inclined surface 15: fixing protrusion
16: inclined portion 20: connecting bar
A: imaginary vertical plane C: vertical centerline
C ': horizon

Claims (5)

In the reflector for LED street light that reflects the light emitted from the LED to a substrate on which a plurality of LEDs are installed,
The reflector includes a pair of reflecting units (10A, 10B) formed by connecting a plurality of reflecting blocks (10) in a row;
Consists of a connection bar 20 for connecting the pair of reflection units (10A, 10B);
The reflective block 10 is formed with protrusions having the same shape on the left and right sides of the virtual rectangular vertical plane A, respectively,
Each of the protrusions is vertically spaced apart from the vertical centerline C of the virtual rectangular vertical plane A at a predetermined interval and is formed parallel to the vertical centerline C, and the virtual rectangular vertical plane A is formed. And an upper inclined surface 12, a left inclined surface 13, and a right inclined surface 14 connecting the vertical portion 11 to each other.
The upper inclined surface (12) has a triangular shape, the left inclined surface (13) and the right inclined surface (14) is a reflector for LED street light, characterized in that each has a trapezoidal shape.
The method according to claim 1,
Formation angle of the left inclined surface 13 and the right inclined surface 14 (

) Is a reflector for LED street light, characterized in that each formed in the range of 15 ~ 25 ° based on the virtual vertical plane (A).
The method according to claim 1,
Formation angle of the upper inclined surface 12 (

) Is a reflector for LED street light, characterized in that formed in the range of 50 ~ 60 ° based on the horizontal line (C ') connecting the vertical center line (C) and the upper end of the vertical portion (11) horizontally.
The method according to any one of claims 1 to 3,
Reflector for the LED street light, characterized in that the fixing projections 15 are formed at a predetermined interval on the bottom surface of the reflecting unit (10A, 10B).
The method according to any one of claims 1 to 3,
The reflector block 10 is made of synthetic resin, the outer surface is a reflector for LED street light, characterized in that the chromium plating.

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