KR101888685B1 - LED lighting equipment - Google Patents

Abstract

The present invention relates to an LED illumination device, comprising: a substrate on which a plurality of LEDs are mounted; a substrate support portion supporting and supporting the substrate, the substrate support portion having a support surface that is not parallel to the paper surface; And a plurality of heat radiation fins provided on an outer side of the substrate supporting part and the reflection part to emit heat of the LED, wherein the reflection part reflects the light of the LED to form a light distribution pattern, And an LED lighting module. A light distribution pattern is formed by reflecting the emitted light of the LED so as not to face the rear surface of the mounting surface of the LED, There is an effect that the light distribution can be blocked in one direction to meet the specifications of the street lamp or the tunnel lamp.

Description

{LED lighting equipment}

The present invention relates to an LED lighting device, and more particularly, to an LED lighting device capable of arbitrary light distribution while preventing glare such as a tunnel or a street lamp.

In general, the lights installed in the tunnels should be installed so as not to cause glare to the driver of the vehicle being operated, and to prevent the occurrence of traffic accidents.

Ideally, it is desirable to satisfy the requirement that the street lamp should be illuminated only on the road surface, and that the lighting on rice fields and fields around the road should be minimized so as not to interfere with the growth of crops.

Conventional lamp-type street lamps and tunnel lamps have a relatively high power consumption, have a short life span and should be replaced frequently. When replacing a tunnel lamp, some lanes of the tunnel must be closed and replaced. There was a problem that could cause accidents.

In order to solve the problem of the conventional lamp-type lighting lamp, the development of an illumination lamp using an LED having a relatively long life and consuming a low power is proceeding.

Open No. 2003-0044324 discloses a tunnel lamp using an LED. More specifically, the present invention relates to a tunnel lamp capable of preventing driver's glare by providing an LED substrate horizontally on a road and using an L-shaped bent housing.

However, since the light emitting surfaces of the conventional LEDs including the above-described Japanese Patent Laid-Open Publication No. 2003-0044324 are installed so that the light emitting surfaces of the LEDs face the road surface so as to be parallel to the road surface, do.

Although there is a difference in the light distribution pattern of a general street lamp and a tunnel lamp, it is very difficult to form a light distribution pattern arbitrarily. To solve this problem, a lens which is converted into a specific light distribution pattern is used.

The lens is a factor for raising the price of an LED illumination light and causes a light loss to lower the illuminance. This is because the illuminance to be provided on the road surface is lowered. Therefore, when the lens is used, the illuminance of the road surface must be adjusted by using more LEDs. This increases the manufacturing cost of the illumination lamp and increases the power consumption. .

An object of the present invention is to provide an illumination device capable of arbitrary light distribution without using a lens in an illumination using an LED.

Another object of the present invention is to provide a light emitting device capable of preventing light from being irradiated in one direction without using a complicated housing structure and capable of preventing a driver of a vehicle approaching from one direction from glare, And a lighting device.

According to an aspect of the present invention, there is provided a liquid crystal display comprising: a substrate on which a plurality of LEDs are mounted; a substrate support portion supporting and supporting the substrate and having a support surface that is not parallel to the paper surface; A reflecting portion for reflecting the light of the LED to form a light distribution pattern and preventing light from being shined behind the substrate supporting portion; and a plurality of light emitting portions provided on the outside of the substrate supporting portion and the reflecting portion to emit heat of the LED And an LED lighting module including a radiating fin.

The light emitting device of the present invention is arranged so that the light emitting surface of the LED does not face the paper surface and the emitted light of the LED is reflected to form the light distribution pattern so that the light distribution is not made behind the mounting surface of the LED Structure can be used to block the light distribution in one direction, thereby meeting the specifications of the street lamp or the tunnel lamp.

In addition, the LED illumination device of the present invention adjusts the degree of reflection of light emitted from the LED so as to variously adjust the shape of the light distribution pattern, thereby providing various light distribution patterns without using a lens, , The manufacturing cost can be reduced.

1 is a cross-sectional view of an LED illumination device according to a preferred embodiment of the present invention.
2 is a bottom perspective view of an LED illumination apparatus according to a preferred embodiment of the present invention.
3 is a cross-sectional view of an LED illumination device according to another embodiment of the present invention.
4 is a configuration diagram of an LED illumination device according to another embodiment of the present invention.
5 is a state in which the LED illumination device according to another embodiment of the present invention shown in FIG. 4 is applied to a tunnel.

Hereinafter, the configuration and operation of the LED illumination device according to the preferred embodiment of the present invention will be described in more detail.

FIG. 1 is a cross-sectional view of an LED illumination device according to a preferred embodiment of the present invention, and FIG. 2 is a bottom side perspective view of FIG.

Referring to FIGS. 1 and 2, the LED lighting apparatus according to the preferred embodiment of the present invention includes a substrate 10 on which a plurality of LEDs 11 are mounted, A substrate supporting part 20 for providing a supporting surface which is not parallel to the surface of the substrate supporting part 20 and a supporting part for supporting the substrate supporting part 20, A reflecting portion 30 which does not reflect light at the back of the substrate supporting portion 20 and a reflecting portion 30 which is located outside the reflecting portion 30 and the substrate supporting portion 20 And a plurality of heat dissipation fins (40) for dissipating heat generated in the LEDs (11).

Hereinafter, the configuration and operation of the LED illumination device according to the preferred embodiment of the present invention will be described in detail.

First, the substrate supporting part 20 is a plate-shaped frame which provides a vertical or inclined supporting surface with an inclination angle? 1 of 10 to 90 degrees with respect to the paper, and a plurality of LEDs 11 are mounted on the substrate supporting part 20 A substrate 10 is provided.

Therefore, the light emitting surface of the LED 11 is positioned at an angle equal to the inclination of the supporting surface of the substrate supporting portion 20, and the light emitting surface thereof is inclined.

As described above, since the light emitted from the LED 11 is not directed toward the ground, more various light distribution patterns can be formed. The light distribution pattern is formed through the reflection portion 30 coupled to the upper end side of the mounting surface of the substrate support portion 20.

The angle of inclination? 2 between the reflecting portion 30 and the substrate supporting portion 20 is in the range of 90 to 160 degrees. Particularly, the reflecting portion 30 and the lower end of the substrate supporting portion 20 have the same height from the ground The lower end of the reflective portion 30 is located higher than the lower end of the substrate supporting portion 20. [

The inclination angle? 1 of the substrate support 20 with respect to the ground and the inclination angle? 2 between the reflector 30 and the substrate support 20 satisfy the condition that the reflectors 30 And the substrate supporting part 20 are used to prevent the light reflected by the reflecting part 30 from being radiated to the back side of the substrate supporting part 20. [

1, the connecting portion between the reflective portion 30 and the substrate supporting portion 20 may be formed to have a flat reflective surface to prevent light distribution to the backside of the substrate supporting portion 20, It is preferable that a curved surface portion 31 is provided.

When the flat reflective portion 30 and the substrate supporting portion 20 are brought into contact with each other without using the curved surface portion 31, the light reflected at the connection portion can be distributed to the rear side of the substrate supporting portion 20.

The reflective portion 30 and the substrate supporting portion 20 may be made of a metal such as aluminum having a good thermal conductivity. For the sake of convenience, the reflective portion 30 and the substrate supporting portion 20 have been separately described, It is easier to manufacture with an integral structure.

The light distribution pattern can be determined according to the inclination angle 2 of the substrate support portion 20 and the reflection portion 30 in a state where the angle of the substrate support portion 20 is fixed. For example, when the substrate supporting surface of the substrate supporting part 20 is perpendicular to the paper surface, that is, the angle? 1 is 30 degrees, the inclination angle? 2 between the reflecting part 30 and the substrate supporting part 20 is 90 degrees The larger the value of? 2 is, the more the light emitting surface of the LED 11 is exposed to the side surface. At this time, as the angle of [theta] 2 is increased, the light distribution from the LED 11 to the farther distance is performed, and when the angle [theta] 2 is 90 degrees, the light distribution pattern in which light is irradiated to the shortest distance can be obtained.

Therefore, according to the present invention, it is possible to manufacture LED lighting apparatuses having different light distribution patterns according to the purpose of use of the illumination lamps by appropriately adjusting the θ1 and the θ2.

The reflector 30 and the substrate supporter 20 are both made of a metal that can easily conduct heat and a plurality of heat dissipation fins 40 are provided outside the reflector 30 and the substrate supporter 20 The heat generated in the LED 11 can be easily released.

The heat dissipation fins 40 are provided at predetermined intervals along the width w of the reflector 30 and the substrate supporter 20 so that the length of the reflector 30 and the substrate supporter 20 in the longitudinal direction l As shown in FIG. 1, which is a cross-sectional view of the reflective portion 30 and the substrate supporting portion 20. As shown in FIG. The shape of the radiating fin 40 having such a structure also serves to reinforce the rigidity of the plate-like substrate supporting portion 20 having the bent structure and the reflecting portion 30.

3 is a cross-sectional view of an LED illumination device according to another embodiment of the present invention.

Referring to FIG. 3, the illumination device according to another embodiment of the present invention is characterized in that the reflecting surface of the reflecting portion 30 is a curved surface.

The reflecting portion 30 having the curved reflecting surface has an angle of inclination? 2 with respect to the substrate supporting portion 20 in the angular range of 90 to 160 degrees as in the example described above, The lower end of the substrate support portion 30 is at the same height or higher than the lower end of the substrate support portion 20.

When the reflector 30 extends closer to the ground than the substrate support 20, the reflected light from the extended portion is reflected back of the substrate support 20, which is reflected from the backside of the substrate support 20 The lower end of the reflective portion 30 is flush with the lower end of the substrate supporting portion 20 because it causes the driver of the vehicle moving toward the substrate supporting portion 20 to be glazed.

The lower end of the reflector 30 may be positioned higher than the lower end of the substrate support 20, but it may not be easy to set an appropriate light distribution pattern.

In the example described above, it is explained that the light distribution pattern can be adjusted by adjusting θ1 and θ2. When the reflection surface of the reflection part 30 is a curved surface, the curvature of the reflection surface is adjusted The light distribution pattern can be adjusted in various forms.

The curved surface portion 31 is located between the substrate supporting portions 20 and the light reflected by the reflecting portion 30 is reflected by the substrate supporting portion 20, It is possible to prevent the light from being distributed to the rear side of the light source.

The reflector 30 can be mirror-finished or attached with a reflective sheet to minimize the loss of light, and it is possible to make an arbitrary light distribution pattern without using a lens, thereby further reducing the loss of the light.

By minimizing the light loss as described above, the power consumption can be reduced under the condition of providing road illumination of the same illuminance.

A transparent cover 50 is provided at the bottom of the reflective portion 30 and the substrate supporting portion 20 to prevent moisture from entering the reflective portion 30.

4 is a cross-sectional view of an LED illumination device according to another embodiment of the present invention.

Referring to FIG. 4, an LED illumination device according to another embodiment of the present invention is a configuration in which a part of the reflection part 30 is bent in the configuration of the embodiment described with reference to FIG. 1, A first reflecting portion 32 adjacent to the supporting portion 20 and a second reflecting portion 33 bent from the first reflecting portion 32. [

The substrate 10 is attached to a part of the upper side of the substrate supporting part 20 and the substrate 10 is not provided on the lower side of the substrate supporting part 20.

The angle θ1 formed between the substrate support 20 and the paper surface, the angle θ2 formed by the substrate support 20 and the first reflector 32, the angle formed by the first reflector 32 and the second reflector 33 the light distribution pattern of the LED illumination device shown in Fig. 4 is determined by adjustment of? 3.

Preferably, the angle? 1 is in the range of 10 to 90 degrees,? 2 is in the range of 90 to 160 degrees, and? 3 is in the range of 110 to 179 degrees. As another condition for this, it is preferable that the value of &thetas; 2 decreases in inverse proportion as the value of &thetas; 1 becomes larger.

It is preferable that the first reflector 32 and the second reflector 33 are curved in a curved shape.

When the angle between the first reflecting portion 32 and the second reflecting portion 33 is less than 110 degrees, the reflected light reflected by the second reflecting portion 33 is reflected by the backside of the substrate supporting portion 20, If the angle is more than 180 degrees but not more than 179 degrees, it is hard to see the folded structure. If the angle is more than 180 degrees, the reflector may not be able to function as a reflecting part.

As described above, according to the present invention, the reflection part can be variously changed into a plane, a curved surface, a combination of a flat surface and a curved surface, and a bent flat shape, thereby making it possible to produce a light distribution pattern that matches the purpose of use of the lighting device.

5 is a diagram showing another embodiment of the LED illumination device according to the present invention.

5, another embodiment of the LED illumination device according to the present invention includes the substrate 10, the substrate support 20, the reflection portion 30, the radiation fins 40, and the transparent cover 50 described in detail above An LED lighting device including the LED module 1 is used as the lighting module 1, and a plurality of the lighting modules 1 are connected to each other so that the required illuminance can be adjusted on the road.

5, a frame 2 connected by continuously connecting four LED module modules 1, a power supply unit 3 fixed to the frame 2 and supplying power to the respective LED module modules 1 And a beacon 4 provided at one end of the frame 2, it is possible to apply various structures to the LED lighting modules 1, It is obvious.

FIG. 6 is a state in which the LED illumination device of the embodiment shown in FIG. 5 is applied to a tunnel.

6, the frame 2 connecting each of the LED lighting modules 1 is supported by a mounting tube 5 extending from the top of the tunnel, and the inside of the mounting tube 5 is connected to the power supply unit 3 (not shown) for supplying external power can be inserted.

The light distribution of the LED lighting modules 1 is not distributed to the entry side of the vehicle on the left side in the drawing and illuminates the road surface 6 with a long light distribution pattern along the running direction of the vehicle.

Further, the LED lighting modules 1 may emit light of different colors. Normally, the inside of the tunnel is provided with a daylight color illumination or a bright orange color worm white color illumination.

The worm white is known to have a higher transmittance than a daylight color (white) in a case where dust is floated in the tunnel or fogged.

Accordingly, a part of the LED light modules 1 can provide white light and the other part can provide warm white light.

Further, the light distribution pattern is brought into contact with the light distribution pattern of another LED lighting device positioned adjacent to the running direction side of the vehicle, so that uniform illumination can be provided on the entire road surface 6.

The lighting of each of the LED lighting modules 1 can be controlled from the outside. When an emergency situation such as a traffic accident occurs inside the tunnel, the warning light 4 is blinked, so that the vehicle entering the tunnel and the vehicle outside the tunnel It is possible to easily recognize that an emergency situation has occurred, so that the occurrence of a secondary collision accident can be prevented.

The frame 2 may be a pair of metal bars for fixing the right and left sides of each of the LED lighting modules 1 and the left and right sides of the power supply unit 3 and is provided with a support for connecting the pair of metal bars, The warning light 4 can be added to the outside.

The beacon light 4 may have a color such as red so that it can be distinguished from the illumination of the LED lighting module 1.

7 is a configuration diagram of an LED lighting device capable of arbitrary light distribution according to another embodiment of the present invention.

Referring to FIG. 7, the LED lighting device capable of arbitrary light distribution according to another embodiment of the present invention includes a side lighting module 70 coupled to the outside of one side of the frame 2 in the technical construction described with reference to FIG. 6 .

The side lighting module 70 illuminates the wall side of the tunnel when the LED illumination device capable of arbitrary light distribution according to the present invention is used as a tunnel or the like. In order to prevent the vehicle from colliding with the side surface of the tunnel, So that the light can be illuminated more brightly.

8 is an exemplary configuration diagram of the side lighting module 70. As shown in FIG.

8, the side lighting module includes a rod-shaped body frame 71 having a long groove 72 formed on a bottom surface thereof, a body frame 71 having a light emitting surface of a plurality of LEDs mounted thereon, A plurality of radiating fins 74 spaced apart from each other by a predetermined distance on the upper surface and the side surface of the body frame 71 and a plurality of radiating fins 74 formed on the upper surface and the side surface of the body frame 71, And a lens 75 installed at an opening of the substrate 72 to emit the emitted light of the LED mounted on the substrate 73.

In the side illumination module having such a structure, the light of the LED can be induced and released into the groove 72 by using the rod-shaped body frame 71, and the lens 75 is provided on the outer side of the groove 72 In addition, it is possible to have various light distribution patterns.

In addition, the hollow body frame 71 can be used to reduce the weight, and the heat radiating fins 74 can be disposed on the upper and outer sides of the body frame 71 to facilitate heat radiation.

As described above, the present invention can provide a variety of light distribution patterns by applying illumination modules capable of providing light distribution patterns according to the purpose of use of the lighting apparatus at various positions of the frame 2. [

Further, the side lighting module 70 can be hinged to the frame 2 and tilted at a predetermined angle, and can be installed at a desired installation angle during installation.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention will be.

10: substrate 11: LED
20: substrate supporting part 30:
31: curved surface portion 32: first reflecting portion
33: second reflecting portion 40: radiating fin
1: LED lighting module 2: frame
3: Power supply unit 4: Warning light
5: Installation pipe 6: Road surface
70: Side lighting module 71: Body frame
72: groove 73: substrate
74: radiating fin 75: lens

Claims (11)

A substrate on which a plurality of LEDs are mounted;
A substrate support that supports and fixes the substrate and has a support surface that is not parallel to the paper surface;
A reflecting portion extending from an upper end of the supporting surface of the substrate supporting portion to reflect the light of the LED to form a light distribution pattern, and to prevent light from being shined behind the substrate supporting portion;
An LED lighting module provided outside the substrate supporting part and the reflection part and including a plurality of radiating fins for emitting heat of the LED;
A frame in which a plurality of the LED lighting modules are installed;
A power supply unit installed in the frame and supplying power to the LED lighting module; And
And a warning lamp provided on one side of the frame and flickering when an emergency occurs.
The method according to claim 1,
Wherein the lower end of the substrate support portion and the lower end of the reflective portion are at the same height, or the lower end of the reflective portion is positioned higher than the lower end of the substrate support portion.
The method according to claim 1,
Wherein the substrate supporting portion and the reflecting portion are integrally formed.
The method according to claim 1,
The reflector includes:
Wherein the reflective surface is a flat or curved surface, a combination of a flat surface and a curved surface, or a bent surface that is a bent plane.
delete The method according to claim 1,
The LED lighting module has a long bar shape on one side,
Wherein the heat radiating fins are integrated with the LED lighting module and extend in the width direction of the LED module.
The method according to claim 1,
The plurality of LED light modules each include:
Wherein LEDs which emit different colors are provided.
The method according to claim 1,
On one side of the frame,
Further comprising a side illumination module for distributing a light distribution pattern side surface of the LED lighting module.
9. The method of claim 8,
The side illumination module includes:
A rod-shaped body frame provided with a long-shaped groove on its bottom surface;
A substrate coupled to an inner upper surface portion of the body frame such that the light emitting surfaces of the plurality of LEDs mounted face the opening of the groove; And
And a plurality of radiating fins spaced apart from each other by a predetermined distance on an upper surface and a side surface of the body frame.
10. The method of claim 9,
And a lens installed in the opening of the groove to adjust a light distribution pattern of the emitted light of the LED mounted on the substrate.
9. The method of claim 8,
The side illumination module includes:
And the hinge unit is hinged to the frame so that an installation angle can be adjusted.

Images