KR101265162B1 - Led street lamp capable of controlling light distribution angle - Google Patents

Abstract

PURPOSE: An LED street light capable of adjusting a light distributing angle is provided to have a reflector and an LED light source unit including a lens, thereby improving light distributing efficiency. CONSTITUTION: A cover unit includes an internal space. Multiple LED modules(200) are arranged in an internal space. A heat dispersing support unit(300) is arranged in a rear end of the LED module. An LED light source unit is arranged on one surface of a conductive lower plate. A reflector(230) is arranged in both sides of the LED light source unit.

Description

LED street lamp capable of controlling light distribution angle

The present invention relates to an LED street light that can adjust the light distribution angle, and more particularly, to an LED street light that can adjust the light distribution angle that can effectively change the light distribution characteristics by reflecting light generated from a plurality of LED light sources.

Street lamps are used according to the installation places such as highways, main roads in the city, commercial roads and residential roads. There are several types of street lamp poles, such as a highway type that bends the end of the pole and has its back at the end, a bracket that extends horizontally at the end of the pole, and a back at the top of the pole. There is a scalp.

In general, high-pressure mercury lamps, fluorescent lamps, sodium lamps, ordinary light bulbs and the like are widely used as light sources of street lights. However, the use of such a light source consumes a lot of power and has a limited lifespan, resulting in considerable maintenance costs. Therefore, in recent years, the spread of high-brightness LED (Light Emitting Diode) street lamps having various advantages such as low power consumption, excellent illuminance, and long life time has been spreading.

The technology for the LED lighting device using such an LED is disclosed in Korean Patent Publication No. 10-2009-78712, Korean Patent Publication No. 10-2009-43215, and Korean Patent Publication No. 10-2010-0020786.

However, the following disadvantages are pointed out in using such a high brightness light emitting diode.

In the LED lighting apparatus using the LED, if the irradiation angle of the light emitted from each LED light source, that is, the light distribution angle is unnecessarily large, light pollution may occur due to light outside the effective light distribution angle or glare to the driver, which may interfere with driving. Can be. In addition, when the light distribution angle is more narrow than necessary, the roughness of the middle part between the street lamp and another neighboring street lamp is lowered, and a dark area may occur. Therefore, it is important to set the light distribution to a range that does not occur while minimizing driver glare.

Thus, a reflector is installed behind the LED light source to produce a specific light distribution, or a cup-shaped reflector or LED to generate directional light with a full width of half maxium (FWHM) of about 120 degrees forward perpendicular to the LED surface. The lens may be used on it.

However, in order to spread the light in a wide direction, the vertically radiated light of the LED light source must be refracted or reflected to the side. As described above, when the reflector is used, the light toward the front is completely blocked. There is a complex problem that needs to be added.

On the other hand, in order to adjust the light distribution angle of the LED light source by applying a narrow light distribution angle lens to the multiple LED light source to divide the direction of the LED light source to implement the required light distribution to increase the efficiency of light distribution It becomes possible. However, the method of making a lighting device by adjusting the LED light sources having a plurality of narrow light distribution angles as described above, the productivity is lowered, the direction of each light source can be changed even after the installation process or installation, the reliability is lowered. In addition, the LED emits about 70% of the power consumption as heat. Since the LED has a disadvantage in that efficiency decreases rapidly as the operating temperature rises, the heat generated must be emitted through heat conduction to an external heat dissipation structure. However, when the structure for adjusting the LED position is used, the thermal contact with the fixed structure is worsened, and thus, the LED efficiency may be degraded, and the high temperature destruction of the LED device may occur when the thermal contact is bad.

Therefore, there is a need in the art for a new method of LED lighting apparatus that can adjust the light distribution angle of the LED light source without the above problems.

An object of the present invention is to provide a LED street light that can adjust the light distribution angle according to the user's desired light distribution area by proposing a light distribution structure to spread the light emitted from the LED light source in the left and right, up and down direction.

In addition, the present invention proposes an LED structure having a heat dissipation structure to provide an LED street light that can adjust the light distribution angle to smoothly discharge the heat generated from the LED light source to the outside.

The present invention, the cover portion having an internal space; A plurality of LED modules disposed in an inner space of the cover part; And a heat dissipation support part disposed at a rear end of the LED module, wherein the LED module includes: a heat conductive lower plate in contact with the heat dissipation support part; An LED light source unit disposed on one surface of the thermally conductive lower plate; And reflective plates provided on both sides of the LED light source unit.

The LED light source unit further includes at least one LED and a side emission lens for converting the front emission light generated by the LED into side emission light,

The lateral radiation lens is a batwing type lens,

The reflective plate is formed to be inclined at an angle with respect to the thermally conductive lower plate and is composed of a first reflecting plate and a second reflecting plate that can adjust the angle formed with one surface of the thermally conductive lower plate, respectively,

The first reflecting plate and the second reflecting plate are different from each other in length,

Further comprising a control unit for adjusting the light distribution angle of the reflecting plate on the rear of the reflecting plate,

The control unit includes a control link that is inserted into a plurality of holes arranged at regular intervals on any one of the outer surface of the thermally conductive lower plate,

The adjustment unit, a spring for fixing the reflector; And an angle adjusting unit for adjusting a light distribution angle of the reflecting plate.

One end of the spring is connected to any one of the outer surface of the thermally conductive lower plate, the other end is connected to the upper end of the reflecting plate to fix the reflecting plate,

The angle adjusting part is disposed on one surface of the heat conductive lower plate and inserted and coupled to a pillar having a female thread line, and includes a rotation shaft provided with a male thread line, and adjusts a light distribution angle of the reflector plate by horizontal movement by rotation of the rotation shaft. ,

The angle adjusting part includes a rotating shaft horizontally coupled to a column disposed on one surface of the thermally conductive lower plate, and adjusts the light distribution angle of the reflecting plate by the rotational movement of the cam connected to one end of the rotating shaft when the rotating shaft is rotated,

A stopper is further provided at the edge center of the thermally conductive lower plate to determine the maximum angle of inclination of the reflective plate.

The heat dissipation support part includes a first support surface attached to a rear surface of the thermally conductive lower plate and a second support surface attached to an inner surface of the cover part with a bent portion at an angle to the first support surface,

The heat dissipation support further includes a central support crossing the first and second ground planes to increase heat transfer.

The first support ground, the second support ground and the center support of the heat dissipation support are formed of aluminum,

The second support surface of the heat dissipation support is curved surface shape,

The second support surface of the support for heat dissipation is attached to the cover by a thermally conductive elastic member,

The heat dissipation support is coupled to a frame located between the LED modules facing each other.

The present invention has the effect of being able to adjust the light distribution angle according to the light distribution area desired by the user by the LED module consisting of an LED light source and a reflecting plate including a lens of the batwing shape, and at the same time obtain a high light distribution efficiency.

In addition, the present invention has the effect of extending the life of the LED light source by efficiently dissipating heat generated from the LED light source using a heat dissipation support which is an aluminum heat sink.

In addition, the present invention has the effect that the LED light source is not directly exposed to the outside to minimize glare while maintaining the illumination of the LED street light sufficiently.

1 is a view showing an LED street light according to the present invention.
2 shows an LED module according to the invention.
3 is a light distribution diagram of the LED module according to the present invention;
Figure 4 is a distribution distribution diagram showing the various light distribution curve made by adjusting the angle of the first reflecting plate and the second reflecting plate of the LED street light according to the present invention.
5, 6 and 7 are views showing the control unit of the LED street light according to the invention, respectively.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the LED street light that can adjust the light distribution angle according to the present invention.

1 is a view showing an LED street light according to the present invention.

Referring to FIG. 1, an LED street light according to the present invention includes a cover part 100 having an inner space, a plurality of LED modules 200 disposed in the cover part 100, and a rear end of the LED module 200. It includes a heat dissipation support 300 disposed.

The LED module 200 includes a thermally conductive lower plate 210 that is in contact with the heat dissipation support part 300, an LED light source unit 220 disposed on one surface of the thermally conductive lower plate 210, and the thermally conductive lower plate 210. It includes a reflecting plate 230 provided on both sides of the.

Here, the feature of the present invention is to provide a LED street light including the LED module 200 is provided with a reflecting plate 230 and the heat dissipation support portion 300 in contact with the thermally conductive lower plate 210 of the LED module, In the light distribution of a large area as described above, even though the light distribution angle and the light distribution are partially adjusted, a uniform light distribution can be realized in spite of the restriction of the installation position of the light fixture. It is to adjust the light distribution angle without installing so that the desired purpose can be achieved.

As shown in FIG. 2, the LED module 200 includes a thermally conductive lower plate 210, an LED light source 220, and a reflector 230, and the LED light source 220 includes at least one LED 221 and The side emission lens 222 may be configured to convert the front emission light generated by the LED 221 into side emission light, and the side emission lens 222 may be a batwing lens.

The present invention provides an LED street light having an LED 221 and a batwing-shaped lens 222 that spreads light in both up and down directions with respect to the ground and a reflector 230 that can reflect side-radiated light in a desired direction. By doing so, it is possible to easily obtain the effects of various light distribution angles and light distribution adjustments.

The batwing-type lens 222 according to the present invention can implement the characteristics of various LED street light by selecting the lens according to the light distribution type required in the field because the light distribution characteristic is maintained even through the reflecting plate. For example, an asymmetric batwing-type lens may be used to make an LED street light that is directional in the front direction of the LED street light. An LED street light that can be adjusted in a narrow distribution range using a batwing lens having a relatively small light distribution angle may be used. Can be implemented.

As shown in FIG. 2, the reflective plate 230 is formed to be inclined at an angle with respect to the thermally conductive lower plate 210 so that the light emitted from the LED light source unit 220 can be further spread in the left and right directions. It is preferable to be formed so as to adjust the angle formed with one surface of each, and the first reflecting plate 231 which is a left reflecting plate formed on one side of the thermal conductive lower plate 210 and the right reflecting plate formed on the other side of the thermal conductive lower plate 210 The second reflector plate 231 may be configured.

The first reflecting plate 231 and the second reflecting plate 232 of the reflecting plate may be formed to have a different length from each other, preferably the length of the reflecting plate disposed in the direction to be light-distributed to form a shorter amount of light emitted It may be possible to simultaneously emit light in the desired direction while increasing. In the present invention, a stopper 240 may be further provided at the edge center of the thermally conductive lower plate 210 to determine the maximum angle of inclination of the reflective plate 230.

As described above, the present invention can change the installation angle according to the intended orientation angle by the reflector for adjusting the light distribution angle, the angle of which can be up to more than 0 degrees and not more than 90 degrees with respect to the floor surface. The reflecting plate 230 is installed on the left and right sides of the thermally conductive lower plate 210, and the installation angle of the reflecting plate is defined as alpha (α) when the first reflecting plate (left reflecting plate, 231) as shown in FIG. When the reflecting plate (right reflecting plate, 232) was defined as beta (β).

In general, since the light distribution angle of the battling lens used in the LED street light is 120 degrees, the method of implementing the light distribution angle of 120 degrees according to the configuration of the present invention is as follows. Since the batwing lens has a 60 degree portion at one side of the 120 degree light distribution curve, the installation angles of the reflector are applied to 60 degrees of alpha and beta, respectively, so that the direct angle of the LED light source is 60 degrees. Then, as shown in Figure 3, the LED light source according to the present invention can make a light distribution showing a directivity of 60 degrees. Therefore, if this arrangement is arranged left and right, LED street light having a 120 degree distribution can be made.

FIG. 4 is a light distribution diagram showing various light distribution curves formed by adjusting angles of the first reflecting plate 231 and the second reflecting plate 232. In order to increase the intensity of the light as shown in Figure 6 or to lower the intensity of light as shown in Figure 4 (b) and 5 (d) it can be made LED street light having a variety of light distribution.

As such, the present invention proposes a light distribution structure in which the light emitted from the LED light source unit 220 is spread in the left and right directions by the reflecting plates 230 provided on both sides of the thermally conductive lower plate. It is possible to control high light distribution efficiency and to solve the problem of lighting pollution and glare, which is caused by unnecessarily large light distribution angle, and dark area phenomenon that occurs when the light distribution angle is too narrow. Has

The reflector 230 may adjust the light distribution angle through the control unit 400 for adjusting the light distribution angle of the reflector on the rear surface of the reflector, the control unit 400 of the LED street light according to the present invention is shown in FIG. As such, it may include a control link 402 inserted into the plurality of holes 401 disposed at regular intervals on any one portion of the outer surface of the thermally conductive lower plate 210. The control link 402 is inserted into the plurality of holes 401 to adjust the light distribution angle of the reflective plate 230 formed on one surface of the thermally conductive lower plate 210.

In addition, the adjuster 400 may include a spring 403 for fixing the reflector 230 and an angle adjuster 410 for adjusting the light distribution angle of the reflector.

As shown in FIG. 6, one end of the spring 403 of the control unit 400 is connected to any one of the outer surfaces of the thermally conductive lower plate 210, and the other end is connected to the upper end of the reflector 230. The angle adjusting part 410 is disposed on one surface of the thermally conductive lower plate 210 and inserted into and coupled to the pillar 404 provided with a female thread line 404a. It includes a rotation shaft 405 provided with (405a), and adjusts the light distribution angle of the reflecting plate 230 by the horizontal movement by the rotation of the rotating shaft 405.

On the other hand, as shown in Figure 7, the angle adjusting part 410 of the adjusting part 400 includes a rotating shaft 405 is horizontally coupled with the column 404 disposed on one surface of the thermally conductive lower plate 210. In addition, the light distribution angle of the reflector may be adjusted by the rotational movement of the cam 406 connected to one end of the rotation shaft when the rotation shaft 405 is rotated.

In addition, the present invention can improve the heat dissipation characteristics by providing an LED street light including a heat dissipation support portion 300 in contact with the thermally conductive lower plate 210 of the LED module 220 as described above. .

The heat dissipation support part 300 discharges heat generated by the light emitted from the LED, and serves as a support of the LED module. As shown in FIG. 1, the heat dissipation support part 300 is attached to the rear surface of the thermal conductive lower plate 210. And a second support surface 320 having a bent portion at a predetermined angle on the first support surface 310 and the first support surface 310 and attached to an inner side surface of the cover portion 100. In addition, in order to increase the heat transfer generated from the LED light source unit 220 may further include a central support 330 crossing the first support surface 310 and the second support surface 320.

Here, the first support surface 310, the second support surface 320 and the central support 330 of the heat dissipation support portion is preferably formed of an aluminum material that is easy to discharge heat, the cover portion 100 The second support surface 320 of the heat dissipation support part attached to the second support surface 320 may be formed in a curved shape, and the second support surface 320 of the heat dissipation support part may be formed of an adhesive (not shown) such as a thermally conductive elastic member. It is preferable to be attached to the cover portion 100 by. In addition, although not shown, the heat dissipation support part 300 may be coupled to a frame positioned between the LED modules 200 facing each other.

As such, the present invention provides a first support surface 310 supporting the thermally conductive lower plate 210, a second support surface 320 and a central support (attached to the inner surface of the cover portion 100 to release heat) Due to the heat dissipation support part 300 composed of 330 has an advantage that can efficiently heat the heat generated from the LED street light using the LED light source to improve the heat radiation efficiency.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, I will understand the point. Accordingly, the technical scope of the present invention should be defined by the following claims.

100: cover 200: LED module
210: heat conductive lower plate 220: LED light source
221: LED 222: side emitting lens
230: reflector 240: stopper
300: support for heat dissipation 310: first ground surface
320: second ground 330: center support
400: control unit 401: hole
402: adjustment link 403: spring
404: pillar 405: axis of rotation
406: cam 410: angle adjuster

Claims (18)

A cover part having an inner space;
A plurality of LED modules disposed in an inner space of the cover part; And
And a heat dissipation support part disposed at a rear end of the LED module.
The LED module,
A thermally conductive bottom plate in contact with the heat dissipation support;
An LED light source unit disposed on one surface of the thermally conductive lower plate; And
LED street light that can adjust the light distribution angle, characterized in that it includes; reflecting plates provided on both sides of the LED light source.
The method of claim 1,
The LED light source unit can adjust the light distribution angle, characterized in that it further comprises at least one LED and a side emission lens for converting the front emission light generated by the LED to the side emission light.
3. The method of claim 2,
The side emitting lens is a LED street light that can adjust the light distribution angle, characterized in that the lens of the batting (batwing) type.
The method of claim 1,
The reflecting plate is formed obliquely with respect to the thermally conductive lower plate and the LED street light adjustable angle, characterized in that consisting of the first reflecting plate and the second reflecting plate to adjust the angle formed with one surface of the thermally conductive lower plate, respectively.
The method of claim 4, wherein
The first and second reflecting plate is a LED street light that can adjust the light distribution angle, characterized in that the length is different from each other.
The method of claim 1,
LED backlight for adjusting the light distribution angle, characterized in that further comprising a control unit for adjusting the light distribution angle of the reflecting plate on the rear of the reflector.
The method according to claim 6,
The control unit includes:
And a control link inserted into and coupled to a plurality of holes arranged at regular intervals on any one portion of an outer surface of the thermally conductive bottom plate.
The method according to claim 6,
The control unit includes:
A spring for fixing the reflector; And
LED street light that can adjust the light distribution angle, comprising: an angle adjusting unit for adjusting the light distribution angle of the reflecting plate.
The method of claim 8,
The spring is adjustable LED light distribution, characterized in that one end is connected to any one of the outer surface of the heat conductive lower plate, the other end is connected to the upper end of the reflecting plate to fix the reflecting plate.
The method of claim 8,
The angle adjusting part is disposed on one surface of the thermally conductive lower plate and inserted and coupled to a pillar having a female thread line, and includes a rotation shaft provided with a male thread line, and adjusts a light distribution angle of the reflector by horizontal movement by rotation of the rotation shaft. LED street light, characterized in that the light distribution angle can be adjusted.
The method of claim 8,
The angle adjusting unit includes a rotating shaft horizontally coupled to a column disposed on one surface of the thermally conductive lower plate, and adjusts the light distribution angle of the reflecting plate by the rotational movement of the cam connected to one end of the rotating shaft when the rotating shaft rotates. LED street light with adjustable light distribution angle.
The method of claim 1,
LED street light to adjust the light distribution angle, characterized in that the stopper (stopper) is further provided to determine the maximum angle of the inclination of the reflecting plate in the center edge of the thermally conductive lower plate.
The method of claim 1,
The heat dissipation support part includes a first support surface attached to a rear surface of the thermally conductive lower plate and a second support surface attached to an inner surface of the cover part having a bent portion at an angle to the first support surface. LED street light with adjustable light distribution angle.
The method of claim 13,
The heat dissipation support is LED street light that can adjust the light distribution angle further comprises a central support for crossing the first and second ground to increase the heat transfer.
15. The method of claim 14,
The first street and the second ground and the center support of the heat dissipation support is LED street light that can adjust the light distribution angle, characterized in that formed of aluminum.
The method of claim 13,
The second street of the heat dissipation support is LED street light that can adjust the light distribution angle, characterized in that the curved shape.
The method of claim 13,
And a second supporting surface of the heat dissipation support part is attached to the cover part by a thermally conductive elastic member.
The method of claim 1,
The heat dissipation support is LED street light that can be adjusted to the light distribution angle, characterized in that coupled to the frame located between the LED modules facing each other.

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