KR101144750B1 - Led lighting device having rectangular light distribution - Google Patents

Abstract

PURPOSE: An LED lighting apparatus having the rectangular distribution of light is provided to prevent the glaring on a street light or a tunnel lighting, and to maintain the uniform illuminance. CONSTITUTION: An LED lighting apparatus comprises the following: a main body(20) fixing the apparatus to a lamp post; an LED module(30) installed in between a reflector and a lens for deflecting light; and the waveform reflector(50) uniformly dispersing the light to a rectangular region. The LED module is selected from a right type module or a left type module.

Description

LED lighting device having rectangular light distribution

The present invention relates to an LED lighting device having a rectangular light distribution, and more specifically, a rectangular that can prevent unnecessary glare while maintaining uniform illuminance by implementing appropriate light distribution for a special use such as a street light, a security light, a tunnel, and the like. The present invention relates to an LED lighting device having light distribution.

LED lighting is long-life, mercury-free and low-power eco-friendly lighting that has been selected as one of the next-generation core industries in major industrialized countries, and is spreading to the private sector in Korea, with public institutions leading the way. In recent years, the lighting industry has been trying to adjust the light distribution of LED lighting for various applications. In this regard, prior patents such as "LED lighting having a wide and uniform light distribution" of Korean Patent Publication No. 1082639 and "Len illumination lamp that can implement light distribution as desired" of Korean Patent Publication No. 0961676 are known.

Korean Patent No. 1062839 discloses a PCB on which a plurality of LEDs emitting light are mounted, and a surface on which the LED of the PCB is mounted, and a predetermined angle is formed so that the light emitted from the LED corresponds to the predetermined angle. The present invention proposes a configuration including a flat type light transmitting part which diffuses in another main light distribution direction, a PCB support part supporting the PCB, and a power supply means for supplying power to the LED. Accordingly, since a large area can be uniformly irradiated, it is expected that an effect that can be used to replace the conventional lighting not only indoors such as homes and offices but also outdoors.

Korean Patent Publication No. 0961676 has a convex portion protruding convexly in one surface of a surface thereof and a flat surface on the other side of a hemispherical dome shape; A groove portion formed in a hemispherical shape on the inner side of the flat portion; A V-cutting part which forms inclined surfaces on both sides in a longitudinal direction inwardly on the bottom surface of the groove portion and forms a straight portion along a point where the inclined surfaces intersect; The edge portion of the convex portion has a locking jaw formed in the lens, the V-cutting portion of the lens proposes a configuration that can adjust the angle of refraction of light irradiated to the left and right by varying the inclination angle of the inclined surface is cut. Accordingly, the light distribution range between the street lamp and the street lamp is not disconnected, and the light distribution range of the street lamp, which is erected at a predetermined distance on the side of the road, is expected to be distributed by connecting the light distribution range in a square shape.

However, since the former patent is characterized by irradiation of a wide area and the latter patent is characterized by light distribution between street lamps, it is easy to cause glare of the driver out of the set range when irradiating a predetermined area such as a crosswalk.

An object of the present invention for improving the conventional problems as described above, by implementing a suitable light distribution for a special use, such as street lamps, security lights, tunnels, etc. to maintain a uniform illuminance to prevent unnecessary glare To provide LED lighting fixtures.

In order to achieve the above object, the present invention provides a luminaire having a multi-array LED chip mounted horizontally on a column, including: a main body fixed to the column; An LED module mounted on the main body 20 to form a rectangular arrangement and deflecting light through a rectangular reflector and a lens; And a waveform reflector installed to reflect the deflected light of the plurality of LED modules and uniformly dispersing the light in a set rectangular area.

In addition, according to the present invention, the LED module is selected from a right module that deflects light to the right or a left module that deflects light to the left.

In addition, according to the present invention, the waveform reflector is characterized in that the structure is extended so as to repeat in the order of the first slope, the plane, the second slope.

In this case, the waveform reflector is provided with an opening for exposing the lens of the LED module over the plane and the first inclined plane, the eccentric groove of the lens is positioned in the center of the opening on the plane,

On the other hand, the waveform reflector is characterized in that the bent inclination angle of the second inclined surface larger than the first inclined surface, so that the back-illuminated light is formed by the second inclined surface.

As described above, according to the present invention, it is possible to prevent unnecessary glare while maintaining uniform illuminance by implementing appropriate light distribution for a special use such as a street lamp, security lamp, tunnel, and the like.

1 is a block diagram showing an exploded and assembled state of the lighting fixture according to the present invention
Figure 2 is an exploded perspective view showing the LED module used in the luminaire according to the present invention
3 is a block diagram showing the lighting fixture according to the present invention in a plane and side view
4 is a photograph experimentally installed a lighting fixture according to the present invention
5 is a block diagram showing the light deflection of the luminaire according to the present invention
6 is a schematic diagram showing a light distribution state of the lighting fixture according to the present invention.
Figure 7 is a schematic diagram showing the utilization of the lighting fixture according to the present invention

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

The present invention relates to a luminaire having a lamp (15) mounted on a multi-array LED chip horizontally on the column 12. In the street lamp, a multi-array LED lamp 35 (see Fig. 2) having 12 to 48 chips (diodes) is used, but is not necessarily limited thereto. Typically, crosswalk lighting 15 is preferably installed horizontally on the column 12. When the lamp 15 makes an inclination angle, light reaches the eyes of the driver who is driving or waiting to cause glare. However, in the case of the lamp 15 equipped with an LED chip, light deflection is induced in consideration of the point light source characteristics.

According to the present invention, a main body 20 fixed to the column 12 is provided. In the case of a crosswalk lamp 15 having a rectangular area, the column 12 is located at the corner of the rectangular area. The main body 20 uses an aluminum alloy having high mechanical strength and good heat transfer property and includes a heat sink 22 on the rear surface.

In addition, according to the present invention, the LED module 30 for deflecting light via the square reflector 34 and the lens 36 is mounted in the main body 20 to form a rectangular arrangement. In FIG. 2, the LED module 30 has a housing 31, an LED lamp 35, a square reflector 34, a lens 36 as main components, and is provided with a packing 32, a binding band 38, and the like. do. Such LED module 30 is disclosed in detail in the patent application (No. 2011-58121) by the applicant. In particular, a square reflector 34 having a first inclined plane 41 and a second inclined plane 42 plays an important role in deflecting light to a desired rectangular region together with the lens 36. As an example of the present invention, a configuration in which six LED modules 30 are arranged in a square shape is described and described. However, arrangements of two, four, eight, etc. may be possible depending on the purpose of the lamp 15.

At this time, the LED module 30 may be selected from the right module 30R for deflecting the light to the right or the left module 30L for deflecting the light to the left. As shown in FIG. 7A, the LED module 30 may be selected from the right module 30R or the left module 30L depending on which corner of the crosswalk 10 is placed. The right module 30R is deflected and irradiated to the right when looking at the crosswalk 10 from the sidewalk, and the left module 30L is irradiated to the left and irradiated to the left. FIG. 7A illustrates an example in which quadrangular light distribution is formed on the crosswalk 10 using two right modules 30R. The right module 30R or the left module 30L is the same in the components as shown in FIG. 2, but there is only a shape difference in which the square reflector 34 and the lens 36 are formed to be line-symmetric.

In addition, according to the present invention, a waveform reflector 50 for uniformly dispersing light in a set rectangular area is installed to reflect deflected light of the plurality of LED modules 30. The waveform reflector 50 is fixed to the front of the main body 20 together with the plurality of LED modules 30. The waveform reflector 50 is a structure having a cross section of a waveform and deflects the light of the LED module 30 to a desired rectangular area.

In this case, the waveform reflector 50 is extended to repeat in order of the first inclined plane 51, the plane 53, and the second inclined plane 52. In the case of the lamp 15 in which the six LED modules 30 are arranged, the waveform reflector 50 includes a first inclined plane 51, a plane 53, a second inclined plane 52, a first inclined plane 51, and a plane ( 53), the second slope 52, the first slope 51, and the plane 53. The plane 53 means a surface which maintains a clearance parallel to the main body 20.

The waveform reflector 50 of the present invention includes an opening 55 for exposing the lens 36 of the LED module 30 over the plane 53 and the first inclined plane 51, and on the plane 53. The eccentric recess 45 of the lens 36 is positioned at the center of the opening 55. The opening 55 is mainly formed in the plane 53 and is not formed in the second inclined surface 52. The eccentric recess 45 of the lens 36 is formed at an eccentric position in the center of the figure, and is an important element for distinguishing the left module 30L and the right module 30R together with the angular reflector 34. In FIG. 5, when the eccentric recess 45 is at the center of the plane 53, most of the light refracted by the thick portion of the lens 36 is reflected by the first inclined plane 51 to form a desired rectangular light distribution. Experimental results show that the arrangement of the LED module 30 and the wave reflector 50 is suitable for maintaining the uniformity of illuminance for the crosswalk 10.

The waveform reflector 50 of the present invention increases the bent inclination angle of the second inclined surface 52 than the first inclined surface 51, so that the rear-facing light 58 is formed by the second inclined surface 52. When bending the first inclined plane 51, the second inclined plane 52, and the plane 53 by using a single plate, the first inclined plane 51 forms a gentle inclination angle while the second inclined plane 52 has a sharp inclination angle. As a result, the reflection function is relatively weakened. The first slope 51 is in the range of 20 to 30 degrees and the second slope 52 is in the range of 70 to 80 degrees based on the horizontal line. In FIG. 6, the reflection by the second inclined plane 52 is sufficient to form a relatively weak rear-beam 58. Backlight 58 provides weak illumination for a person waiting on the sidewalk on the side of pedestrian crossing 10.

In FIG. 4, the lamp 15 according to the present invention concentrates light in a rectangular area of the crosswalk 10 and thus does not cause glare to the driver who is driving or waiting for a signal at the stop line of the crosswalk 10.

7A is an embodiment in which the mold module 30R is disposed diagonally at the corner of the crosswalk 10 as described above, and may be used as a security lamp. FIG. 7B is a case in which the right module 30R and the left module 30L are disposed in half, and thus it is preferable to use it as a tunnel because it is irradiated long horizontally. Of course, according to the arrangement of the right module 30R and the left module 30L, the opening 55 may be replaced with the changed waveform reflector 50.

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 as defined by the appended claims. Therefore, such modifications or variations will have to belong to the claims of the present invention.

10: pedestrian crossing 12: ramp
15: light 20: main body
30: LED module 30L: left module
30R: Right module 34: Square reflector
35: LED lamp 36: lens
41: first slope 42: second slope
45: eccentric groove 50: waveform reflector
51: first inclined plane 52: second inclined plane
53: plane 55: opening
58: rear lights

Claims (5)

A luminaire having a lamp (15) mounted on a column (12) horizontally with a multi-array LED chip:
A main body 20 fixed to the column 12;
An LED module 30 mounted on the main body 20 so as to form a rectangular arrangement and deflecting light through the rectangular reflector 34 and the lens 36; And
A rectangular LED light fixture having a rectangular light distribution, characterized in that it comprises ;; is installed to reflect the deflected light of the plurality of LED module 30, the waveform reflector 50 to distribute the light uniformly in the set rectangular area. The method of claim 1,
The LED module 30 is a rectangular LED light fixture, characterized in that selected from among the right module 30R for deflecting the light to the right or the left module 30L for deflecting the light to the left. The method of claim 1,
The waveform reflector (50) is a rectangular LED light fixture, characterized in that the structure is extended to be repeated in order to repeat the first slope (51), the plane (53), the second slope (52). The method of claim 3,
The waveform reflector 50 has an opening 55 for exposing the lens 36 of the LED module 30 over the plane 53 and the first inclined plane 51, and the aperture 55 on the plane 53. LED light fixture having a rectangular light distribution, characterized in that the center of the lens eccentric groove 45 of the lens 36 is positioned. The method of claim 3,
The waveform reflector 50 has a rectangular inclination angle of the second inclined surface 52 larger than the first inclined surface 51, so that the rear-facing light 58 is formed by the second inclined surface 52. LED luminaire with light distribution.

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