KR20160113390A - LED lighting device - Google Patents

Abstract

The present invention relates to a light emitting diode (LED) lighting device comprising: a plurality of support units (200) separated from each other at a predetermined distance to be projected out from at least one side of an object (300) to be lit; and an LED lighting unit (100) combined with each support unit (200) to emit light as a distributed light with a shape having a beam width of 4 to 20 times in comparison with the thickness of a beam. According to the present invention, the LED lighting device includes the support part projected out to a front surface of the object to be lit and the LED lighting unit installed in an end of the support unit, the curvature of a reflection plate inserted into the LED lighting unit is changed, so the distributed light is adjusted in order to provide uniform brightness to the front surface of the object to be lit. Thus, the entire object to be lit is lit with the uniform brightness, so visibility is improved.

Description

{LED lighting device}

The present invention relates to an LED lighting device, and more particularly, to an LED lighting device capable of adjusting a light distribution according to an area of an object to be illuminated.

Generally, the billboards can be divided into a method of enhancing the visibility of the advertisement printed on the surface by incorporating the light on the inner side and a method of providing the advertisement light on the outside of the billboard using the indirect lighting.

An example of illuminating the billboard outside the billboard is disclosed in Japanese Patent Application Laid-Open No. 10-2010-0050668 (indirect billboard, published on May 14, 2010).

The above-mentioned patent discloses a configuration in which a light-emitting support portion curved inward is formed on an upper portion of a front plate on which an advertisement text is formed, and a light-emitting portion is coupled to the inside of the light-

However, in such a configuration, there is a difference in the illuminance of a part of the front plate close to the light emitting support and the illuminance of a part of the front plate far from the light emitting support, and it is very difficult to illuminate the entire advertisement with uniform illuminance.

In addition, the configuration of the light emitting support itself must be changed in accordance with the size change of the front plate on which the advertisement text is formed. When the distance between the end of the bent light emission support and the front plate is made independent of the area of the front plate, the light is concentrated only on a part of the front plate, And the visibility may be deteriorated, so that the advertising effect may be deteriorated.

The above prior art is directed to an LED lighting device for illuminating a billboard, which is a typical example to which the present invention can be applied, and the present invention is not necessarily applicable to a billboard, but should be understood as a prior art for its greatest use.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide an LED illumination device capable of illuminating an entire object to be illuminated with uniform illumination.

Another object of the present invention is to provide an LED lighting device which can easily change the curvature of a reflective portion according to a change in size of an object to be illuminated, such as a billboard, so as to uniformly distribute light throughout the object to be illuminated.

According to an aspect of the present invention, there is provided an LED illumination device including: a support part 200 protruding at a predetermined distance from at least one side of an object to be illuminated 300; And

And an LED illumination unit 100 coupled to each of the support units 200 and for irradiating the illumination object 300 with light having a beam width that is 4 to 20 times larger than the beam thickness.

The LED illumination device according to the present invention includes a support portion projecting to a front surface of an object to be illuminated and an LED illumination portion provided at an end of the support portion, wherein a curvature of the reflection plate inserted into the LED illumination portion is changed, The light distribution can be adjusted so as to provide the illuminance, and the entire illuminated object can be illuminated with a uniform illuminance to enhance the visibility.

Further, the LED illumination device of the present invention adjusts the curvature of the reflector to adjust the light distribution area, thereby providing a light distribution suitable for the size of the object to be illuminated, thereby providing illumination with uniform illumination regardless of the size of the object to be illuminated .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram illustrating a state in which an LED lighting apparatus according to a preferred embodiment of the present invention is installed; FIG.
2 is a configuration diagram of an embodiment of the LED illumination unit in FIG.
3 is a light distribution diagram of the present invention.
Fig. 4 is an illuminance distribution diagram when the light distribution shown in Fig. 3 is irradiated on an object to be illuminated. Fig.
5 is a diagram for explaining a curvature change of a reflection plate of the illumination unit.
6 is a configuration diagram of an LED illumination device according to another embodiment of the present invention.
7 is a cross-sectional view of an LED illumination device according to another embodiment of the present invention.
FIG. 8 is a schematic diagram illustrating the light emission of the present invention. FIG.

Hereinafter, an LED illumination device according to the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a configuration diagram of an LED lighting apparatus according to a preferred embodiment of the present invention, and is a sectional view of an LED lighting unit according to a preferred embodiment of the present invention.

Referring to FIGS. 1 and 2, an LED illumination device according to a preferred embodiment of the present invention includes an illumination object 300 having a predetermined side surface area, A plurality of supports 200 protruding from the front surface of the supporting part 200 to illuminate the object to be illuminated 300 with light distribution so as to illuminate the entire object 300 to be illuminated uniformly And an LED illumination unit 100,

The LED lighting unit 100 includes a housing 110 having a diagonally sloping light outlet 120 and a LED 110 mounted on the inside of the housing 110 adjacent to the light outlet 120, (140) for emitting light from the light source (141) and a curved portion having a concave ellipse in the direction of the light outlets (120) in the housing (110) And a reflector 150 for emitting a light having a beam width of 4 to 20 times the thickness of the beam and discharging the light through the light outlets 120 to illuminate the entire surface of the object to be illuminated 300 with a uniform illuminance. do.

The cover 121 is covered with the light outlet 120 and the cover 121 is made to transmit light all or a part of the light but does not affect the light distribution.

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 lighting object 300 to which the present invention is applied may be various types of advertisement publishing means such as a wall-mounted type or a advertising tower installed on an outdoor rooftop. .

The illuminating object 300 may directly illuminate the ground according to the direction of the light exit 120 of the present invention, and may be applied as a headlight of an automobile using the illuminating object 300.

A support portion 200 protruding toward the front surface side of the object to be illuminated 300 is provided at a predetermined distance from at least two of the upper, lower, or both side surfaces of the illumination object 300 .

The projecting degree of the support part 200 is the shortest protrusion length in the light distribution state of the LED illumination part 100, thereby minimizing an increase in the volume of the device such as a billboard including the present invention.

The housing 110 of the LED illumination unit 100 is configured such that the light output port 120 is spaced apart from the illumination object 300 from the upper side of the third surface 113 adjacent to the illumination target 300 in the vertically- And is formed diagonally toward the lower side of the second surface 112 farther away.

The first surface 111 extending in the direction away from the object to be illuminated 300 is shortest at the top of the third surface and the second surface 111 is the second shortest at the top of the third surface, The second surface 112 extending downward from the end of the first surface 111 has the longest construction.

The heat radiating fins 130 are formed on the outer surfaces of the first surface 111, the second surface 112 and the third surface 113 of the housing 110 in a direction perpendicular to the paper surface to emit heat .

A lower end and an upper end of the reflection plate 150 are fixed to the inside of a portion of the inner surface of the second surface 112 that is in contact with the first surface 111 and the third surface 113.

The reflection plate 150 is a plate having a circular arc shape having a curvature obtained by dividing an ellipse into four, and a quadrant curvature of an ellipse will be described in more detail later.

The power supply unit 160 supplies power to the substrate 140 in a space between the reflection plate 150 and the housing 110. In this case, Can be mounted together.

In this configuration, the light emitted from the LED 141 is reflected by the reflection plate 150, and the light distribution of the light emitted through the light output port 120 due to the curvature of the reflection plate 150 is performed by a light- So that the front surface of the light guide plate 300 can be illuminated with a uniform illuminance.

The light distribution at this time is a structure in which the beam width of light is about 4 to 20 times larger than the light thickness, and such a type of light distribution is shown in Fig. 4 shows the illuminance appearing on the surface of the illuminated object 300 when illuminated from the upper side of the illuminated object 300, which is the plane of the illuminated object shown in Fig. 3. In the illuminated object 300, To be the minimum.

5 is a view for explaining curvature change of the reflection plate 150 of the LED illumination unit 100 of the preferred embodiment of the present invention.

5, a virtual vertical line L1 is vertically downwardly directed from the interface between the first surface 111 and the third surface 113, and an imaginary vertical line L1 is formed from the lower end of the second surface 112 to the ground It is possible to consider an ellipse centered on the intersection C1 of the vertical line L1 and the horizontal line L2 by placing a virtual horizontal line L2 in the horizontal direction.

At this time, the vertical line L1 is a long radius and the horizontal line L2 is a short radius and the length of the vertical line L1 is 1.5 to 3 times of a horizontal line L2 having a short radius, Make the length of the ship.

The distance between the first surface 111 and the third surface 113 is fixed from the intersecting point C1 which is the length of the vertical line L1 of the longer radius of the longer axis. The distance to the lower end is variable, and the distance of the longer radius is determined in comparison with the shorter radius.

Therefore, when illuminating the illumination object 300 having a larger area, when illuminating the illumination object 300 having the smaller first area P1, which is the direction in which the longer diameter converges to 1.5 times the length of the shorter radius, The light converges to a second position P2 which is a direction converging at three times the length of the short radius, and the curvature of the reflector 150 is changed to form a light distribution corresponding to the size of the object to be illuminated 300 .

The support portion 200 and the LED illumination portion 100 are connected to each other by a tilting portion 400 so that the vertical angle of the LED illumination portion 100 can be adjusted while the support portion 200 is fixed, To maintain uniform illumination throughout the surface of the object 300 to be illuminated.

At this time, it is difficult to provide uniform illuminance to the entire surface of the object to be illuminated 300 only by adjusting the angle by the tilting unit 400, and the curvature of the reflector 150 should be adjusted.

At least the lower end portion of the substrate 140 is positioned on the vertical line L1 from the intersection point C1 of the major axis to a position where the first surface 111 and the third surface 113 are in contact with each other, And the vertical line L1 can be set to maintain an angle of 0 to 30 degrees.

The length from the intersection C1 to the lower end of the substrate 140 is 80 to 95% of the length from the intersection C1 to the position where the first surface 111 and the third surface 113 are in contact with each other. . This is because the reflector 150 has a structure in which the ellipse is divided into four vertically and horizontally along the curvature of the arc, and the substrate 140 and the LED 141 are positioned at the corresponding positions, .

FIG. 6 is a partial configuration diagram of an LED illumination device according to another embodiment of the present invention.

6, another embodiment of the present invention differs from the above-described embodiment in that the power supply unit 160 is not disposed within the housing 110 but between the support unit 200 and the tilting unit 400 .

In this configuration, heat generated in the power supply unit 160 is prevented from being transmitted to the substrate 140 as much as possible, thereby preventing shortening of the lifespan due to heat exchange between the power supply unit 160 and the substrate 140 .

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

7, an LED illumination device according to another embodiment of the present invention is the same as the first surface 111, the second surface 112, and the third surface 113 of the housing 110 of the previous embodiment, And a fourth surface (114) extending in the horizontal direction on the second surface (112).

The reflector 150 has one end fixed to the center of the third surface 113 coupled with the substrate 140 on which the LED 141 is mounted and the other end fixed to the fourth surface 114, So that the space between the fourth surface 114 and the third surface 113 becomes the light exit 120.

The cover 121 is provided on the light outlets 120 and the cover 121 is bent so as to protrude outward from the light outlets 120.

The reflector 150 has an elliptical curvature and reflects light emitted from the LED 141 and emits the reflected light through the cover 121.

FIG. 8 is a schematic diagram illustrating the light emission of the present invention. FIG.

Referring to FIG. 8, the light emitted from the LED 141 is reflected through the reflective portion 150, which is a curved surface, and is emitted through the light exit 120.

At this time, the light emitted from the LED 141 is emitted at an angle of 60 degrees with respect to a vertical line extending from the center of the light emitting surface. The light emitted in a direction opposite to the light output port 120 is reflected by the reflector 150 and emitted to the farthest distance from the object to be illuminated (or the light distribution pattern), and the light emitted toward the light output port 120 And is reflected by the reflecting portion 150 near the light outlet 120 to illuminate the nearest area of the object to be illuminated.

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.

100: LED illumination part 110: housing
111: first side 112: second side
113: third surface 114: fourth surface
120: Wide-angle outlet 121: Cover
130: radiating fin 140: substrate
141: LED 150: Reflector
160: Power supply unit 200: Support
300: object to be illuminated 400: tilting part

Claims (12)

And an LED illumination unit (100) for irradiating the illumination object (300) with light having a shape whose beam width is 4 to 20 times larger than the beam thickness.
The method according to claim 1,
Wherein the LED illumination unit (100) is fixed to each of a plurality of protrusions (200) spaced from each other by a predetermined distance on at least one side of the illumination target (300).
3. The method of claim 2,
And a tilting unit 400 coupled between the support unit 200 and the LED illumination unit 100 to adjust the vertical angle of the LED illumination unit 100 while the support unit 200 is fixed, Lighting device.
4. The method according to any one of claims 1 to 3,
The LED illumination unit 100,
A housing 110 having a diagonally sloping light outlets 120 and a light emitting diode 141 disposed inside the housing 110 adjacent to the light outlets 120 and mounted upon supply of power, And a reflector 140 which reflects light emitted from the LED 141 in a curved shape of an ellipse concave toward the light outlets 120 in the housing 110 so that the beam width is equal to the thickness of the beam And a reflector (150) that emits light having a luminous intensity which is 4 to 20 times larger than that of the light source (120) and emits the light through the light exit (120).
5. The method of claim 4,
The housing (110)
In the hollow hexahedron structure in which the light is directed toward the lower side of the second surface 112 farthest from the object to be illuminated 300 from the upper side of the third surface 113 adjacent to the object to be illuminated 300, Diagonal direction,
A second surface 112 extending from an upper side of the third surface 113 and connected to an upper portion of the second surface 112 and having a length longer than the third surface 113, Wherein the light emitting device comprises a light emitting diode.
6. The method of claim 5,
The reflector 150 may be formed,
A virtual vertical line L1 is formed vertically downward from the interface between the first surface 111 and the third surface 113 and an imaginary vertical line L1 is formed from the lower end of the second surface 112 in the horizontal direction And has a curvature of an ellipse centered on an intersection C1 of the vertical line L1 and the horizontal line L2 with a horizontal line L2,
The long radius which is the distance from the intersection C1 to the interface between the first surface 111 and the third surface 113 is a distance from the intersection C1 to the lower end of the reflector 150, Wherein the length of the light emitting diode is a length of the light emitting diode.
The method according to claim 6,
Wherein the long radius is fixed and the minor radius is variable.
The method according to claim 6,
The lower end of the substrate 140 abuts on the longer radius,
Wherein the substrate (140) is inclined at 0 to 30 degrees with respect to the longer radius.
9. The method of claim 8,
The distance from the intersection (C1) to the lower end of the substrate (140)
And the distance from the intersection (C1) to the interface between the first surface (111) and the third surface (113) is 80 to 95% of the distance.
5. The method of claim 4,
Further comprising a power supply unit (160) for supplying power to the substrate (140)
The power supply unit 160,
Is positioned between the reflection plate (150) and the housing (110) or between the support (200) and the LED illumination unit (100).
5. The method of claim 4,
The housing (110)
In the hollow hexahedron structure in which the light is directed toward the lower side of the second surface 112 farthest from the object to be illuminated 300 from the upper side of the third surface 113 adjacent to the object to be illuminated 300, Diagonal direction,
A second surface 112 extending from an upper side of the third surface 113 and connected to an upper portion of the second surface 112 and having a length longer than the third surface 113, ≪ / RTI >
And a fourth surface (114) extending from the second surface (112), wherein a light outlet (120) is formed in a space between the fourth surface (114) and the third surface (113) Lighting device.
12. The method of claim 11,
Wherein the cover (121) is coupled to the light outlets (120), and the central portion of the cover (121) is bent so as to protrude outward from the light outlets (120).

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