KR20120133490A - Led illumination device - Google Patents

Abstract

PURPOSE: An LED lighting device is provided to easily change a light distribution pattern after installation through the control of a light distribution angle by an LED light source. CONSTITUTION: A main body frame(110) is composed of a coupling groove(111), a rotation hole(113), and a fixing hole. The coupling groove is formed along the longitudinal direction on the inner side of the main body frame. The rotation hole is formed on the coupling groove along the width direction of the main body frame. An LED module(120) includes a module frame, An LED lamp(122), and a rotary shaft(123). The LED lamp is arranged at regular intervals along the longitudinal direction of the module frame.

Description

LED lighting device {LED ILLUMINATION DEVICE}

The present invention relates to an LED lighting device, and more particularly, to an LED lighting device that can be utilized in various lighting devices by adjusting the amount of light required according to the installation position and the light distribution angle by the LED light source.

In general, street lamps are lighting facilities installed along roads for the safety of road traffic, and security street lamps are lighting facilities installed along residential roads to secure safety of residential areas. Consists of a street lamp installed toward the road, and the illumination is provided to the road through the light emission of the electric light provided inside the street lamp.

Conventional lamps are high-pressure mercury lamps, fluorescent lamps, and sodium lamps, but they have short lifespan, low impact resistance, and high power consumption, so they are eco-friendly, high impact resistance and low power consumption. emitting diode) is used as an alternative light source.

However, since LEDs have a strong linearity due to their light emission characteristics, for example, when a street lamp is installed between a sidewalk and a roadway, the light distribution range where the light is irradiated is mainly irradiated only to the second lane adjacent to the sidewalk and a part of the sidewalk, which is a position where light is needed. There is a problem in that the safety of the driver can not be smoothly secured because it is not irradiated at all and the center line portion.

On the other hand, the domestic standard for streetlight brightness is based on the illuminance, the amount of light shining on the unit area of the surface, and the international standard for streetlight brightness is the luminance measured by how much light reaches per unit area when viewed from which direction. On the basis of

In addition, since the security street light is installed on the residential road based on the brightness according to the illumination, the brightness characteristics of the street lamp should be changed according to the location of the street lamp.

However, the conventional street light has a problem that the installation of the street light is limited according to the installation position is configured to satisfy only one of the illumination standard or the luminance standard.

In addition, in the case of the street lamp already installed, it is difficult to change the light distribution angle, there is a problem that it is impossible to adjust the illuminance or luminance of the already installed street lamp.

On the other hand, a light projector is used as an illumination that emphasizes the straightness by irradiating light to an outdoor advertisement, a sculpture, or an indoor stage, and is particularly used in places where a specific part is highlighted by highlighting or focusing on one place.

Inside the light emitter, a reflector and a light bulb are built in. The distance between the reflector and the light bulb is adjusted, or the light bulb is rotated to adjust the irradiation angle of the light emitter. have.

However, since the light emitter using the LED according to the prior art is a form in which a plurality of LEDs are fixed on a plane to irradiate light, it is difficult to adjust the irradiation angle of the light emitter after installing the light emitter.

In order to solve this problem, an object of the present invention is to provide an LED lighting device that can be utilized in various lighting devices by adjusting the amount of light required according to the installation position and the light distribution angle by the LED light source.

The present invention to achieve the above object as an LED lighting device,

A main frame having a rectangular shape in which the inner side is concave round; A coupling groove formed on an inner surface of the main body frame; At least one LED module detachably installed in the coupling groove and outputting a predetermined amount of light from a plurality of mounted light sources; And a rotating unit rotating the LED module to the left / right in the longitudinal direction of the main body frame so that a light distribution pattern of a light source according to a setting position of the LED module is either one of a light distribution pattern for a street lamp and a light distribution pattern for a light projector.

In addition, the LED module according to the present invention is additionally installed in the coupling groove by any number to increase the overall amount of light of the LED lighting device or removed by any number from the coupling groove so that the overall amount of light of the LED lighting device is reduced. It characterized in that the amount of light to be adjusted.

In addition, the main body frame according to the invention is characterized in that it further comprises a fixing part for fixing to the set position so that the LED module maintains the set light distribution pattern.

In addition, the main body frame according to the invention is characterized in that it further comprises an angle display unit for displaying the angle information that the LED module is installed in the main body frame.

In addition, the LED module according to the present invention further comprises a lens unit for adjusting the light distribution angle of the light irradiated from the light source, the lens unit is characterized in that the light distribution angle is installed so that the range of the light distribution angle becomes larger or smaller. It is done.

In addition, the light distribution angle of the lens unit according to the present invention is characterized in that the irradiation distance of the light source becomes smaller as the distance from the near.

In addition, the lens unit according to the present invention is characterized in that any one of the total reflection type light distribution angle reduction lens or the narrow eccentric lens of the light distribution angle eccentric to one side.

In addition, the brightness of the LED module according to the invention is characterized in that it increases in the distance from the near.

The lighting apparatus according to the present invention has an advantage of changing the light distribution pattern by adjusting the light distribution angle by the LED light source even after installation.

In addition, the lighting apparatus according to the present invention has the advantage that can be selectively installed of the light source module for providing light to increase or decrease the amount of light according to the installation position.

1 is an exploded perspective view showing the configuration of an LED lighting apparatus according to the present invention.
2 is a cross-sectional view showing a coupling state of the LED lighting apparatus according to FIG.
3 is a cross-sectional view showing an LED module of the LED lighting apparatus according to FIG.
4 is an exemplary view showing a light distribution angle pattern when using a street light of the LED lighting apparatus according to FIG.
5 is an exemplary view showing a light distribution angle pattern according to the condensing degree of the LED lighting apparatus according to FIG.
Figure 6 is an exemplary view showing a light distribution pattern according to the setting state of the LED module of the LED lighting apparatus according to FIG.
Figure 7 is an exemplary view showing a setting state of the LED module when using the floodlight of the LED lighting apparatus according to FIG.
8 is a perspective view showing a lens combination when using the street light of the LED lighting apparatus according to the present invention.
9 is a perspective view showing a light source addition process of the LED lighting apparatus according to FIG.
10 is an exemplary view showing a state using the LED lighting apparatus according to the present invention as a light emitter.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the LED lighting apparatus according to the present invention.

1 is an exploded perspective view showing the configuration of the LED lighting apparatus according to the present invention, Figure 2 is a cross-sectional view showing a coupling state of the LED lighting apparatus according to Figure 1, Figure 3 is a LED module of the LED lighting apparatus according to Figure 1 4 is an exemplary view showing a light distribution angle pattern when the street lamp of the LED lighting apparatus according to FIG. 1 is used, and FIG. 5 is an exemplary view showing a light distribution angle pattern according to the condensing degree of the LED lighting apparatus according to FIG. 1. 6 is an exemplary view showing a light distribution pattern according to the setting state of the LED module of the LED lighting apparatus according to Figure 1, Figure 7 is an exemplary view showing the setting state of the LED module when using a light emitter of the LED lighting apparatus according to Figure 1;

1 to 7, the LED lighting device 100 according to the present invention includes a main body frame 110, an LED module 120, and an angle display unit 130.

The body frame 110 is formed by concave round plate member of the rectangular shape, the coupling groove 111 is installed inside the LED module 120 and the rotation hole for the installation of the LED module 120 ( 112 and a heat dissipation hole 113 for discharging heat generated from the LED module 120 and a fixing hole 115 for fixing the LED module 120 to the body frame 110.

The coupling groove 111 allows the at least one LED module 120 to be accommodated in an accommodation space formed along the longitudinal direction on the inner surface of the main body frame 110, and preferably a solid metal material.

The rotating hole 112 is formed in a plurality of coupling grooves 111 along the width direction of the main body frame 110, and supports the LED module 120 to be installed in the main body frame 110 and at the same time the LED module ( 120 may rotate to the left and right in the longitudinal direction of the body frame (110).

The heat dissipation hole 113 is a long hole formed along the longitudinal direction of the body frame 110 so that heat generated from the LED module 120 is discharged to the outside of the body frame 110.

The fixing hole 115 is drilled in the body frame 110 to intersect the rotation hole 112 in a vertical direction so that the LED module 120 is fixed to the body frame 110 by fixing parts 114 such as bolts. do.

The LED module 120 is at least one installed in the coupling groove 111 of the main body frame 110 to provide a light source, the module frame 121, LED lamp 122, the rotating shaft 123 and the lens unit And 125.

In addition, the LED module 120 is a unit module in which a plurality of LED lamps 122 as light sources are disposed, and provides a predetermined amount of light (for example, 100 lm of light amount per unit module of the LED module). The plurality of LED modules 120 are detachably installed in the coupling groove 111 of the main body frame 110, and the LED module 120 may be increased or decreased depending on a location where the lighting device 100 is installed. ) By installing an additional number of arbitrary numbers or by separating and removing some LED modules 120 by any number from a plurality of pre-installed LED modules 120 to adjust the overall light amount of the lighting apparatus 100.

The module frame 121 has an LED lamp 122 is disposed on the front, the heat radiating unit 124 is installed to absorb and release the heat generated from the LED lamp 122, the power supplied from the outside To be provided to the LED lamp 122.

The LED lamp 122 is a light source disposed at regular intervals along the longitudinal direction of the module frame 121, emits light by receiving power supplied from the outside, and includes an LED chip (not shown) and a reflector.

The rotation shaft 123 is installed at both ends of the longitudinal direction of the module frame 121 and is engaged with the rotating holes 112 of the main body frame 110 so that the LED module 120 is supported by the main body frame 110.

In addition, the rotating shaft 123 is engaged with the rotating hole 112 so that the LED module 120 can be rotated about the rotating shaft 123, the rotating shaft 123 is a fixed hole of the main frame 110 In close contact with the fixing part 114 inserted through the 115 to prevent the rotation of the LED module 120, the set position of the LED module 120 is fixed.

That is, the rotating shaft 123 is fixed through the fixing part 114 in a state in which the setting angle of the LED module 120 is adjusted in a specific direction so that the lighting device 100 is set as the light distribution pattern of the street light, or the light distribution pattern of the light emitter. The rotating shaft 123 is fixed through the fixing part 114 in a state in which the setting angle of the LED module 120 is adjusted to be set to be.

The heat dissipation unit 124 is configured to conduct heat discharged from the LED lamps 122, and a plurality of heat dissipation fins are formed along the longitudinal direction of the module frame 121 for effective heat dissipation.

The lens unit 125 is configured to adjust the light distribution angle of the light emitted from the LED lamp 122, the lens unit 125 is the light irradiated from the LED lamp 122 is far from the LED lamp 122 When the light distribution pattern is formed at a distant distance, the light distribution pattern is installed to have a narrow light distribution angle (for example, 10 degrees), and the light emitted from the LED lamp 122 forms a light distribution pattern at a near distance from the LED lamp 122. If so, it is installed to have a wide light distribution angle (for example, 30 degrees).

In the case of irradiating the vertical downward direction from the LED module 120, a wide light distribution angle θ1 is set, and the lens unit 125 is set to irradiate a long distance from the vertical downward direction of the LED module 120. The light distribution angle (θ2> θ3> θ4) is gradually reduced to allow the light to be irradiated to a long distance.

That is, when the lens unit 125 reaches light at various locations from a long distance P1 to P2, P3 and a short distance P4, the total reflection type light distribution angle reduction lens is formed so that the emitted light forms a narrow light distribution angle in a straight direction. The light distribution angle of which the central axis of the lens is eccentric to one side is made of any one of narrow eccentric lenses, and some regions of the light reaching regions overlap each other.

On the other hand, the intensity of light is different from the intensity of light irradiated at a long distance and the intensity of light irradiated at a short distance, for example, the light irradiated at a long distance (P1) has a high intensity (Cd 1), near (P4) Light irradiated to the light intensity (Cd 2) is irradiated with a relatively low light intensity compared to the light intensity of the remote, so that the light distribution angle is also differentiated according to the light intensity.

Therefore, various light distribution patterns may be formed by combining the light intensity and the light distribution angle through the lens unit 125 as illustrated in FIGS. 6A and 6B.

In addition, the lens unit 125 is provided with a range of light distribution angles differently installed according to a light distribution pattern of the lighting apparatus 100.

On the other hand, in the case of forming a light distribution pattern for a light emitter, for example, as shown in Figure 7 set the LED module 120, by installing a lens having the same light distribution angle to each LED module 120 so that the light can be irradiated When using an LED lighting device as a street lamp, as shown in Figure 8 to enable the function as a street lamp through a combination of lenses.

That is, the LED module 120 ′ having a large light distribution angle is installed at the center of the main body frame 110 to form a specific light distribution angle range with a large light distribution angle with respect to the vertical direction with respect to the ground, and to concentrate light to a long distance. The LED module 120 provided with a lens having a light distribution angle narrower than the light distribution angle of the center portion is disposed at positions respectively moved in both directions from the center portion of the main body frame 110 to provide an illumination device ( 100 '), the light distribution pattern on the dimming surface can be adjusted.

In addition, the lighting apparatus 100 ′ may be installed with an additional LED module 120 for increasing the amount of light adjacent to the already installed LED modules 120 ′ as shown in FIG. 9 when the amount of light is increased according to the installed position. It may be.

That is, when a plurality of LED modules are pre-installed so that the lighting device 100 'can provide a light amount of a predetermined size, a light amount larger than the light amount of the predetermined size may be required or a small light amount is required depending on the installation position. Since the LED module 120 may be appropriately added or removed according to the required amount of light, not only the light distribution pattern but also the amount of light may be adjusted.

Referring back to FIGS. 1 to 7, the angle display unit 130 is installed on the main frame 110 to display a direction in which the LED module 120 is directed or a range of light distribution angles that the LED module 120 can adjust. do.

That is, the direction or angle information that can be operated by a light emitter, a street light or a security light is displayed according to the direction that the LED module 120 is oriented so that the user can easily check the direction of the LED module 120.

Next will be described the operation of the LED lighting device 100 according to the present invention.

If there is a predetermined reference illuminance and luminance information where the lighting device 100 is installed according to the present invention, the number of LED modules 120 required for the coupling groove 111 of the main body frame 110 to satisfy the information is required. Install it.

That is, when the light amount of 600lm is required to satisfy the set illuminance standard, as shown in FIG. 9, the first four LED modules 120 and 120 ′ are installed in the main body frame 110, and each LED module generates a light amount of 100lm. When output, two additional LED modules 120 are installed to ensure that the reference conditions are met.

In addition, where low illumination is required, the reference condition may be met, for example, by separating the two LED modules from the first four LED modules installed.

When the mounting of the main body frame 110 of the LED module 120 is completed according to the reference light quantity condition of the installation position, the orientation angle of the LED module 120 for setting the light distribution pattern according to whether it is operated by either a street light or a floodlight is determined. Set it.

At this time, the desired angle can be checked through the angle display unit 130, and the LED module 120 is fixed through the fixing unit 114 after rotating the LED module 120 according to the identified angle.

When forming a light distribution pattern for a street light or a light distribution pattern for a light emitter, the directivity angle is set so that the LED module installed in the main body frame 110 passes light through an arbitrary focal point or the light is emitted in a horizontal direction. After setting the orientation angle so as to be irradiated and fixed to be in close contact with the rotating shaft 123 of each LED module through the fixing part 114.

That is, as shown in FIG. 10, in the case of a building 200 having various shapes, an illumination device 100 is disposed to emphasize a specific position of the building 200, and in this case, the first area A1 of the building 200. When the light is irradiated to the second area A2 and the third area A3, the first LED module 120a for concentrating the light in the first area A1 is the first LED module 120a. The light distribution angle is configured to have a large and small luminous intensity at a short distance.

In addition, the second LED module 120b for concentrating light in the second area A2 is configured to have a small light distribution angle and a large luminous intensity at a distance from the second LED module 120b and partially protrudes to the front surface. In the case of the third region A3, since the light distribution angle is narrow and far, the third LED module 120c for concentrating light is configured to have a small light distribution angle and a large brightness from a distance from the third LED module 120c. Preferably use an eccentric light distribution lens.

Therefore, the light distribution pattern may be variously provided by targeting the target point by adjusting the light quantity and the light distribution angle of the required lighting device according to the location where the lighting device 100 is installed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It can be understood that

100: lighting device 110: main frame
111: engaging groove 112: the rotating ball
113: heat radiating hole 114: fixing part
115: fixing hole 120, 120 ': LED module
120a: first LED module 120b: second LED module
120c: third LED module 121: module frame
122, 122 ': LED lamp 123: rotating shaft
124: heat radiating portion 125: lens portion
130: angle display unit 200: building

Claims (8)

As an LED lighting device,
A main frame having a rectangular shape in which the inner side is concave round;
A coupling groove formed on an inner surface of the main body frame;
At least one LED module detachably installed in the coupling groove and outputting a predetermined amount of light from a plurality of mounted light sources; And
Rotating the LED module to the left and right in the longitudinal direction of the main body frame to include a rotating unit for adjusting the light distribution pattern of the light source according to the set position of the LED module is any one of the light distribution pattern for the street light or the light distribution pattern for the floodlight. Device. The method of claim 1,
The LED module may be additionally installed in the coupling groove by an arbitrary number to increase the overall light quantity of the LED lighting apparatus or by removing any number from the coupling groove so as to reduce the overall light quantity of the LED lighting apparatus so that the light quantity is adjusted. LED lighting apparatus, characterized in that. 3. The method according to claim 1 or 2,
The main body frame further comprises a fixing part for fixing at a set position so that the LED module maintains a set light distribution pattern. 3. The method according to claim 1 or 2,
The main body frame further comprises an angle display unit for displaying the angle information that the LED module is installed in the main body frame. 3. The method according to claim 1 or 2,
The LED module further includes a lens unit for adjusting the light distribution angle of the light irradiated from the light source,
The lens unit is characterized in that the LED lighting apparatus is installed so as to be differentiated so as to increase or decrease the range of the light distribution angle according to the light distribution pattern. The method of claim 5, wherein
The light distribution angle of the lens unit is characterized in that the irradiation distance of the light source becomes smaller as the distance from the near. The method according to claim 6,
The lens unit is any one of the total reflection type light distribution angle reduction lens or the eccentric lens having a narrow light distribution angle eccentric to one side. The method of claim 5, wherein
The LED module is characterized in that the brightness of the LED module increases as the distance from the near.

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