KR101297108B1 - ＬＥＤ planar lighting apparatus - Google Patents

Abstract

LED surface lighting apparatus according to the present invention, a rectangular frame formed with a receiving space in the bent portion; An LED array installed along an inner wall of the frame; And a power control unit electrically connected to an end of the LED array, wherein the power control unit is accommodated in the accommodation space.

Description

LED planar lighting apparatus

The present invention relates to an LED lighting device, which emits light through the LED element.

1 is a longitudinal cross-sectional view illustrating a general edge type surface lighting apparatus, and FIG.

Referring to the drawings, the edge type LED lighting device is a frame (1) that is a rectangular border, a substrate (2) installed inside the frame (1), an LED element (3) mounted on the substrate (2), And a light guide plate 4, a diffusion plate 5, a reflection plate 6, and a cover 7 inside the frame 1.

In addition, the frame 1 includes a side bar 1a, a side block 1b connecting the side bar 1a, and a center bar 1c, and one power control unit 9 in the center bar 1c. ) Is mounted.

In addition to the edge type LED surface lighting apparatus using the light guide plate 4 as described above, two types of direct type LED surface lighting apparatuses in which LED light sources are arranged on a substrate are known in the conventional LED flat panel lighting apparatus. The direct type LED lighting device is arranged to be spaced apart from the light source in order to make the light of the LED element, which is a point light source, into a surface light source, resulting in light loss and thickening of the product.

On the contrary, in the edge type LED lighting device shown in FIGS. 1 and 2, a light emitting part including a substrate 2 and an LED element 3 is disposed on the side of the light guide plate 4 and is spaced apart from the light guide plate 4. Since the diffuser plate 5 can be disposed, the light device can be made slim while minimizing the loss of light.

However, the edge type LED lighting device also has limitations due to the installation structure and the size of the power control unit in order to realize ultra slim.

The present invention has been made to solve the above problems, and an object thereof is to provide an LED surface lighting apparatus improved to be slim.

LED surface lighting apparatus according to a preferred embodiment of the present invention to achieve the above object, a rectangular frame formed with a receiving space in the bent corner portion; An LED array installed along an inner wall of the frame; And a power control unit electrically connected to an end of the LED array, wherein the power control unit is accommodated in the accommodation space.

Here, the frame, a plurality of sidebars; And a side block for bending the two side bars, wherein the accommodation space is configured to have a hole shape in the side block so as to correspond to the size of the power control unit.

In addition, it is preferable that a plurality of LED arrays are provided in each of the plurality of sidebars along the length direction, and each of the LED arrays is driven and controlled by the power control unit electrically connected thereto.

In an embodiment, the frame has a rectangular structure formed by four sidebars, and each of the four sidebars is equipped with the LED array, and the four power control units and the four LED arrays are connected to each other one by one. The drive can be controlled.

LED surface lighting apparatus according to the present invention is configured to drive control while supplying power to one LED array mounted on the inner wall of the sidebar of the frame, the power control unit accommodated in the accommodating space of the side block of one end of the array The power control unit can be easily accommodated in the accommodating space of the side block without requiring a large capacity, and can have a thickness and shape suitable for slimming. Accordingly, the LED surface lighting apparatus of the present invention has the effect that it is possible to maximize the light efficiency while at the same time realizing ultra-slim.

1 is a longitudinal sectional view showing a general edge-type surface lighting device.
2 is a perspective view illustrating a surface on which the power control unit is mounted in the edge type surface lighting apparatus of FIG. 1.
3 is a perspective view showing the LED surface lighting apparatus according to a preferred embodiment of the present invention.
FIG. 4 is an enlarged view of the power control unit mounted in the LED surface lighting apparatus of FIG. 3 according to the first embodiment.
FIG. 5 is an enlarged view illustrating that the power control unit is mounted according to the second embodiment in the LED surface lighting apparatus of FIG. 4.

3 is a perspective view showing the LED surface lighting apparatus according to a preferred embodiment of the present invention, Figure 4 is an enlarged view showing that the power control unit according to the first embodiment in the LED surface lighting apparatus of Figure 3, Figure 5 3 is an enlarged view illustrating that the power control unit is mounted according to the second embodiment in the LED surface lighting apparatus of FIG. 3.

Referring to the drawings, the present invention is a rectangular frame 20, an LED array (30) installed along the inner wall of the frame 20, and a power control unit 90 is provided at the end of the LED array (30) It includes.

At this time, the frame 20 forms a rectangular structure, preferably may have a rectangular frame structure, and furthermore, the frame 20 may be a structure in which the LED array 30 may be installed, but is not limited thereto. It can have

Since the frame 20 has a rectangular structure as described above, the frame 20 has a bent corner at a portion where the corner meets.

Each bent portion is formed with an accommodating space 24a in which the power control unit 90 is accommodated. The accommodating space 24a corresponds to the size and shape of the power control unit 90 and has a size larger than that. The control unit 90 can be easily accommodated.

In detail, the frame 20 may include a plurality of side bars 22 and side blocks 24 for bending and connecting the two side bars 22.

In this case, the accommodation space 24a may be preferably formed in a hole shape in the side block 24 to correspond to the size of the power control unit 90.

As a result, as the power control unit 90 is accommodated in the accommodation space 24a formed in the side block 24 of the frame 20, the power control unit 90 is not installed while occupying a separate space externally, and is mounted inside the frame 20. Can be.

Here, the frame 20 may have a rectangular structure by four sidebars 22, and the four sidebars 22 may be equipped with LED arrays 30, respectively, and four sidebars ( It may be built in any one of 22).

Of course, the LED array 30 is installed along the inner wall of the frame 20, the LED array 30 is composed of a substrate 32 and a plurality of LED elements 34 mounted on the substrate 32 In this way, the substrate 32 on which the LED element 34 is mounted is installed in the lengthwise direction in the sidebar 22 in the frame 20 as in the installation structure in the general edge type LED lighting device.

In addition, the power control unit (Drive IC) 90 to which power is supplied from the outside takes an electrical connection so as to be electrically connected to the end of the LED array 30.

Furthermore, the present invention is provided with a plurality of the LED array 30 is mounted along the longitudinal direction to each of the plurality of sidebars 22, wherein the LED array 30 is connected to the power control unit 90 electrically connected Driving control can be achieved by

Accordingly, a power source housed in one LED array 30 mounted on the inner wall of the sidebar 22 of the frame 20 in the receiving space 24a of the side block 24 on one end side of the LED array 30. The control unit 90 may perform driving control while supplying power, whereby the power control unit 90 may be easily accommodated in the accommodation space 24a of the side block 24 by not requiring a large capacity. Furthermore, it can have a thickness and shape suitable for slimming.

That is, when the LED array 30 configured in series or in parallel is powered by one power control unit 90, power supply of many channels may not be constant. 90 is embedded in the receiving space 24a of each side block 24, so that the power control unit 90 is not visible from the exterior of the entire surface lighting device, and ultra slim can be realized. With each drive, accurate brightness and energy savings can be extended and the life of the surface lighting device can be extended.

Accordingly, the LED surface lighting apparatus of the present invention can be made ultra-slim and at the same time maximize the light efficiency.

At this time, referring to the connection structure of the LED array 30 of the power control unit 90 with reference to Figures 4 and 5, the power control unit 90 is provided with a connector 91 is connected to the LED array 30, The LED array 30 is easily detachable.

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 exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

20: frame 22: sidebar
24: side block 24a: accommodation space
30: LED array 32: substrate
34: LED element 90: power control unit

Claims (4)

A rectangular frame 20 having a receiving space 24a formed in the bent corner; An LED array 30 installed along an inner wall of the frame 20; And a power control unit 90 electrically connected to an end of the LED array 30. The power control unit 90 is embedded as the power control unit 90 is accommodated in the accommodation space 24a.
The frame 20 includes a plurality of sidebars 22; And a side block 24 bending and connecting the two side bars 22.
The LED array 30 is mounted on the sidebar 22, and the power control unit 90 is embedded in the free space in which the LED array 30 is not installed in the frame 20. ) Is formed in the side block 24,
The power supply control unit (90) is provided with a connector (91), LED surface lighting device, characterized in that the removable configuration is configured to the LED array (30).
The method of claim 1,
The accommodating space (24a), LED surface lighting device, characterized in that formed in a hole shape in the side block 24 so as to correspond to the size of the power control unit (90).
The method of claim 2,
The LED array 30 is provided with a plurality of LED is mounted in each of the plurality of side bars 22 along the longitudinal direction, LED surface lighting, characterized in that the drive control by the power control unit 90 is electrically connected to each other Device.
The method of claim 3,
The frame 20 has a rectangular structure by four sidebars 22, and the LED array 30 is mounted on the four sidebars 22, respectively.
The LED lighting device, characterized in that the four power control unit (90) and the four LED array (30) are connected to each other and controlled to drive.

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