KR20140132480A - Heat Dissipating Structure of Edge Type Backlight Unit of LCD Panel - Google Patents

Abstract

The present invention relates to an LCD panel comprising an edge type backlight unit. The present invention relates to a heat dissipation structure which prevents temperature rise in the LCD panel, by inserting a heat dissipation pipe between a backlight unit and an LCD housing and exhausting air in the LCD panel using an air circulation unit. More particularly, in an LCD panel comprising an edge type backlight unit, the present invention provides a heat dissipation structure of an LCD panel comprising an edge type backlight unit which comprises: an LCD liquid crystal panel; an LCD housing formed with a front cover and a rear cover which are placed with the LCD liquid crystal panel in the inside; and at least one backlight unit which is inserted between the LCD liquid crystal panel and the LCD housing. A heat dissipation pipe forming air flow is formed between the LCD housing and the backlight unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat dissipating structure of an LCD panel having an edge type backlight unit,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an LCD panel having an edge type backlight unit, in which a heat radiating tube is inserted between a backlight unit and an LCD housing and air in the LCD panel is discharged using air circulation means, And more particularly, to a heat dissipation structure that effectively prevents a temperature rise of a semiconductor device.

In recent years, LCD (Liquid Crystal Display) has been widely used for a variety of video devices such as TVs and monitors since it can be implemented with low power consumption, light weight and thin shape.

2. Description of the Related Art In general, a liquid crystal display (LCD) displays a desired image on a screen by controlling the transmission amount of a light beam according to a signal applied to a plurality of thin film transistors (TFT) arranged in a matrix form. Is not a self-luminous display device, a separate light source such as a backlight unit is required.

The backlight unit is divided into a direct type and an edge type according to the arrangement position of the light source.

The direct type backlight unit includes a plurality of light sources disposed on a back surface of a liquid crystal panel and irradiating light from the light sources to a liquid crystal panel through a plurality of optical sheets and a diffuser plate, In the edge type method, a light source is provided at one edge of a liquid crystal panel, and light incident from the light source is irradiated to a liquid crystal panel through a plurality of optical sheets and a light guide plate.

In the direct type method, i) a plurality of light sources are arranged in a planar shape on the back surface of the liquid crystal panel, and since the shape of the light source appears on the liquid crystal panel, the gap between the light source and the liquid crystal panel must be maintained, (Ii) the area of the light output surface of the backlight unit is also increased as the liquid crystal panel is enlarged. In the case of enlarging the direct-type backlight unit, the light If the scattering means can not secure a sufficient thickness, there is a disadvantage that the light output surface is not flat.

In the edge type method, i) a light source is disposed on the edge of a liquid crystal panel and light is dispersed on the entire surface by using a light guide plate, the brightness is low because light must pass through the light guide plate, ii) For the distribution, a high degree of optical design and processing technology for the light guide plate is required.

Since the direct type and the edge type have such disadvantages, i) a backlight unit of direct type is mainly used in an LCD panel product in which the brightness is more important than the thickness of the screen, ii) Edge type backlight units are mainly used in LCD panel products such as notebook PCs and monitor PCs where thickness is important.

1, an LCD panel including the edge type backlight unit is mounted on the edge of the LCD panel 100, and therefore, the liquid crystal panel The heat generated from the backlight unit is dissipated by attaching a thermal tape to the edge, but it is difficult to efficiently dissipate heat, so that the lifetime and brightness of the LCD panel and the backlight unit can not be guaranteed.

Accordingly, it is an object of the present invention to provide a backlight unit capable of efficiently discharging heat generated inside an LCD panel despite the space limitation of the edge type backlight unit, thereby assuring the lifetime and brightness of the backlight unit, A heat dissipating structure is required.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above problems of the related art, and it is an object of the present invention to provide a backlight unit and an LCD housing, And an edge type backlight unit for preventing the LCD panel from being damaged.

It is another object of the present invention to provide an air circulation means and a connection pipe for discharging air inside a panel to a heat radiating tube inserted into an LCD panel to efficiently prevent the temperature rise of the LCD panel and to ensure the stability and reliability of the LCD panel product A backlight unit having an edge type backlight unit.

The technical objects to be achieved by the present invention are not limited to the above-mentioned technical problems, and other technical subjects which are not mentioned can be clearly understood by those skilled in the art from the description of the present invention .

According to an aspect of the present invention, there is provided an LCD panel including an edge type backlight unit, the LCD panel including: a liquid crystal panel; An LCD housing formed of a front cover and a rear cover for seating the LCD liquid crystal panel therein; And at least one backlight unit inserted between the LCD liquid crystal panel and the LCD housing, wherein a heat radiating tube for forming an air flow between the LCD housing and the backlight unit The backlight unit has an edge type backlight unit.

In the present invention, the backlight unit is preferably an LED array bar having a plurality of point light sources.

In the present invention, the backlight unit is preferably inserted into the upper and lower portions of the LCD liquid crystal panel.

Preferably, the present invention further includes an air circulation means for introducing the air inside the LCD panel and transmitting the air to the heat dissipation tube.

Preferably, the present invention further comprises a connection pipe for transferring air between the air circulation means and the heat radiating pipe.

In the present invention, the air circulation means is preferably a fan or a blower.

In the present invention, it is preferable that the air circulation means is attached to a rear cover of the LCD housing.

In the present invention, it is preferable that the air outflow means is on-off controlled by a backlight unit control board.

In the present invention, the backlight unit control board preferably includes a bimetal in a thermostat to control on-off of the air circulation means according to a temperature change.

The present invention preferably forms an air inflow / outflow hole through which at least one corner of the LCD housing flows or flows.

In the present invention, the air inflow / outflow hole is preferably connected to the heat dissipation pipe to form an air flow.

In the present invention, it is preferable that the LCD housing and the heat radiating tube, and between the backlight unit and the heat radiating tube are attached to each other by thermal tapes.

According to the heat dissipating structure of the LCD panel having the edge type backlight unit of the present invention, the outside low-temperature air is introduced through the heat-radiating pipe attached between the backlight unit and the LCD housing and the hot air inside the panel is emitted, There is an effect of preventing rise.

In addition, according to the present invention, the temperature rise of the LCD panel can be effectively prevented by providing the air circulation means and the connection pipe as well as the heat radiation pipe inserted into the LCD panel.

As described above, the present invention adopts an efficient heat dissipating structure of the LCD panel, thereby assuring the lifetime and brightness of the backlight unit, and assuring the stability and reliability of the LCD panel product.

1 is a front view and a rear view of an edge type LCD panel according to the related art.
2A and 2B are structural diagrams of an LCD panel having a direct-type backlight unit.
3A and 3B are structural diagrams of an LCD panel including an edge type backlight unit.
4A and 4B are views illustrating the structure of an LCD panel having an edge type backlight unit according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

2A and 2B are structural diagrams of an LCD panel having a direct-type backlight unit.

An LCD panel having a direct type backlight unit includes a plurality of light sources disposed on a back surface of a liquid crystal panel and transmits light incident from the light sources through a plurality of optical sheets 240 and a diffusion plate 250 A method of irradiating with a liquid crystal panel is adopted.

2A is an exploded sectional view of a direct type backlight unit in which a cell 230, an optical sheet 240 and a diffusion plate 250 are attached to a front cover 210, which is an LCD housing, with a mold 220, A planar backlight unit in which a plurality of light sources are disposed on the cover 270 side is disposed.

That is, the direct-type backlight unit places a plurality of light sources in a planar shape on the back surface of the liquid crystal panel. Since the shape of the circle appears on the liquid crystal panel, a gap between the light source and the liquid crystal panel must be maintained. 2A and 2B show the distance 280 between the backlight unit and the diffuser plate.

Accordingly, since the direct-type backlight unit can secure a large space above the backlight unit 260, an efficient heat dissipation structure through air circulation is possible.

3A and 3B are structural diagrams of an LCD panel having an edge type backlight unit.

An edge type backlight unit is provided with a light source at the edge of the liquid crystal panel and irradiates the light incident from the light source to the liquid crystal panel through the light guide plate 350 and the optical sheet 340.

That is, the cell 320, the mold 330, the optical sheet 340, and the light guide plate 350 are disposed between the front cover 310 and the rear cover 370, And the backlight unit 360 is inserted into each of the above-mentioned sides.

As shown in FIG. 3A, which is a cross-sectional view of the LCD panel of FIG. 1 taken along the AA 'direction, the LCD panel having the conventional edge type backlight unit has a heat- the backlight unit 360 emits heat generated by the backlight unit 360 by attaching a thermal tape to the backlight unit 360. However, since the backlight unit 360 emits heat only through the surface contacting the rear cover 370, The temperature of the backlight unit 360 continuously increases and the temperature of the backlight unit 360 itself also increases, so that the lifetime and brightness of the backlight unit 360 can not be reduced.

That is, the edge type backlight unit is advantageous for thinning the LCD panel product, but the space for the space between the backlight unit 360 and the liquid crystal panel is not secured, so that efficient heat dissipation through air circulation is difficult. The invention has been devised to improve the disadvantage of the heat dissipation structure of such an edge type backlight unit.

4A and 4B are block diagrams of an LCD panel having an edge type backlight unit according to an embodiment of the present invention.

The present invention relates to an LCD panel having an edge type backlight, in which an air circulation means (380) of a fan or a blower is attached to a rear cover (370) of an LCD housing so as to allow low- And a heat radiation pipe 370 'is inserted between the backlight unit 130 and the rear cover 370. In addition, a connection pipe 390 connecting the air circulation means and the heat dissipating pipe 370 'is provided to discharge the air introduced into the air circulating means through the heat dissipating pipe 370' Respectively.

More specifically, the present invention relates to an LCD panel having an edge-type backlight unit, comprising: an LCD liquid crystal panel; a front cover 310 for seating the LCD liquid crystal panel therein; An LCD housing formed by a rear cover 370, at least one backlight unit 360 inserted between the LCD liquid crystal panel and the LCD housing, and a backlight unit 360 between the LCD housing and the backlight unit And a heat radiation pipe 370 'forming an air flow.

The backlight unit 360 may be an LED array bar having a plurality of point light sources, and may be inserted into upper and lower portions of the LCD liquid crystal panel, respectively.

The heat dissipating tube 370 'is inserted between the backlight unit 360 and the rear cover of the LCD housing along the path of the backlight unit 360. The air inlet / Through the air inflow / outflow hole 420 to the outside.

For this purpose, the front cover 310 and the rear cover 370 may be formed with holes in the respective corner areas to form the air inflow / outflow holes 420.

The heat dissipating tube 370 'may be formed with a plurality of air holes (not shown) on the side of the backlight unit 360 in contact with the backlight unit 360 to directly receive heat generated from the backlight unit 360 .

Meanwhile, the present invention includes an air circulating means 380 for introducing the air inside the LCD panel and transmitting the air to the heat dissipating pipe 370 '. The air circulating means 380 may be formed of a fan or a blower, The rear cover 370 of FIG.

However, it is preferable that the air circulating means 380 is attached to the outside of the rear cover 370 due to the internal structure of the LCD panel having the edge type backlight unit.

The air introduced through the air circulation means 380 is transferred to the heat dissipation pipe 370 'through the connection pipe 390. The air introduced through the air inflow / outflow hole 420 and the connection pipe 390, So that the temperature of the backlight unit 360 is prevented from rising by forming the air flow through the heat radiation pipe 370 '.

In the present invention, a thermal tape is disposed between the rear cover 370 and the heat radiation pipe 370 'of the LCD housing and between the backlight unit 360 and the heat radiation pipe 370' And can further maximize it.

On the other hand, the air circulation means 380 is controlled to be turned on and off by a backlight unit control board 400. The backlight unit control board 400 includes a bimetal in a thermostat OFF control of the air circulation means 380 in accordance with the temperature change.

A separate control board for driving the fan or blower as the air circulating means 380 and controlling the fan or blower according to the temperature is required. However, the structure of the LCD panel is further complicated and the manufacturing cost is increased.

Therefore, in the present invention, a separate control board for driving the air circulation means 380 is not added, and a backlight unit control board 400, which is indispensably provided in the LCD panel, is provided with a switching structure for driving the air circulation means Respectively.

That is, the backlight unit control board 400 constitutes a circuit using a bimetal that performs a switching function according to the temperature of the power source of the air circulation unit 380 at the same time as the power supply source of the backlight unit 360, There is an advantage that a separate control board is not necessary since the system has a fan controllable system.

The bimetal is formed by laminating two kinds of thin metals having different degrees of expansion and contraction according to a thermal expansion coefficient, that is, a change in temperature. When the temperature rises, the larger the thermal expansion coefficient is expanded, When the temperature is lowered, it returns to its original state. Therefore, the switching function can be performed by using this property.

In the present invention, the bimetal may be formed of an iron-nickel-manganese (Fe-Ni-Mn) alloy plate, an iron-nickel-chromium (Fe- A copper-zinc alloy sheet or a manganese-copper-nickel (Mn-Cu-Ni) alloy sheet may be laminated.

An example of the temperature measurement test of the backlight unit of the LCD panel to which the heat dissipation structure of the present invention is applied is shown in Table 1 below.

In the LCD panel to which the conventional edge type backlight unit was applied, the area around the backlight unit was measured at 48 캜 after about 1 hour from driving the LCD panel.

In contrast, in the heat dissipating structure of the present invention, i) the heat dissipating structure of the heat dissipating tube 370 'and the heat dissipating tape was measured at a temperature of 41 ° C around the backlight unit after about 1 hour from driving the LCD panel, ii) '), When the heat radiation tape was applied and the air circulation means 380 was operated, the area around the backlight unit was measured at 39 ° C after about 1 hour from driving of the LCD panel.

As described above, according to the present invention, the temperature of the peripheral region of the backlight unit is reduced by 7 ° C or more in comparison with the conventional structure, so that the lifetime of the backlight unit 360 is increased, and the heat generated in the backlight unit 360 is transmitted to the heat radiation pipe 370 ' ), And thus the overall temperature of the LCD panel is lowered.

Although the present invention has been described in connection with the specific embodiments of the present invention, it is to be understood that the present invention is not limited thereto. It will be understood by those skilled 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 and their equivalents. Various modifications and variations are possible.

100: LCD panel
110, 210 and 310: front cover,
120, 270, 370: rear cover,
130, 260, 360: Backlight unit
220, 330: mold 230, 320: cell
240, 340: optical sheet 250: diffuser plate
280: Distance between backlight unit and diffusion plate
350: light guide plate 370 '; Heat pipe
380: air circulation means 390: connector
400: backlight unit control board 410: air flow
420: Air inflow / outflow ball

Claims (9)

1. An LCD panel having an edge-type backlight unit,
LCD liquid crystal panel;
An LCD housing formed of a front cover and a rear cover for seating the LCD liquid crystal panel therein; And
And at least one backlight unit inserted between the LCD liquid crystal panel and the LCD housing,
And a heat dissipation tube for forming an air flow between the LCD housing and the backlight unit is formed on the back surface of the LCD panel. The backlight unit of claim 1, wherein the backlight unit comprises:
Wherein the LED backlight unit is an LED array bar having a plurality of point light sources. The backlight unit of claim 1, wherein the backlight unit comprises:
Wherein the liquid crystal panel is inserted into upper and lower portions of the LCD liquid crystal panel. The method according to claim 1,
Further comprising an air circulation means for introducing the air inside the LCD panel to the heat dissipation pipe. 5. The method of claim 4,
And a connection pipe for transferring air between the air circulation means and the heat dissipation tube. The heat dissipation structure of an LCD panel having the edge type backlight unit. The air conditioner according to claim 4,
Wherein the backlight unit is attached to a rear cover of the LCD housing. 5. The method of claim 4,
The air outflow means is controlled on and off by a backlight unit control board and includes a bimetal in a thermostat to control on-off of the air circulation means according to temperature change. And the backlight unit is mounted on the backlight unit. The method according to claim 1,
And an air inlet / outlet hole through which air flows out or is introduced into at least one corner of the LCD housing. [2] The LCD panel of claim 1, wherein the LCD housing and the heat radiating tube, and between the backlight unit and the heat radiating tube are attached to each other by thermal tapes, rescue.

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