KR100731382B1 - Cooling apparatus for use in flat display device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flat panel display device, and more particularly, to a cooling device for a flat panel display device for quickly and stably discharging high heat inside the flat display device to the outside.

According to the present invention, the flat panel display device can be made thinner and obtain sufficient heat dissipation effect, provide effective discharge area of the maximum area, minimize the flow noise, improve the operation reliability for the rotation of the fan, and when the fan rotates. The vibration generated in this manner is reduced, and it is easy to increase the rotational force of the fan in response to the cooling load, and there is an advantage that a sufficient cooling effect can be obtained also at the corner portion.

display

Description

Cooling apparatus for use in flat display device}

1 is a perspective view of a flat panel display device according to the present invention;

2 is a partial cutaway perspective view of a portion of the upper surface of the back cover of the flat display device of the present invention.

3 is a cross-sectional view taken along the line II ′ of FIG. 1.

4 is a perspective view of the flat panel display device in a state in which the crossflow fan impeller and the motor of FIG. 2 are removed.

FIG. 5 is a cross-sectional view taken along line II-II ′ of FIG. 4.

6 is a rear view of the flat panel display device for explaining the operation of the cooling device of the flat panel display device according to the present invention.

7 is a rear view of the flat panel display device according to the second embodiment of the present invention.

8 is a rear view of the flat panel display device according to the third embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

1: flat display device 2: flat display module

3: front cover 4: back cover

5 back cover side opening 7 cross flow fan

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flat panel display device, and more particularly, to a cooling device for a flat panel display device for quickly and stably discharging high heat inside the flat display device to the outside. More particularly, the present invention relates to a cooling device of a flat panel display device, which allows more heat to be quickly radiated to the outside in a low noise state, thereby improving operating efficiency of the cooling device.

Unlike general cathode ray tubes, a flat panel display device is a device in which an emission state of each pixel is implemented differently by a driving circuit arranged in a matrix form to form an image as a whole. Unlike the cathode ray tube, such a flat panel display device has a small volume, so that the space occupied in a narrow indoor space is small, and thus the use of the flat display device has been increased. The flat panel display module applied to the flat panel display device includes a liquid crystal display (LCD), a field emission display (FED), and a plasma display panel (PDP) according to a driving method thereof. And an electroluminescence (EL) display device. Although these display modules are small in size and can be used for convenience of users, they are integrated and manufactured in a narrow, almost flat space, so that heat generated during driving of the module is a major challenge.

In particular, the PDP is a reality that the high temperature heat is generated by the discharge phenomenon and electrical components of the discharge gas, and if such heat is not released, the PDP acts as a major factor causing malfunction or failure of the device. Of course, the flat panel display module driven in another way, the heat dissipation performance of the device limits the performance.

In order to solve the problem related to the cooling of the flat panel display device described above, a conventionally applied method is to attach a relatively large size heatsink to the back surface of a particular heating part in which a large amount of heat is generated to cool a specific part, There is a method of drilling a plurality of holes in the cover of the display device to allow outside air to communicate with the inside and outside of the flat display device. However, such a method can expect a cooling effect on a specific part that generates high heat, but the device does not operate stably because the process of dissipating heat collected in the internal space of the device to the outside is not performed smoothly. There is this.

In order to improve the above method, an axial fan is installed from the middle of the back cover to the rear in a direction orthogonal to the direction in which the flat display device is formed so that hot air inside the device is forced out of the rear. .

However, although this method can increase the efficiency of the heat accumulated inside the device to the outside, not only does a lot of noise be generated during the air discharge operation, but also the space between the back of the device and the wall for air discharge. There is a problem in that an interval of more than tens of centimeters should be provided. In addition, there is a problem in that the width of the flat panel display module becomes thick due to an interval between the axial fan and the flat panel display module so that the axial fan is installed to suck the internal air of the device and the spacing of the axial fan itself. .

In addition, since a plurality of openings are formed in order to allow the outside air to be sucked or discharged on the surface of the back cover, there is a problem of lowering the strength of the back cover, and due to this strength problem, the material of the back cover should be formed thicker. Therefore, there is a problem of raising the material cost.

The present invention is proposed to improve the above problems, and an object of the present invention is to provide a cooling device for a flat panel display device which can obtain a thinner and simpler and sufficient heat dissipation effect.

In addition, it is an object of the present invention to provide a cooling device of a flat panel display which can not only reduce manufacturing costs but also minimize the flow noise.

In addition, it is an object of the present invention to propose a cooling device of a flat panel display device by the air inside the flat panel display device to be discharged to the outside by natural convection, further improving heat dissipation efficiency and further maximize the effect of reducing the noise.

In addition, an object of the present invention is to propose a cooling device for a flat panel display device in which the installation of the cooling fan becomes stable and the operation reliability of the cooling device is improved.

In addition, an object of the present invention is to propose a cooling device for a flat panel display device which can expect high heat dissipation efficiency even for a large flat panel display device.

In order to achieve the above object, a flat display device cooling apparatus according to the present invention includes a flat display module; A cover supporting the flat panel display module; An inlet formed in the cover to suck outside air; A cover side opening formed in the cover and configured to discharge internal air sucked from the suction port and heated; And a plurality of cross flow fans disposed in the inner side of the cover side opening to blow the internal air to the cover side opening, wherein the cover side opening is formed to be long in the width direction of the cover, and the cross flow fan is the flat surface. It extends to the corner of the display module.

According to the present invention, it is possible to obtain an advantage that the cooling efficiency of the flat panel display device is improved, the flow noise is reduced, and the installation of the flat panel display device can be more freely performed, and the operation reliability in the operation of the fan is improved. It is improved and there is an advantage that a sufficient cooling effect can be obtained even for a large display device.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the spirit of the present invention is not limited to the embodiments presented, and those skilled in the art who understand the spirit of the present invention can easily suggest other embodiments falling within the scope of the same idea, It is said to be included in the range.

<First Embodiment>

1 is a perspective view of a flat panel display device according to the present invention.

Referring to FIG. 1, the flat panel display device 1 of the present invention includes a flat panel display module 2, a front cover 3 that supports and protects the front of the flat panel display module 2, and a flat panel display module 2. A back cover 4 is provided to support and protect the rear of the back panel). In addition, a back cover side opening portion 5 through which hot air inside the flat panel display device 1 is discharged is formed at an upper edge of the back cover 4. The back cover side opening 5 may be provided in a structure in which a plurality of through holes are collected, so that the strength reduction of the back cover 4 does not occur. In other words, the back cover side opening portion 5 refers to a portion where the hot air is discharged inside the flat panel display device 1 as a whole, and the inner area thereof is provided in the form of a plurality of slits.

The flat panel display module 2 may be a module in which pixels are operated in various forms of metrics such as a liquid crystal display, a field emission display, a plasma display panel, and an electroluminescence display. A PDP module in which high heat is generated may be exemplified.

The front cover 2 and the back cover 4 are an article that partitions the exterior and the interior and protects the components mounted therein while the flat display module 2 is accommodated in the interior space as a whole. Although the cover 2 and the back cover 4 are provided as separate items and described as an aspect in which the two are combined, it may be provided in any other form. For example, it is also possible for the front cover 2 and the back cover 4 to be provided as a single article. However, it is natural that the front cover 2 is used to protect the front of the flat display device, and the back cover 4 is used to protect the rear of the flat display device. In addition, a predetermined interval is provided between the inner surface of the back cover 4 and the plurality of heating parts provided on the rear surface of the flat display module 2, and air flows through the gaps to provide the heating parts. Naturally, after cooling, the liquid is discharged through the back cover side opening part 5.

The operation of the cooling apparatus of the present invention will be described with reference to the perspective view of the flat display apparatus described above.

When the flat panel display device 1 is operated, a lot of heat is generated in the flat panel display module 2. In particular, the heat generated from the heat generating parts of the rear surface of the flat panel display module 2 is cooled by air introduced from the outside. After that, the heated air is moved upward and then discharged to the outside through the back cover side opening 5. Since the air inside the flat panel display apparatus may be discharged by the natural convection in which the heated air moves upward, the cooling effect may be further enhanced. In order to maximize the cooling effect due to natural convection as described above, the air introduced into the flat display apparatus 1 is introduced into the inside through the lower end of the flat display apparatus 1, thereby the flat display module 2 It is desirable to further improve the cooling efficiency by passing through the rear of the whole.

In addition, the back cover side opening 5 is provided at an inclined portion of the edge of the back cover 4 to be discharged as it is in the direction in which the hot air flows (upward direction), thereby making it possible to smoothly flow the hot air. There is this.

Of course, since the front portion of the flat panel display module 2 is exposed to the outside, heat generated in the front portion of the flat panel display module 2 can be quickly released by the outside air and natural convection.

2 is a partially cutaway perspective view of a portion of an upper surface of a back cover of the flat display device of the present invention.

Referring to FIG. 2, a cross flow fan 7 is installed inside the upper surface of the back cover 4 in the longitudinal direction of the display device. By the installation of the crossflow fan 7 as described above, substantially the entire length of the upper surface of the back cover 4 provides a gap in which hot internal air is discharged to the outside.

The configuration of the cross flow fan 7 will be described in more detail. The crossflow fan 7 divides the crossflow fan impeller 10 and the crossflow fan impeller 10 at regular intervals between the crossflow fan impeller 10 and the crossflow fan impeller 10 provided in the left and right length direction of the back cover 4. A circular plate 11 is included to reinforce the strength of the impeller 10. In addition, a motor 14 is installed in an approximately middle portion of the crossflow fan impeller 10, and drive shafts 151 and 152 extending to the left and right sides of the motor 14 are connected to the crossflow fan impeller 10. Formed.

As will be described, the crossflow fan impeller 10 is divided into two parts on the left and right, such that the crossflow fan impeller 10 is provided divided into two parts on the left and right, so that a single crossflow fan impeller 10 is excessively left and right It can be prevented from forming long.

In addition, the crossflow fan impeller 10 is entirely accommodated in the housing 18 to guide the flow of air during rotation of the crossflow fan impeller 10, wherein the housing 18 is a crossflow fan impeller 10. Scroll 12 is formed on one side spaced forward and a stabilizer 13 is formed on the other side spaced apart to stabilize the flow of air. The scroll 12 is placed in front of the crossflow fan impeller 10 and the stabilizer 13 is placed behind the crossflow fan impeller 10 so that the crossflow fan impeller 10 is clockwise relative to the drawing. Will rotate.

On the other hand, as briefly described, the crossflow fan impeller 10 is divided into a first crossflow fan impeller 101 placed on the right side and a second crossflow fan impeller 102 placed on the left side of the flat panel display apparatus. The crossflow fan impellers 101 and 102 are connected to a single motor 14 by respective drive shafts 151 and 152. Therefore, as the motor 14 is rotated, both of the crossflow fan impellers 101 and 102 are rotated at the same time.

Due to the structure of the crossflow fan 7, the pair of crossflow fan impellers 101 and 102 provided long on the upper surface of the flat panel display device 1 can be stably rotated. In other words, since the impeller is separated into a pair and each of the crossflow fan impellers 101 and 102 is formed to have a short length, the impellers 101 and 102 are transmitted even if the vibration from the motor 14 is transmitted. The vibration transmitted to the end of is not so amplified that there is no fear of causing noise and vibration problems. In addition, since the size and length of the crossflow fan impeller 101 and 102 are reduced, it is natural that the operational reliability of the fan is improved.

In addition, since the end of each crossflow fan impeller 101 and 102 can be supported by a separate different support structure, the reliability of the support of the crossflow fan impeller 101 and 102 can be obtained. have. This is in contrast to the hypothetical embodiment in which the crossflow fan impeller is provided as a single part and one end is connected to the drive shaft of the motor and only the other end is supported by a separate support structure so that the crossflow fan impeller is not stably supported. It will be clearly understood.

In addition, since the motor 14 is located approximately at the center of the upper portion of the flat panel display device 1, the crossflow fan impellers 101 and 102 extend to the edges of the left and right ends of the back cover 4 to be installed. Can be. In other words, when a single motor is provided only at one end of the impeller, the crossflow fan impeller cannot be extended to the end where the motor is installed to secure the position where the motor is installed, but the motor is flat When placed in the upper center portion of the electronic device 1 can be extended to the corner of the flat display device without disturbing the installation position of the motor. Therefore, the low temperature air can be supplied to the parts at the corners of the flat panel display device, and sufficient heat dissipation effect can be obtained.

The above-described cross flow fan 7 is described as having the scroll 12 and the stabilizer 13 provided as a single body instead of being separately provided for the cross flow fan impeller 10. However, the spirit of the present invention is not limited to this structure, and the scroll 12 and stabilizer 13 are also provided as separate parts to provide a first scroll for guiding air blown by the first crossflow fan impeller 101. And the first stabilizer and the second scroll and the second stabilizer for guiding the air blown by the second crossflow fan impeller 102 are also included in the spirit scope of the present invention. Under this background, it will be understood that the present invention includes not only the crossflow fan impellers 101 and 102 being separated from side to side, but also includes a crossflow fan 7 provided from side to side.

Referring to the cross-sectional view taken along the line II ′ of FIG. 1 shown in FIG. 3, the action of the discharge side of the hot air by the crossflow fan 7 will be described.

After the crossflow fan 7 is rotated in the clockwise direction as described above, the air in the space inside the back cover 4 is moved upward and moved along the scroll 12, and then the back cover side. It is discharged to the outside through the opening 5.

As described, since the crossflow fan 7 is provided long in substantially the entire length in the longitudinal direction of the upper surface of the back cover 4, a large amount of hot air can be easily discharged. In this way, by providing a large discharge area of the high-temperature air can reduce the disturbance in the discharge of air, thereby resulting in the advantage of reducing the flow noise of the air. And, since the hot air is discharged through the upper surface of the back cover 4, there is no need to provide a separate interval for the smooth discharge of the air in the gap portion between the back surface and the wall surface of the back cover (4). Therefore, the flat panel display device of the present invention can be completely attached to the wall surface, and the advantage of occupying a narrow indoor space can be obtained.

FIG. 4 is a perspective view of the flat panel display apparatus in which the crossflow fan impeller and the motor are removed in FIG. 2, and FIG. 5 is a cross-sectional view of II-II ′ of FIG. 4.

Referring to FIGS. 4 and 5, the operation of the cooling apparatus of the flat display device according to the present invention will be described. A scroll 12 forms a front boundary and a stabilizer 13 forms a rear boundary at an upper end of the flat display apparatus. It can be seen that the outlet 20 of the rectangular shape. Of course, the cross flow fan impeller 10 is mounted inside the discharge port 20, and the discharge port 20 provides an area through which air is discharged by the cross flow fan 7. In addition, the cross flow fan 7 is provided to the left and right in a state in which the two cross flow fan impellers 101 and 102 are divided.

The discharge port 20 may be referred to as an effective discharge area S as an area where high temperature air of a flat panel display device is discharged. In the present invention, the effective discharge area is substantially the entire area of the upper surface of the back cover 4. By being provided long, the hot air inside the flat panel display device can be discharged to the outside more quickly and efficiently. Therefore, the larger the effective discharge area S is provided, the larger the amount provided, the faster the discharge of the hot air can be made, the noise generated during the flow of air is reduced, and the heat radiation efficiency of the hot air can be increased. You will guess.

In addition, when the effective discharge area S is increased, the flow rate of the air passing through the inside of the display device increases by that much, so that the cooling efficiency is increased. Therefore, the suction hole and the discharge hole separately installed on the back of the back cover 4 are required. Will not. Therefore, since the material of the back cover 4 does not need to be made of a high strength steel sheet in order to reinforce the strength of the back cover 4 by a plurality of air intake and discharge ports, the material cost can be obtained.

In addition, the larger the effective discharge area S is provided among the total area of the upper surface of the same back cover 4, the larger the provided, the thinner the front and rear thickness of the display device may be, even if the screen of the flat panel display device increases. You can get the advantages. In particular, when the crossflow fan 7 as in the present embodiment is formed, since the crossflow fan 7 can be installed almost entirely over the front and rear thicknesses of the flat panel display device 1 without interference by other components, There is an advantage that the heat radiation efficiency for high temperature air can be further improved.

In addition, the cooling device of the flat panel display device according to the present invention, the effective discharge area (S) for discharging the high-temperature air to the outside of the display device is provided over a substantially entire area in the longitudinal direction of one surface of the edge of the display device; Because of this, there is an advantage that the area where the hot air is discharged is increased by that much.

6 is a rear view of the flat panel display device for explaining the operation of the cooling device of the flat panel display device according to the present invention.

Referring to FIG. 6, the back cover 4 further includes a side intake port 16 and a rear intake port 17 for introducing air into the inner space of the back cover 4 in addition to the back cover side opening 5. Is formed.

Referring to the operation of the suction port 16, 17, first, the side suction port 16 is formed in the inclined portion of the lower edge of the back cover 4 so that the external low-temperature air is sucked into the interior space of the flat display device do. Of course, the air sucked through the side suction port 16 is air sucked to compensate for the air discharged through the back cover side opening 5 and is generated by the negative pressure generated by natural convection and the discharged air. It is the air that is sucked in to compensate for the negative sound pressure. As such, the side suction port 16 is preferably provided at the lower side inclined portion of the back cover 4 in order to obtain a force for sucking air by the negative pressure generated by natural convection.

The air sucked through the side suction port 16 is sucked into the crossflow fan 7 after the high heat of a plurality of parts provided on the rear surface of the flat panel display module 2 is cooled as a whole and the back cover side opening 5 The process is discharged through.

In addition, as shown in the figure, the side suction port 16 is formed to cross the left and right directions of the bottom edge of the back cover 4, so that the components of the flat panel display module 2 are swept along the left and right directions by the inhaled air. It is desirable to allow all to cool. Arrows in the figure illustrate the flow direction of air.

Referring to the operation of discharging the hot air inside the back cover 4, the crossflow fan 7 is formed at substantially the entire length of the upper surface across the left and right directions on the upper surface of the back cover 4 The effective discharge area S is also formed in the total area of the upper surface of the back cover 4 across the left and right directions of the upper surface of the back cover 4 in correspondence with the crossflow fan 7. Therefore, the low temperature air sucked through the entire length portion in the left and right directions of the lower surface of the back cover 4 is discharged through the upper surface after cooling the heat while rising as it is in the vertical direction.

On the other hand, among the components of the flat panel display module 2, in particular, such as a component that generates high heat (for example, a power supply), or a component that requires a low temperature condition (for example, a TCP chip (Tape Carrier Package Chip), etc.) A component having a plurality of integrated circuit elements mounted on a single substrate at a high density. In order to satisfy such component-specific operating conditions, it is preferable that a component requiring thermal stability is formed at an adjacent position of the side suction opening 16 to be quickly cooled by cold air flowing into the outside. In addition, in the case of a component in which a large amount of heat is generated, it is preferable that the generated heat is formed at an adjacent position of the crossflow fan 7 so that the generated heat can be quickly discharged to the outside without affecting other circuit parts.

In addition, the rear suction port 17 may be used in a case where the position of the component does not change due to the circuit arrangement of the flat panel display module 2 and must be placed at a specific position. In other words, the rear suction port 17 is formed at a position on the back cover 4 corresponding to a specific position of the flat display module 2 on which the heat generating article is disposed, so that outside air flows directly through the rear suction port 17. It may be used for the purpose of cooling the heat generating article by the incoming cold air. However, the rear suction port 17 is not an essential component for the practice of the present invention, and in the case where the position of the heat generating article can be adjusted, the adjacent position of the side suction port 16 or the adjoining the cross flow fan 7 is provided. The position of the heat generating article may be moved to a position so that a separate rear suction port 17 is not required.

As described above, since the fan can be placed entirely on either side of the back cover 4 by the cooling device according to the present invention, the heat dissipation performance of the high temperature air inside the back cover is further improved, and the operational reliability of the cooling device is improved. You can get this better advantage. In particular, by providing a plurality of cross flow fans divided into a larger area can be provided as an effective discharge area, the operational reliability of the cross flow fan is improved, it is possible to obtain the advantage that the cooling device is operated stably. In addition, since one or more crossflow fans are operated by a single motor, cost reduction can be obtained.

Second Embodiment

The other part of the cooling apparatus of the flat panel display device according to the second embodiment of the present invention is the same as the first embodiment, except that the cross-flow fan and its driving structure are different. Therefore, for the parts not specifically mentioned in the description of the present embodiment, the description of the first embodiment is used, and the detailed description is omitted.

7 is a rear view of the flat panel display device according to the second embodiment of the present invention.

Referring to FIG. 7, in the present embodiment, the cross flow fans forcing air flow are separated from each other by the first cross flow fan 71 and the second cross flow fan 72, and the cross flow fans 71 and 72 are rotated. The motor to be made is also separated into the first motor 73 and the second motor 74 and is provided outside the crossflow fans 71 and 72. In this case, as described in the first embodiment, the crossflow fan may include only the crossflow fan impeller, or the entire configuration including the scroll and the stabilizer may be separated from each other.

In the present embodiment, as the screen of the display device is large and the crossflow fan is also large, the capacity of the crossflow fans 71 and 72 is large, making it difficult to operate by a single motor, or the cooling load is large, so that the rotation speed of the motor is large. It can be easily applied in the case.

Third Embodiment

The cooling device of the flat panel display device according to the first embodiment of the present invention is the same as other parts of the first and third embodiments, except that the cross flow fan and its driving structure are different. Therefore, for the parts not specifically mentioned in the description of the present embodiment, the description of the already described embodiment is used, and the detailed description is omitted.

8 is a rear view of a flat panel display device according to a third exemplary embodiment of the present invention.

Referring to FIG. 8, in the present embodiment, the cross flow fans forcing air flow are separated from each other by the first cross flow fan 81 and the second cross flow fan 82, and the cross flow fans 81 and 82 are rotated. The motor to be made is also separated into the first motor 83 and the second motor 84 and is provided inside the cross flow fans 81 and 82. In this case, as described in the second embodiment of the crossflow fan, only the crossflow fan impeller may be separated, or the entire configuration including the scroll and the stabilizer may be separated from each other.

This embodiment can be easily applied when the capacity of the crossflow fan is difficult to operate by a single motor, or when the cooling load is large and the rotational speed of the motor is large. In addition, there is an advantage that the cooling of the corner portion of the flat display device having a low flow rate can be performed smoothly.

As another embodiment, it is also possible for a plurality of motors to be formed on the left or right side of the cross flow fan. Furthermore, the present embodiment shows a case in which two crossflow fans are provided, but not limited thereto, and three or more crossflow fans may be installed, and as a result, the overall cooling action on one surface of the flat display device may be reduced. Of course it can be done. Such an embodiment will be required as the screen of the flat panel display device becomes larger.

According to the present invention as proposed, since a separate space for the installation of the blower fan is not required, the flat display device may have a thinner and simpler and sufficient heat dissipation effect.

In addition, as a shape similar to that of a flat panel display device, since the effective discharge area is provided in a state of the maximum area as a rectangular shape, the structure is simplified, and there is an advantage that flow noise can be minimized.

In addition, since the air inside the flat panel display device can be discharged to the outside by natural convection as well as the sound pressure provided from the fan, there is an advantage that the circulation of air in the display device smoothly.

In addition, an object of the present invention is to propose a cooling device of a flat display device, in which a flow direction of air in the flat display device is improved, thereby improving the degree of freedom for installation of the flat display device.

In addition, as the flow rate of air flowing inside the flat display device is increased, a separate opening does not need to be formed on the rear surface of the back cover, so that the steel plate constituting the back cover is expensive to reinforce the strength of the back cover. Since there is no need to make a high strength steel sheet, it is possible to obtain the advantage of reducing the material cost.

In addition, since the fan which derives the forced flow rate of air can be stably supported, it is possible to obtain an advantage that the operation reliability of the fan rotation is improved. In particular, since the rotational resistance of the left and right around the drive motor is the same, it is possible to obtain the advantage that the vibration generated during the rotation of the fan is reduced.

In addition, even if the cooling load is large or the rotational resistance to the fan is large, there is an advantage that it is easy to increase the rotational force correspondingly, and sufficient cooling effect can be obtained even in the corner portion of the flat display device having a low flow rate There is this.

Claims (9)

Flat panel display modules; A cover supporting the flat panel display module; An inlet formed in the cover to suck outside air; A cover side opening formed in the cover and configured to discharge internal air sucked from the suction port and heated; And A plurality of cross-flow fans disposed inside the cover side openings to blow the internal air to the cover side openings, And the cover side opening is formed to extend in the width direction of the cover, and the cross flow fan extends to a corner of the flat display module. The method of claim 1, And the crossflow fans are aligned in a row. The method of claim 1, And the suction port is disposed on the bottom surface of the flat display module. The method of claim 1, The plurality of crossflow fans are driven by a single motor, or each of the plurality of motors are driven separately by a plurality of flat display device cooling device. The method of claim 1, A plurality of the cross flow fan is a common housing, the cross flow fan impeller is provided in the flat display device cooling device. delete The method of claim 1, The crossflow fan is a cooling device of a flat panel display device is placed on the edge portion of the back cover. delete The method of claim 1, Cooling apparatus of a flat panel display device, the thermal stabilization component is disposed in the adjacent position of the inlet.

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