KR100669747B1 - Plasma Display Apparatus - Google Patents

Abstract

The present invention includes means for effectively dissipating heat generated in the plasma display panel and transferred to the front portion of the plasma display panel, thereby preventing the temperature of the plasma display panel from rising or causing local heat concentration to occur. An object of the present invention is to provide an apparatus, and in order to achieve the above object, the present invention provides a front cabinet having a window, a plasma display panel disposed behind the front cabinet, a chassis base for supporting the plasma display panel, and the chassis base. A plasma display device comprising a rear cabinet disposed at a rear side of the plasma display device and coupled to the front cabinet, wherein the plasma display device includes at least one heat dissipation fan, wherein the heat dissipation fan includes a fan, a sensor, and the fan. It provides a plasma display apparatus is characterized in that in response to a detection signal from each other including rotating speed regulator to control the number of revolutions of the cooling fan.

Description

Plasma Display Apparatus {Plasma Display Apparatus}

1 is a perspective view of a plasma display device according to an embodiment of the present invention,

FIG. 2 is an enlarged view of portion A of FIG. 1,

3 is a block diagram illustrating the configuration of FIG. 2.

Explanation of symbols on the main parts of the drawings

1: plasma display device 10: front cabinet

11: Windows 30: Chassis

31, 32: signal transmission means 34: integrated circuit chip

48: reinforcing member 50: cover plate

100: plasma display panel 110: front panel

112: electromagnetic wave blocking film 115: circuit portion

120: rear panel 200: heat dissipation fan

210: wiring 220: fixing means

230: heat sink fin 240: fan

250: speed controller 260: sensor

The present invention relates to a plasma display device, and more particularly, to a plasma display device having a heat dissipation fan capable of adjusting a rotation speed for cooling the front surface of the plasma display device.

Plasma display panel, which is a key component of plasma display device, displays an image by using gas discharge phenomenon, and has excellent display ability such as display capacity, brightness, contrast, afterimage, viewing angle, etc. It is getting a lot of attention as an alternative device. In such a plasma display panel, a discharge is generated in a discharge cell filled with a discharge gas by a direct current or an alternating voltage applied between electrodes, and ultraviolet rays emitted from the discharge gas excite a phosphor to emit visible light, thereby realizing an image. do.

The plasma display panel adopts a discharge mechanism that emits light by applying a high voltage to the discharge cells as light emitting means, so that a large amount of heat is generated in the discharge cells that cause discharge when the plasma display panel is driven. At this time, if the heat generated in the plasma display panel is not properly cooled, the temperature of the plasma display panel is increased. As a result, the phosphor of the plasma display panel is deteriorated and the quality of the image is deteriorated. The life of the panel is shortened.

In order to solve this problem, currently used plasma display devices employ a structure in which a chassis supporting the plasma display panel is formed of a material having excellent thermal conductivity such as aluminum so that heat generated in the plasma display panel is cooled through the chassis. Doing. In order to prevent poor contact between the chassis and the plasma display panel when the plasma display panel is attached to the chassis, a heat conductive sheet is disposed between the plasma display panel and the chassis. However, conventionally, no measures have been taken against heat transferred from the plasma display panel to the front portion of the plasma display panel.

The present invention has been made to solve the above problems, by providing a means for effectively dissipating heat generated in the plasma display panel and transferred to the front portion of the plasma display panel by increasing the temperature of the plasma display panel or local It is an object of the present invention to provide a plasma display device that can prevent heat concentration from occurring.

In order to achieve the above object, the present invention provides a front cabinet having a window, a plasma display panel disposed at the rear of the front cabinet, a chassis base for supporting the plasma display panel and a rear side of the chassis base and the front A plasma display device comprising a rear cabinet coupled to a cabinet, wherein the plasma display device includes at least one heat dissipation fan, and the heat dissipation fan is a heat dissipation fan in response to a fan, a sensor, and a signal detected from the sensor. It provides a plasma display device comprising a rotation speed controller for adjusting the rotation speed of the.

In addition, the sensor provided in the heat radiating fan is preferably a sensor for detecting an image signal received from the outside of the plasma display device, thereby enabling local cooling of the front portion of the plasma display panel according to the brightness of the image. . On the other hand, the sensor may be a sensor for sensing the temperature of the front portion of the plasma display panel.

In addition, the heat dissipation fan is preferably installed on the rear head of the heat dissipation fan further includes a heat dissipation fin to help the heat dissipation of the heat dissipation fan, whereby the heat dissipation fan is noise when there is no concentrated heat generating area in the action region of the specific heat dissipation fan This is particularly useful because it can be stopped or rotated at very low revolutions to prevent some heat dissipation.

In addition, it is preferable that at least one heat dissipation fan is provided in the front cabinet so that the air can be blown in parallel to the front cabinet, and the air blowing direction can be in any direction front, rear, left and right in parallel to the front cabinet, and a plurality of heat dissipation fans. The blowing directions of are not necessarily all identical and may be different.

Hereinafter, a plasma display device 1 according to an exemplary embodiment of the present invention will be described with reference to FIGS. 1 to 3.

Plasma display device of the present invention is a front cabinet (10) having a window 11 in front, the rear of the front cabinet 10 is disposed in the fluorescent layer by using ultraviolet rays generated in the room display in response to the external image signal It emits light and emits an image. The plasma display panel 100 including the front panel 110 and the rear panel 120 generates electromagnetic waves, which are generated when the plasma display panel is driven, and which are harmful to a human body and may cause malfunctions of other electronic devices. In order to block the electromagnetic wave blocking film 112 is attached to the front of the plasma display panel. In this case, the electromagnetic wave blocking film 112 is not necessarily attached to the front surface of the plasma display panel, and may be separately fixed to the front cabinet by combining with tempered glass. In this case, the filter holder is fixed to the rear of the front cabinet, the filter coupled to the electromagnetic wave blocking film and the tempered glass may be fixed to the filter holder.

In addition, the plasma display apparatus 1 includes a chassis 30 that supports the plasma display panel 100 and is formed of aluminum having good thermal conductivity. The chassis radiates heat conducted from the plasma display panel through contact with external air to prevent the temperature of the plasma display panel from rising above an appropriate level, and prevents the plasma display panel from being deformed by heat or damaged by external impact. To this end, the chassis 30 is disposed behind the plasma display panel 100 to support the plasma display panel.

In addition, the plasma display apparatus 1 may allow the heat generated in the plasma display panel 100 to be uniformly conducted to the chassis 30 throughout the plasma display panel 1. And a heat conductive sheet (not shown) disposed between the chassis 30. In this case, the thermal conductive sheet is attached to the chassis 30.

Meanwhile, the chassis 30 should support the plasma display panel 100 as described above to prevent the plasma display panel 100 from being deformed or damaged, so that the chassis 30 should have sufficient rigidity. . In this case, in order to reinforce the rigidity that the chassis 30 must have, the plasma display apparatus 1 is disposed on the rear surface of the chassis 30 to reinforce the rigidity of the chassis 30. It is preferable to have a.

On the other hand, the reinforcing member 48 may be simply used as a means for reinforcing the stiffness of the chassis 30, but the integrated circuit chip 34 is disposed behind the reinforcing member 48 so that the plasma display It prevents heat generated in the panel 100 from being directly conducted to the integrated circuit chip 34 through the chassis 30 and increases surface area with air to induce heat dissipation of the integrated circuit chip 34. May contribute.

Meanwhile, the plasma display apparatus 1 of the present invention covers the integrated circuit chip 34 to protect the integrated circuit chip 34 from external shocks and to smoothly discharge heat generated from the integrated circuit chip 34. It is preferable that a cover plate 50 disposed and formed of a thermally conductive material such as aluminum be disposed.

In addition, the plasma display apparatus 1 of the present invention may be provided between the plasma display panel 100 and the chassis 30, and may include a double-sided tape (not shown) for fixing the plasma display panel to the chassis. .

In addition, the plasma display apparatus 1 of the present invention is installed at the rear of the chassis 30 and controls the image signal applied from the outside of the plasma display panel 100 to control the image signal and the controller. The circuit unit 115 is provided with a power module for supplying stable power. In this case, the control unit is preferably provided with data drive circuits including an integrated circuit chip 34 for controlling the potential applied to the address electrode to control the driving of the plasma display panel 100 in response to an external image signal. Do.

In addition, the plasma display apparatus 1 of the present invention includes signal transmission means 31 and 32 such as a tape carrier package (TCP) for electrically connecting the circuit unit 115 and the rear panel 120 of the plasma display panel. And a rear cabinet 40 disposed at the rear of the circuit unit 115 and coupled to the front cabinet 10, and an air outlet 42 formed at the top of the rear cabinet 40 for heat dissipation. An air inlet 41 is formed in the lower part to radiate heat by introducing external air.

Hereinafter, the heat dissipation of the heat radiating fan of the present invention will be described in more detail with reference to FIGS. 2 and 3. In general, the plasma display panel implements an image in response to an image signal received from the outside, and the implementation of the image causes the discharge to occur in response to an external image signal in a plurality of discharge cells disposed inside the plasma display panel. The ultraviolet light generated by the discharge excites the phosphor layer disposed in the discharge cell in which the discharge is generated, and visible light is emitted from the excited phosphor layer. In this case, the discharge refers to a process in which the charged particles and the discharge gas in the discharge cell collide with each other by the potential applied to the discharge electrode, and the collided discharge gas is excited to generate ultraviolet rays. When colliding, a significant amount of energy is converted into thermal energy, and only a portion of the energy excites the particles of the discharge gas. Therefore, when the plasma display panel is driven, a large amount of heat is generated in the plasma display panel. At this time, when the discharge is continuously generated and heat is accumulated in the discharge cells of the plasma display panel, the phosphor layer disposed in the discharge cell is attenuated by heat, and thus the residual image is displayed on the image implemented by the plasma display panel. And the like deteriorate the image quality of the plasma display panel. In addition, if this condition continues, eventually the phosphor layer is deteriorated by heat, which shortens the lifetime of the plasma display panel.

In order to solve this problem, the plasma display apparatus uses a plasma display panel with a chassis made of aluminum having high thermal conductivity interposed therebetween a thermally conductive sheet made of thermal conductive resin or the like to dissipate heat generated from the plasma display panel. To support the heat generated in the plasma display panel to be transferred to the chassis. The heat transferred to the chassis is released while the chassis is cooled while performing heat exchange by contacting external air, and as a result, the plasma display panel is cooled.

However, heat generated in the plasma display panel is also conducted to the front portion of the plasma display panel in which an image is displayed in addition to the chassis behind it, and the heat dissipation of the plasma display panel alone is not sufficient because only the heat is emitted to the chassis. There is a need for countermeasures. To date, no technology has been reported. Therefore, problems such as poor image quality and a decrease in life due to deterioration of the phosphor layer will inevitably occur.

In order to overcome these problems, the plasma display apparatus of the present invention is provided with at least one heat dissipation fan 200 inside the front cabinet 10 in which the window 11 is formed in front of the heat dissipation fan 200. After the rotation speed is adjusted according to the received video signal, the air is blown in a direction parallel to the front cabinet 10.
As shown in FIGS. 2 and 3, the heat dissipation fan 200 adjusts the rotation speed of the heat dissipation fan 200 in response to the fan 240, the sensor 260, and the signal detected by the sensor 260. It includes a rotation controller 250 to adjust.
In addition, the heat dissipation fan 200 may further include a heat dissipation fin 230 that is installed at the rear head of the heat dissipation fan 200 to help heat dissipation of the heat dissipation fan 200. By doing so, when there is no concentrated heat generating region in the action region of the particular heat radiating fan 200, the heat radiating fan 200 is stopped or rotated at a very low rotational speed to prevent noise, even in this case the heat radiating fin 230 This is particularly useful because it can bring some heat dissipation effect.

Hereinafter, the operation of the heat radiating fan 200 will be described in more detail, for example.

Plasma display panels exhibit a large temperature difference according to the difference in the shade of the image. Therefore, in order to efficiently cool the generated temperature of the front portion of the plasma display panel 100, the bright portion having a large amount of heat generation is intensively cooled. In order to solve the local heat generation of the front portion of the plasma display panel 100, at least one slim compact heat dissipation fan 200 is provided between the plasma display panel 100 and the front cabinet 10. For example, both side portions of the image display portion of the plasma display panel 100 are dominant in black so that heat generation is not severe, and the central portion is brightly colored. Therefore, when the amount of heat is generated, only the central portion may be effectively radiated. . The heat dissipation fan 200 provided in the center of the heat dissipation fans 200 provided in the front cabinet 10 is driven in order to solve the above-described local heating phenomenon. The heat dissipation fan 200 is designed to control the rotation speed and is designed to increase the rotation speed as the lighter color. Since the heat generation of the front part of the plasma display panel 100 is closely related to the color, the heat dissipation fan 200 has a rotation speed controller 250 that can adjust the rotation speed of the fan 200 in response to an image signal received from the outside. ) Is provided. In addition, the heat radiating fan 200 is a temperature sensor for sensing the temperature of the front portion of the plasma display panel 100 and the rotation speed controller 250 that can adjust the rotational speed of the fan by the temperature detected by the temperature sensor It can also be provided.

On the other hand, when there is no concentrated heating portion, the heat dissipation fan 200 stops its operation or is operated at a very low rotational speed to fundamentally block the generation of noise.

The present invention can effectively discharge the heat generated in the plasma display panel and transferred to the front portion of the plasma display panel.

As a result, the plasma display panel is prevented from being excessively raised in temperature, and the problem of localized heat concentration is solved, thereby improving image quality and increasing lifetime.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (5)

A front cabinet in which a window is formed; A plasma display panel disposed behind the front cabinet; A chassis base supporting the plasma display panel; And A plasma display apparatus comprising a rear cabinet disposed at a rear side of the chassis base and coupled to the front cabinet. At least one heat dissipation fan is provided in the plasma display apparatus, and the heat dissipation fan includes a fan, a sensor, and a rotation speed controller for adjusting the rotation speed of the heat dissipation fan in response to a signal detected from the sensor. Plasma display device. The method of claim 1, The sensor provided in the heat radiating fan is a sensor for detecting an image signal received from the outside of the plasma display device. The method of claim 1, And a sensor provided in the heat dissipation fan is a sensor for sensing a temperature of the front surface of the plasma display panel. The method of claim 1, The heat dissipation fan further includes a heat dissipation fin installed at a rear head of the heat dissipation fan to help heat dissipation of the heat dissipation fan. The method according to any one of claims 1 to 4, And at least one heat dissipation fan is provided in the front cabinet so that the heat dissipation fan can be blown in parallel to the front cabinet.

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