KR100683730B1 - Plasma display apparatus - Google Patents

Abstract

An object of the present invention is to provide a plasma display device in which noise generated in a plasma display module is reduced. To achieve the above object, the present invention provides a plasma display module for displaying an image using a gas discharge phenomenon, and the plasma And a case for accommodating a display module and a noise reduction part having a surface roughness for reducing noise generated by the plasma display module, thereby generating the plasma display device. Noise can be greatly reduced.

Description

 Plasma display apparatus

1 is an exploded perspective view showing the plasma display device of the first embodiment of the present invention.

2 is a partial cutaway cross-sectional view taken along the line II-II of FIG.

FIG. 3 is a partial cutaway sectional view of the plasma display device of the second embodiment of the present invention corresponding to FIG. 2 of the first embodiment.

4 is a plan view illustrating a noise reduction unit of the plasma display device of FIG. 3.

<Description of Symbols for Main Parts of Drawings>

10: plasma display module 30: chassis

33: integrated circuit chip 34: signal transmission means

40: reinforcing member 50: plasma display device

60: first case 70: second case

70a, 80: Noise reduction part 71,81: Air outlet

72,82: air intake 100: plasma display panel

110: first panel 120: second panel

130: address electrode driver 140: Y electrode driver

150: X electrode drive unit 160: power module

170: adhesive member 180: heat dissipation sheet

The present invention relates to a plasma display device, and more particularly, to a plasma display device in which noise generated in a plasma display module is reduced.

The plasma display device is a flat panel display device that realizes an image by using a gas discharge phenomenon, and is a display device that has been in the spotlight recently because it is possible to realize a thin screen and a high quality large screen having a wide viewing angle.

In the plasma display apparatus, a discharge is generated in a discharge cell in a panel filled with discharge gas by a direct current or alternating voltage applied between electrodes of the plasma display panel formed by a combination of two thin flat panels, and is discharged from the discharge gas. The image is realized by exciting the phosphor by ultraviolet rays to emit visible light.

Here, 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. In addition, in the plasma display device, the plasma display panel vibrates locally by periodic electrostatic attraction due to the application of a high frequency driving voltage in the process of discharging, which causes noise. Lowers.

In addition, since the potential applied to the electrode is controlled in correspondence with an image signal received from the outside, the switching element that controls the electrical signal applied to the sustain electrode pairs of the plasma display panel performs a large amount of switching work for a short time. do. This switching operation generates considerable heat and noise in the switching elements.

On the other hand, if the heat generated in the plasma display panel is not properly cooled, the temperature of the plasma display panel increases, and as a result, the phosphor of the plasma display panel deteriorates and the image quality deteriorates. The life of the panel is shortened. In addition, since heat generated in the switching device may affect driving characteristics of the switching device, proper heat dissipation is required. As described above, a heat dissipation fan may be provided inside the case of the plasma display apparatus to cool the heat generated by the plasma display panel and the switching element. When the heat dissipation fan rotates, noise generated by driving of the rotating body is generated. .

On the other hand, noise generated from the plasma display module, such as noise generated from the plasma display panel, the switching element, and / or the heat radiating fan, is important for the quality of the consumer, considering the general use example of the plasma display module used as the home display device. As it can serve as a criterion, it is necessary to reduce the noise below an appropriate level in order to secure the market competitiveness of the plasma display module.

In the related art, in order to remove noise generated in the plasma display panel, a reducing agent and / or a sound absorbing agent are used, and the noise generated in the switching element is disposed behind the plasma display panel to support the plasma display panel. It has been relying on the method of extinction and noise reduction through the sound board mounted on the drive of the chassis.

In addition, the prior art for removing the noise generated when the rotation of the heat radiating fan is disclosed in Korean Patent Laid-Open No. 2000-0033625 "active noise reduction device of PDP TV". According to the present invention, the periodic noise generated by the rotating driver of the heat radiating fan inside the plasma PDP TV is actively outputted by outputting a noise canceling sound which is in phase with the noise signal and has the same amplitude, together with the audio signal and the speaker unit. It is intended to be removed.

Another prior art for removing the noise generated in the heat dissipation fan is Korean Patent Publication No. 2002-0011237 "PCD TV cooling device and method". The present invention aims to reduce noise generation and power consumption by appropriately controlling the operation of the heat radiating fan according to the initial power supply stage and the temperature state inside the TV set.

As described above, there have been various methods for reducing noise generated by the plasma display module, such as noise generated by a plasma display panel, a switching element on a driving circuit unit, and / or a heat radiating fan. Insufficient and, in particular, the solution to the noise generated by the switching element on the drive circuit portion was very insufficient.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a plasma display device having a noise reduction portion having a surface roughness capable of absorbing and reducing various noises generated in the plasma display module.

In order to achieve the above object and other objects, the present invention is to reduce the noise generated by the plasma display module for displaying an image using a gas discharge phenomenon, the case housing the plasma display module and the plasma display module. It provides a plasma display device characterized in that it comprises a noise reduction portion formed surface roughness, through which, it is possible to significantly reduce the noise generated in the plasma display device.

Here, the noise reduction unit is preferably integrally formed on the inner surface of the case facing the plasma display module.

In addition, the noise reduction unit may be disposed between the plasma display module and the case, and may face the noise generating portion of the plasma display module. In this case, the surface roughness of the noise reduction unit may be It is preferable that it is provided on the side opposite to the part generating noise.

Further, the surface roughness may be formed by sand blasting, press working or any other known method.

Further, the surface roughness is preferably a maximum height roughness of 200㎛ or more.

Next, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing the plasma display device of the first embodiment of the present invention, and FIG. 2 is a partial cutaway sectional view taken along the line II-II of FIG.

The plasma display device 50 according to the present embodiment includes a plasma display module 10 for displaying an image using gas discharge, and a case including a first case 60 and a second case 70 defining an inner space. do.

The plasma display module 10 includes a first panel 110 and a second panel 120 disposed to face each other so as to face each other, and emits a phosphor layer (not shown) by using ultraviolet rays generated during gas discharge. Plasma display panel 100 for implementing a, a chassis 30 disposed on one surface of the plasma display panel 100 to support the plasma display panel 100, and the plasma display panel of the chassis 30 Circuit parts 130, 140, 150, and 160 disposed on opposite surfaces to drive the plasma display panel 100 are provided.

The chassis 30 emits heat conducted from the plasma display panel 100 to prevent the temperature of the plasma display panel 100 from rising above an appropriate level, and the plasma display panel 100 is deformed by heat. It is responsible for preventing or being damaged by an external impact, for this purpose is disposed behind the plasma display panel 100 to support the plasma display panel 100. The plasma display panel 100 and the chassis 30 may be attached by an adhesive member 170 such as a double-sided tape.

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 order to reinforce the rigidity, the plasma display apparatus 50 is disposed on a rear surface opposite to a surface supporting the plasma display panel 100 of the chassis 30 to reinforce the rigidity of the chassis 30. 40.

On the other hand, the reinforcing member 40 may be simply used as a means for reinforcing the rigidity of the chassis 30, the upper surface of the reinforcing member 40 controls the electrical signal for driving the plasma display panel 100 The signal transmission means 34 in which the integrated circuit chips 33 are mounted is disposed, and the signal transmission means 34 is covered with a cover plate 35 having good thermal conductivity such as aluminum.

In addition, the plasma display device 50 according to the present exemplary embodiment is disposed between the chassis 30 and the plasma display panel 100 and is in contact with the rear surface of the plasma display panel 100 so as to provide a structure of the plasma display panel 100. A heat dissipation sheet 180 formed of an aluminum sheet, a copper sheet, a thermal conductive resin, or the like is provided to prevent accumulation of heat generated at the same time.

In addition, the plasma display device 50 according to the present embodiment is installed at the rear of the chassis 30 and drives the plasma display panel 100, the X electrode driver 150, the Y electrode driver 140, and the address electrode driver ( And a circuit unit such as a power module 160 for supplying stable power to the driving units 130, 140, and 150.

The Y electrode driver 140 includes a Y electrode switching element (not shown) for controlling an electrical signal applied to a Y electrode (not shown) and a noise plate 64 for reducing noise generated by the Y electrode switching element. It is provided.

The X electrode driver 150 may include an X electrode switching element (not shown) for controlling an electrical signal applied to the X electrode (not shown) and a noise plate 65 for reducing noise generated by the X electrode switching element. It is provided.

On the other hand, the plasma display device 50 of the present embodiment is mounted on the chassis 30, the heat generated from the circuit unit 130, 140, 150, 160 in a direction parallel to the smooth surface of the chassis 30 from above At least one heat dissipation fan 200 which blows up or down to discharge to the outside may be provided. In addition, at least one heat dissipation fan 200 may be mounted on the driving units 130, 140, 150, the power module 160, or the second case 70 in addition to the chassis 30.

In addition, an air outlet 71 is provided at an upper portion of the second case 70, and an air inlet 72 is provided at a lower portion thereof.

Hereinafter, the noise generated by the plasma display panel 100, which occupies an important part of the noise generated by the plasma display apparatus 50, and the noise generated by the switching elements will be described.

The plasma display panel 100 of the plasma display apparatus 50 according to the present embodiment includes a first panel 110 and a second panel 120. Although not shown, the first panel 110 includes a front substrate, discharge sustaining electrodes (X electrode and Y electrode) formed on the bottom surface of the front substrate, a first dielectric layer covering the discharge sustaining electrode, and a first substrate. The second panel 120 includes a protective layer formed on the first dielectric layer, and the second panel 120 includes a rear substrate, address electrodes formed on the upper surface of the rear substrate to intersect the discharge sustain electrodes, and a second dielectric layer covering the address electrodes. And a partition formed on the second dielectric layer, and a phosphor layer coated in a light emitting cell defined by the partition. Although the structure of the plasma display panel 100 is a three-electrode surface discharge form, the present invention is not limited thereto, and an image may be realized by various methods such as a two-electrode opposing discharge structure.

When a predetermined voltage is applied to the address electrode and the Y electrode, a discharge cell for emitting light is selected, and an address discharge occurs between the two electrodes to charge wall charge on the front dielectric layer. Thereafter, when a predetermined voltage is alternately applied between the X electrode and the Y electrode constituting the plurality of sustain electrode pairs, the wall charge is moved between the two electrodes, causing the discharge gas to cause the sustain discharge, thereby discharging the discharge gas. Generates ultraviolet rays, and the generated ultraviolet rays excite the phosphor to form an image.

On the other hand, the sustain electrode pairs are discharged between the X electrode and the Y electrode when the discharge generates an electric field and / or magnetic field, and the electric field and / or the magnetic field is overlapped with each other continuously generated repeatedly reacts with the surrounding structure, etc. It will make noise.

Meanwhile, the plasma display panel 110 may be driven by various driving methods. In general, the plasma display panel 110 is driven by a dual address discharge separation (ADS) driving method. In this case, 60 different image frames must be implemented to express a moving image of one second on the plasma display panel. In order to implement such image frames, the ADS driving method includes eight subfields including reset discharge, address discharge, and sustain discharge. One image frame having 256 gradations is implemented by using.

That is, these subfields are selected to form one image frame that implements a screen for 1/60 second. Therefore, in order to drive the plasma display panel, a large amount of electrical signals must be applied to the electrodes for a short time, and for this purpose, the electrode switching elements for controlling the electrical signals must perform many switching operations for a very short time. This switching operation generates a large amount of heat in the electrode switching elements, and also generates vibrations of the switching elements themselves. In addition, the vibrations generated by the switching elements vibrate air to generate sound waves. At this time, the vibrations generated by the switching elements have a considerable level of energy, so that the noise of a high frequency that makes a person uncomfortable can be felt. Cause.

Meanwhile, vibrations of the switching elements are transmitted to the sound absorbing plates 64 and 65 to vibrate the sound absorbing plates 64 and 65. During the transmission of this series of vibrations, vibration waves generated in the switching elements consume their energy, thereby reducing noise generated in the switching elements.

However, the noise generated when the plasma display panel 100 is discharged, the noise generated by the Y electrode switching element and the X electrode switching element, or the heat radiating fan 200 when the heat radiating fan 200 is provided is generated. Various noises generated in the plasma display module 10, including noises, are transmitted to the sound absorbing plates 64 and 65 through the chassis 30 or the chassis 30 to be extinguished. Out of the plasma display device 50 is delivered to the user to make the user feel uncomfortable due to noise.

In addition, since a plasma display device is generally used as a home display device, a problem caused by the noise may be a cause of deterioration of the quality of the plasma display device and external appearance from consumers. Therefore, solving this noise problem has emerged as a very important problem.

Meanwhile, in order to solve the above-described problem, a plasma including a plasma display module 10 and a case including a first case 60 and a second case 70 disposed to cover the plasma display module 10 is provided. In the display device 50, a noise reduction part 70a having a predetermined surface roughness is formed on the inner surface of the second case 70, where surface roughness means irregular irregularities of the metal surface. do. On the other hand, through this, the above-mentioned noises generated in the plasma display module 10 collide with the surface roughness formed on the surface of the second case 70 to lose energy and convert to frictional heat, thus, the present invention eventually By this principle, the noises can be greatly reduced.

Here, the maximum height roughness of the surface roughness is preferably 200um or more, and the noise reduction effect is remarkably changed before and after the maximum height roughness is 200um.

Meanwhile, the surface roughness may be formed by sand blasting, molding, spraying, or any other known method. The sand blasting method is a method of forming a surface roughness on the surface by spraying the sand together with the high-pressure air, it is preferable that the sand is sufficiently dried, 16 mesh or less, and the remaining sand and dust after the pretreatment should be sufficiently removed from the surface. . In addition, the molding method refers to forming by pressing or rolling the second case 70 with a molding machine having a constant surface roughness. In addition, the spraying method is a kind of coating method for spraying conductive particles through a spray gun by applying a constant air pressure, and is divided into an air spray and an airless spray method according to the size of the compressed air pressure.

3 is a cross-sectional view partially showing the plasma display device of the second embodiment of the present invention corresponding to FIG. 2 of the first embodiment, and FIG. 4 is a view illustrating the noise reduction unit 80 of the plasma display device of FIG. Top view.

Here, the same reference numerals as in the above-described drawings indicate the same members.

The second embodiment of the present invention differs from the first embodiment in that the noise reduction unit 70a having surface roughness formed on a portion of the second case 70 that faces the plasma display module 10. Instead of having a), a separate noise reduction unit 80 having a surface roughness is disposed between the plasma display module 10 and the second case 70. In this case, it is preferable that surface roughness is formed at a portion of the noise reduction part 80 that faces the plasma display module 10. In this way, the same noise reduction effect as in the first embodiment can be obtained.

Here, the noise reduction unit 80 is preferably coupled to the second case 70 by a bolt (not shown). By doing in this way, the present invention can be easily applied to a plasma display device without a conventional noise reduction unit.

In addition, the material of the noise reduction unit 80 is preferably the same as the case (60, 70).

On the other hand, the noise reduction unit 80 of the present embodiment has a separate air inlet 82 and the air outlet 81 so as to communicate with the air inlet 72 and the air outlet 71 of the second case 70 Is formed.

The present invention can significantly reduce various noises generated in the plasma display device by providing a plasma display device having a surface roughness forming portion of a predetermined size.

In addition, this noise reduction effect, as a result, can improve the reliability of the product for the plasma display device can further improve the consumer's desire to buy.

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 (7)

A plasma display module displaying an image using a gas discharge phenomenon; A case accommodating the plasma display module; And Plasma display device characterized in that it comprises a noise reduction portion having a surface roughness that can reduce the noise generated in the plasma display module. The method of claim 1, And the noise reduction unit is integrally formed on an inner side surface of the case facing the plasma display module. The method of claim 1, And the noise reduction unit is disposed between the plasma display module and the case and faces a portion generating noise of the plasma display module. The method of claim 3, Surface roughness of the noise reduction portion is formed on the side facing the noise generating portion of the plasma display module. The method according to any one of claims 1 to 3, And said surface roughness is formed by sand blasting. The method according to any one of claims 1 to 3, And said surface roughness is formed by press working. delete

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