KR100529109B1 - Plasma display device - Google Patents

Abstract

The present invention relates to a plasma display device, comprising: a display panel; A thermal sheet positioned on one surface of the display panel; And a chassis base positioned on one surface of the thermal sheet to face the display panel and having a space formed therein, wherein a material having low thermal conductivity is located in the space.

As described above, according to the present invention, a material having a low thermal conductivity is inserted into the chassis base of the plasma display apparatus, thereby minimizing the effects of luminance step and residual image generated during discharge. The structure in which the low thermal conductivity material is inserted in the chassis base can quickly transmit heat diffusion to the structure surrounding the heat due to the discharge of the panel, and maintain a constant temperature throughout the panel.

Description

Plasma display device {PLASMA DISPLAY DEVICE}

[Industrial use]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display device, and more particularly, to a plasma display device capable of effectively absorbing heat generated during operation and exhibiting improved luminance.

[Prior art]

Plasma display panel device is a display device using a plasma phenomenon, and discharge occurs when more than one potential difference is applied between two spatially separated contacts in a non-vacuum gas atmosphere, which is called a gas discharge phenomenon. do.

A plasma display panel is a flat panel display element which applied such gas discharge phenomenon to image display. As the plasma display panel is known, since the discharge gas is used to display an image, heat is generated in the plasma display panel, which is a display unit in which an image is implemented, and when the discharge degree is increased to improve luminance, the generated heat is further generated. It is important to efficiently heat dissipate heat generated in the plasma display device.

Accordingly, in the conventional plasma display apparatus, as shown in FIG. 1, the plasma display panel is attached to the chassis base 5 which is generally made of a material having excellent thermal conductivity, as well as a heat dissipation sheet (or thermal conductive sheet) 3. ) Is interposed between the plasma display panel 1 and the chassis base 5 so that heat generated in the plasma display panel can be conducted through the heat dissipation sheet 3 and the chassis base 5 to radiate heat outside the device. Doing. Here, the chassis base is prepared by die casting while having a metal such as aluminum, and the heat dissipation sheet is typically provided with a silicone resin or the like.

However, such a structure cannot prevent the temperature rise effect of the circuit portion.

Until now, the heat dissipation means proposed in flat panel displays, including plasma display devices, are mainly used to transfer heat from a heat source (for example, PDP) that generates heat to the outside of the device. When the device is used for a short time can be expected a certain heat dissipation effect, when using the device for a long time it is difficult to expect the effect significantly. That is, when heat received from the source is transferred out of the device, as heat is transferred to the case forming the exterior of the device in the process, the temperature of the case rises due to this heat, so that the consumer using the display Accordingly, when the case is touched in the above state, the consumer may feel uncomfortable or uncomfortable due to the high temperature of the case.

In the above case, since the heat dissipation effect is inferior, it is difficult to implement a high quality image because the device is prevented from fully implementing the image.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a plasma display device which can efficiently absorb heat generated in the display during operation of the display and thus exhibits improved luminance.

In order to achieve the above object, the present invention is a display panel; A thermal sheet positioned on one surface of the display panel; And a chassis base positioned on one surface of the thermal sheet to face the display panel and having a space formed therein, wherein a material having low thermal conductivity is located in the space.

Hereinafter, the present invention will be described in more detail.

The present invention provides a discharge portion and a non-discharge portion by inserting a material having a low thermal conductivity in the chassis base of the plasma display device in order to reduce a luminance step, an afterimage according to the panel temperature, and an unstable discharge element of the plasma display panel device during discharge in the plasma display panel device. The purpose of the present invention is to reduce the luminance step and minimize the temperature heating element while maximizing the discharge efficiency, and to improve the luminance.

As an example of the plasma display panel device of the present invention, as shown in FIG. 2, the display panel 10 and the display panel 10 positioned on one surface of the display panel 10 to substantially realize an image while forming an appearance with two glass substrates are shown. A thermal sheet 30. In addition, the display panel 10 includes a chassis base 50 positioned on one surface of the thermal sheet 30 and having a space formed therein, and having a low thermal conductivity material 40 therein. do. The thermal sheet may be used all that is commonly used in the plasma display device, a representative example may be formed of a silicon-based resin or the like. In addition, various chassis circuits 70 are mounted on the chassis base. The driving circuit unit includes an X, Y board, an image processing board, a switching mode power supply (SMPS) board, and the like.

Since the features of the present invention reside in the chassis base, only the chassis base will be described in detail below, and it will be apparent that the display panel, the thermal sheet, or the driving circuit portion can be well understood by those skilled in the art even with the foregoing brief description.

In the plasma display apparatus of the present invention, a space is formed in the chassis base 50 that is conventionally used, and a material 40 having low thermal conductivity is placed in the space to prevent heat generated from the panel from being transferred to the circuit unit. It acts as a heat-reducing medium and also a buffer in spaces in panels and circuits. Therefore, in the structure in which the heat generated in the conventional panel is directly transferred to the circuit part, the panel continuously receives the heat, thereby inducing the panel mis-discharge due to the temperature increase effect of the circuit part, and the panel temperature over time rapidly increases. This can prevent the problem that is increased. In addition to this, the panel temperature can be kept constant, and there is an effect of showing improved luminance.

The chassis base 50 of the present invention is usually made of a material having excellent thermal conductivity, and is typically made of a material such as aluminum. The method of forming the space inside the chassis base is not particularly limited, and may be any method as long as the space can be formed. The low thermal conductivity material is inserted into the space formed as described above and used as the chassis base of the present invention. As the material having low thermal conductivity, a material having a thermal conductivity of 0.1 to 0.6 is preferable. The thermal conductivity of the various materials is shown in Table 1 below.

matter Thermal Conductivity (W / m ℃) matter Thermal Conductivity (W / m ℃ silver 420 Ethylene Glycol (-1 ℃) 0.439 Ethylene Glycol (-10 ℃) 0.406 Ethylene Glycol (-20 ℃) 0.384 aluminum 220 Alcohol 0.157 Water (20 ℃) 0.514 wood 0.15 Water (40 ℃) 0.540 Styrofoam 0.04 Water (60 ℃) 0.560 air 0.02

As shown in Table 1, water has a thermal conductivity of 0.514 at 20 ° C., ethylene glycol has a thermal conductivity of 0.406 at −10 ° C., and alcohol has a thermal conductivity of 0.157. Therefore, the material having low thermal conductivity in the present invention may be used by mixing one or more of ethylene glycol, water or alcohol.

More preferably, a boiling point is about 198 degreeC, and it is preferable to mix and use ethylene glycol and water which have a coagulation point of about -12 degreeC. When mixing ethylene glycol and water are used, the mixing ratio is preferably ethylene glycol 40 to 60: water 40 to 60% by volume. If the content of ethylene glycol is less than 40% by volume, it can freeze in cold regions in the middle of winter, and if it exceeds 60% by volume, the freezing point becomes higher and it freezes well. Not preferred.

Moreover, in addition to ethylene glycol and water, alcohol can also be mixed and used further. Thus, when mixing and using three components, the mixing ratio is suitable for ethylene glycol 20-40: alcohol 10-20: 40-50 volume% of water.

The chassis base of the present invention can quickly transfer the heat diffusion to the structure surrounding the heat due to the discharge of the panel, can maintain a constant temperature throughout the panel, it can exhibit improved brightness.

Hereinafter, preferred examples and comparative examples of the present invention are described. However, the following examples are only preferred embodiments of the present invention and the present invention is not limited to the following examples.

(Example 1)

The chassis base was prepared by inserting ethylene glycol and water into the aluminum chassis base internal space at a ratio of 40: 60% by volume.

(Example 2)

The chassis base was prepared by inserting ethylene glycol, methanol and water into the aluminum chassis base internal space at a ratio of 40:10:10 50% by volume.

(Comparative Example 1)

An aluminum chassis base without ethylene glycol and water was used.

The panel temperature change and luminance value over time of the chassis base manufactured according to the method of Examples 1 to 2 and Comparative Example 1 were measured and the results are shown in Table 2 below. In Table 2 below, the temperature represents the surface temperature of the panel, that is, the panel surface temperature measured by a non-contact infrared thermometer over time.

time Temperature (℃) Luminance (cd / m ² ) Example 1 Example 2 Comparative Example 1 0 25.8 213 215 208 One 26.9 211 213 206 2 27.3 209 212 204 3 28.1 207 210 202 4 28.6 206 209 201 5 29.1 205 208 200 6 29.5 204 207 199 7 30.2 202 205 197 8 30.7 201 204 196 9 31.1 200 203 195 10 31.5 200 203 195 12 32.4 198 201 193 14 33.2 197 200 192 16 33.9 195 198 190 20 35.2 193 196 188 25 36.5 191 194 186 30 37.3 190 193 185 40 38.8 188 191 183 50 39.4 187 190 182 60 39.8 187 190 182

As shown in Table 2, the luminance value of Example 1 using ethylene glycol: water at a ratio of 40:60 is greater than 5 cd / m ² , and ethylene glycol: methanol: water is used. It can be seen that the luminance value of Example 2 using 40: 10: 50 ratio shows a tendency to increase by 7 cd / m ² .

As described above, according to the present invention, a material having a low thermal conductivity is inserted into the chassis base of the plasma display apparatus, thereby minimizing the effects of luminance step and residual image generated during discharge. The structure in which the low thermal conductivity material is inserted in the chassis base can quickly transmit heat diffusion to the structure surrounding the heat due to the discharge of the panel, and maintain a constant temperature throughout the panel.

1 is a cross-sectional view schematically showing a structure of a conventional plasma display device.

2 is a cross-sectional view schematically showing the structure of the plasma display device of the present invention.

Claims (7)

Display panel; A thermal sheet positioned on one surface of the display panel; And The chassis base is disposed on one surface of the thermal sheet to face the display panel and has a space formed therein, and has a low thermal conductivity material. Include, The low thermal conductivity material is a mixture of ethylene glycol and water containing ethylene glycol and water in a mixing ratio of 40 to 60: 60 to 40 by volume Plasma display device. The plasma display apparatus of claim 1, wherein the low thermal conductivity material has a thermal conductivity of 0.1 to 0.6. delete delete  Display panel; A thermal sheet positioned on one surface of the display panel; And The chassis base is disposed on one surface of the thermal sheet to face the display panel and has a space formed therein, and has a low thermal conductivity material. Include, The low thermal conductivity material is a mixture of ethylene glycol, alcohol and water containing ethylene glycol, alcohol and water in a mixing ratio of 20 to 40: 5 to 10: 40 to 50 by volume. Plasma display device. delete  The plasma display apparatus of claim 5, wherein the material having low thermal conductivity has a thermal conductivity of 0.1 to 0.6.