KR20060081083A - Plasma display module - Google Patents

Abstract

SUMMARY OF THE INVENTION The present invention aims to provide a plasma display module that prevents local heat concentration and reduces weight. To achieve this object, the present invention provides a plasma display panel for displaying an image using a gas discharge phenomenon, the plasma display. A chassis disposed on one surface of the panel to support the plasma display panel, a circuit portion disposed on a surface opposite to the plasma display panel of the chassis to generate an electrical signal for driving the plasma display panel, and the circuit portion to the chassis At least one circuit mounting means for mounting and at least a portion of the circuit display mounting portion in place of the chassis to prevent heat transfer between the plasma display panel and the circuit portion and to reduce the weight of the chassis; Provided is a plasma display module having a thermal insulation portion.

Description

Plasma display module

1 is a perspective view showing a plasma display module according to a first embodiment of the present invention.

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

3 is a partial cutaway cross-sectional view of a plasma display module according to a second embodiment of the present invention, corresponding to FIG. 2 of the first embodiment.

<Description of Symbols for Main Parts of Drawings>

10: plasma display module 30: chassis

31: thermal insulation portion 31a: first thermal insulation portion

31b: second thermal insulation section 32, 33: signal transmission means

34: integrated circuit chip 40: circuit mounting means

45: fastening means 90: reinforcing member

100: plasma display panel 110: first panel

115: circuit portion 120: second panel

TECHNICAL FIELD The present invention relates to a plasma display module, and more particularly, to a plasma display module that prevents local heat concentration and reduces weight.

        Plasma display module is a flat panel display device that displays an image by using the gas discharge phenomenon has been in the spotlight recently because it can be made thin and a large screen having a wide viewing angle.

The plasma display module includes a plasma display panel including a first panel and a second panel, a chassis disposed on one surface of the plasma display panel to support the plasma display panel, and disposed on an opposite surface of the plasma display panel of the chassis. And a circuit portion for generating an electrical signal for driving the plasma display panel and circuit portion mounting means for mounting the circuit portion to the chassis.

In addition, the plasma display panel includes a discharge cell which is a space in which discharge occurs, a discharge gas charged in the discharge cell to cause discharge, a phosphor applied to a surface of the discharge cell, and electrodes to which a voltage is applied. The discharge is generated in the discharge cell by a direct current or an alternating current voltage applied thereto, and the ultraviolet rays emitted from the discharge gas excite the phosphor to emit visible light, thereby realizing an image.

The plasma display module 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 from 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 image quality is deteriorated. The life of the display module is shortened.

In addition, the devices mounted on the circuit part generate heat during operation, and heat generated in the plasma display panel is partially transferred to the devices through a chassis formed of a material having excellent thermal conductivity such as aluminum to accelerate the temperature rise. The devices need to be properly cooled because they are affected by operating characteristics with temperature. In addition, heat generated in the devices is partially transferred to the plasma display panel through the chassis to accelerate the temperature rise of the plasma display panel.

On the other hand, as the plasma display module is enlarged, the chassis must be enlarged, and thus, structural and thermal instability becomes a new problem. To solve these problems, the chassis is formed of a material such as aluminum having excellent thermal conductivity and rigidity. However, such a material has a considerable weight, making it difficult to achieve the weight reduction of the plasma display module.

The present invention is to solve the above problems, to provide a plasma display module that prevents heat transfer between the plasma display panel and the circuit portion by arranging a thermal insulation portion in place of the chassis in a predetermined region between the plasma display panel and the circuit portion. The purpose.

Another object of the present invention is to provide a plasma display module in which the overall weight is reduced by forming the thermal insulation part using a material such as plastic.

In order to achieve the above and other objects, the present invention provides a plasma display panel for displaying an image using a gas discharge phenomenon, a chassis disposed on one surface of the plasma display panel to support the plasma display panel; A circuit portion disposed on a surface of the chassis opposite to the plasma display panel to generate an electrical signal for driving the plasma display panel, circuit portion mounting means for mounting the circuit portion to the chassis, and between the plasma display panel and the circuit portion. The present invention provides a plasma display module having at least one thermal insulation portion disposed in a predetermined area to prevent heat transfer between the plasma display panel and the circuit portion and to reduce the weight of the chassis.

Here, the thermal insulation portion is preferably formed in an area including the circuit portion mounting means between the plasma display panel and the circuit portion.

Further, the circuit insulation mounting means may be formed in the thermal insulation portion, or a fastening means for fastening the circuit attachment means formed separately from the thermal insulation portion may be formed.

Further, the thermal insulation portion is preferably formed of a plastic that is not thermally conductive.

Meanwhile, the thermal insulation portion may be formed to include a first thermal insulation portion and a second thermal insulation portion.

In this case, it is preferable that the first thermal insulation part is made of plastic, which is not thermally conductive.

Further, the second thermal insulation portion may be formed of a thermally conductive plastic or may be formed of a copper foil pattern layer.

On the other hand, the thermal insulation is preferably located on the chassis and its edge portion is coupled to the chassis.

In addition, the thermal insulation unit may be disposed on the plasma display panel side and the opposite side of the chassis instead of the chassis.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view illustrating a plasma display module according to a first embodiment of the present invention, and FIG. 2 is a partial cutaway cross-sectional view taken along the line II-II of FIG. 1.

1 and 2, the plasma display module 10 according to the first embodiment of the present invention includes a first panel 110 and a second panel 120 that are disposed to face each other, and that includes a gas. Plasma display panel 100 that implements an image by emitting a phosphor layer (not shown) using ultraviolet rays generated during discharge, and is disposed on one surface of the plasma display panel 100 to support the plasma display panel 100. And a circuit unit 115 arranged on a surface of the chassis 30 opposite to the plasma display panel 100 to generate an electrical signal for driving the plasma display panel 100; The circuit unit mounting means 40, such as a boss, which fixes the circuit unit 115 to the chassis 30, and the chassis 30 in a predetermined region between the plasma display panel 100 and the circuit unit 115. Instead, the electronic device may include at least one heat insulation part 31 disposed to prevent heat transfer between the plasma display panel 100 and the circuit part 115 and to reduce the weight of the chassis 30.

As the plasma display panel 100, any one of various plasma display panels may be employed. For example, a three-electrode AC surface discharge plasma display panel may be employed.

In this case, the plasma display panel 100 includes a first panel 110 and a second panel 120. The first panel 110 includes a plurality of sustain electrodes (not shown) in a strip shape, and the sustain panel. A bus electrode (not shown) connected to each electrode, a first dielectric layer (not shown) filling the sustain electrode and the bus electrode, and a protective layer (not shown) coated on the surface of the first dielectric layer are included.

In addition, the second panel 120 faces the first panel 110, and includes a plurality of address electrodes (not shown) formed to intersect the sustain electrode, and a second dielectric layer filling the address electrodes. (Not shown), a partition wall (not shown) formed on the second dielectric layer to limit the discharge space and prevent cross talk, and a red color applied inside the discharge space partitioned by the partition wall. And green, blue phosphor layers (not shown).

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 on one surface of 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 140 such as a double-sided tape.

On the other hand, the chassis 30 should have sufficient rigidity because it must support the plasma display panel 100 to prevent the plasma display panel 100 from being deformed or damaged as described above. In order to reinforce the rigidity, the plasma display module includes a reinforcing member 90 disposed on an opposite side of the surface supporting the plasma display panel 100 of the chassis 30 to reinforce the rigidity of the chassis.

On one surface of the reinforcing member 90, an address electrode driver 150 composed of integrated circuit chips 34 and signal transfer means 33 electrically connected to terminals of the integrated circuit chip is disposed.

In addition, the plasma display module 10 according to the present exemplary embodiment is disposed between the chassis 30 and the plasma display panel 100 to prevent heat generated when the plasma display panel 100 is driven from being accumulated. The heat dissipation sheet 130 formed of an aluminum sheet, a copper sheet, or a thermally conductive resin may be provided.

The circuit unit 115 includes electrodes (holding electrode pairs and address electrodes, not shown) provided in the plasma display panel 100 and electrode switching elements (not shown) for controlling electrical signals applied to the electrodes. It is provided.

In addition, the circuit unit 115 is electrically connected to the plasma display panel 100 by signal transmission means 32 and 33 such as a tape carrier package (TCP).

When the plasma display module 10 is operated, a large amount of heat is generated in the plasma display panel 100 and the circuit unit 115. The chassis 30 is a material having excellent thermal conductivity and rigidity as a whole. When the heat sink is formed as a heat conducting medium, heat generated in the plasma display panel 100 is partially transferred to the circuit unit 115 or heat generated in the circuit unit 115 is transferred to the plasma display panel 100. May be partially transferred, and thus heat may be concentrated on either side, which may shorten the life of the plasma display module or cause a malfunction.

In addition, in recent years, since the plasma display panel has been enlarged in size, the chassis should also be enlarged. In this case, when the chassis is formed entirely of aluminum or the like, the weight of the entire chassis is greatly increased, which is not preferable.

In order to solve the above-described problems, the plasma display module 10 of the present embodiment is disposed in place of the chassis 30 in a predetermined region between the plasma display panel 100 and the circuit unit 115 so that the plasma display panel 100 ) And at least one thermal insulation unit 31 which prevents heat transfer between the circuit unit 115 and reduces the weight of the chassis 30. Therefore, the thermal insulation part 31 is preferably formed of a material such as plastic, which is not thermally conductive and has a light weight.

Here, a predetermined region between the plasma display panel 100 and the circuit unit 115 means fastening means 45 such as a bolt, etc., for the circuit unit 115 among the regions between the plasma display panel 100 and the circuit unit 115. And a circuit mounting means 40 such as a boss fixed to the chassis 30.

 Here, the thermal insulation portion 31 is disposed in place of the chassis 30 by forming a through hole (not shown) in the chassis 30 by cutting or pressing a portion of the chassis 30 and then removing the thermal insulation portion 31. This means that the thermoelectric part 31 is disposed to cover the through hole.

On the other hand, the thermal insulation portion 31 may be formed with circuit mounting means 40 such as a boss for fixing the circuit portion 115 to the thermal insulation portion 31 by screwing. That is, the circuit portion mounting means 40 may be integrally formed with the thermal insulation portion 31 or formed as a separate entity from the thermal insulation portion 31 to be coupled to the thermal insulation portion 31 by means of a hook or the like. Can be.

In addition, the thermal insulation portion 31 is preferably disposed to cover the through hole formed in the chassis 30, the edge portion thereof is preferably coupled to the chassis 30 by means such as a hook.

The circuit portion mounting means 40 is formed with a through hole (not shown) for coupling with the fastening means 45, such as bolts.

In the present embodiment, it is preferable that the thermal insulation parts 31 are disposed to face each other with a through hole formed in the chassis 30 therebetween. In this way, heat generated in the plasma display panel 100 is transmitted to the circuit unit 115 or heat generated in the circuit unit 115 is prevented from being transferred to the plasma display panel 100 to prevent local heat concentration. At the same time, the overall weight of the plasma display module 10 may be reduced by reducing the weight of the chassis 30.

However, in the plasma display module 10 of the present embodiment, a portion of the chassis 30 is replaced by a heat insulating portion 31 which is not thermally conductive, thereby reducing the total heat dissipation area by the replaced area, thereby reducing the plasma display panel 100 or the like. The heat dissipation effect on the heat generated in the circuit section 115 is deteriorated, which is a new problem.

3 is a partial cutaway cross-sectional view of a plasma display module according to a second embodiment of the present invention, corresponding to FIG. 2 of the first embodiment.

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, instead of the thermal insulation portion 31 of the first embodiment, the first thermal insulation portion 31a which is not thermally conductive and the second thermal insulation portion 31b that is thermally conductive are used. It is provided with a new thermal insulation portion 31 formed to include.

Here, the first thermal insulation portion 31a is preferably made of plastic, not thermal conductivity.

The second thermal insulation part 31b may be formed of a thermally conductive plastic or a copper foil pattern layer.

In this way, the heat generated on the side facing the thermal insulation portion 31 of the plasma display panel 100 is in turn transferred to the heat dissipation sheet 130 and the second thermal insulation portion 31b as a heat conduction medium, It is blocked by the thermoelectric part 31a and is transferred to the chassis 30 along the interface between the first heat insulating part 31a and the second heat insulating part 31b. In addition, the heat generated from the circuit unit 115 is the second heat insulating part 31b by using the circuit mounting means 40 or a fastening means 45 such as a bolt coupled to the circuit mounting means 40 as a heat conductive medium. Is transferred to the chassis 30 by bypassing the first thermal insulation portion 31a.

That is, the plasma display module 10 of the present embodiment is a local heat prevention and weight reduction without generating a new problem of deterioration of the heat dissipation effect on the heat generated in the plasma display panel 100 and the circuit unit 115. Can achieve the purpose.

The present invention solves the local heat concentration problem of the plasma display module by preventing the heat transfer between the plasma display panel and the circuit portion by arranging a heat insulation portion in place of the chassis in a predetermined region between the plasma display panel and the circuit portion.

In addition, the present invention reduces the overall weight of the plasma display module by forming the thermal insulation portion made of a material such as plastic.

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

Claims (11)

A plasma display panel displaying an image using a gas discharge phenomenon; A chassis disposed on one surface of the plasma display panel to support the plasma display panel; A circuit unit disposed on a surface of the chassis opposite to the plasma display panel to generate an electrical signal for driving the plasma display panel; Circuit portion mounting means for mounting the circuit portion to the chassis; And And at least one thermal insulation unit disposed in a predetermined region between the plasma display panel and the circuit unit to prevent heat transfer between the plasma display panel and the circuit unit and reduce the weight of the chassis. The method of claim 1, And the thermal insulation portion is formed in an area including the circuit portion mounting means between the plasma display panel and the circuit portion. The method of claim 2, And the circuit portion mounting means is formed in the thermal insulation portion. The method of claim 2, And a fastening means for fastening the circuit portion mounting means to the thermal insulation portion. The method of claim 1, And the thermal insulation portion is made of plastic, not thermal conductivity. The method of claim 1, And the thermal insulation portion comprises a first thermal insulation portion and a second thermal insulation portion. The method of claim 6, And the first thermal insulation portion is made of plastic, not thermal conductivity. The method of claim 6, And the second thermal insulation portion is formed of a thermally conductive plastic. The method of claim 6, And the second thermal insulation portion is formed of a copper foil pattern layer. The method according to any one of claims 1 to 9, And wherein the thermal insulation portion is located on the chassis and its edge portion is coupled to the chassis. The method according to any one of claims 1 to 9, And the thermal insulation unit is disposed on the plasma display panel side and the opposite side of the chassis instead of the chassis.

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