KR100637454B1 - Plasma display device - Google Patents

Abstract

It includes a plasma display panel, a chassis base connected to and supported by the plasma display panel and a heat dissipation sheet interposed between the plasma display panel and the chassis base. Here, the heat dissipation sheet is fixed to the plasma display panel and the chassis base by an adhesive layer provided on both sides facing the plasma display panel and the chassis base, and having different thicknesses, wherein, among the adhesive layers, the adhesive layer facing the chassis base It is formed to have a thicker thickness than the adhesive layer facing the plasma display panel.

Heat dissipation layer, sheet, plasma, display, PDP, adhesive layer

Description

Plasma display device {PLASMA DISPLAY DEVICE}

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

2 is a side cross-sectional view showing a plasma display device in an embodiment of the present invention.

The present invention relates to a plasma display device, and more particularly, to a plasma display device that can be used as an image device such as a television by using a plasma display panel.

As is known, since the plasma display apparatus uses a discharge gas for displaying an image, heat is generated in a plasma display panel (PDP, hereinafter referred to as PDP for convenience) in which an image is implemented. Furthermore, when the plasma display device increases the discharge degree for improving luminance under basic conditions, the heat generated in the PDP is further increased.

Therefore, in the plasma display apparatus, it is important for the heat dissipation to be efficient for the smooth operation of the apparatus.

In the conventional plasma display device, the PDP is generally fixed to a chassis base made of a material having excellent thermal conductivity, and a heat dissipation sheet (or heat conductive sheet) is interposed between the PDP and the chassis base, and is generated in the PDP. Heat is conducted through the heat dissipation sheet and the chassis base to allow heat dissipation out of the device. Here, the chassis base is usually manufactured by die casting while being provided with a metal such as aluminum (Al), and the heat dissipation sheet is provided with a silicone-based resin or the like.

In addition, the heat generated in the plasma display device is not only the PDP but also various driving boards (eg, X, Y boards, image processing boards, switching mode power supply boards, etc.) mounted on one surface of the chassis base. Since it is also generated in the plasma apparatus, it is essential to produce a high quality product to prevent the internal temperature of the apparatus from being raised due to the heat generated from the driving circuit.

For this purpose, Japanese Laid-Open Patent Publication No. 2001-8388 uses a heat transfer element made of a heat pipe or a heat sink to cool the plasma display. Japanese Laid-Open Patent Publication No. 2001-282114 uses a heat pipe to display the plasma display. The temperature difference between the display portion and the non-display portion or the non-display portion and the external electrode portion of the panel is reduced.

On the other hand, when the heat dissipation sheet is normally interposed between the PDP and the chassis base, an adhesive is applied thinly on both sides of the heat dissipation sheet. That is, the heat dissipation sheet is fixed to the PDP and the chassis base by an adhesive applied to both sides thereof to connect the PDP and the chassis base to each other.

However, in this case, it is difficult to connect the PDP and the chassis base to each other only by the heat dissipation sheet, because the adhesive force for fixing the heat dissipation sheet to the PDP and the chassis base is not sufficient.

Accordingly, conventionally, the PDP and the chassis base are additionally connected by using a member such as a double-sided tape in addition to the above adhesive.

As described above, in the conventional plasma display device, the PDP and the chassis base are provided with an adhesive used when a heat dissipation sheet is interposed therebetween, and a double-sided tape provided separately from the adhesive (the double-sided tape mainly faces the PDP and the chassis base. When joined, they are arranged along their edges.

However, in the bonding structure, since the adhesive and the double-sided tape should be provided separately between the PDP and the chassis base, when manufacturing the plasma display device using the same, the cost increase and the work due to the increase in the number of parts There is a lot of room to reduce productivity due to increased airborne.

Furthermore, in view of the recent technology trend of the plasma display apparatus, the heat dissipation sheet is not provided as a single sheet in accordance with the size of the PDP and the chassis base, but is divided into a plurality and disposed between the PDP and the chassis base. In such a structure, the above problem is more likely to be amplified.

Accordingly, an object of the present invention is to solve the above problems, and an object of the present invention is to fix the heat dissipation sheet to the PDP and chassis base when a heat dissipation sheet is interposed between the PDP and the chassis base. It is an object of the present invention to provide a plasma display device capable of firmly connecting the PDP and the chassis base with a force.

The plasma display device according to the present invention,

It includes a plasma display panel, a chassis base connected to and supported by the plasma display panel and a heat dissipation sheet interposed between the plasma display panel and the chassis base. Here, the heat dissipation sheet is fixed to the plasma display panel and the chassis base by an adhesive layer provided on both sides facing the plasma display panel and the chassis base, and having different thicknesses, wherein, among the adhesive layers, the adhesive layer facing the chassis base It is formed to have a thicker thickness than the adhesive layer facing the plasma display panel.

In the present invention, the adhesive layer facing the chassis base may be formed by providing an adhesive to the base material having an elastic force.

The base material may be formed of a material having a foamability, which may be applied to a foamable resin such as a sponge.

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

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

As shown in the drawing, the plasma display device includes a PDP 20 that substantially realizes an image by forming two glass substrates 20a and 20b, and one surface of the PDP 20, that is, an opposite side on which an image is implemented. A chassis base 22 disposed on the front side of the PDP 20, a front case 24 disposed on the front side of the PDP 20, and a back case 26 disposed on the rear side of the chassis base 22. ).

Herein, a heat dissipation sheet 28 is disposed between the PDP 20 and the chassis base 22 to transfer heat generated from the PDP 22 to the chassis base 22, and the front case 24 is disposed on the front case 24. A filter 25 is installed to shield electromagnetic waves emitted from the PDP 20.

In the above, the PDP 20 is generally shaped as a substantially rectangular shape (a rectangle having a wide width in this embodiment), and the chassis base 22 has a shape corresponding to that of the PDP 20. It is provided with a material such as aluminum having excellent thermal conductivity. In the chassis base 22, a plurality of circuit boards 30 required for driving the PDP 20 are mounted on the other surface facing the surface on which the PDP 20 is attached.

The heat dissipation sheet 28 is a heat dissipation sheet made of, for example, an isotropic silicon-based or acryl-based material to which all the heat dissipation sheets made of known materials can be applied. It may also be made of a conductive sheet. On the other hand, it can be applied to a plate made of Cu, Al, Graphite or a plate containing Carbon NanoTube (CNT). In this case, the heat dissipation sheet may be selected from a single material or mixed with a composite material, and the material structure may be configured by stacking a single layer or several layers.

As is well known, the circuit board 30 includes an X, Y board, an image processing board, a switching mode power supply (SMPS) board, and the like.

Accordingly, the PDP 20 and the chassis base 22 are coupled to each other to form one module 32 and are disposed in the front case 24 and the back case 26, and are coupled to each other to form one plasma. The display device is configured.

On the other hand, in the present embodiment, the heat dissipation sheet 28 is disposed between and fixed to the PDP 20 and the chassis base 22 through the following structure.

Looking at the structure thereof, the heat dissipation sheet 28 is the PDP 20 and the chassis base by the adhesive layer (34, 36) provided on both sides thereof, that is, the surface facing the PDP 20 and the chassis base 22. It is fixed to 22.

That is, the heat dissipation sheet 28 is attached to the front surface of the PDP 20 and the chassis base 22 by the adhesive layers 34 and 36, and thus, the PDP 20 and the chassis base 22 are formed by the adhesive force thereof. Is fixed to the PDP 20 and the chassis base 22 can be connected to each other.

In the present embodiment, the adhesive layers 34 and 36 have the following characteristics, which are referred to as the first adhesive layer (hereinafter, referred to as a first adhesive layer for convenience) toward the chassis base 22. It is formed with a thickness thicker than the adhesive layer (hereinafter referred to as second adhesive layer 36 for convenience) (d ₁ > d ₂ ).

At this time, the first adhesive layer 34 is formed by providing an adhesive 34b on both sides of an elastic base material 34a having an elastic force, for example, a sponge, and the second adhesive layer 36 is generally used. It is comprised by providing the adhesive 36b to the base material 36a on a film like an adhesive layer. Here, the second adhesive layer 36 may be provided with only an adhesive without a separate base material. The configuration of the first adhesive layer 34 and the second adhesive layer 36 is just one example, and is not necessarily limited thereto.

When the heat dissipation sheet 28 is fixed to the chassis base 22 and the PDP 20 by the adhesive layers 34 and 36 having the above-described configuration, the first thickness having a thick thickness and elasticity toward the chassis base 22 is provided. Even if the flatness of the surface of the heat dissipation sheet 28, that is, the surface of the chassis base 22 is not good due to the action of the adhesive layer 34, the heat dissipation sheet 28 increases the attachment area while increasing the attachment area of the chassis base ( It is possible to attach to 22). It is preferable that the thickness of this first adhesive layer 34 is maintained at 0.1 to 0.4 mm.

On the other hand, the second adhesive layer 36 attaching the heat dissipation sheet 28 to the PDP 20 side has a flatness of the PDP 20 so that the flatness of the PDP 20 is relatively higher than that of the chassis base 22. 0.01 to 1 mm) is thin, the heat dissipation sheet 28 is in close contact with the attachment surface of the PDP 20 can be fixed.

Plasma treatment of the surfaces of the first adhesive layer 34, the second adhesive layer 26, and the heat dissipation sheet 28 in this fixing structure can maximize the adhesion between the layers, thereby further strengthening the fixing state thereof. In this case, even if an external force such as shear stress acts on the fixing portion of the heat dissipation sheet 28, it can effectively prevent the fixing state from being easily separated while overcoming this.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to

As described above, the plasma display device according to the present invention can strengthen the fixing state of the heat dissipation sheet, and thus has an effect of achieving high quality image display by enhancing the heat dissipation efficiency.

Claims (8)

A plasma display panel; A chassis base connected to and supported by the plasma display panel; And A heat dissipation sheet interposed between the plasma display panel and the chassis base, And the heat dissipation sheet is fixed to the plasma display panel and the chassis base by a first adhesive layer and a second adhesive layer provided on both surfaces facing the plasma display panel and the chassis base. The method of claim 1, The first adhesive layer is formed between the chassis base and the heat dissipation sheet, the second adhesive layer is formed between the plasma display panel and the heat dissipation sheet, and the thickness of the first adhesive layer is greater than the thickness of the second adhesive layer. Plasma display device formed thick. The method of claim 2, And the first adhesive layer is formed by providing an adhesive to a base material having elasticity. The method of claim 3, The base material is a plasma display device formed of a material having a foamability. The method of claim 4, wherein The base material is a plasma display device formed of a foaming resin. The method of claim 5, The base material is a sponge plasma display device. The method of claim 2, And a thickness of the first adhesive layer is 0.1 to 4 mm. The method of claim 2, And a thickness of the second adhesive layer is 0.01 to 0.4 mm.

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