KR20060119408A - Plasma display module - Google Patents

Abstract

A plasma display module is provided to improve heat release property and to prevent afterimage by using a heat release sheet adhered tightly to a plasma display panel. A plasma display panel(120) is supported in front of a chassis base(140). A heat release sheet(130) is disposed between the plasma display panel and the chassis base. At least one surface of the heat release sheet is tightly coupled to be connected to the plasma display panel. At least one adhesive member(135) is adhered to the partial rear of the heat release sheet so that the heat release sheet is not separated from the rear of the plasma display panel. A both-sided adhesive tape(160) is kept between the plasma display panel and the chassis base. The adhesive member is located at a portion where the both-sided adhesive tape is not attached.

Description

Plasma display module

1 is an exploded perspective view showing a conventional plasma display module.

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

3 is a cross-sectional view taken along line III-III of FIG. 2.

4 is a rear view illustrating a rear surface of the plasma display panel of FIG. 2.

<Description of the symbols for the main parts of the drawings>

100: plasma display module 120: plasma display panel

121: front substrate 122: back substrate

130: heat dissipation sheet 135: adhesive member

136: edge portion adhesive member 137: center portion adhesive member

140: chassis base 150: circuit board

160: double-sided adhesive tape

The present invention relates to a plasma display module, and more particularly, to a plasma display module having a heat dissipation sheet disposed between a plasma display panel and a chassis base for supporting the plasma display panel.

The plasma display module is a flat panel display module that displays an image using a gas discharge phenomenon, and is excellent in various display capacities such as display capacity, brightness, contrast, afterimage, and viewing angle. In addition, it is being spotlighted as a next-generation flat panel display module that can replace the CRT because of its thin and large display.

1 is an exploded perspective view of a conventional plasma display module. Referring to the drawings, the plasma display module 10 is supported by the chassis base 40, the front of the chassis base 40, and includes a front substrate 21 and a rear substrate 22 to display an image. 20, a circuit unit 50 supported behind the chassis base 40 and driving the plasma display panel 20.

However, since a large amount of heat is generated in the plasma display panel 20 in which an image is realized using a discharge phenomenon, a heat dissipation sheet (B) between the plasma display panel 20 and the chassis base 40 is used to smoothly dissipate the heat. Through the 30, the chassis base 40 is formed of a material having excellent thermal conductivity, for example, aluminum (Al), to function as a heat sink of the plasma display panel 20.

In this case, a double-sided tape 60 is interposed in an area where the heat dissipation sheet 30 is not disposed between the plasma display panel 20 and the chassis base 40, and the double-sided tape 60 is disposed by the double-sided tape 60. 20 and chassis base 40 are coupled opposite each other.

Typically, as the heat dissipation sheet 30 for the plasma display module, as described in US Pat. No. 5831374, a graphite sheet is applied. In other words, the heat dissipation sheet 30 includes a graphite sheet and an acrylic adhesive. Graphite sheets are generally applied to a high orientation graphite film (high orientation graphite), the high orientation graphite film is an anisotropic thermal conductive material of about 5 times higher thermal conductivity in the planar direction than the thickness direction. The acrylic adhesive is adhered to the graphite sheet, and the acrylic adhesive is adhered to the plasma display panel, whereby the graphite sheet is adhered to the plasma display panel 20.

However, in the process of adhering the heat dissipation sheet 30 to the rear surface of the plasma display panel 20, a part of the heat dissipation sheet 30 is lifted up. When a portion of the heat dissipation sheet 30 is lifted up, the heat H generated from the plasma display panel 20 stays in the lift generation portion, and the lifting phenomenon due to the heat is gradually adjacent to the lifted portion. It is caused by spreading to parts. As a result, the surface on which the plasma display panel 20 and the heat dissipation sheet 30 are adhered to each other decreases, and thus the heat dissipation sheet 30 does not smoothly discharge heat H generated from the plasma display panel 20 to the outside.

In addition, as described above, the heat dissipation sheet 30 should have a high heat transfer rate in its planar direction, but heat transfer in the planar direction does not occur smoothly in the heat dissipation sheet in which the lifting occurs. As a result, the temperature at the portion where the lifting occurs is higher than that at other parts, and as a result, afterimages occur in the image from the plasma display panel 20 corresponding to the portion where the lifting occurs.

In addition, since the highly-oriented graphite film is a hard material having insufficient buffering property in terms of material properties, there is a problem in that discharge vibration transmitted from the plasma display panel is directly transmitted to external noise. That is, the discharge gas is filled in the plasma display panel. As the discharge is performed, the plasma display panel vibrates back and forth while the discharge voltage of these discharge gases increases and decreases. At this time, as described above, as the heat radiation sheet is lifted from the plasma display panel, the vibration of the plasma display panel is transmitted to the outside as it is, driving noise is induced.

The present invention has been made to solve the above problems and other problems, and an object thereof is to provide a plasma display module having a structure in which the heat dissipation sheet is in close contact with the plasma display panel.

Another object of the present invention is to provide a plasma display module having a structure capable of smoothly dissipating heat generated from a plasma display panel to the outside, reducing vibration noise, and preventing permanent image retention.

In order to achieve the above and other objects, the plasma display module of the present invention comprises a chassis base, a plasma display panel supported in front of the chassis base, and between the plasma display panel and the chassis base. A heat dissipation sheet having at least one surface bonded to contact the plasma display panel, and at least one adhesive member adhered to at least a portion of a rear surface of the heat dissipation sheet so that the bonded heat dissipation sheet is in close contact with the back of the plasma display panel. Equipped.

The adhesive member may be made of an adhesive of a liquid material. In this case, the adhesive member is preferably made of a liquid silicone material.

Meanwhile, a double-sided adhesive tape may be further provided between the plasma display panel and the chassis base, and in this case, the adhesive member may be positioned at a portion where the double-sided adhesive tape is not attached. In addition, it is preferable that the value which added the thickness of the said heat radiating sheet | seat and the thickness of the said adhesive member is smaller than the thickness of the said double-sided adhesive tape.

The adhesive member may include an edge portion adhesive member including an edge portion of the heat dissipation sheet and a rear surface of the plasma display panel adjacent to the edge portion, and in this case, the edge portion adhesive member may include the edge portion adhesive member. A plurality of discontinuous lines may be disposed along the edge of the heat dissipation sheet.

The adhesive member may include a central adhesive member formed on a rear surface of the central portion of the heat dissipation sheet.

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

2 is an exploded perspective view showing a plasma display module according to an embodiment of the present invention, Figure 3 is a cross-sectional view taken along the line III-III of Figure 2, Figure 4 is a view showing the plasma display panel of Figure 2 from the back Back view. 2 to 4, the plasma display module 100 according to the preferred embodiment of the present invention includes a plasma display panel 120, a chassis base 140 supporting the plasma display panel 120, and heat dissipation. The sheet 130 and the adhesive member 135 are provided.

The plasma display panel 120 includes a front substrate 121 and a back substrate 122 that is coupled to face the front substrate 121. Although not shown here, the barrier rib, the sustain electrode pairs, the address electrodes, and the phosphor layer are provided to implement an image using plasma discharge generated between the electrodes.

The plasma display panel 120 is supported by the chassis base 140 disposed behind the plasma display panel 120. The chassis base 140 serves as a heat sink of the plasma display panel 120, and for this purpose, the chassis base 140 may be formed of, for example, aluminum (Al) material having excellent thermal conductivity. A reinforcing member 142 may be installed at the rear of the chassis base 140 for strength reinforcement.

A circuit unit is installed behind the chassis base 140, and the circuit unit includes a plurality of circuit boards 150 driving the plasma display panel 120. The circuit board 150 is equipped with a plurality of circuit elements for generating a drive signal, and the generated drive signal is connected to the circuit board 150 to extend the connection cable 170 formed to the plasma display panel 120 in front of the circuit board 150. An integrated circuit chip 172 that is applied to the plasma display panel 120 and performs a function of converting a driving signal may be mounted on the connection cable 170.

The heat generated from the plasma display panel 120 is conducted to the chassis base 140 via the heat dissipation sheet 130 between the plasma display panel 120 and the chassis base 140. In this case, the heat dissipation sheet 130 may include an adhesive such as a graphite sheet and an acrylic adhesive. In this case, the adhesive is attached to the back of the plasma display panel 120. The graphite sheet has a function of emitting heat generated from the plasma display panel 120 to the outside. For this purpose, for example, the highly oriented graphite is an anisotropic thermal conductive material having a thermal conductivity in a planar direction of approximately five times higher than a thickness direction. Like the film, it is preferable that the material is excellent in thermal conductivity in the planar direction.

At least one adhesive member 135 is attached to at least a portion of the rear surface of the heat dissipation sheet 130. The heat dissipation sheet 130 bonded by the adhesive member 135 may not be separated from the rear surface of the plasma display panel 120. That is, the adhesive member 135 may be lifted between the heat dissipation sheet 130 and the plasma display panel 120 during a manufacturing process including the process of bonding the heat dissipation sheet 130 and the plasma display panel 120 to each other. By adhering the adhesive member to a position where there is a high possibility, the heat radiation sheet 130 and the plasma display panel 120 are not lifted off. As a result, heat generated from the plasma display panel 120 is smoothly transferred to the heat dissipation sheet 130, and the heat dissipation sheet 130 smoothly dissipates the received heat in the planar direction. That is, it is possible to prevent a part of the heat dissipation sheet 130 from becoming higher than other parts, and consequently, prevent the afterimage from occurring in a part of the plasma display panel 120.

In this case, the adhesive member 135 needs not only to have excellent adhesion between the heat dissipation sheet 130 and the plasma display panel, but also needs to discharge heat generated from the plasma display panel 120 to the outside. have. Therefore, the adhesive member 135 may be made of an adhesive of a liquid material that is excellent in adhesion and thermal conductivity, and particularly preferably made of a silicon material. This is typically 80? In a plasma display panel. The temperature rises until the liquid silicone adhesive is 80 ?? as well as about 200 ?? This is because the adhesive strength is excellent. In addition, silicon is a material having excellent gas permeability, and the heat transmitted from the plasma display panel 120 can be brought into contact with an external gas so that the airflow can be performed in parallel, thereby having excellent thermal conductivity.

Meanwhile, a double-sided adhesive tape 160 may be further provided between the plasma display panel and the chassis base. In this case, the adhesive member 135 is located at a portion where the double-sided adhesive tape 160 is not attached.

In this case, in particular, as shown in FIG. 3, the value K1 of the thickness of the heat dissipation sheet 130 and the thickness of the adhesive member 135 is greater than the thickness K2 of the double-sided adhesive tape 160. It can be small. That is, a double-sided adhesive tape 160 attaches the plasma display panel 120 and the chassis base 140. In particular, as shown in FIG. 3, the front surface of the heat dissipation sheet 130 may be disposed on the plasma display panel ( By bonding to the rear surface of the 120, a gap K3 having a predetermined size is generated between the rear surface of the heat dissipation sheet 130 and the chassis base. Therefore, the heat H of the heat dissipation sheet 130 may be smoothly discharged to the outside by using the air convection phenomenon in the gap K3.

In this case, the adhesive member 135 is particularly preferably provided with at least one edge adhesive member 136, as shown in Figure 4, the edge adhesive member 136, the heat radiation sheet ( Adhesion is performed along the rear surface of the edge of the 130 and the rear surface of the plasma display panel 120 adjacent to the heat dissipation sheet 130. That is, the heat dissipation sheet 130 is particularly lifted from the edge portion, and the lifting phenomenon from the edge portion is often transmitted to the inside of the heat dissipation sheet 130. Therefore, it is necessary to fix the heat dissipation sheet 130 to the plasma display panel so that the edge portion adhesive member 136 is adhered along the edge of the heat dissipation sheet 130.

Here, the edge adhesive member 136 may be discontinuously formed along the edge of the heat dissipation sheet 130. In this case, a gap in which air is convection is formed between the edge portion adhesive members 136, thereby increasing an area of the inside of the heat dissipating sheet 130 in contact with the outside air, and consequently, increasing the thermal conductivity of the heat dissipating sheet 130. Done. However, the present invention is not limited thereto, and the edge adhesive member 136 may be continuously formed along the edge of the heat dissipation sheet 130.

The adhesive member 135 may include a central adhesive member 137. The central adhesive member 137 may be formed at the rear of the central portion of the heat dissipation sheet 130, and may be disposed at least one of them. That is, the center adhesive member 137 may be pressed against the rear surface of the plasma display panel by pressing the heat dissipation sheet 130, thereby preventing local lifting. As a result, as described above, an afterimage phenomenon can be prevented. In addition, due to the close contact between the plasma display panel, the heat dissipation sheet 130, and the center adhesive member 137, the energy generated from the plasma display panel is dissipated through the heat dissipation sheet 130 and the center adhesive member 137. Noise is reduced.

According to the plasma display module of the present invention, the following effects can be achieved.

First, the plasma display panel and the heat dissipation sheet are closely adhered to each other, so that heat generated from the plasma display panel is smoothly discharged to the outside through the heat dissipation sheet and the adhesive member, thereby improving heat dissipation characteristics of the heat dissipation sheet, and causing image retention in the plasma display module. This will not happen.

Second, the heat dissipation sheet and the adhesive member absorb discharge vibrations of the plasma display panel, thereby reducing or removing driving noises transmitted to the outside.

Although the present invention has been described with reference to the embodiments illustrated in the accompanying drawings, it is merely exemplary, and various modifications and equivalent other embodiments are possible from those skilled in the art to which the present invention pertains. You will understand the point. Therefore, the true scope of protection of the present invention should be defined by the appended claims.

Claims (8)

Chassis base; A plasma display panel supported in front of the chassis base; A heat dissipation sheet interposed between the plasma display panel and the chassis base, the heat dissipation sheet having at least one surface coupled to the plasma display panel; And And at least one adhesive member adhered to at least part of a rear surface of the heat dissipation sheet to prevent the bonded heat dissipation sheet from being separated from the rear surface of the plasma display panel. The method of claim 1, The adhesive member is a plasma display module, characterized in that made of an adhesive of a liquid material. The method of claim 2, The adhesive member is a plasma display module, characterized in that made of a liquid silicon material. The method of claim 1, Between the plasma display panel and the chassis base, further provided with a double-sided adhesive tape for bonding them, And the adhesive member is positioned at a portion where the double-sided adhesive tape is not attached. The method of claim 4, wherein And the thickness of the heat dissipation sheet and the thickness of the adhesive member is smaller than the thickness of the double-sided adhesive tape. The method of claim 1, And the adhesive member includes an edge portion adhesive member including an edge portion of the heat dissipation sheet and a rear surface of the plasma display panel adjacent to the edge portion. The method of claim 6, And the edge portion adhesive member is disposed in a plurality of discontinuously along the edge portion of the heat dissipation sheet. The method according to any one of claims 1 to 6, The adhesive member further comprises a central adhesive member formed on the rear of the central portion of the heat dissipation sheet.

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