KR20100017043A - Thermal spreading sheet - Google Patents

Abstract

The present invention uses a relatively inexpensive aluminum sheet, excellent heat diffusion and heat dissipation function, while significantly reducing the manufacturing cost, and because the coating is made of a hard heat-resistant resin, there is no fear of being cut or injured, so that it is easy to handle and improves work productivity significantly. It relates to a heat radiation sheet.

The present invention for realizing this is a heat diffusion sheet for diffusing and dissipating heat generated in the display device mounted on the display device including the LCD, OLED display, LED display and PDP, a metal sheet made of a thermally conductive material It is characterized in that the hard heat-resistant resin is a thin coating coating, the adhesive layer is formed on at least one surface of the hard heat-resistant resin, the release layer is attached to the adhesive layer.

Description

Heat Resistant Sheet {THERMAL SPREADING SHEET}

The present invention relates to a heat dissipation sheet, and in particular, using a relatively inexpensive aluminum sheet, excellent heat diffusion heat dissipation function, while significantly reducing the manufacturing cost, and because the coating is made of a hard heat-resistant resin, easy to handle and safe work It relates to a heat dissipation sheet to significantly improve the productivity.

Plasma Display Pannel (PDP), Liquid Crystal Dispalys (LCD), Organic Light Emitting Diode (OLED), and Light Emitting Diode (LED) are used in the electronic display field. Is an important factor in the stability and quality of equipment.

For example, the maximum allowable operating temperature of the PDP glass panel is 90 ° C or less, and when the temperature difference between the fluorescent and non-fluorescent areas is 10 ° C or more, cracks are generated in the PDP glass panel, and PDP using the plasma light source generates high voltage / high current inside. Done.

In addition, in the case of the PDP, if the heat dissipation cooling is unevenly distributed over the entire surface, the image is locally refracted and distorted, thereby degrading display quality characteristics.

In addition, PDP, which has to be implemented with a slim thin structure, has a weak environment in heat dissipation structure due to the narrower structure than the previous cathode ray tube display device, and a fan is used as a cooling device of the PDP, but this is the biggest obstacle to slim slimming of the PDP. At the same time, since there are problems such as noise, weight increase, and power consumption, a heat dissipation sheet capable of rapidly spreading and transferring heat has recently been used.

In one embodiment of the conventional heat dissipation sheet, an aluminum sheet is used.

Such aluminum sheet has the advantage of excellent thermal conductivity, but it has the disadvantage of not having insulation because it is a conductor, and it is very inconvenient to handle it because the tip is sharp and there is a high risk of cuts or injuries. There was a problem that the contamination caused the defect.

Therefore, in recent years, a heat dissipation sheet using graphite has been used. The graphite heat dissipation sheet is a thin coating of a graphite layer made of graphite to prevent the graphite from being buried.

However, such graphite heat dissipation sheet is not ductile, so it is brittle, and graphite dust is scattered when forming holes for assembly, which contaminates the product. Therefore, it is troublesome to seal around the hole again and the manufacturing cost is increased due to relatively high price. There was a problem.

In addition, the graphite heat dissipation sheet has a disadvantage that it is impossible to reuse because it is impossible to use it once again to remove it.

In addition, in the past, the thickness of the heat dissipation sheet was not a big problem since the thickness of the display device was not the main object of interest, but how thin or ultra thin the heat dissipation sheet is because the LCD, LED, OLED, etc. have recently been replaced with the thin form. Is a major concern, the conventional heat dissipation sheet has not been developed a product implemented in a thin or ultra thin.

The present invention has been made to solve the above problems,

The purpose of the present invention is to use a relatively inexpensive aluminum sheet, excellent heat diffusion and heat dissipation function, while significantly reducing the manufacturing cost, and because the coating is made of a hard heat-resistant resin, there is no fear of being cut or injured, easy to handle and improve work productivity significantly. Give it,

In addition, the heat dissipation silicone adheres the heat dissipation sheet to the display device, and the local heat dissipation of the display device is rapidly transferred to the metal sheet with high thermal conductivity to diffuse (disperse) and radiate heat onto the surface.

The present invention also provides a heat dissipation sheet which can improve heat dissipation efficiency significantly by adhering two components as closely as possible without gaps or gaps between the metal sheet of the heat dissipation sheet (and thus the hard heat-resistant resin) and the display device.

Heat dissipation sheet according to the present invention to achieve the above object,

It is attached to a display device including a liquid crystal display (LCD), an organic light emitting diode (OLED) display device, a light emitting diode (LED) display device, and a plasma display panel (PDP) to diffuse and generate heat generated in the display device. A heat diffusion heat dissipation sheet for heat dissipation,

Hard heat-resistant resin is thinly coated on a metal sheet made of a thermally conductive material,

An adhesive layer is formed on at least one surface of the hard heat resistant resin,

Release paper is attached to the adhesive layer.

The heat dissipation sheet according to the present invention is excellent in thermal diffusion heat dissipation function using a relatively inexpensive aluminum sheet, while reducing the manufacturing cost and coating with a hard heat-resistant resin, so there is no fear of being cut or injured, so it is easy to handle and the work productivity is remarkably improved. It has an excellent effect.

In addition, the heat dissipation sheet according to the present invention adheres the heat dissipation sheet to the display device by the configuration of the heat dissipation silicon, and transfers local heat of the display device to the metal sheet quickly with high thermal conductivity to diffuse (disperse) the heat radiation onto the surface. It has the effect of making it possible.

In addition, the heat dissipation sheet according to the present invention has the effect of significantly improving the heat dissipation efficiency by gluing the two components as closely as possible without gaps or gaps between the metal sheet of the heat dissipation sheet (and thus the hard heat-resistant resin) and the display device. have.

Hereinafter, an embodiment of the heat dissipation sheet of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a partial cross-sectional view showing a configuration of an embodiment according to the present invention, Figure 2 is a partial cross-sectional detail of the AA line of Figure 1, Figure 3 is an enlarged view of the main part when the heat-radiating sheet according to the present invention adhered to the display device to be.

1 to 3, the heat dissipation sheet 1 according to the embodiment of the present invention is a liquid crystal display (LCD), an organic light emitting diode (OLED) display, a light emitting diode (LED) display, and A heat diffusion heat dissipation sheet for diffusing and dissipating heat generated in a display apparatus by being mounted on a display device including a plasma display panel (PDP), wherein the hard heat-resistant resin 30 is thin on the metal sheet 10 made of a thermally conductive material. A coating film is formed, and an adhesive layer 2 is formed on at least one surface (ie, one surface or both surfaces of the hard heat resistant resin 30) of the hard heat resistant resin 30, and a release paper 3 is formed on the adhesive layer 2. It is characterized in that is mounted.

Here, the metal sheet 10 is preferably made of aluminum (Al) or copper (Cu).

In addition, the hard heat-resistant resin 30 has an insulating property and heat resistance and the coating thickness is preferably 5㎛ ~ 50㎛. That is, the coating is so thin that it does not affect the heat dissipation efficiency.

The hard heat-resistant resin 30 is preferably made of epoxy resin.

The metal sheet 10 may be coated with a hard heat-resistant resin 30 after cutting and perforation in accordance with the specifications according to the specifications of the application device.

Accordingly, the heat-resistant resin coating is also made around the hole h.

The metal sheet 10 may have rounded corners.

The adhesive layer 2 is preferably composed of TIM (Thermal Interface Material).

Accordingly, there is an advantage in that the heat dissipation sheet is attached to the display device and the heat generated locally in the display device can be transferred to the metal sheet 10 more smoothly and quickly.

The adhesive layer 2 is preferably composed of heat dissipation silicone.

According to this, the high thermal conductivity of the heat-dissipating silicon (approximately 3.5 (W / mk) or more) allows the local heat generation of the display device to be quickly and thermally transferred to the metal sheet without heat loss, thereby diffusing (dispersing) heat into the plane. have.

In addition, by adopting heat-dissipating silicone as the adhesive layer 2, since the heat-dissipating silicone has high spreadability and wettability, it is formed without gaps or gaps with the metal sheet (hence, hard heat-resistant resin), and also adheres without gaps or gaps in the display device. Since it is adhered, there is an advantage that can significantly improve the heat radiation efficiency.

In addition, the adhesive layer 2 may be formed by printing the heat-dissipating silicon on at least one surface of the hard heat-resistant resin 30 by a screen printing method.

In addition, the adhesive layer 2 may be formed by printing the heat-dissipating silicon on at least one surface of the hard heat-resistant resin 30 by a stencil method.

In addition, the adhesive layer 2 may be formed by spraying the heat dissipating silicon on at least one surface of the hard heat resistant resin 30 by a spray spraying method.

According to this, the heat-dissipating silicon may be formed in the hard heat-resistant resin 30 having a thickness of, for example, 5 μm to 100 μm in a thin or ultra thin shape.

On the other hand, Figure 4 is a real picture of the heat dissipation sheet according to the present invention is shown, the heat dissipation sheet according to the present invention represented in Figure 4 shows an embodiment when there is no hole (h).

Look at the working state of the heat dissipation sheet 1 according to the present invention having such a configuration.

The heat diffusion heat dissipation sheet according to the present invention uses the aluminum sheet having excellent thermal conductivity and relatively inexpensive aluminum sheet as the metal sheet 10, and then forms a specification and a hole (h) according to the specification of the applied electronic device. ) Is thinly coated to a thickness of about 5㎛ ~ 20㎛.

The heat diffusion sheet 1 having such a configuration is mounted on, for example, a PDP, and rapidly spreads and radiates heat according to the thermal conductivity of aluminum, thereby improving display quality and protecting the device from high heat generation temperatures.

And even though the aluminum sheet is used, the coating film is made of a hard heat-resistant resin 30, there is no fear of being cut or injured, and heat diffusion and heat dissipation are performed smoothly.

Therefore, the handling is easy to ensure the safety and quality control of the product is made easy.

The present invention as described above is excellent in thermal diffusion heat dissipation function, manufacturing cost is reduced, there is no dust generation, easy to handle significantly improves workability.

As shown in FIG. 3, when the surface of the metal sheet 10 or the display device is enlarged and microscopically observed, the surface is not completely smoothed, but there are some irregularities and due to the irregularities. A gap or gap may be formed. When the heat dissipating sheet is adhered to the display device by adopting the heat dissipating silicon according to the present invention, the gap or gap of the unevenness of the metal sheet 10 or the display device may be caused by the high spreading and wettability characteristics of the heat dissipating silicon. Since the part is adhered while filling, the local heat generated in the display device can be transferred to the metal sheet 10 without heat loss caused by the gap or the gap.

In the above, preferred embodiments of the present invention have been described with reference to the accompanying drawings.

Here, the terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings, but should be construed as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

1 is a partial cross-sectional view showing the configuration of an embodiment according to the present invention

Figure 2 is a partial cross-sectional view of the line A-A of Figure 1

Figure 3 is an enlarged view of the main part when the heat dissipation sheet according to the present invention adhered to the display device

4 is a picture of the actual item of the heat radiation sheet according to the present invention

* Explanation of symbols for the main parts of the drawings

1: heat dissipation sheet of the present invention

10: metal sheet 30: hard heat-resistant resin

2: adhesive layer 3: release paper

Claims (11)

It is attached to a display device including a liquid crystal display (LCD), an organic light emitting diode (OLED) display device, a light emitting diode (LED) display device, and a plasma display panel (PDP) to diffuse and generate heat generated in the display device. A heat diffusion heat dissipation sheet for heat dissipation, The hard heat-resistant resin 30 is thinly coated on the metal sheet 10 made of a thermally conductive material, An adhesive layer 2 is formed on at least one surface of the hard heat resistant resin 30, A release sheet (3) is attached to the adhesive layer (2). The method according to claim 1, The metal sheet 10 is a heat radiation sheet, characterized in that made of aluminum (Al) or copper (Cu). The method according to claim 1 or 2, The hard heat-resistant resin 30 has an insulating property and heat resistance and the coating thickness of the heat radiation sheet, characterized in that formed in 5㎛ ~ 50㎛. The method according to claim 3, The hard heat-resistant resin 30 is a heat radiation sheet, characterized in that made of epoxy resin (Epoxy resin). The method according to claim 1 or 2, The metal sheet 10 is a heat dissipation sheet, characterized in that the film is coated with a hard heat-resistant resin after cutting and hole punching in accordance with the specifications according to the specifications of the applied device. The method according to claim 1, The adhesive layer 2, Heat dissipation sheet, characterized in that consisting of TIM (Thermal Interface Material). The method according to claim 6, The adhesive layer (2) is a heat dissipation sheet, characterized in that consisting of heat dissipation silicone. The method according to claim 7, Heat dissipation sheet, characterized in that to form the adhesive layer (2) by printing the heat dissipation silicon on at least one surface of the hard heat-resistant resin (30) by the screen printing method. The method according to claim 7, Heat dissipation sheet, characterized in that to form the adhesive layer (2) by printing the heat dissipation silicon on at least one surface of the hard heat-resistant resin (30) in a stencil method. The method according to claim 7, The heat dissipation sheet, characterized in that to form the adhesive layer (2) by spraying the heat dissipation silicon on at least one surface of the hard heat-resistant resin (30) by a spray injection method. The method according to any one of claims 7 to 10, The heat dissipation sheet, characterized in that the thickness of the adhesive layer (2) implemented by the heat dissipation silicon is formed to 5㎛ ~ 100㎛.

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