KR100740175B1 - Gasket for absorbing and shielding electron waves and Method for manufacturing gasket - Google Patents

Abstract

SUMMARY OF THE INVENTION An object of the present invention is to provide an electromagnetic shielding and electromagnetic wave absorbing gasket and a method for manufacturing the same, which can prevent electrical short of electronic devices by preventing occurrence of metal powder or burrs on the cutting surface during manufacturing and mounting. .

Accordingly, the present invention provides a sheet-like conductive and absorbent polymer resin sheet, a support body attached to one surface of the sheet to support the sheet, a cushioning agent wrapped around the sheet to which the support is attached, and maintaining a certain shape, and the cushioning agent described above. An electromagnetic shielding and absorption gasket comprising an adhesive for attaching a sheet is provided.

Polymer resin, metal powder, powder sheet for absorption, cushioning agent, adhesive

Description

Gasket for absorbing and shielding electron waves and Method for manufacturing gasket}

1 is a schematic cross-sectional view showing an electromagnetic shielding and absorption gasket according to the present invention;

Figure 2 is a schematic cross-sectional view showing a conductive and absorbing sheet of the electromagnetic shielding, absorption gaskets according to the present invention,

3 is a schematic cross-sectional view showing a conductive and absorbent sheet according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10 sheet 11 polymer resin

12: metal powder, absorption component powder 13: support

20: cushioning agent 30: adhesive

40: double sided tape

The present invention relates to a gasket for shielding and absorbing electromagnetic waves, and more particularly, to an electromagnetic shielding and absorption gasket and a method for manufacturing the same, which are capable of obtaining good post-processability using conductive and absorbent rubber sheets.

All devices that use electricity radiate electromagnetic waves to their surroundings during operation. In particular, high-speed digital devices that appear due to the recent development of microelectronic technology often generate broadband electromagnetic waves. Such electromagnetic waves cause unwanted interference between electronic devices and cause so-called electromagnetic interference. In particular, digital devices are more sensitive to electromagnetic waves, and thus electromagnetic wave shielding materials are essentially used to block and absorb electromagnetic waves emitted and invaded.

Accordingly, in order to block unwanted electromagnetic waves (noise) leaking through gaps such as joints or joints of devices, conductive fibers in which metals having excellent electrical conductivity such as gold, silver, copper, and nickel are plated, coated, and deposited on the polyester fibers Was used.

And by coating the adhesive on the conductive and absorbent fibers as described above, cut to the required width, and put a cushioning agent such as sponge inside and wrapped in various forms to manufacture a fully formed electromagnetic shielding gasket by passing it through a hot mold and a cooling mold It was.

However, in the conventional gasket, as the conductive fiber which imparts conductivity to the fiber through the method of plating or depositing metal is used, the metal, which is an important element for conducting, is exposed on the surface of the gasket, and thus fine plating is performed during post-processing or mounting, such as cutting. The powder and surface poplars come off the surface of the gasket, and a burr (conductive silage) is generated on the cut surface during cutting.

Therefore, an electrical short occurs inside the electronic device (circuit) due to the above-mentioned plating powder, poplar, burr, etc., which causes a malfunction of the device or, in severe cases, the device.

In addition, the resistance to humidity, salinity and other contamination is weak, so that the surface of the gasket is easily corroded, there is a problem that the electromagnetic shielding effect is deteriorated over a long period of time.

Moreover, since only the conductive metal is used to shield the electromagnetic waves, the electromagnetic wave absorbing effect cannot be achieved.

The present invention has been made to solve the above problems, the purpose of the electromagnetic shielding and absorption gasket to prevent the electrical short of the electronic device by preventing the generation of metal powder or cutting burrs, etc. during the manufacturing and mounting process And to provide a method of manufacturing the same.

In addition, another object of the present invention is to provide an electromagnetic shielding and absorption gasket and a method for manufacturing the same, which can enhance corrosion resistance to external contaminants.

In addition, another object of the present invention is to provide an electromagnetic shielding, absorption gasket, and a method of manufacturing the same, which improves flexibility, elasticity, and resilience of a material, thereby improving adhesion to an electronic device.

In addition, another object of the present invention is to provide an electromagnetic shielding and absorption gasket and a method for manufacturing the same, which are capable of simultaneously performing an absorption action as well as an electromagnetic shielding.

In order to achieve the above object, the gasket of the present invention includes a conductive or absorbent polymer resin sheet.

To this end, the polymer resin sheet included in the gasket of the present invention has a structure formed in a sheet form by mixing a single or a plurality of highly conductive metal powder or absorbent powder into a polymer resin such as polyurethane or silicone.

The shielding metal powder may be, for example, gold, silver, copper, nickel, silver / glass (powder coated with silver on glass powder particle surface), silver / copper (powder coated with silver on copper powder particle surface), and the like. It is preferable that a kind or a mixture of at least two kinds is selected.

In addition, the absorption powder is preferably selected from nickel, magnesium, cobalt, manganese, supermaloy, super stainless steel, etc., in one or at least two kinds.

A binding agent may be further added to mix the metal powder with the polymer resin.

In addition, the present invention includes a cushioning agent forming a gasket in order to produce a gasket in a predetermined form, and a conductive or absorbent polymer resin sheet surrounding the outside of the cushioning agent and attached by an adhesive.

Here, the conductive or absorbent polymer resin sheet may be attached to a support for supporting the sheet on one surface.

The support may be used without particular limitation as long as the support is made of a fiber or a mesh or a soft copper sheet or an aluminum sheet and can limit the elongation of the conductive or absorbent polymer resin sheet itself.

In addition, according to another embodiment of the present invention, the conductive or absorbent polymer resin sheet may be attached to both sides of the support.

On the other hand, looking at the manufacturing method for manufacturing the gasket having the above structure, by mixing the metal powder or the absorbent powder in the polymer resin to impart conductivity or absorbency and to prepare a sheet form, and the adhesive (point) adhesive on one side of the sheet And applying the outer surface of the cushioning agent to wrap the cushioning agent, and heating and cooling the seated cushioning agent to form a predetermined shape.

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

1 is a schematic cross-sectional view showing an electromagnetic shielding and absorption gasket according to the present invention, Figure 2 is a schematic cross-sectional view showing a conductive sheet of the electromagnetic shielding, absorption gasket according to the present invention.

According to the drawings, the gasket according to the present embodiment is a plate-like conductive or absorbent polymer resin sheet 10, the support 13 for supporting the polymer resin sheet is attached to one surface of the polymer resin sheet 10, It includes a cushioning agent 20 which is wrapped by the polymer resin sheet 10 attached to the support 13 and filled therein, and an adhesive 30 for attaching the polymer resin sheet 10 to the cushioning agent 20. do.

In this case, the gasket may allow the support 13 attached to the polymer resin sheet 10 to face the inside thereof so that the polymer resin sheet 10 may be exposed to the outside.

The conductive or absorbent polymer resin sheet 10 is a metal powder 12 having high electrical conductivity such as gold, silver, copper, nickel, silver / glass, silver / copper, or nickel, magnesium, cobalt, manganese, supermaloy, super A single or at least two kinds of absorbent powders 12 having high absorbency, such as stainless, are mixed and dispersed in a polymer resin 11 in a liquid state such as polyurethane or silicone, mixed together and manufactured in a plate shape. Self-conductivity is provided.

In addition, in the case of the conductive or absorbent polymer resin constituting the polymer resin sheet 10, when manufacturing the polymer resin sheet 10 using only the polymer resin, friction with the mold required for manufacturing the gasket due to the elongation of the polymer resin sheet 10 itself. Due to the physical conditions such as tensile strength, heat resistance, etc. can not be satisfied.

Accordingly, in the present embodiment, the conductive or absorbent polymer resin is thinly coated on the support 13 and cured to manufacture the polymer resin sheet 10.

The support 13 may be a fiber, a film, a metal foil, a mesh, or the like, and the fiber used may be a fiber, such as polyester, or a metal on the fiber to further increase the conductivity or absorbency of the polymer resin sheet 10. Electroconductive fiber through which plating or metal deposition is applied to which electricity can be used can be used.

According to another embodiment of the present invention, as shown in FIG. 3, the conductive or absorbent polymer resin is coated on both surfaces of the support 13 so that the polymer resin sheet 10 is installed on both sides of the support 13. It is structured.

In addition, the cushioning agent 20 is to provide a cushioning force to the gasket to fully adhere the polymer resin sheet to the surface of the electronic device and to maintain a constant shape, or a sponge made of polyurethane or a sponge made of rubber or EPDM, A silicone sponge or the like may be used, and a conductive sponge coated with an electroless plated or coated metal or absorbent powder may be used for each of the sponges in order to increase electrical conductivity or absorbency.

And the adhesive 30 or the adhesive is coated on the surface of the polymer resin sheet 10 for the bonding of the cushioning agent 20 and the polymer resin sheet 10 polyurethane or methacrylic acid (acrylic), polyethylene terephthalate (PET) ), A silicone adhesive or the like (point) adhesive 30 is used, and preferably a conductive or absorbent adhesive agent is coated to increase the electrical conductivity or absorbency.

Accordingly, the gasket cuts the polymer resin sheet 10 to a design width and cuts the cushioning agent 20 to a design size so that the polymer resin sheet 10 coated with the adhesive 30 is cushioned. After wrapping it into a heat mold and a cooling mold it can be produced in the desired form.

That is, look at the manufacturing method for manufacturing the gasket through the components as follows.

In order to mold the gasket into a desired shape, the polymer resin sheet 10 is cut to the required width, the cushioning agent 20 is also cut to the size required for manufacturing, and if necessary, plastic according to the shape of the gasket or the mounting conditions of the electronic device. Cut or extrude a separate support of material (such as PET film) to the required width.

As described above, the polymer resin sheet 10 has a support 13 attached to one side thereof, and an adhesive 30 for adhesion to the cushioning agent 20 is applied to an outer side thereof.

Accordingly, each of the materials prepared as described above is put into a molding machine manufactured to fit a desired shape, and the polymer resin sheet 10 is molded to surround the cushioning agent 20 or the support or all or a specific portion thereof.

In addition, the molded gasket melts the adhesive 30 applied to the inside of the polymer resin sheet 10 while passing through the heat mold, thereby completely attaching the polymer resin sheet 10 to the cushioning agent 20.

The gasket, which has undergone the hot mold, is continuously subjected to the cooling mold. In this process, as the adhesive 30 melted while passing through the hot mold, the molding of the electromagnetic shielding or absorption gasket is completed.

On the other hand, as shown in Figure 1 in order to increase the usability of the electromagnetic shielding or absorption gasket using the polymer resin sheet 10 is completed, the double-sided tape 40 may be attached to a specific site alone or a plurality.

As the double-sided tape 40, an inorganic material, a double-sided tape of a base material, a conductive inorganic base, or a double-sided tape of a conductive base material can be used. The term "base material" refers to a nonwoven fabric, a mesh, a fiber, an aluminum foil, a copper foil, or the like, and is appropriately selected and used according to the degree of electromagnetic shielding or absorption and effect required by an electronic device.

 As described above, according to the electromagnetic shielding and absorption gasket according to the present invention and a method for manufacturing the same, even if a metal or an absorbent material, which is an essential condition for conducting or absorbing, is used, the polymer resin having high bonding strength is wrapped in the metal powder or the absorbent powder. Metal or absorbent powder powder is not separated from the polymer resin sheet, thereby preventing the occurrence of cutting burrs at the time of processing, thereby reducing the risk of electrical short.

In addition, since the polymer powder is wrapped around the metal powder or the absorbent powder to prevent corrosion against external contamination, it is possible to maintain stable electromagnetic shielding performance even during long-term use.

In addition, it is possible to maximize the adhesiveness with the electronic device by increasing the elastic restoring force and flexibility of the gasket itself.

Claims (13)

Plate-like conductive or absorbent polymer resin sheet, A support attached to one surface of the polymer resin sheet to support the polymer resin sheet; A cushioning agent selected from a polyurethane rubber or an EPDM sponge or a sponge made of silicon, the front surface of which is covered by the polymer resin sheet to which the support is attached Adhesive for attaching the polymer resin sheet to the cushioning agent Electromagnetic shielding, including a gasket for absorption. delete The method of claim 1, The polymer resin is a gasket for electromagnetic shielding and absorption, characterized in that the polymer resin is mixed with a metal powder or absorbent powder. The method of claim 3, wherein The polymer resin is electromagnetic shielding, absorption gasket, characterized in that made of any one selected from polyurethane or silicone or ethylene-propylene rubber. The method of claim 3, wherein The metal powder or absorbent powder is composed of one or a mixture of two or more selected from gold, silver, copper, nickel, silver / glass, silver / copper, nickel, magnesium, cobalt, manganese, supermaloy, and super stainless steel. Electromagnetic shielding, absorption gaskets. The method of claim 1, The support is selected from fibers or meshes or films or metal foils, wherein the fibers or meshes are non-conductive or metal plated or metal-deposited conductive fibers. delete The method of claim 1, Electromagnetic shielding, absorption gasket, characterized in that the double-sided tape for attachment to the electronic device on the outer side of the polymer resin sheet. The method of claim 1, The cushioning agent is made of a sponge, the sponge is electromagnetic shielding, absorption gasket, characterized in that the conductive sponge non-conductive or electroplated or coated with a metal therein. The method of claim 1, The adhesive is electromagnetic shielding, absorption gasket, characterized in that the non-conductive or conductive containing polyurethane or methacrylic acid (acrylic) or polyethylene terephthalate (PET) or silicone. A sheet manufacturing step of mixing the metal powder or the absorbent powder into the polymer resin to impart conductivity or absorbency and then preparing the polymer resin sheet; An application step of applying an adhesive to one surface of the polymer resin sheet; Forming a gasket having a predetermined shape in which a polymer resin sheet is wrapped with a cushioning agent by passing the adhesive-coated polymer resin sheet through a molding machine; A heating step of melting the adhesive applied to the inside of the polymer resin sheet through a heat mold to attach the polymer resin sheet to the cushioning agent; Cooling step of curing the adhesive through a cooling mold Electromagnetic shielding, absorption gasket manufacturing method comprising a. 12. The method of claim 11, wherein the sheet manufacturing step further comprises attaching a support for supporting the polymer resin sheet on the surface of the polymer resin sheet. The method of claim 11, The cooling step is a electromagnetic shielding, absorption gasket manufacturing method characterized in that the rapid cooling through the cooling mold.

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