KR101326725B1 - Adhesive sheet having the effect of shielding electromagnetic wave - Google Patents

Abstract

The present invention relates to an adhesive sheet having an excellent electromagnetic shielding effect, and more particularly, a first adhesive layer, a second adhesive layer formed on the upper surface of the first adhesive layer, and a first surface formed on the upper surface of the second adhesive layer. A printed layer, an aluminum deposition layer formed on the upper surface of the above-mentioned first printing layer, a primer layer formed on the upper surface of the above-mentioned aluminum deposition layer, a second printing layer formed on the upper surface of the above-described primer layer, and the above-mentioned It is made of a hard coating layer formed on the upper surface of the second printing layer.
The adhesive sheet excellent in the electromagnetic wave blocking effect of the above-described structure is excellent in blocking the electromagnetic waves generated from the FPCB and LED substrates, it has the effect of suppressing the phenomenon such as noise generation of the mobile phone, screen shaking of the display device.

Description

Adhesive sheet with excellent electromagnetic shielding effect {ADHESIVE SHEET HAVING THE EFFECT OF SHIELDING ELECTROMAGNETIC WAVE}

The present invention relates to an adhesive sheet having an excellent electromagnetic shielding effect, and more particularly, to excellent effects of blocking electromagnetic waves generated from FPCB and LED substrates, thereby suppressing phenomena such as noise suppression of mobile phones and screen shaking of display devices. It relates to an adhesive sheet.

The present invention relates to an adhesive sheet having an excellent electromagnetic shielding effect, and more particularly, to excellent effects of blocking electromagnetic waves generated from FPCB and LED substrates, thereby suppressing phenomena such as noise suppression of mobile phones and screen shaking of display devices. It relates to an adhesive sheet.

Recently, as the development speed of mobile phone and display device related technologies has progressed very rapidly, the demand for miniaturization, light weight, and high integration of various functions of communication optical electronic components is increasing day by day.

In particular, the latest electronic components require their own flexibility, and flexible printed circuit boards (FPCBs) with these characteristics can be attached and inserted in a relatively small space so that the components in a limited space are limited. It is possible to effectively use three-dimensional space in the case. Such flexible printed circuit boards are composite parts that provide functions to cable and connector devices as well as circuit wiring devices, and their application fields are continuously increasing.

A conventional flexible printed circuit board is a flexible base film and a circuit wiring layer made of polyimide or polyester having heat resistance, conductivity and excellent mechanical properties, and a metal foil is patterned, and an adhesive layer is bonded to one side of the base film. The foil is made in the form of a completely laminated sheet.

Such a flexible printed circuit board includes a cover film or a bonding plate, and the cover film is to protect metal foil, which is a circuit wiring layer of the flexible printed circuit board, and to improve flexibility, and the bonding plate simultaneously connects two flexible printed circuit boards. By combining, it is used to manufacture a multilayer flexible printed circuit board.

In the flexible printed circuit board, various electronic devices are mounted on it by surface-mount technology. In order for the flexible printed circuit board to be used as a surface-mount product substrate material, the cover film and the bonding plate constituting the flexible printed circuit board have excellent processability. In addition to having excellent flexibility, high heat resistance and good electrical properties, it should have good interfacial adhesion.

On the other hand, as the trend of light and short reduction of mobile phones and display electronic devices has recently progressed, the signal transmission speed between components in the device has been increased, and as the circuit board has high density and fine circuitization, signal interference due to the occurrence of electromagnetic noise between adjacent circuits The damage of the phenomenon (EMI) is on the rise. In particular, the electromagnetic shielding measures are indispensable in an electronic device in which a flexible printed circuit board is frequently used.

In order to effectively block such electromagnetic waves, it is necessary to enclose the substrate circuit in a conductive film with excellent electrical conductivity and to devise the electromagnetic waves generated from the inside through the conductor. Generally, a metal thin film such as aluminum foil or silver foil having high conductivity is used. Products such as a conductive adhesive sheet for uniformly applying a conductive paste prepared by adhering or dispersing conductive powder in a binder resin to a surface of a circuit board, or forming a conductive paste into a sheet by heating are applied. In particular, in the case of flexible printed circuit boards requiring repeated bending characteristics, the bending characteristics are poor in the case of a thin metal film or a liquid paste paint, and thus there is a limitation in use.

Processes for manufacturing flexible printed circuit boards and mounting parts include high-temperature press processes and soldering processes. In order to reliably perform the above processes, electromagnetic shielding with excellent heat resistance, adhesion, bending resistance, and conductivity is required. An adhesive sheet is required.

In addition, recently, in order to miniaturize mobile devices such as mobile phones and display devices, adhesive sheets having a low thickness and low manufacturing cost are required.

An object of the present invention is to provide an adhesive sheet excellent in heat resistance, adhesion, bending resistance, insulation and electromagnetic wave blocking effect.

Another object of the present invention is to provide an adhesive sheet having a thin thickness and low manufacturing cost.

Still another object of the present invention is to provide an adhesive sheet having excellent isotropic effect and electrical properties by mixing aluminum, graphite and carbon nanotubes.

An object of the present invention is a first adhesive layer, a second adhesive layer formed on the upper surface of the first adhesive layer, a first printing layer formed on the upper surface of the second adhesive layer, aluminum formed on the upper surface of the first printing layer A deposition layer, a primer layer formed on an upper surface of the aluminum deposition layer, a second printing layer formed on an upper surface of the primer layer, and a hard coating layer formed on an upper surface of the second printing layer to block electromagnetic waves. The electromagnetic wave shielding effect is achieved by providing an excellent adhesive sheet.

According to a preferred feature of the present invention, the second adhesive layer is made of an epoxy resin in which carbon nanotubes are dispersed.

According to a more preferred feature of the invention, the second adhesive layer is to be formed to a thickness of 3 to 12 micrometers.

According to a further preferred feature of the invention, the first printed layer is to be made of one or more selected from the group consisting of graphite and carbon black.

According to a still further preferred feature of the present invention, the first printing layer is composed of 70 to 80 parts by weight of graphite and 20 to 30 parts by weight of the metal material.

According to a still further preferred feature of the present invention, the metal material is one selected from the group consisting of aluminum, nickel, copper and silver.

According to a further preferred feature of the invention, the primer layer is made of an insulating primer is applied to 0.01 to 3g / m ² .

Adhesive sheet having excellent electromagnetic wave blocking effect according to the present invention is excellent in physical properties such as heat resistance, adhesion, bending resistance and insulation, and exhibits excellent electromagnetic wave blocking effect.

Moreover, the thickness is thin and manufacturing cost is low.

In addition, it is a composite of aluminum, graphite and carbon nanotubes, and exhibits excellent isotropic effect and electrical properties.

1 is an exploded perspective view showing an adhesive sheet excellent in the electromagnetic wave blocking effect according to the present invention.
2 is a photograph showing an FPCB to which an adhesive sheet having excellent electromagnetic wave blocking effect according to the present invention is applied.

Hereinafter, preferred embodiments of the present invention and physical properties of the respective components will be described in detail with reference to the accompanying drawings. However, the present invention is not limited thereto, And this does not mean that the technical idea and scope of the present invention are limited.

The adhesive sheet excellent in the electromagnetic wave blocking effect according to the present invention is the first adhesive layer 10, the second adhesive layer 20 formed on the upper surface of the first adhesive layer 10 described above, the upper portion of the second adhesive layer 20 described above. The first printing layer 30 formed on the surface, the aluminum deposition layer 40 formed on the upper surface of the first print layer 30 described above, the primer layer formed on the upper surface of the aluminum deposition layer 40 described above 50, the second printing layer 60 formed on the upper surface of the above-described primer layer 50, and the hard coating layer 70 formed on the upper surface of the second printing layer 60 described above to block electromagnetic waves. Is done.

The first adhesive layer 10 is made of a silicone-based adhesive, and is formed with a thickness of 2 to 40 micrometers, imparts adhesion to the adhesive sheet excellent in the electromagnetic wave blocking effect according to the present invention, and the second adhesive layer 20 described above. ) And protects current from FPCB and LED substrates.

The second adhesive layer 20 described above is formed on the upper surface of the first adhesive layer 10 described above to bond the first adhesive layer 10 and the first print layer 30 to the above-described first adhesive layer 10. It is desirable to exhibit conductivity so that the current delivered from the adhesive layer 10 can flow.

More specifically, the second adhesive layer 20 is made of an epoxy resin in which carbon nanotubes are dispersed, and is formed to a thickness of 3 to 12 micrometers. As described above, carbon nanotubes are formed in the epoxy resin. When dispersed, the heat resistance is 200 ° C. or higher, the surface resistance is 10 ² or less, excellent electrical conductivity, and a second adhesive layer 20 having thermosetting property is formed.

In this case, the above-described carbon nanotubes are more than 16 times higher in electrical conductivity than copper, 8 times more thermally than aluminum, and 3 times more than diamond, and have excellent chemical resistance and high absorption rate for light waves. Therefore, the second adhesive layer 20 described above is excellent in electrical conductivity, thermal conductivity, chemical resistance, and electromagnetic wave absorbing effect.

In addition, the aspect ratio of 1,000 has a fibrous organizational structure, which makes it possible to reduce the weight and size of the product.

At this time, the above-mentioned second adhesive layer 20 is preferably mixed with 1 to 5 parts by weight of carbon nanotubes to 100 parts by weight of the epoxy resin, and is prepared in a form in which the carbon nanotubes are evenly dispersed.

The second adhesive layer 20 composed of the aforementioned components is environmentally friendly through the use of carbon nanotubes, and exhibits the effect of emitting far infrared rays.

The first printed layer 30 is formed on the upper surface of the second adhesive layer 20 described above with a thickness of 1 to 4 micrometers, and is made of one or more selected from the group consisting of graphite and carbon black to provide excellent electrical conductivity. As shown, the current transmitted from the second adhesive layer 20 described above can be transmitted to the aluminum deposition layer 40 described above.

In addition, the above-described first printing layer 30 may be composed of 70 to 80 parts by weight of graphite and 20 to 30 parts by weight of the metal material, wherein the metal material is one selected from the group consisting of aluminum, nickel, copper, and silver. It is preferable.

In this case, the above-described first printing layer 30 is formed through a general printing and coating method.

The above-described aluminum deposition layer 40 is formed on the upper surface of the above-described first printing layer 30 to a thickness of 100 Angstroms (angstrom) to 2 micrometers, the excellent electric wave blocking effect of the adhesive sheet according to the present invention It serves to shape the resistance and is formed through general deposition or printing.

The aforementioned primer layer 50 is formed on the upper surface of the aluminum deposition layer 40 described above, and serves to improve the adhesion between the aluminum deposition layer 40 and the second printing layer 60 described above. .

In this case, the above-described primer layer 50 is formed by applying an insulating primer at a surface density of 0.01 to 3 g / m ² on the upper surface of the aluminum deposition layer 40 described above, wherein the primer described above may be any It may be used, and is not particularly limited, but it is preferable to use one containing a primer prepared by condensation of acrylamide or methacrylamide with an aldehyde component such as aminoaldehyde or monoaldehyde, and considering mechanical properties, More preferably, those containing polyethyleneimine are used.

The above-described second print layer 60 is formed on the upper surface of the above-described primer layer 50 to a thickness of 1 to 5 micrometers, it is made of an insulating black ink.

In addition, the above-described second printing layer 60 not only imparts color to the adhesive sheet having excellent electromagnetic wave blocking effect according to the present invention, but also provides concealability, and is made of black ink having excellent insulation, and blocks penetration of external current. And, by forming a stable insulating layer to block the current generated from the inside to be transmitted to the outside to provide an adhesive sheet maximized electrical stability.

The hard coating layer 70 is formed to a thickness of 1 to 5 micrometers of the upper surface of the second print layer 60 described above to block electromagnetic waves, and the second print layer 60 described above from scratches or external impacts. Serves to protect the

At this time, the above-mentioned hard coating layer 70 is composed of 100 parts by weight of polythiophene insulating polymer aqueous solution, 15 to 25 parts by weight of alkoxysilane and 1 to 3 parts by weight of silica sol, the above-mentioned conductive polymer aqueous solution is polyethylene dioxythiophene It is preferable that the concentration of the solid content of the polystyrene sulfonate is 1.0 to 1.5% by weight, and the aforementioned alkoxysilane is alkyltriethoxysilane [RSi (OR 1) 3], wherein R is methyl, ethyl, propyl, and isobutyl , Methoxy or ethoxy, and R 1 is methyl or ethyl.

The hard coating layer 70 made of the above-described components suppresses the emission of the electromagnetic waves transmitted from the second printing layer 60 to the outside, thereby preventing noise generation of the mobile phone and screen shaking of the display device. .

As described above, the adhesive sheet having excellent electromagnetic wave blocking effect according to the present invention is a composite of aluminum, graphite, carbon nanotubes, etc., which exhibits excellent isotropic effect and electrical properties, and has physical properties such as heat resistance, adhesiveness, flex resistance, and insulation. Not only does this exhibit excellent, excellent electromagnetic wave shielding effect, but also a thin thickness and low manufacturing cost.

10; First adhesive layer
20; 2nd adhesive layer
30; First print layer
40; Aluminum Deposition Layer
50; Primer layer
60; Second print layer
70; Hard coating layer

Claims (7)

A first adhesive layer;
A second adhesive layer formed on an upper surface of the first adhesive layer;
A first printing layer formed on an upper surface of the second adhesive layer;
An aluminum deposition layer formed on an upper surface of the first printing layer;
A primer layer formed on an upper surface of the aluminum deposition layer;
A second printing layer formed on an upper surface of the primer layer; And
Is formed on the upper surface of the second printing layer and a hard coating layer to block electromagnetic waves;
The second adhesive layer is an adhesive sheet excellent in the electromagnetic wave blocking effect, characterized in that the carbon nanotubes dispersed in an epoxy resin.
delete The method according to claim 1,
The second adhesive layer is an adhesive sheet excellent in electromagnetic shielding, characterized in that formed in a thickness of 3 to 12 micrometers.
The method according to claim 1,
The first printed layer is an adhesive sheet excellent in the electromagnetic wave blocking effect, characterized in that consisting of at least one selected from the group consisting of graphite and carbon black.
The method according to claim 1,
The first printed layer is an adhesive sheet excellent in the electromagnetic wave blocking effect, characterized in that consisting of 70 to 80 parts by weight of graphite and 20 to 30 parts by weight of the metal material.
The method according to claim 5,
The metal material is an adhesive sheet excellent in electromagnetic shielding effect, characterized in that consisting of one selected from the group consisting of aluminum, nickel, copper and silver.
The method according to claim 1,
The primer layer is excellent adhesive sheet, characterized in that the insulating primer is applied to 0.01 to 3g / m ² applied.

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