KR200240355Y1 - Electroconductive adhesive tape - Google Patents

Abstract

The present invention relates to a conductive adhesive tape used in the field of bonding, fixing or connecting while imparting electrical conductivity, including electrical and electronic products.

The present invention relates to a conductive adhesive tape formed by forming a metal plating layer on both sides of a perforated synthetic resin film and applying a conductive adhesive layer on one side of the metal plating layer to make the entire thickness of the tape extremely thin. The present invention relates to a conductive adhesive tape that can be formed integrally to provide excellent electrical conductivity, thinness, high tensile strength, and high flexibility, thereby improving adhesion and maintaining excellent conductivity and adhesion.

Description

Electroconductive adhesive tape {Electroconductive adhesive tape}

The present invention relates to a conductive adhesive tape formed by forming a metal plate layer on both sides of a perforated synthetic resin film and forming a conductive adhesive layer on one surface of the metal plated layer. Conductive adhesive tapes are widely used in the fields of bonding, fixing, or connecting while providing electrical conductivity, including electrical and electronic products.

Conductive adhesive tape plays a role of fixing Braun tube when assembling video equipment such as TV, and removes electricity by electrostatic and electromagnetic wave accumulated on outer surface of Braun tube or in assembly process of automobile or electronic product. It is widely used.

In general, the CRT is made of glass and the inside is vacuum, so it can be damaged by external shock. Therefore, the CRT can not be directly fixed to the casing or housing, but the metal bracket is fixed to the circumference of the CRT. Secure the CRT to the casing or housing.

Thus, by fixing the CRT to the bracket using a buffer tape, the breakage of the CRT can be prevented and the scattering of fragments can be minimized even when the CRT explodes due to an external impact or accident.

The adhesive tape used to fix the iron brackets to the CRT is explosion-proof tape. The reason why the explosion-proof tape is conductive is to prevent the discharge of static electricity accumulated on the outer edge of the CRT. Since this explosion-proof tape requires a high tensile force, fiberglass mesh is mainly used as a tape base material.

CRTs used in video equipment such as televisions require extremely high voltages inside because of the way the images are formed. As a result, when the static electricity is generated in the outer edge portion and the static electricity cannot be removed, the magnetic field and the electric field are formed by the accumulation of static electricity, and electromagnetic waves are emitted to the outside of the CRT. do.

In order to prevent the accumulation of static electricity and to block electromagnetic waves emitted to the outside, various methods have been attempted at present. One of these methods uses the conductive adhesive tape as shown in FIG. It is a way to get rid of it.

The conductive adhesive tape used in the assembly of the CRT is to cut the CRT and the tape used to fix the CRT directly to the iron bracket. Afterwards, the iron bracket 4 is connected to each other so that the static electricity is discharged through the earth circuit 3 provided in the cabinet via the bracket.

As a conductive adhesive tape conventionally used for such a purpose, as shown in FIG. 2, a conductive metal foil 11 such as copper and aluminum, a conductive adhesive 10, and a release paper 12 are used. It is commonly used. Of course, when using the adhesive tape, remove the release paper.

For example, as shown in FIG. 1, when the CRT is divided into several zones, the surface of the display part (shown as a display) (1) that shows an image, such as carbon or conductive ceramic, The conductive material 2 is coated and energized using surface treatment techniques such as vapor deposition, sputtering, or ion plating, and is made of electromagnets. The deflection york, which serves as a stabilizer for the electron beam emitted from the, is fitted with a funnel-shaped metal sheet (8) to block the emission of electromagnetic waves, and other parts of the CRT surface. The conductive adhesive tape 7 is attached to the substrate to block the accumulation of static electricity and the emission of electromagnetic waves.

In FIG. 1, (3) is an earth circuit, (4) is an iron bracket, (5) is a silicone resin film that insulates the external emission of high-voltage current from an anode, and (6) is an anode (16 ) Is explosion proof tape.

The conductive adhesive tape used for the CRT assembly is thin and flexible because it can maintain a good appearance after assembly without being easily broken when it is thin and has high tensile strength. It is required to have high tensile strength and good electrical conductivity while having.

Conventional conductive tapes are constructed by bonding conductive metal foils, such as aluminum foil and copper foil, with a conductive adhesive layer as shown in FIG. 2 or by releasing the surface of the conductive metal foil. Some are configured to be wound without.

Herein, the conductive adhesive refers to an adhesive that maintains proper conductivity according to the amount of the metal powder added by adding a predetermined amount or more of metal powder to the adhesive material obtained by dissolving a rubber or acrylic resin in an organic solvent.

The addition amount of metal powder, such as copper, aluminum, nickel, chromium, and graphite, is 50 to 200 parts by weight of the conductive metal powder having a size of 2 to 5 탆 with respect to about 100 parts by weight of the adhesive material.

However, the conventional conductive adhesive tape composed of a metal foil layer and a conductive adhesive layer has a problem that the metal foil is easily wrinkled or torn because of poor flexibility and elongation, and thus the adhesive strength to the curved surface is inferior.

Metal foil is 20 ~ 65μ thick, which is relatively thick, so it is easily wrinkled and wrinkled when bonding with steel brackets, so it is difficult to adhere to the surface. For uniform surface adhesion on curved surfaces, it is inconvenient to apply artificial force or close by using jig, and the metal foil layer is wrinkled well, resulting in poor appearance. There is. These adhesive tapes are mainly used only for electrical conductivity and do not require tensile strength. However, the pressure-sensitive adhesive tape has a drawback in that the thickness of the tape is too thick to increase the production cost.

Another type of adhesive tape is a conductive adhesive tape formed by depositing a metal deposition layer on one surface of a synthetic resin film and applying a conductive adhesive on the metal deposition layer (Korean Patent Registration No. 10-0267814). Although there is a problem, a conductive adhesive tape obtained by coating a surface of a mesh fabric of polyester yarn with a metal as a base material of a tape and applying a conductive adhesive to it has been proposed. (Korean Utility Model Publication No. 1998-065059) Plating the surface of a fabric with metal has a difficult process that involves a complicated process.

An object of the present invention is to provide a conductive adhesive tape that is very thin, flexible, high tensile strength, and can maintain excellent electrical conductivity.

1 is an exemplary view showing an electromagnetic wave blocking method of a conventional CRT.

Figure 2 is an illustration of a conventional conductive adhesive tape.

3 is a view showing a process of forming a metal plating layer on both sides of the perforated synthetic resin.

Figure 4a is a view showing a conductive adhesive tape of the present invention.

4B and 4C are exemplary views of the perforated synthetic resin film used in the present invention.

5 is an exemplary view showing a conductive adhesive tape (explosion proof tape) of the present invention using a glass fiber mesh cloth.

Explanation of symbols on the main parts of the drawings

1: Display part (display) 2: Conductive material 3: Earth circuit

4 steel bracket 5 silicon resin film 6 anode

7 conductive adhesive tape 8 metal sheet 9 electron gun

DESCRIPTION OF SYMBOLS 10 Conductive adhesive 11 Metal foil 12 Release paper

13: metal plating layer 14: synthetic resin film 15: glass fiber mesh

16: explosion proof tape

The present invention relates to a conductive adhesive tape formed by forming a metal plating layer on both sides of a synthetic resin film perforated in a circular or square shape of a certain size as shown in Figures 4b and 4c and a conductive adhesive layer on one surface thereof.

The synthetic resin film that can be used in the present invention may be any synthetic resin film used as a base of a conventional adhesive tape such as polyethylene, polypropylene, polyethylene terephthalate (hereinafter referred to as PET), and nylon film.

The metal forming the plating layer may be selected from copper, aluminum, brass, tin, nickel, chromium, silver, and the like.

The conductive adhesive is already used in this field, and is prepared by adding 50 to 200 parts by weight of the conductive powder having a thickness of 5 μ or less selected from copper, aluminum, nickel, chromium, graphite, and the like to about 100 parts by weight of the adhesive material.

If the thickness of the metal plating layer is about 1 ~ 5μ and the thickness of the synthetic resin film is about 20 ~ 65μ, and the thickness of the conductive adhesive layer is about 30 ~ 40μ, then the tape is composed, the overall thickness of the tape is about 50 ~ 100μ. have.

The metal plating layer has surface treatment techniques such as vacuum deposition, electroless metal plating sputtering, ion plating, chemical vapor deposition or physical vapor deposition. It can be formed by using.

The conductive adhesive tape of the present invention is less likely to be wrinkled than the conductive adhesive tape having a known metal foil layer, and can be given a desired color according to the selection of the metal. Since oxidation of the deposited layer does not occur, there is an advantage such that no decrease in dielectric constant occurs. In particular, since the metal plating layer on the front and back surfaces is integrally formed through the perforated holes of the synthetic resin film, it has the property of maintaining excellent electrical conductivity. Hereinafter, the tape manufacturing method of the present invention will be described with reference to Examples.

Example

<Conductive Adhesive>

100 parts by weight of the acrylic pressure-sensitive adhesive having a solid content of 40% and 50 parts by weight of an average particle size of 5 mu copper powder are uniformly mixed to obtain a conductive adhesive.

The conductive adhesive is an adhesive already used in this field.

<PET film>

Prepare a 20 μm thick PET film.

The PET film 1cm 4 ~ 20-hole per ^second gives bored by punching (Punching).

At this time, the size of the punching hole is suitable about 0.5 ~ 1.0mm. This hole can be drilled in a circular shape, or in some cases, it can be drilled in a square shape.

<Production of Conductive Adhesive Tape>

When the PET film having a hole is evaporated while moving at a constant speed in the vacuum deposition tank, the metal layer is deposited on the PET film in the form shown in FIG. 3.

At this time, the Al deposition layer is deposited to have a thickness of about 3μ. Techniques for depositing metals on such synthetic resin films are well known in the art.

When the conductive adhesive is applied and dried to a thickness of about 30 mu on one surface of the PET film on which the metal deposition layer thus obtained is formed, the adhesive tape of the present invention is completed as shown in FIG. Thus, the thickness of the whole adhesive tape becomes about 60 micrometers.

<Production of Explosion Proof Tape>

Explosion-proof tapes require high tensile strength, and glass fiber mesh is mainly used as a tape substrate.

* Laminating a glass fiber mesh cloth on one surface of the PET film formed with the metal deposition layer obtained in the above embodiment and forming a conductive pressure-sensitive adhesive layer on the glass fiber mesh cloth surface based on the glass fiber mesh cloth and synthetic resin film The explosion-proof tape of the present invention is constructed.

The conductive adhesive tape of the present invention can be configured to have a very thin thickness, is flexible, has a high tensile strength, and has an effect of maintaining excellent electrical conductivity.

Claims (4)

A conductive adhesive tape comprising a metal plated layer (13) formed on both surfaces of a perforated synthetic resin film (14) and a conductive layer (10) formed on one surface of the metal plated layer. The conductive adhesive tape according to claim 1, wherein the synthetic resin film is selected from polyethylene film, polyfuropropylene film, polyethylene terephthalate film and nylon film. The conductive adhesive tape according to claim 1, wherein the metal of the metal plating layer is selected from copper, aluminum, silver, brass, tin, nickel, and chromium. The conductive adhesive tape according to claim 1, wherein a glass fiber mesh cloth (15) is inserted between the metal plating layer and the conductive adhesive layer.