KR200446337Y1 - Elastic conductive interface member - Google Patents

Abstract

An elastic electrical connection member having less deformation due to heat and pressure is disclosed. The electrical connection member may include an insulating foamed elastic body having a constant volume; An insulation non-foaming coating layer wrapped around the insulation foam elastic body and adhered thereto; A thermoplastic polymer film wrapped around the insulating non-foamed coating layer and bonded to a flexible nonmagnetic metal foil through a thermoplastic adhesive on a surface and a back surface thereof, respectively; And a double-sided adhesive tape attached to one side of the outer metal foil of the non-magnetic metal foil.

Contact terminal, metal foil, metal foil, soldering, wrinkle, coefficient of thermal expansion

Description

Elastic conductive interface member

The present invention relates to an elastic electrical connecting member, and in particular, one side is fixed to the printed circuit board, the other side is in elastic contact with the opposite object to the elastic electrical connection member for electrically and mechanically connecting the printed circuit board and the object. Related.

In general, the elastic electrical connection member should be excellent in electrical conductivity and elasticity, and is fixed on the printed circuit board by soldering or double-sided pressure sensitive adhesive.

Conventionally, the elastic electrical connection member was prepared by wrapping an electrically conductive fiber coated with a urethane hot melt adhesive on an insulating urethane sponge and adhering by heat, and then attaching a double-sided adhesive tape to the underside of the electrically conductive fiber.

However, such an elastic electrical connection member has a disadvantage in that soldering is not possible and the price of the electrically conductive fiber is high. In addition, the use of electrically conductive fibers tends to generate dust between the electrically conductive fibers, and to cause swelling at the cutting surface or during friction.

Another conventional elastic electrical connection member is manufactured by wrapping a woven fiber bonded with an aluminum foil coated with a urethane hot melt adhesive on an insulating urethane sponge, and then bonding it by heat.

However, such an elastic electrical connection member cannot be soldered, and when the aluminum foil is formed on only one surface and a hole is formed in the aluminum, the electromagnetic shielding effect is inferior. In addition, since the thickness of a conventional woven fiber is relatively thick compared to an aluminum foil having a thickness of 0.04 mm or more and 0.01 mm or more, it is difficult to manufacture an elastic electrical connection member having a small dimension and there is a disadvantage that swelling occurs in the cut surface.

Another conventional elastic electrical connection member is manufactured by wrapping a PET film vacuum-deposited aluminum on an insulating urethane sponge. However, these products do not have good electrical conductivity compared to metal foils, and are relatively expensive in order to improve electrical conductivity, and also have disadvantages that the surface where aluminum is vacuum-deposited by heat is increased by heat during processing by heat and pressure.

Another conventional elastic electrical contact terminal is Patent No. 783588, filed and registered by the present applicant. However, since the “heat resistant polymer film in which the metal layer is integrally formed on the other side” is a metal layer formed on one side, the coefficient of thermal expansion is different from that on which the metal layer is formed and the other side on which the metal layer is not formed when heat and pressure are applied during the manufacturing process. After the manufacturing process by heat, the elastic electrical contact terminals have a disadvantage that wrinkles occur. In addition, since the metal layer is formed only on one side, the side on which the metal layer is not formed maintains only normal polymer properties. Therefore, a high heat resistance polymer film must be used for soldering. In addition, there is usually a disadvantage that the heat-resistant polymer film having such a structure, that is, the price of the polyimide film and the metal foil is expensive.

Another conventional electrically conductive gasket is patent 692299, filed and registered by the applicant. However, the pulp attached to the aluminum foil is a layer structure in which thin pulp is stacked, so that the stacked layers are separated by external force. In addition, the side on which the aluminum foil is attached and the side on which the aluminum foil is not attached have a disadvantage in that wrinkles are generated during the manufacturing process due to heat due to different thermal expansion coefficients. In addition, when the aluminum foil is formed of a single layer and the single-layer aluminum foil is cut by external force, the electromagnetic shielding effect is lowered. Also, products made of aluminum and hot melt adhesives have the disadvantage that they cannot be soldered.

Therefore, the present invention is proposed to solve these problems, and an object of the present invention is to provide a low-cost, elastic electrical connection with less wrinkles after the manufacturing process due to the uniform thermal expansion coefficient of both sides of the polymer film during the manufacturing process using heat and pressure To provide a member.

Another object of the present invention is to provide an elastic electrical connection member in which the polymer film is positioned between metal foils so that the polymer film is less affected by external environmental changes, in particular heat and pressure changes.

Another object of the present invention is to provide an elastic electrical connection member which is inexpensive and solderable.

Another object of the present invention is to provide an elastic electrical connection member having low cost and improving electromagnetic wave shielding effect.

Another object of the present invention is to provide an elastic electrical connection member having a low cost and good processability by heat and pressure.

Another object of the present invention is to provide a reliable elastic electrical connection member by electrically conducting a metal foil bonded to both sides of the polymer film to each other.

Other objects, features and advantages of the present invention will be more clearly understood from the embodiments described below.

The above object is an insulating foamed elastic body having a constant volume; An insulation non-foaming coating layer wrapped around the insulation foam elastic body and adhered thereto; A thermoplastic polymer film wrapped around the insulating non-foamed coating layer and bonded to a flexible nonmagnetic metal foil through a thermoplastic adhesive on a surface and a back surface thereof, respectively; And a double-sided adhesive tape attached to either side of the outer metal foil of the non-magnetic metal foil.

In addition, the above object, the insulating foam elastic body having a constant volume; An insulation non-foaming coating layer wrapped around the insulation foam elastic body and adhered thereto; A thermoplastic polymer film wrapped around the insulating non-foamed coating layer and bonded to a flexible nonmagnetic metal foil through a thermoplastic adhesive on a surface and a back surface thereof, respectively; And a solderable metal plating layer formed on either side of the outer metal foil of the non-magnetic metal foil.

Preferably, the insulating foamed elastomer may be any one of silicone rubber, neoprene rubber, CR rubber, urethane rubber, or urethane resin.

In addition, the insulating non-foaming coating layer may be any one of silicone rubber, urethane resin, or acrylic resin having a thickness of 0.01 to 0.2 mm.

Preferably, the insulating non-foamed coating layer may be formed by heat- or moisture-curing a liquid silicone rubber or may be formed by melting a hot melt resin by heat.

Preferably, the soft, nonmagnetic metal foil may be either copper or aluminum having a thickness of 0.003 to 0.02 mm.

The thermoplastic adhesive is laminated to a thickness of 0.01 mm or less to bond the metal foil and the polymer film.

In addition, the thermoplastic polymer film may be any one of polyethylen terephthalate (PET), polypropylene (PP), polyethylenenaphthelate (PEN) or polyimide (PI) having a thickness of 0.005 to 0.03 mm.

The double-sided adhesive tape may be any one of an acrylic adhesive or a urethane adhesive.

The elastic electrical connection member according to the present invention may be an electromagnetic shielding gasket, an electrical ground terminal, or an electrical on / off terminal.

Preferably, the non-magnetic metal foil may be electrically connected to each other by through holes formed in the polymer film.

Preferably, the sum of the thicknesses of the nonmagnetic metal foils is thicker than the thickness of the polymer film.

Preferably, the plating layer is a plating layer plated with tin.

As described above, the elastic electrical connection member according to the present invention has several advantages as follows.

1) Due to the flexible nonmagnetic metal foil adhered to both sides of the thermoplastic polymer film, the thermal expansion coefficients on the front and back sides of the polymer film are similar in the manufacturing process by heat and pressure, so that the elastic electrical connection member is less wrinkled after the manufacturing process. . In other words, less curl occurs due to the difference in the coefficient of thermal expansion when heat and pressure are applied. In addition, even at a temperature at which the polymer film is softened, the original shape can be maintained by metal foils formed on both surfaces.

2) The polymer film is located between the ductile nonmagnetic metal foils, so that the polymer film is less affected by external environmental changes. For example, polymer films that do not tolerate reflow soldering, such as PET films, can withstand reflow soldering conditions when located between metal foils.

3) Productivity increases due to less influence of polymer film when working by heat and pressure based on metal foil formed on both sides of polymer film.

4) The electromagnetic shielding effect is improved by the nonmagnetic metal foil adhered to both sides of the polymer film.

5) Flexible nonmagnetic metal foils are relatively inexpensive because they use copper or aluminum foils, have good electrical conductivity and flexibility, and are suitable for making products of small dimensions.

6) Soldering is possible because tin plating is possible on copper or aluminum foil.

7) The metal foils adhered to both sides of the polymer film have more reliable quality by energizing each other by through holes formed in the metal foils.

8) Insulating non-foaming coating layer can be used by hardening liquid silicone rubber when soldering is required, and using a urethane-based hot melt adhesive of solid state when soldering is not required.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention.

1 is a perspective view illustrating an elastic electrical connection member according to an embodiment of the present invention, and FIG. 2 is an enlarged cross-sectional view of part A of FIG. 1.

1 and 2, the elastic electrical connection member 100 includes an insulating foamed elastic body 10 having a constant volume, an insulating non-foamed coating layer 20 bonded and wrapped with an insulating foamed elastic body 10, and an insulating non-foamed material. The thermoplastic polymer film 30 and the polymer film 30, which are bonded to the coating layer 20 and adhered to the soft and nonmagnetic metal foils 31 and 35 through the thermoplastic adhesives 32 and 34 on the front and back surfaces thereof, respectively. It includes a double-sided adhesive tape 40 attached to one side of the outer surface of the).

The insulating foamed elastic body 10 may be silicone rubber, neoprene rubber, CR rubber, urethane rubber or urethane resin, and may have dimensions of 5 mm x 3 mm x 10 mm in length, for example. Usually, after a roll operation, it cuts into an appropriate length.

The insulating non-foaming coating layer 20 may be a silicone rubber, urethane resin, or acrylic resin may be applied, and may preferably have a thickness of 0.01 to 0.2 mm.

The insulating non-foaming coating layer 20 may be formed by heat or moisture curing a liquid silicone rubber or may be formed by melting a solid hot melt resin such as a poly urethane hot melt film by heat. When the liquid silicone rubber is cured and formed, it can be soldered due to its heat resistance and is not melted even when heat is applied again.However, when a solid hot melt resin is formed by melting with heat, the soldering is not possible due to the opposite characteristics. Do. On the other hand, a solderable liquid silicone rubber is expensive, and a solid acrylic or urethane hot melt resin that is not solderable is inexpensive.

The thermoplastic polymer film 30 may be polyethylen terephthalate (PET), polypropylene (PP), polyethylenenaphthelate (PEN), or polyimide (PI), and may have a thickness of 0.005 to 0.02 mm, preferably a metal foil 31. Thinner than the combined thickness of (35) and (35) is used because it is less flexible.

When the polyimide is used as the thermoplastic polymer film 30, the solderable heat resistance is high, but the price is high, and when the low cost polyester is used, the polyester film itself has a low heat resistance temperature which is not soldered, but the surface By applying metal foils on the back and back, short-term reflow soldering can be tolerated.

The flexible nonmagnetic metal foils 31 and 35 may use rolled aluminum foils or electrolytic copper foils, and the metal foils 31 and 35 may be of the same kind or different kinds. Since it is a soft metal, it is excellent in flexibility and because it is a nonmagnetic metal, it is inexpensive and has good electrical conductivity. Preferably, it has a thickness of 0.003 to 0.02 mm.

The thermoplastic adhesives 32 and 34 are acrylic adhesives or urethane adhesives, and have a thickness within 0.01 mm. Preferably, the surface and the back of the thermoplastic polymer film 30 are corona treated to improve adhesion, and then the thermoplastic adhesives 32 and 34 are laminated to bond the metal foils 31 and 35 to the polymer film 30. Let's do it.

On the other hand, the double-sided adhesive tape 40 is an acrylic adhesive or a urethane-based adhesive is applied, and is attached to the outer metal foil 31 of the polymer film 30. The double-sided pressure-sensitive adhesive tape 40 may be selected by using any one of electrical conductivity or electrical insulation.

In a specific example of manufacturing the elastic electrical connection member 100 having the above-described structure, for example, the copper adhesive or aluminum foils 31 and 35 are laminated on the surface and the back surface of the PET film 30 with acrylic adhesives 32 and 34. After bonding to form a single polymer film 30, the liquid silicone rubber is poured while wrapping the silicone sponge 10 prepared in advance, and then moisture or heat curing, the liquid silicone rubber is cured to form an insulating non-foamed coating layer ( 20 is formed to bond the polymer film 30 and the silicone sponge 10. Next, the double-sided adhesive tape 40 is attached to the outer surface of the polymer film 30 to manufacture the elastic electrical connection member 100.

The elastic electrical connection member 100 manufactured as described above may be used as an electromagnetic shielding gasket, an electrical grounding terminal, or an electrical on / off terminal.

Preferably, when pressurized while forming a through hole in the monolithic polymer film 30, both metal foils 31 and 35 are electrically connected to each other through the through hole. To this end, for example, when a single polymer film 30 is pressed using a roller having a plurality of pyramidal protrusions, the metal foil 35 is pushed under the through hole while forming a through hole due to good elongation. The adhesives 32 and 34 and the polymer film 30 positioned therebetween have through holes, and accordingly, the metal foil 35 and the metal foil 31 are contacted through the through holes due to the shape, pressure, and through holes of the protrusions. Are electrically connected to each other. Therefore, when the metal foil 31 is damaged, the electrical performance can be maintained by the metal foil 35 and also has better electrical performance than the product in which the metal foil is formed on one side.

On the other hand, in the above embodiment, instead of the double-sided adhesive tape 40, it is possible to form a plating layer plated with a solderable metal such as tin on one side of the metal foil 31. According to this structure, reflow soldering can be performed when surface-mounting the elastic electrical connection member 100. That is, reflow soldering may be performed using an inexpensive polymer film 30 such as polyester (PET) and tin-plated aluminum foil.

In addition, an aluminum foil, which is not solderable to the metal foils 31 and 34, but is inexpensive, may be used, and a metal foil, for example, copper foil, which may be soldered to the outer metal foil 31 may be formed of an electrically conductive adhesive such as an electrically conductive silicone adhesive. It can be made possible to solder by bonding using. According to this structure, the solderable copper foil is expensive as the thinner, but the copper foil adhered to the aluminum foil is advantageous because it can be implemented at low cost because it may be rather thick.

1 is a perspective view showing an elastic electrical connection member according to an embodiment of the present invention.

FIG. 2 is an enlarged cross-sectional view of part A of FIG. 1.

Claims (14)

Insulating foamed elastomer having a constant volume; An insulation non-foaming coating layer wrapped around the insulation foam elastic body and adhered thereto; A thermoplastic polymer film wrapped around the insulating non-foamed coating layer and bonded to a flexible nonmagnetic metal foil through a thermoplastic adhesive on a surface and a back surface thereof, respectively; And And a double-sided adhesive tape attached to one side of an outer metal foil of the non-magnetic metal foil. The method according to claim 1, The insulating foamed elastomer is any one of silicone rubber, neoprene rubber, CR rubber, urethane rubber or urethane resin. The method according to claim 1, The insulating non-foaming coating layer is an elastic electrical connection member, characterized in that any one of silicon-based rubber, urethane-based resin, or acrylic resin having a thickness of 0.01 to 0.2mm. The method according to claim 1 and 3, The insulating non-foaming coating layer is an elastic electrical connection member, characterized in that the liquid silicone-based rubber is formed by heat or moisture curing, or a solid hot melt resin is formed by melting with heat. The method according to claim 1, The flexible nonmagnetic metal foil is any one of copper or aluminum having a thickness of 0.003 to 0.02 mm. The method according to claim 1, And the thermoplastic adhesive is laminated to a thickness within 0.01 mm to bond the metal foil and the polymer film. The method according to claim 1, The thermoplastic polymer film may be any one of polyethylen terephthalate (PET), polypropylene (PP), polyethylenenaphthelate (PEN) or polyimide (PI) having a thickness of 0.005 to 0.03 mm. The method according to claim 1, The double-sided adhesive tape is any one of an electrically conductive or electrically insulating acrylic adhesive or a urethane adhesive. The method according to claim 1, And the elastic electrical connection member is an electromagnetic shielding gasket, an electrical ground terminal, or an electrical on / off terminal. Insulating foamed elastomer having a constant volume; An insulation non-foaming coating layer wrapped around the insulation foam elastic body and adhered thereto; A thermoplastic polymer film wrapped around the insulating non-foamed coating layer and bonded to a flexible nonmagnetic metal foil through a thermoplastic adhesive on a surface and a back surface thereof, respectively; And And a solderable metal plating layer formed on one side of an outer metal foil of the non-magnetic metal foil. The method according to claim 1 or 10, And the non-magnetic metal foil is electrically connected to each other by through holes formed in the polymer film. The method according to claim 1 or 10, And the sum of the thicknesses of the nonmagnetic metal foils is thicker than the thickness of the polymer film. The method according to claim 10, And the plating layer is a plating layer plated with tin. Insulating foamed elastomer having a constant volume; An insulation non-foaming coating layer wrapped around the insulation foam elastic body and adhered thereto; A thermoplastic polymer film wrapped around the insulating non-foamed coating layer and bonded with a flexible aluminum metal foil on a surface thereof and a rear surface thereof with a thermoplastic adhesive; And And a copper foil bonded to one side of an outer metal foil of the metal foils through an electrically conductive adhesive.

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