KR20090036266A - Adhesive tape for emi shielding gasket with hot-melt adhesive coating layer - Google Patents

Abstract

A heat adhesive type double sided tape is provided to save the manufacturing costs and to prevent the separation of gasket and tape by using a hot melt adhesive. A hot-melt adhesive tape for electromagnetic shielding gaskets is adhered to one surface of a gasket in order to fix the gasket for shielding electromagnetic waves shielding to objects. The heat adhesive type double sided tape comprises a band-shaped substrate(10); an adhesive layer(20) coated on one surface of both surfaces of a base material; and a hot-melt layer(30) coated on the other surface of the base material.

Description

Heat-adhesive double-coated tape for electromagnetic shielding gasket with improved lifting {ADHESIVE TAPE FOR EMI SHIELDING GASKET WITH HOT-MELT ADHESIVE COATING LAYER}

The present invention relates to a double-sided adhesive tape for electromagnetic wave shielding gaskets, that is, a double-sided adhesive tape used to attach to one surface of the gasket to fix the electromagnetic shielding gasket to the adherend, and more particularly, acrylic adhesive on both sides of the central substrate. Unlike conventional double-coated adhesive tape coated with hot melt adhesive, it is possible to reduce the manufacturing cost and effectively prevent the separation of tape and gasket that occurs frequently when using conventional tape. In addition, the present invention relates to a new type of double-sided adhesive tape for electromagnetic shielding gasket, which can expect various advantageous effects such as reduction of aging time, suppression of defective products, and applicability to various uses.

In general, all electronic devices that use electricity, such as mobile communication terminals, notebook computers, and office equipment, emit electromagnetic waves to their surroundings during operation. Unnecessary interference between the liver has caused problems of so-called Electro Magnetic Interference (EMI) such as malfunction of the device. In addition, in the case of electromagnetic waves generated from electronic devices, it has been reported that the temperature of biological tissue cells is increased due to the thermal action, thereby adversely affecting the human body such as weakening immune function or genetic modification. The necessity of electromagnetic shielding has been emphasized in recent years so that the influence of the human body does not affect the human body.

Accordingly, in the case of various electronic products that generate electromagnetic waves, appropriate shielding treatments are performed to block the leakage of electromagnetic waves generated from internal devices to the outside. Usually, it is unnecessary to leak to the outside of a device through a gap between a connection part or a joint of a case. Conductive gaskets are widely used as shielding members for the purpose of blocking electromagnetic waves.

Electromagnetic shielding gaskets are currently developed and used in various forms, and in general, conductive fibers are formed around the core 1 of an elastic material that is linearly formed to have a constant cross-sectional shape as shown in the example shown in FIG. Gaskets having a configuration in which the fabric 2 is wrapped are often used. Here, the elastic core 1 is manufactured in various forms (for example, a rectangular cross section as shown, or a semi-circular shape, a flat plate shape, and a plurality of special shapes) according to the position where the gasket is installed. The elastic core 1 is mainly elastic such as a foamed polyurethane sponge or the like. The conductive fiber fabric 2 is made of a conductive powder by coating a conductive powder on a non-conductive fiber fabric such as polyester to have electrical conductivity and laminating a hot melt adhesive on one side of the conductive fiber fabric. The hot melt is bonded to surround the circumferential surface of the elastic core 1 to impart electromagnetic shielding performance to the gasket and to secure the conductive performance with the adherend.

On the other hand, the conductive shielding gasket as described above is configured to be attached to an electronic product requiring shielding by additionally attaching a separate double-sided tape 3 on the outer surface in order to apply to electronic products. Here, in the double-sided tape used in the conductive gasket, conventionally, a pressure sensitive double-sided tape, that is, an adhesive material such as acrylic tacks is applied to both sides of a thin central substrate, thereby forming both adherends (gaskets, One-sided double-sided tape was widely used to bond electronic products together.

However, when manufacturing the electromagnetic shielding gasket using a common double-sided tape as described above, there are various problems as follows, there was a need for improvement. That is, in the manufacturing process of a general conductive gasket, the hot melt adhesive is melted by heating and extruding the conductive fabric coated with a hot melt adhesive on one surface and the elastic core at one side thereof, thereby bonding the elastic core and the conductive fabric to form a gasket. After the manufacturing process, the hot manufactured gasket is rapidly cooled through a cooling mold to increase the production speed, and then the adhesive double-sided tape is attached thereto to manufacture the final conductive gasket.

At this time, in the manufacturing process of the conductive gasket as described above, the water film phenomenon that the water vapor condenses on the surface of the gasket occurs due to rapid temperature fluctuations in the process of heating for melting the adhesive hot melt and then passing it through the cooling mold again. In this case, when the double-sided tape is attached as in the state in which the water film is generated on the surface, a smooth adhesion is not achieved and thereafter, a 'floating' phenomenon in which the acrylic adhesive of the double-sided tape is separated from the gasket occurs.

In addition, according to the conductive gasket manufacturing process as described above, as the gasket made of a fiber fabric is drawn out while passing through the heating mold, the gasket is temporarily stretched, and in this state, the existing acrylic adhesive double-sided tape is attached. If the gasket fabric is restored to its original state after a short time from about 30 minutes to about 1 hour, the double-sided tape and the gasket are separated and there is a problem of lifting.

In addition, the conventional conductive double-coated tape using a pressure-sensitive adhesive has a disadvantage in that the production cost increases because it is considerably expensive in terms of cost, and thus the cost is lower, which can reduce the cost and prevent the occurrence of secondary defects. Therefore, there is a demand for development of a new double-sided tape for gasket, which is advantageous for quality control and can be provided with various characteristics.

Accordingly, the present invention is conceived in view of the general problems presented when manufacturing a conductive gasket using a conventional double-sided tape for a conventional gasket as described above, specifically the present invention is coated with an acrylic adhesive on both sides of the central substrate Unlike double-sided adhesive tapes, the use of hot melt adhesives with general or functional properties on one side can reduce manufacturing costs and effectively lift the tapes and gaskets that often occur when using conventional tapes. The technical problem to be solved is to provide a new type of double-sided adhesive tape for electromagnetic shielding gaskets that can be prevented and to expect various advantageous effects such as reducing the aging time, suppressing defective products, and applicability to various applications. Shall be.

In order to achieve the above technical problem, in the present invention, in a double-sided tape for gasket used to attach to one surface of the gasket to fix the electromagnetic shielding gasket to the adherend, a strip-shaped central substrate located at the center of the tape A layer; An adhesive layer coated on one side of both surfaces of the central substrate layer; It provides a heat-adhesive double-sided tape for electromagnetic shielding gasket comprising a; and a hot melt layer coated on the other side of the central substrate layer as a characteristic configuration for the present invention.

At this time, in the present invention as described above, a release paper layer may be further provided on the surface of the pressure-sensitive adhesive layer.

In addition, in the present invention as described above, the hot melt forming the hot melt layer is preferably a polyester hot melt, and the pressure-sensitive adhesive forming the pressure-sensitive adhesive layer is preferably an acrylic, silicone or rubber pressure sensitive adhesive.

In addition, in the present invention, it is more preferably configured to impart various functionalities such as conductivity, flame retardancy, flame retardant conductivity by further dispersing any one or more components of the conductive powder and flame retardant powder in the hot melt constituting the hot melt layer.

According to the present invention having the above-described configuration, unlike the conventional double-sided adhesive tape coated acrylic adhesive on both sides of the central substrate, by using a hot melt adhesive on one side can reduce the manufacturing cost and at the same time There is an effect that can effectively prevent the lifting and separation of the tape and gasket that occurs frequently when using the tape.

In addition, in the present invention, as the hot melt adhesive, it is also possible to use a hot melt adhesive provided with functional properties by adding various additives such as conductive powder or flame retardant powder in addition to general hot melt, in which case conductive hot melt, flame retardant hot melt or conductive flame retardant hot melt More advantageous effects can be expected to provide double-sided tape for heat-adhesive gaskets having various uses and ranges.

Hereinafter, with reference to the accompanying drawings will be described in more detail with respect to the double-sided adhesive tape for electromagnetic shielding gasket of the present invention.

2 is a cross-sectional view of a heat-adhesive double-sided tape for electromagnetic shielding gasket according to the present invention. The double-sided adhesive tape 1 for electromagnetic wave shielding gasket provided in the present invention is used to be attached to one surface of the shielding gasket to fix the electromagnetic shielding gasket to the adherend, the basic configuration of which is shown in FIG. The center base layer 10 and the pressure-sensitive adhesive layer 20 coated on one side of the center base layer and the hot melt layer 30 coated on the other side of the center base layer may be formed.

That is, the double-sided adhesive tape for electromagnetic wave shielding gasket provided in the present invention, unlike the double-sided tape, which is generally used in the electromagnetic wave shielding gasket, forms an adhesive layer by using a common acrylic adhesive on both sides of the substrate, the center base layer One side of the two surfaces of (10) is the adhesive layer 20 is formed on the coating as in the conventional, but the other main surface is characterized in that the hot melt layer 30 is formed using a hot melt adhesive is the most major technical features distinguished from the prior art Has

Therefore, in applying the double-sided tape of the present invention to the conductive gasket as described above, the hot-melt layer 30 of the double-sided tape for gasket of the present invention is integrally laminated to the gasket by heat fusion, and thus the double-sided tape of the present invention. In the case where the conductive gasket is applied to the adherend, the general adhesive layer 20 on the opposite side may be pressed to a portion to be installed such as an electronic product so as to be installed by pressure-sensitive adhesion.

Hereinafter, the configuration of the double-sided tape for electromagnetic shielding gasket of the present invention as described above in detail for each component.

In the double-sided adhesive tape for electromagnetic wave shielding gasket of the present invention, the center base layer 10 is located at the center of the tape to serve as the overall support material, the material is a thin synthetic resin film such as polyethylene terephthalate (PET) Any one of various materials, such as mesh fabric, nonwoven fabric, and rubber sheet, can be selected and used. In addition, the synthetic resin film can be replaced with any one of polypropylene (PP), polyethylene (PE), polystyrene (PS), polycarbonate (PC), polyimide, polyurethane, nylon or PVC film in addition to the PET film, mesh fabric Silver polyester, polyvinyl chloride (PVC) or nylon can be selected and used. Rubber sheet is silicone, polyurethane, PVC, Teflon, ABS, PC, polycarbonate, NBR, SBR, SBS, PS sheet Either one can be selected and used.

In the present invention, the pressure-sensitive adhesive component used for the pressure-sensitive adhesive layer 20 formed on one side of the center base layer 10 as described above is a double-sided tape that has been widely used in various industrial fields, including electromagnetic shielding gaskets. From the pressure-sensitive adhesive generally used as the pressure-sensitive adhesive component can be selected and used. In the present invention, as the pressure-sensitive adhesive layer 20, a general acrylic pressure-sensitive adhesive may be used as usual, and in addition, other types of pressure-sensitive adhesives such as rubber pressure-sensitive adhesives or silicone pressure-sensitive adhesives may be used.

In addition, in the double-coated tape for gasket of the present invention, the hot melt layer 30 formed on one surface of the center base layer 10 is a hot melt adhesive that is typically used as an adhesive for bonding a conductive fiber fabric to an elastic core in manufacturing a conductive gasket. It is made by coating a hot melt asshesive to a certain thickness on the central substrate (10). As mentioned above, the hot-melt adhesive is a non-tacky solid at room temperature, as well known as a main component, and when heated to a predetermined temperature or more, the hot melt adhesive is deformed into a fluid state by melting, and is a tacky material. In the process of attaching the double-sided tape of the present invention to one side of the gasket overlapped with the gasket in the fluidized state by heating, and then solidified by cooling serves to bond the conductive gasket body and the double-sided tape of the present invention to each other.

As described above, the hot melt used in the double-sided tape of the present invention corresponds to a hot melt adhesive commonly used in the field of electromagnetic shielding gasket manufacturing or other industrial fields, and generally includes three components of a base polymer, an adhesion imparting resin, and a wax. It is composed of the main component, and if necessary, antioxidants, plasticizers, flame retardants and the like may be blended. In general, the main component of the hot melt is ethylene vinyl chloride copolymer (VA), and polyurethane, polyamide, polyester, and atactic polypropylene are mainly used. It is manufactured by mixing a rosin-based resin, a petroleum resin, etc. as a grant agent, and mixing waxes, antioxidants, flame retardants, inorganic fillers, reversible agents and the like.

In the present invention, the hot melt as described above may be particularly preferably used polyester polyester hot melt in consideration of manufacturing cost, process convenience, etc., and additional additives may be additionally mixed in the hot melt to impart various properties. . For example, the conductive powder or the flame retardant powder may be added as the additive component, and the heat-adhesive double-sided with various uses and ranges as the conductive hot melt, the flame retardant hot melt, or the conductive flame retardant hot melt through the secondary processing using such additives. It is possible to provide a tape.

Meanwhile, as shown in FIG. 2, a release paper (or release paper) 40 may be further attached to the upper portion of the adhesive layer 20. The release paper 40 corresponds to paper laminated to protect the adhesive surface of the adhesive layer 20 in storage until the conductive gasket manufactured by attaching the double-sided tape of the present invention is used, and is applied to an adherend such as an electronic product. It is manufactured by applying silicone oil or resin emulsion on the surface of kraft paper so that it can be peeled off when used.

Hereinafter, a brief description will be given of a method of manufacturing an electromagnetic shielding gasket using the heat-adhesive double-sided tape of the present invention having the above configuration.

Figure 3 is a view showing the overall configuration for the equipment for manufacturing a conductive gasket for electromagnetic shielding using a double-sided tape of the present invention, Figure 4 is a gasket body in the gasket manufacturing equipment shown in Figure 3 The configuration of the lamination module to be laminated in detail, with reference to the drawings briefly described the process of manufacturing the conductive gasket as follows.

As shown in FIG. 3, the elastic fiber 1 and the conductive fiber fabric 2 coated with hot melt are supplied to the input unit 100 in a state of overlapping up and down for manufacturing an electromagnetic shielding gasket. ) Is provided with a plurality of driving rollers for conveying to convey the injected elastic core and the fiber fabric by the rotational driving force of the roller. At this time, the elastic core 1 may be supplied in a state of being wound on a reel (not shown), and the conductive fiber fabric 2 is also wound on a fiber fabric reel as shown.

The elastic core 1 and the fiber fabric 2 supplied as described above are transported to the wrapping module 200 connected to the rear end of the input unit 100, and the wrapping module 200 is transported to both ends of the fiber fabric during transport. Since a lapping jig (not shown) is provided to press and passes through the lapping module 200, the elastic core is discharged while being wrapped in a conductive fiber fabric. On the other hand, since the internal configuration of the wrapping module 200 corresponds to a very simple technique corresponding to common sense in the art, a separate description thereof will be omitted.

As described above, the gasket main body having the elastic core wrapped in the conductive fiber fabric passing through the lapping module 200 is introduced into the heating module 300, which is a next process device, and heated and compressed. The heating module 300 is provided with a heating device that is usually heated in a heat transfer method therein to heat the injected gasket body, and thus hot melt applied to the conductive fiber fabric is melted to thermally bond the elastic core and the conductive fiber fabric. .

The gasket main body discharged from the heating module 300 through the above process is introduced into the cooling module 400 and rapidly cooled to maintain the shape and increase the production speed, and the cooled gasket main body is driven to provide a transfer force. The roller block 500 is transferred to the tape lamination module 600, and the double-sided tape is laminated on the outer surface of the gasket to be manufactured as a final electromagnetic shielding gasket.

Here, with reference to the accompanying Figure 4 will be described in more detail with respect to the tape lamination module 600 for laminating the double-sided tape to the gasket body as described above, as shown in Figure 4, the tape lamination module 600 Heating plate which heats the double-sided tape is disposed adjacent to the tape supply reel 610 is supplied to the gasket double-sided tape (T), and the double-sided tape (T) is released from the tape supply reel (610) 620 and the double-sided tape T in close contact with the gasket main body G to be integrally laminated together.

In the above, the gasket double-sided tape mounted on the tape supply reel 610 is a double-sided tape provided as a characteristic configuration in the present invention as described above, that is, a hot melt is applied to one side and a general adhesive layer is formed on the other side. Use double-sided tape for thermal adhesive gaskets. The heat-adhesive double-sided tape (T) of the present invention as described above is bonded to the gasket body (G) by a laminating jig 630 disposed on the lower end, specifically, the double-sided tape (T) to the drive roller block 500 In addition to the gasket main body (G) to be transported by the jig 630 is put into the compression jig is integrally bonded to the gasket body.

At this time, the double-sided tape (T) is released from the tape supply reel 610 and introduced into the paper jig 630 as described above is heated by the heating plate 620 disposed adjacent to the hot melt layer formed on one side thereof The molten state is introduced into the paper jig 630, and the double-sided tape T of the present invention is injected into the paper jig 630 together with the gasket main body G in a hot melt state. Compression is performed to mutually adhere to the gasket main body by thermal fusion.

At this time, the heating plate 630 is manufactured according to the embodiment shown in the form of approximately 'A' (specific shape can vary depending on the working conditions or device design), the paper jig 630 from the tape supply reel 610 Adjacent to the double-sided tape to be introduced into the) is disposed at a slightly separated position is configured to melt the hot melt layer of the double-sided tape by heat radiation. In addition, the heating plate 630 may be preferably applied to the heat transfer method is generally heated by the current supplied through the power line, the heating temperature and the distance from the double-sided tape is hot melt when the double-sided tape passes adjacently The temperature applied to the bed is adjusted at appropriate temperatures and intervals so that it is in the meltable temperature range (about 150-180 ° C.).

Meanwhile, the lamination jig 630 may include a support plate 631 and a crimping block 632 spaced up and down spaced apart from each other by approximately the same size as the gasket size, and the support plate 631 configured as described above. When the two-sided tape and the gasket body in which the hot melt layer is melted are passed between the and the pressing blocks 632 in an overlapping state, the double-sided tape T is pressed to form an adhesive to the gasket body G.

According to the heat-adhesive double-coated tape for electromagnetic wave shielding gasket of the present invention made of the above-described configuration and lamination method, it is possible to expect the production cost reduction effect by using a general hot melt that used a conventional conductive double-sided acrylic pressure-sensitive adhesive, additionally Through the secondary processing to fit, there is an effect that it is possible to provide an adhesive tape for a wide range of uses as a general adhesive tape, conductive adhesive tape, general flame-retardant adhesive tape, conductive flame-retardant adhesive tape and the like. Particularly, according to the present invention, since the hot melt layer is heat-sealed to heat-bond the gasket body, the gasket main body can be integrally formed into a single structure, thereby reducing defects in which the tape is separated from the gasket, thereby improving production yield and facilitating quality control. In addition, cost can also be expected to reduce costs.

Although the present invention has been described in detail with reference to the embodiments described above, those skilled in the art to which the present invention pertains will be capable of various substitutions, additions, and conversions without departing from the technical spirit described above. It is to be understood that such modified embodiments also fall within the protection scope of the present invention as defined by the appended claims below.

1 is a view showing a general structure of a conductive gasket for electromagnetic shielding.

2 is a cross-sectional view of a heat-adhesive double-sided tape for electromagnetic shielding gasket according to the present invention.

3 is a view showing the overall configuration of a facility for manufacturing an electromagnetic shielding conductive gasket using a double-sided tape of the present invention.

FIG. 4 is a view showing in detail the configuration of the lamination module for laminating the double-sided tape of the present invention to the gasket main body in the gasket manufacturing facility shown in FIG.

 Explanation of symbols on the main parts of the drawings

10: center base material layer 20: pressure-sensitive adhesive layer

30: hot melt layer 40: release paper

Claims (5)

In the double-sided tape for gasket used to attach to one surface of the gasket to fix the electromagnetic shielding gasket to the adherend, A band-shaped center base layer located at the center of the tape; An adhesive layer coated on one side of both surfaces of the central substrate layer; A hot melt layer coated on the other side of the central substrate layer; Heat-adhesive double-sided tape for electromagnetic shielding gasket improved lifting comprising a. The heat-adhesive double-sided tape for electromagnetic wave shielding gasket of claim 1, wherein release paper is further attached to the surface of the pressure-sensitive adhesive layer. The heat-adhesive double-sided tape for electromagnetic wave shielding gasket of claim 1, wherein the hot melt forming the hot melt layer is a polyester hot melt. The heat-adhesive double-sided tape for electromagnetic wave shielding gasket of claim 1, wherein the pressure-sensitive adhesive of the pressure-sensitive adhesive layer is any one of an acrylic pressure-sensitive adhesive, a silicone pressure-sensitive adhesive, and a rubber pressure-sensitive adhesive. The heat-adhesive double-sided tape for electromagnetic wave shielding gasket according to claim 1, wherein any one or more components of the conductive powder and the flame retardant powder are further dispersed in the hot melt forming the hot melt layer.

Images