JP2011237969A - Non-contact information medium and booklet incorporating the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a non-contact information medium on which a flexible porous thermoplastic sheet is used to prevent infiltration of water and/or various ions to thereby enhance a corrosion resistance of an antenna, which may be suitably used being incorporated in a cover of a booklet.SOLUTION: An inlet with a barrier layer is constituted by disposing an antenna coil and an IC chip connected to the antenna coil on a substrate, and the antenna coil is covered by a barrier layer. On the both sides of the inlet with barrier layer are laminated with a porous thermoplastic sheet being interposed by an adhesive layer to thereby give a feature to prevent transmission of water and/or various ions through the barrier layer. The inlet with barrier layer is formed with a through hole in a part thereof to allow the adhesive layers to be contact with each other through the through hole. The non-contact information medium may be used being sandwiched between an inner cover sheet of a booklet and main body thereof.

Description

  The present invention relates to a non-contact type information medium that includes an antenna coil and an IC chip and can record information on the IC chip in a non-contact manner. According to the information medium of the present invention, it is possible to prevent deterioration of the antenna coil due to moisture and various ions. This information medium can be incorporated in the cover of a booklet such as a booklet-like passport or a bank savings passbook.

  In recent years, a system using a non-contact IC card or a non-contact IC tag has become widespread, and for example, a non-contact information medium attached booklet in which a non-contact information medium is added to a booklet such as a passport or a savings passbook has been developed. This non-contact type information medium is obtained by sandwiching an IC inlet composed of an antenna and a non-contact IC chip connected thereto with an exterior base material. After being combined, it can be made into a booklet by pasting it on a booklet made of internally-pasted paper or text paper. Such a booklet attached to a non-contact type information medium is characterized in that data can be printed and a VISA stamp can be applied like an ordinary booklet, and electronic data can be recorded.

  Patent Document 1 describes a booklet in which a non-contact information medium is built in the back cover as described above. The non-contact information medium described in Patent Document 1 includes a first base material, a second base material, an antenna coil, an IC chip, and an adhesive layer. That is, the second base is provided with an opening having a predetermined width, and the opening is formed as a recess by bonding the second base to the first base. The antenna coil and an IC chip connected to the antenna coil are arranged in the recess, and an adhesive layer is provided on the first base material to constitute the non-contact type information medium. This non-contact type information medium can be used by being attached to the inner surface of the back cover of the booklet by the adhesive layer.

  In addition, as in the case of credit cards and IC cards that are generally distributed, ICs and antennas are sandwiched between thermoplastic base materials such as sheets of PVC, PET-G, etc., and strong heat pressure is applied. It is also known to create a non-contact information medium-attached booklet by adhering a non-contact type information medium smoothed by flowing the material between the front or back cover of the booklet and the inner sheet.

  In such a non-contact type information medium attached booklet, sheets such as PVC and PET-G are used, so that the rigidity becomes high and it is difficult to open the cover, and it is difficult to bond the base material to the inner sheet. As a method for solving this problem, a thermoplastic porous sheet having voids in the substrate can be used in place of the PVC or PET-G sheet. . Since such a porous sheet is obtained by foaming a resin, the material is generally soft and has low rigidity. Further, since the adhesive can easily penetrate due to the gap, the adhesiveness with the inner sheet is increased. Furthermore, unevenness can be absorbed by applying an appropriate pressure. When such a porous thermoplastic sheet is used as a base material, it is possible to bond the sheet itself by thermal fusion, or to apply a thermoplastic adhesive and then bond by a thermal laminating method. is there.

Japanese Patent Laid-Open No. 2002-4068

  However, such a porous sheet has high air permeability and easily transmits various ions such as moisture, oxygen, and chlorine, and there is a problem that the metal used for the antenna of the non-contact information medium is easily corroded. It was. For example, copper may be oxidized by contact with oxygen, and aluminum may be corroded by chloride ions. Even if it does not react directly with oxygen or chloride ions, etc., when different types of metals are mixed in the antenna, etc., it is easy for the metal to dissolve due to the battery effect just by entering the electrolyte solution. There was a problem of disconnection. In addition, etching and printing antennas have the advantage that the antenna is thin and uses less material and is less expensive to manufacture, but conversely, even the slightest damage is fatal due to the thin thickness. Could be a problem.

  The present invention solves such problems of the prior art, and uses a porous sheet having excellent flexibility, and further prevents the penetration of moisture and various ions, thereby improving the corrosion resistance of the antenna. It is to provide a non-contact type information medium.

According to the first aspect of the present invention, an antenna coil and an IC chip connected to the antenna coil are disposed on a base material, and the antenna coil is covered with a barrier layer to form an inlet with a barrier layer. A non-contact type information medium comprising a porous thermoplastic sheet laminated on each of both sides of the inlet with an adhesive layer,
The barrier layer has the property of suppressing the transmission of moisture and various ions,
And through holes are provided in a part of the inlet with the barrier layer, the adhesive layers are bonded to each other through the through holes,
It is a non-contact type information medium.

  The invention according to claim 2 is the non-contact type information medium according to claim 1, wherein the barrier layer is made of a thermoplastic resin coated so as to cover the antenna coil.

  A third aspect of the invention is a non-contact type information medium-attached booklet comprising the non-contact type information medium according to the first or second aspect incorporated in a cover.

  According to the first aspect of the invention, since the antenna coil is covered with the barrier layer and the barrier layer has a property of suppressing the permeation of moisture and various ions, the antenna coil is corroded. Can be prevented.

  By the way, when the antenna coil is covered with the barrier layer as described above, the adhesive strength between the barrier layer and the adhesive layer is lowered, and the antenna coil is easily peeled off. In the first aspect of the present invention, since the through hole is provided in the inlet with the barrier layer and the adhesive layers are bonded to each other through the through hole, the entire information medium is strengthened regardless of the presence of the barrier layer. Can be integrated.

  Note that the through hole needs to be provided in other parts, avoiding the part where the antenna coil and the IC chip are arranged.

  Next, according to the second aspect of the present invention, the barrier layer can be formed by a simple method because it is composed of the thermoplastic resin coated so as to cover the antenna coil.

Since the non-contact type information medium according to claim 1 or 2 uses a porous thermoplastic sheet excellent in flexibility, the non-contact type information medium is used as a cover sheet as in the invention of claim 3. If the booklet is built inside, a cover can be easily opened, and a booklet attached to a non-contact information medium that does not deteriorate due to moisture or the like can be obtained.

The perspective view of one Embodiment of the non-contact-type information medium attached booklet of this invention The top view of one Embodiment of the non-contact IC inlet used for this invention Sectional drawing which shows the manufacturing process of one Embodiment of the non-contact IC inlet used for this invention Sectional drawing of one Embodiment of the cover of the non-contact-type information medium attached booklet of this invention

  The non-contact type information medium of the present invention includes an inlet with a barrier layer, two porous thermoplastic sheets, and an adhesive layer that bonds each of the two porous thermoplastic sheets to the inlet with a barrier layer. Is configured as an essential element.

  Here, the inlet with a barrier layer is configured by covering an antenna coil of a so-called IC inlet with a barrier layer, and the IC inlet includes an antenna coil and an IC chip connected to the antenna coil on a base material. It is arranged. The barrier layer plays a role of protecting the antenna coil of the IC inlet from moisture and various ions.

  The inlet with a barrier layer is provided with a through hole at a position away from the antenna coil and the IC chip. Porous thermoplastic sheets are laminated on both the front and back surfaces of the inlet with a barrier layer via the adhesive layer, and these adhesive layers on the front and back surfaces are bonded to each other through a through hole.

  This non-contact type information medium can be used by being incorporated in the cover of a booklet. For example, the cover of a booklet is composed of a cover member and an inner sheet, and a non-contact type information medium is sandwiched between the cover member and the inner sheet, whereby a booklet built in the cover can be obtained. .

  FIG. 1 is a perspective view showing a specific example of such a booklet. In this example, a cover member and an inner sheet to be adhered to the inner surface thereof are bonded with a non-contact type information medium interposed therebetween. A booklet is constructed by adding a plurality of text sheets.

  As shown in FIG. 2, the IC inlet, which is a part of the non-contact type information medium, includes a base material, an IC module on which an IC chip is mounted, and an antenna coil. A central region surrounded by the antenna coil is a through hole. In the IC inlet shown in FIG. 2, an antenna coil and an IC module are joined with an antenna jumper interposed. The antenna jumper and the IC module are each joined by a welded portion. Although the barrier layer is not shown in FIG. 2, an inlet with a barrier layer can be obtained by providing a barrier layer that covers the antenna coil.

  FIG. 3 is a cross-sectional view showing a manufacturing process for manufacturing such an inlet with a barrier layer, and is a cross-sectional view at a position corresponding to a cross-sectional line A in FIG. That is, first, as shown in FIG. 3A, an antenna coil is formed on one side of an antenna substrate, aligned with the antenna coil, and an antenna jumper is formed on the opposite side. Next, a barrier layer is laminated on both sides. Next, as shown in FIG. 3 (b), a laser is irradiated to weld the antenna coil and the antenna jumper, and to make a hole for mounting the IC module. And as shown in FIG.3 (c), an IC module is inserted in this hole, a laser is irradiated again, the antenna jumper and an IC module are welded, and the said inlet with a barrier layer is obtained. be able to. The through hole may be formed in the central region surrounded by the antenna coil simultaneously with the IC module hole.

  Moreover, it is also possible to manufacture the inlet with a barrier layer by other methods. For example, first, an antenna coil is formed on a base material, then an IC chip is connected to the antenna coil, and then a barrier layer is entirely or partially coated and formed, and then a central region surrounded by the antenna coil Can be punched out to provide a through hole X.

  Further, after the IC chip is arranged and fixed on the base material, the conductive wire is directly arranged on the base material to form the antenna coil, and then the IC chip and the antenna coil can be connected by a wire bonding method. Then, after that, a barrier layer may be formed to form a through hole.

  It is also possible to form an antenna coil after providing a through hole in the base material, apply a paint to be described later to provide a barrier layer, and then place and fix the IC chip.

  The antenna coil can be formed by, for example, the above-described wire bonding method, a method of forming an aluminum or copper antenna by etching, or a method of forming an antenna by printing conductive ink. Both methods are known.

  Next, FIG. 4 shows a cross-sectional view of the cover of the booklet, and is a cross-sectional view at a position corresponding to the cross-sectional line B of FIG. As can be seen from this figure, a porous thermoplastic sheet is bonded to the surface of the inlet with a barrier layer via an adhesive layer. Moreover, the porous thermoplastic sheet is adhere | attached on the back surface of the inlet with a barrier layer through the adhesive bond layer. The adhesive layers on the front and back sides enter the through holes and adhere to each other.

  The inner sheet is adhered to the outside of the porous thermoplastic sheet via an adhesive layer, and the cover member is adhered to the outside of the porous thermoplastic sheet via an adhesive layer. Yes.

  Next, materials constituting the non-contact type information medium will be described.

  As a material for the barrier layer, it is necessary to have a property of suppressing the transmission of moisture and various ions. As such materials, for example, synthetic resin paints such as ethylene-vinyl acetate copolymer system, ethylene-methacrylic acid copolymer system, polyester system, acrylic resin, nylon system, polyamide system, polyurethane system, and polyolefin system are used. It is possible to add a cross-linking agent and cure it, or to improve water resistance by adding a wax component such as polyethylene or paraffin.

The barrier layer is particularly effective for etching antennas and printed antennas, but is not limited thereto. An antenna by wire bonding is resistant to corrosion because the conductive wire is originally coated with resin, but a barrier layer may be required because a welded portion with an IC module may be corroded. The thickness of the barrier layer of the present invention is not particularly limited. For example, in the case of an aluminum etching antenna, the aluminum layer is about 30 to 50 μm, and is preferably provided so as to cover the entire antenna. Set according to the material and thickness. As a method for evaluating the performance of the barrier layer thus provided, one value of water vapor permeability can be used. When the water vapor permeability is high, moisture and ions easily enter the inside, so it is desirable that the water vapor permeability is as low as possible. For example, if the value measured by the cup method shown in JIS K 7129 is a water vapor permeability lower than 150 g / m ² · day, a certain effect is obtained with respect to preventing corrosion of the antenna. However, as a method for evaluating the risk of antenna corrosion, for example, JIS
There is a salt spray test as shown in X6305-1. Since this test is to examine the corrosion of the antenna by exposing the specimen to an environment filled with 5% salt water for 24 hours, the performance cannot be judged only by the water vapor permeability, and various environments are assumed. It is necessary to confirm that corrosion does not occur.

  In the case of an antenna using an etching method, as a means for providing a barrier layer, for example, there may be a method in which an etching mask layer is provided with a barrier property and is left as it is after etching. The barrier is not perfect because of the possibility of progress.

  In addition, the porous thermoplastic sheet may be commercially available as a resin sheet or synthetic paper imparted with printability for inkjet or offset. By using such a base material, it is possible to form a flexible non-contact information medium, and there is an advantage that it is superior in workability because it can obtain good adhesiveness with an adhesive. .

  As the adhesive layer, various general thermoplastic resins can be used. Examples thereof include an ethylene-vinyl acetate copolymer system, an ethylene-methacrylic acid copolymer system, a polyester system, an acrylic resin, a nylon system, a polyamide system, a polyurethane system, and a polyolefin system. Among these, it is desirable to use a resin that forms a coating film that is particularly resistant to moisture and suppresses permeation of oxygen and chloride ions, and a resin that deteriorates due to heat and humidity and does not peel off the bonded portion. In order to achieve both of these performances, two or more kinds of resins can be mixed or applied to two layers. In addition, from the viewpoint of the post-process and workability, coating is easy, blocking after drying is less likely to occur, and highly durable ones are suitable for use. For example, it is possible to obtain suitable performance by coating an ethylene-methacrylic acid copolymer aqueous emulsion adhesive with an epoxy crosslinking agent, or applying a polyolefin or acrylic adhesive with a gravure coater. it can. On the other hand, in general, a polyester-based adhesive may be hydrolyzed by humidity, and an ethylene-vinyl acetate copolymer-based adhesive is likely to deteriorate over time, so care must be taken. In addition, when using an aqueous heat sealant that has been made into an emulsion or dispersion using the above-mentioned resin, it is necessary to pay attention to whether the heat sealant itself adversely affects the antenna or the like.

  And after applying these adhesives to the porous thermoplastic sheet, respectively, it is overlapped on both the front and back surfaces so as to sandwich the inlet with the barrier layer, and is bonded by applying hot pressure to the inside of the through hole. It is possible to push in and bond the porous thermoplastic sheet and the inlet with the barrier layer, and bond the adhesives inside the through hole.

  In general, the inlet with a barrier layer is an uneven sheet depending on the thickness of the IC chip, the thickness of the antenna, the thickness of the junction between the jumper wire and the antenna, the thickness of the base material, and the like. There is also an effect that this unevenness can be eliminated by applying hot pressure when adhering the porous thermoplastic sheet.

Next, as an adhesive for adhering the non-contact type information medium and the cover member, a reaction curable adhesive having no volume change can be suitably used. If a dry-curing adhesive with a volume change is used, if a part of the non-contact type information medium is recessed, the amount of adhesive used will increase, resulting in a large volume reduction during drying and for cover Since a dent is generated on the outside of the member, it becomes a problem in appearance. In order to solve such a problem, it is desirable to use an adhesive having no volume change. For example, a two-component mixed epoxy adhesive, a moisture-curable silicone adhesive, a one-component curable urethane adhesive, Etc. can be used. In addition, various hot melt adhesives such as an ethylene-vinyl acetate copolymer system, an ethylene-methacrylic acid copolymer, a polyester series, a polyamide series, a polyurethane series, and a polyolefin series can be used. Although this adhesive layer has a barrier performance against moisture and the like, the performance is improved. However, since a porous substrate is used, it is necessary to consider the intrusion of moisture from the cross section, and the antenna is directly touched as in the present invention. It is desirable to provide a barrier layer in the part.

  In addition, a water-based emulsion adhesive can be used as an adhesive for adhering the non-contact type information medium and the internal paper. Since this adhesive has been conventionally used for bonding the cover member and the inner sheet, the equipment can be used as it is.

  When the non-contact type information medium is bonded to the cover member and the inner sheet, first, the inner sheet is bound together with a plurality of body sheets to produce an intermediate booklet. At this time, it is necessary to bind the inner sheet so that the inner sheet is located on the outer surface of the intermediate booklet. Then, a cover member may be bonded to one side of the non-contact type information medium, and the non-contact type information medium with cover member may be bonded to the outer surface of the intermediate booklet.

(Creation of IC inlet with barrier layer)
Hereinafter, embodiments will be described with reference to FIGS.

  A 38 μm polyethylene terephthalate (PET) sheet was used as an antenna sheet substrate, and a 35 μm aluminum foil was bonded to both sides, and then a mask layer was printed. Then, an antenna coil was formed on the surface and jumper wires were formed on the back surface by pattern etching.

  The following ink was coated on both surfaces of the antenna sheet base material on which the antenna coil was formed by a gravure printing method to provide a 10 μm barrier layer.

<Barrier layer ink>
Polyester resin 30 parts by weight MEK 70 parts by weight Further, the antenna coil and the jumper wire were joined by laser welding, and the IC chip was welded to the connection terminal part of the antenna coil. The outer circumference of the antenna coil is 80 mm × 48 mm, and the inner circumference is 67 mm × 37 mm. Furthermore, the inside of the antenna coil was punched out with a size of 65 mm × 35 mm to form a through hole. Further, the outer periphery of the antenna coil and the outline 2 mm away from the IC chip were taken, and the outer antenna sheet substrate was punched and removed to obtain an inlet with a barrier layer. For comparison, an IC inlet without a barrier layer was also prepared and used in the following steps.

(Production of non-contact information media)
A 380 μm “TESLIN sheet” (PPG Industry) was prepared as a porous thermoplastic sheet. A thermoplastic adhesive “Aquatex” was applied to 10 μm on one side of the sheet and dried to prepare a sample. Cut into two sheets of × 200 mm.

  An inlet with a barrier layer was placed on one of the porous thermoplastic sheets prepared above and fixed by spot heating. Furthermore, another porous thermoplastic sheet was laminated and fixed by spot heating.

The laminated sheet was sandwiched between two SUS plates and bonded by heating and pressing to obtain a non-contact type information medium 10. The heating and pressurizing conditions were adjusted between a heating part temperature of 110 ° C. and 160 ° C., a pressure of 5 kgf / cm ^{2 to} 30 kgf / cm ² , and a treatment time of 15 seconds to 120 seconds, and an optimum one was selected.

(Bonding of non-contact type information medium and cover member)
A book cover front cover “Enviromate” (ICG / Holliston) was cut to a non-contact information medium size to obtain a cover member. A moisture-curing hot melt adhesive “Sdyne” (Sekisui Fuller) was melted with a heat roll coater and applied to the cover member at a thickness of 20 g / m ² . A non-contact type information medium was adhered to a cover member coated with a hot melt adhesive, pressed with a roller, and then aged.

(Production of non-contact information media booklet)
We made a body paper with the inner paper attached to the outermost part by collating multiple sheets of paper and one inner paper and sewing the center with a sewing machine. An aqueous emulsion adhesive “SP-2850” (Konishi Co., Ltd.) was applied to the non-contact information medium to which the cover member was bonded, with a thickness of 20 g / m ² . Glued to the back side. The obtained booklet was expanded and cut into 125 mm × 180 mm to obtain a non-contact information medium-attached booklet provided with a falsification preventing function layer. In addition, a comparative non-contact information medium attached booklet without a barrier layer was also obtained by the same process.

(Confirmation of effect)
When the salt spray test described in JIS X6305-1 was performed on the two types of non-contact information medium attached booklets obtained, and then only the antenna was taken out and confirmed, an antenna for a comparison booklet without a barrier layer was used. Corrosion occurred, but the booklet antenna having the barrier layer of the present invention did not corrode.

Claims (3)

An antenna coil and an IC chip connected to the antenna coil are arranged on a base material, and the antenna coil is covered with a barrier layer to form an inlet with a barrier layer, on each of both surfaces of the inlet with the barrier layer. A non-contact type information medium formed by laminating a porous thermoplastic sheet via an adhesive layer,
The barrier layer has the property of suppressing the transmission of moisture and various ions,
And through holes are provided in a part of the inlet with the barrier layer, the adhesive layers are bonded to each other through the through holes,
Non-contact information medium.   The non-contact type information medium according to claim 1, wherein the barrier layer is made of a thermoplastic resin coated so as to cover the antenna coil.   A booklet attached with a non-contact type information medium, wherein the non-contact type information medium according to claim 1 or 2 is built in a cover.

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