JP2015116686A - Non-contact type information medium and non-contact type information medium annex booklet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a non-contact type information medium which has flexibility suitable for being incorporated on a cover sheet of a booklet or the like, moreover, prevents penetration of moisture and various kinds of ions dissolved in the moisture and improves corrosion resistance of an antenna.SOLUTION: A non-contact type information medium is configured such that an antenna coil and an IC chip connected with the antenna coil are arranged on a substrate sheet to make an IC inlet and a protective sheet is adhered onto both surfaces of the IC inlet. Therein, as the protective sheet, a laminate having a three-layer structure in which paper is inserted between two polyolefin type sheets, a laminate having a three-layer structure in which a porous polyolefin is inserted between two polyolefin type sheets, or a matted polyolefin film is used.

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 type information medium is built in a booklet such as a passport or a savings passbook has been developed. In this non-contact type information medium, an antenna coil and an IC chip connected to the antenna coil are arranged on a base material to form an IC inlet, and the IC inlet is sandwiched between exterior base materials. A booklet can be made by attaching a mold information medium to a cover member called a cover cloth or the like and then attaching the information medium to an inner paper or text sheet of a booklet and binding. 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 type information medium described in Patent Document 1 includes two sheets, an antenna coil, an IC chip, and an adhesive layer. That is, an opening is provided in one of the two sheets, and the opening is formed as a recess by adhering this sheet to the other sheet. An antenna coil and an IC chip connected to the antenna coil are arranged in the recess 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 a booklet with an adhesive.

  Moreover, like a credit card or an IC card that is generally distributed, for example, an IC and an antenna are sandwiched between thermoplastic sheets such as PVC and PET-G, and the thermoplastic sheet is made to flow by applying strong heat. A non-contact type information medium with a smooth surface is manufactured, and the non-contact type information medium attached booklet is created by adhering the non-contact type information medium between the front or back cover of the booklet and the inner sheet. It is also known.

  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 thermoplastic sheet and the inner sheet. There was a problem.

  On the other hand, as one of the techniques for solving this, there is known a technique using a porous thermoplastic sheet having voids inside instead of the sheet of PVC, PET-G or the like. 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, it is possible to adhere the sheet itself by thermal fusion, or to apply a thermoplastic adhesive and then adhere by a thermal laminating method.

  However, such a porous sheet has high air permeability and easily allows moisture to permeate. Further, since various ions dissolved in the moisture are transmitted, there is a problem that the metal used for the antenna of the non-contact type information medium is easily corroded.

  For example, when the antenna is copper, there is a possibility of oxidation due to contact with various ions, and when it is aluminum, there is a possibility of corrosion due to chloride ions. Even if it does not react directly with various ions, if 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, and in the worst case, it will break. There was a problem.

  Above all, the antenna using the etching method or printing method has the advantage that the antenna is thin and uses less material, and the manufacturing cost is low. On the contrary, the thin thickness causes slight damage by various ions. Even just receiving it could cause a fatal problem as an antenna.

Japanese Patent Laid-Open No. 2002-4068

  The present invention solves such problems of the prior art, has flexibility suitable for being incorporated in the cover of a booklet, etc., and also prevents moisture and various ions dissolved in moisture from entering the antenna. It is to provide a non-contact type information medium that improves corrosion resistance.

According to the first aspect of the present invention, an antenna coil and an IC chip connected to the antenna coil are arranged on a base sheet to form an IC inlet, and non-contact type information is formed by adhering a protective sheet to both surfaces of the IC inlet. A medium,
The non-contact type information medium is characterized in that the protective sheet is composed of a laminate of a water vapor barrier sheet and paper.

  The invention according to claim 2 is the non-contact type information medium according to claim 1, wherein the laminated body has a three-layer structure in which paper is sandwiched between two water vapor barrier sheets.

The invention of claim 3 is a non-contact type information in which an antenna coil and an IC chip connected to the antenna coil are arranged on a base sheet to form an IC inlet, and protective sheets are laminated on both sides of the IC inlet. A medium,
The non-contact type information medium is characterized in that the protective sheet is composed of a laminate of a water vapor barrier sheet and a porous plastic sheet.

  The invention according to claim 4 is the non-contact type information medium according to claim 3, wherein the laminate has a three-layer structure in which a porous plastic sheet is sandwiched between two water vapor barrier sheets. is there.

The invention of claim 5 is a non-contact type information in which an antenna coil and an IC chip connected to the antenna coil are arranged on a base sheet to form an IC inlet, and protective sheets are laminated on both sides of the IC inlet. A medium,
The non-contact type information medium is characterized in that the protective sheet is composed of a matte water vapor barrier sheet.

  The invention according to claim 6 is the non-contact type information medium according to any one of claims 1 to 5, wherein the water vapor barrier sheet is made of a polyolefin resin sheet.

  The invention according to claim 7 is characterized in that the water vapor barrier sheet comprises a vapor deposition sheet in which a plastic sheet is used as a vapor deposition base material and a metal or inorganic vapor deposition film is laminated on the vapor deposition base material. Any one of the non-contact information media.

  In the invention of claim 8, the protective sheet is adhered to both surfaces of the IC inlet by an adhesive layer, and a through hole is provided in a part of the IC inlet, and the adhesive is passed through the through hole. The contactless information medium according to claim 1, wherein the layers are bonded to each other.

  A ninth aspect of the invention is a non-contact type information medium-attached booklet comprising the non-contact type information medium according to any one of the first to eighth aspects, which is built in a cover.

  The inventions according to claims 1 to 8 are based on a non-contact information medium in which protective sheets are laminated on both sides of an IC inlet, and the protective sheet is a laminated body of a water vapor barrier sheet and paper (inventions 1 to 8). 2,6-8), a laminate of a water vapor barrier sheet and a porous plastic sheet (Claims 3-4, 6-8), or a matted water vapor barrier sheet (Claims 5-8). It is a thing.

  In any of the inventions, since the protective sheet includes a water vapor barrier sheet in its layer structure, the antenna of the IC inlet can prevent external moisture from entering. For this reason, the entry of various ions dissolved in moisture can be prevented, and the corrosion resistance can be improved.

  Further, this protective sheet includes paper, a porous plastic sheet, or a matted water vapor barrier sheet in its layer structure, and flexibility is imparted by each of these layers.

  As described above, in the inventions according to claims 1 to 8, since the protective sheet has both water vapor barrier properties and flexibility, the non-contact type information medium is attached to a booklet inner paper or text paper. In addition, the booklet can be easily opened and can be configured so as not to be deteriorated by moisture or the like.

FIG. 1A is an explanatory plan view of an IC inlet, and FIG. 1B is an explanatory view of a cross section taken along line XX in FIG. Cross-sectional explanatory drawing which shows the 1st example of a protection sheet. Cross-sectional explanatory drawing which shows the 2nd example of a protection sheet. Cross-sectional explanatory drawing which shows the 3rd example of a protection sheet. Cross-sectional explanatory drawing which shows the example of a non-contact-type information medium. 6A is a perspective view showing an example of a booklet attached to a non-contact type information medium, and FIG. 6B is a cross-sectional explanatory view of the cover.

  The non-contact type information medium according to the present invention is formed by adhering protective sheets on both sides of an IC inlet.

1. Description of IC Inlet An IC inlet is configured by arranging an antenna coil and an IC chip connected to the antenna coil on a base sheet, and may be any existing IC inlet. For example, FIG. The following can be used. FIG. 1A is an explanatory plan view of an IC inlet, and FIG. 1B is an explanatory view of a cross section taken along line XX in FIG.

  That is, an IC inlet forms an antenna coil on a base material sheet, and manufactures an antenna sheet. Both ends of the antenna coil are connection terminals connected to the IC chip. And at the position where the conductors constituting the antenna coil intersect, in order to prevent a short circuit between the antenna coils, one of the intersecting conductors is disconnected to provide a gap, and a jumper wire is provided on the opposite surface, What is necessary is just to weld the edge part of the disconnected conductor and the edge part of a jumper wire. Welding is possible, for example, by laser welding. In FIG. 1, the welded end is shown as a weld.

  An IC inlet can be manufactured by mounting an IC chip on the antenna sheet and connecting the terminal of the IC chip to the connection terminal.

  In addition, in this invention, it is preferable to provide a through-hole in a part of base material sheet. By providing a through hole in the base sheet, the flexibility of the base sheet can be increased. The IC inlet of FIG. 1 is an example in which a large through-hole is provided at the central portion except for the peripheral portion where the antenna coil is formed. Thus, when providing a through-hole in the center part enclosed by the antenna coil, about 1-5 mm is enough for the space | interval of a through-hole and an antenna coil.

  Although any plastic sheet can be used as the substrate sheet for the IC inlet, it is desirable to use a plastic sheet with high flexibility. For example, a polyethylene terephthalate film.

  The antenna coil can also be formed by a known method. For example, it can be formed by bonding a metal foil to a substrate sheet, forming an etching resist on the metal foil, and then etching and etching into the shape of an antenna coil. As the metal foil, copper foil, aluminum foil, or the like can be used. Further, the etching resist can be formed by a printing method, or a photoresist film can be formed by exposure and development.

  The antenna coil can also be formed by vacuum-depositing a metal thin film on a base sheet. It can be deposited in the shape of an antenna coil by vacuum deposition through a mask, or after forming a metal thin film on the entire surface of the substrate sheet, an etching resist is formed on the metal thin film and etched. It is also possible to process the antenna coil into a shape. Aluminum can be suitably used as the metal, but metal such as copper may be used.

  The antenna coil can also be formed by printing conductive ink. As the conductive ink, an ink containing metal powder or conductive carbon powder can be used, and screen printing is suitable as a printing method.

  The antenna coil can also be formed by attaching it to a base sheet while drawing a metal wire. A copper wire can be used as the metal wire.

2. Description of non-contact type information medium As described above, the non-contact type information medium of the present invention is formed by adhering protective sheets to both surfaces of an IC inlet. This protective sheet has water vapor barrier properties and flexibility, and can be used by selecting from the following three types of sheets.

  That is, first of all, the protective sheet is composed of a laminate of a water vapor barrier sheet and paper. Among them, a laminate (see FIG. 2) having a three-layer structure in which paper is sandwiched between two water vapor barrier sheets can be preferably used.

  As the water vapor barrier sheet, for example, a sheet made of polyolefin resin or a sheet made of polyester resin can be used.

  Examples of the sheet made of polyolefin resin include a polyethylene sheet, a polypropylene sheet, a polybutene sheet, an ethylene-propylene copolymer resin sheet, and an ethylene-butene copolymer resin sheet. The polyolefin resin has few polar groups in its molecular structure, so it has poor affinity with moisture and is excellent in water vapor barrier properties. For this reason, permeation of various ions dissolved in moisture can be prevented.

  Moreover, as a sheet | seat consisting of a polyester-type resin, a polyethylene terephthalate film and a polyethylene naphthalate film can be illustrated. Although it may be either a stretched film or an unstretched film, it needs to have both flexibility and water vapor barrier properties.

  As the water vapor barrier sheet, it is also possible to use a vapor deposition sheet in which a plastic sheet is used as a vapor deposition substrate and a metal or inorganic vapor deposition film is laminated on the vapor deposition substrate. As a vapor deposition base material, a polyethylene terephthalate sheet, a polyamide sheet, etc. other than the above-mentioned polyolefin resin sheet can be used. An example of the deposited metal is aluminum. As the inorganic substance, silicon oxide, aluminum oxide, magnesium oxide and the like are suitable. These metal or inorganic vapor-deposited films are excellent not only in water vapor but also in barrier properties against gases in general, and thus can prevent permeation of moisture and various ions dissolved in moisture.

  The paper laminated on the water vapor barrier sheet has a role of imparting flexibility to the non-contact type information medium.

  Next, the second sheet that can be used as the protective sheet according to the present invention is a laminate of a water vapor barrier sheet and a porous plastic sheet. Among them, a laminate (see FIG. 3) having a three-layer structure in which a porous plastic sheet is sandwiched between two water vapor barrier sheets is preferable.

  As the water vapor barrier sheet that can be used in the second sheet, as described above, a polyolefin resin sheet or a vapor deposition sheet can be used.

  The porous plastic sheet used in the second sheet has a role of imparting flexibility to the non-contact type information medium. As such a porous plastic sheet, a polyolefin-based porous plastic sheet can be preferably used.

  Next, a third sheet that can be used as the protective sheet according to the present invention is a water vapor barrier sheet (see FIG. 4) that has been matted. The sheet shown in FIG. 4 is one having one surface matted, but may be one having both surfaces matted. The mat processing is desirably processed sufficiently to give flexibility to the water vapor barrier sheet. As the water vapor barrier sheet that can be used in the second sheet, the above-mentioned polyolefin resin sheet can be used.

  The protective sheet can then be adhered to both sides of the IC inlet using an adhesive. The adhesive is preferably highly flexible. Further, it is desirable that the adhesive layers on both sides of the IC inlet are bonded to each other through the above-described through holes.

  The non-contact type information medium thus obtained is obtained by adhering protective sheets to both surfaces of the IC inlet as shown in the cross-sectional explanatory view of FIG. Since the protective sheet has water vapor barrier properties and flexibility, this non-contact type information medium is flexible, and the antenna coil is protected from external moisture and various ions, and has high durability. ing.

3. Description of non-contact type information medium booklet Then, the non-contact type information medium booklet can be manufactured by attaching the non-contact type information medium to, for example, an inner sheet of a booklet or a text sheet. FIG. 6A shows a booklet bound with a non-contact type information medium between the cover member and the inner sheet. In this example, first, a non-contact type information medium is bonded to a cover member, and on the other hand, after the inner sheet and the text sheet are collated to form a booklet, on the outside of the collated inner sheet, The cover member is bonded to form a booklet so that the non-contact type information medium is sandwiched between the cover member and the inner sheet. A cross-sectional configuration of the cover is shown in FIG.

Example 1
1. Creation of IC inlet A 38μm polyethylene terephthalate (PET) sheet is used as a base sheet, 35μm aluminum foil is bonded on both sides, a mask layer is printed, and antenna coil is formed on the surface and jumper wires are formed on the back surface by pattern etching. Formed.

  Furthermore, the antenna coil and the jumper wire were welded, and similarly, an IC chip was welded to the connection terminal portion of the antenna coil by laser welding. 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. That is, the interval between the through hole and the antenna coil is 2 mm over the entire circumference.

  Next, the outer periphery of the antenna coil and the outline 2 mm away from the IC chip were taken, and the outer antenna sheet base material was punched and removed to obtain an IC inlet.

2. Production of non-contact information media)
As a protective sheet, “OPER” (manufactured by Nippon Paper Papillion Co., Ltd., thickness 380 μm) having a three-layer structure in which paper is sandwiched between two polyolefin-based sheets is prepared, and a thermoplastic adhesive “ “Aquatex” (manufactured by Chuo Rika Kogyo Co., Ltd.) was applied to 10 μm and dried to prepare a sample, and then cut into two sheets of 150 mm × 200 mm.

  An inlet was placed on one side of the protective sheet and fixed by spot heating. Furthermore, another protective sheet was laminated and fixed by spot heating.

The laminated sheet was sandwiched between two SUS plates and bonded by heating and pressing to produce a non-contact type information medium. 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.

3. Production of non-contact information media booklet)
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.

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 a size of 125 mm × 180 mm to produce a non-contact information medium attached booklet.

(Example 2)
As in Example 1, except that “N-coat” (manufactured by Nakamoto Pax Co., Ltd., thickness 380 μm) having a three-layer structure in which a porous polyolefin is sandwiched between two polyolefin-based sheets was used as a protective sheet. Produced a non-contact type information medium and a booklet with the information medium.

(Example 3)
A non-contact type information medium and the same were attached as in Example 1 except that a matte-processed polyolefin film “PEPA PI-380” (manufactured by NANAYA (Taiwan), thickness 380 μm) was used as the protective sheet. A booklet was produced.

(Comparative example)
A non-contact type information medium and a booklet attached thereto were produced in the same manner as in Example 1 except that a porous thermoplastic sheet having poor water vapor barrier properties was used as the protective sheet.

(Discussion)
When the salt spray test described in JIS X6305-1 was performed on the non-contact information medium attached booklets of Examples 1 to 3 and the comparative example, and then only the antenna was taken out and confirmed, the antenna of the comparative example booklet was Although corrosion occurred, the antennas of Examples 1 to 3 did not corrode.

Claims (9)

A non-contact information medium comprising an antenna coil and an IC chip connected to the antenna coil on a base sheet to form an IC inlet, and a protective sheet adhered to both sides of the IC inlet,
A non-contact type information medium, wherein the protective sheet is composed of a laminate of a water vapor barrier sheet and paper.   The non-contact type information medium according to claim 1, wherein the laminate has a three-layer structure in which paper is sandwiched between two water vapor barrier sheets. A non-contact type information medium in which an antenna coil and an IC chip connected to the antenna coil are arranged on a base sheet to form an IC inlet, and protective sheets are laminated on both sides of the IC inlet,
A non-contact type information medium, wherein the protective sheet is composed of a laminate of a water vapor barrier sheet and a porous plastic sheet.   The non-contact type information medium according to claim 3, wherein the laminate has a three-layer structure in which a porous plastic sheet is sandwiched between two water vapor barrier sheets. A non-contact type information medium in which an antenna coil and an IC chip connected to the antenna coil are arranged on a base sheet to form an IC inlet, and protective sheets are laminated on both sides of the IC inlet,
A non-contact type information medium, wherein the protective sheet is formed of a water vapor barrier sheet with a mat processed.   The non-contact type information medium according to claim 1, wherein the water vapor barrier sheet is made of a polyolefin resin sheet.   The non-water vapor barrier sheet according to any one of claims 1 to 6, wherein the water vapor barrier sheet comprises a vapor deposition sheet in which a plastic sheet is used as a vapor deposition base material and a metal or inorganic vapor deposition film is laminated on the vapor deposition base material. Contact information media.   The protective sheet is adhered to both surfaces of the IC inlet by an adhesive layer, and through holes are provided in a part of the IC inlet, and the adhesive layers adhere to each other through the through holes. The non-contact information medium according to claim 1, wherein the non-contact information medium is a non-contact type information medium.   A non-contact type information medium-attached booklet comprising the non-contact type information medium according to any one of claims 1 to 8 built in a cover.