JP2004318571A - Rf-id media and its manufacturing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To write and read information even if the antennas of an information writing/reading device are opposed, from an angle that varies depending on circumstances, to an object to which an RF-ID media is attached. <P>SOLUTION: A base consisting of an oversheet 20 and an inlet 10 is divided into two areas 1a, 1b via a foldable line 2. The inlet 10 fitted with an IC chip 11 and an antenna 12 connected to the IC chip 11 is provided in one of the areas 1a and another antenna 22 which produces electromagnetic induction between itself and the antenna 12 formed on the inlet 10 is formed on the oversheet 20 in the other of the areas 1b. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an RF-ID medium such as a non-contact type IC label capable of writing and reading information in a non-contact state, and a method of manufacturing the RF-ID medium.
[0002]
[Prior art]
In recent years, with the progress of the information society, information is recorded on a card, and information management, settlement, and the like using the card are performed. Further, information is recorded on a label attached to a product or the like, and management of the product or the like is performed using the label.
[0003]
In information management using such a card or label, a non-contact type IC card equipped with an IC capable of writing and reading information in a non-contact state with respect to the card or label, or a non-contact type IC card RF-ID media such as IC labels are rapidly spreading due to their excellent convenience.
[0004]
FIG. 6 is a diagram illustrating an example of the structure of a conventional non-contact type IC label.
[0005]
As shown in FIG. 6, the non-contact type IC label according to this conventional example has an IC chip 510 capable of externally writing and reading information on a base material 550 such as a resin sheet and a contact 540. Is supplied to the IC chip 510 by electromagnetic induction from an externally provided information writing / reading device (not shown), and writing and reading of information to and from the IC chip 510 are not performed. A conductive antenna 520 for performing in a contact state is formed in a coil shape.
[0006]
In the non-contact type IC label 500 configured as described above, when approaching an externally provided information writing / reading device, a current flows through the antenna 520 due to electromagnetic induction from the information writing / reading device. An electric current is supplied to the IC chip 510, whereby information is written from the information writing / reading device to the IC chip 510 in the non-contact state, or the information written to the IC chip 510 is transmitted to the information writing / reading device. Or read.
[0007]
FIG. 7 is a diagram for explaining the principle of the operation of writing and reading information to and from the non-contact type IC label 500 shown in FIG.
[0008]
When information is written to or read from the non-contact type IC label 500 shown in FIG. 6 by an externally provided information writing / reading device, as shown in FIG. A current flows through the coiled antenna 600, thereby generating a magnetic field H in a direction emitted from the coiled core portion of the antenna 600.
[0009]
In this state, when the non-contact type IC label 500 is brought close to the antenna 600 of the information writing / reading device, the magnetic field H generated by the current flowing through the antenna 600 of the information writing / reading device generates The current passes through the antenna 520 through the coiled core portion of the antenna 520.
[0010]
The current flowing through the antenna 520 is supplied to the IC chip 510 of the non-contact type IC label 500 via the contact 540, whereby information can be written from the information writing / reading device to the IC chip 510 in the non-contact state. , Information written in the IC chip 510 is read by an information writing / reading device.
[0011]
RF-ID media such as the non-contact type IC label 500 described above can be used, for example, for book distribution or inventory management. In this case, as a book management method using the RF-ID medium, for example, an RF-ID medium on which a unique tag ID is written is mounted between the spine of the book and the binding section, It is considered that distribution or inventory management of books is performed by IDs (for example, see Patent Document 1).
[0012]
Further, a technology has been considered in which an auxiliary antenna having a coil shape such that a coil-shaped antenna is included in a core portion is provided in the above-described RF-ID medium, thereby extending a communicable distance (for example, see Patents). Reference 2). In the RF-ID medium as described above, when a coil-shaped auxiliary antenna is provided, when the RF-ID medium is brought close to the information writing / reading device, the medium is generated by a current flowing through the antenna of the information writing / reading device. The magnetic field penetrates a core portion of the auxiliary antenna provided on the RF-ID medium, and thus a current flows through the auxiliary antenna. Furthermore, a magnetic field is generated by the current flowing through the auxiliary antenna, and the coil-shaped antenna resonates with the magnetic field, and the resonance amplifies the resonance signal of the coil-shaped antenna, thereby increasing the communicable distance of the RF-ID media. Will be extended.
[0013]
[Patent Document 1]
JP-A-2003-63655
[Patent Document 2]
JP 2001-168628 A
[0014]
[Problems to be solved by the invention]
In the above-described conventional RF-ID media, a magnetic field generated in a direction emitted from a coil-shaped core portion by a current flowing through a coil-shaped antenna of an information writing / reading device generates a coil-shaped magnetic field of the RF-ID media. A current flows through the antenna of the RF-ID medium by penetrating the core portion of the antenna, and this current is supplied to the IC chip of the RF-ID medium, and information is written or read. The case where the antenna of the writing / reading device and the antenna of the RF-ID medium are opposed to each other, and the case where the antenna of the information writing / reading device and the antenna of the RF-ID medium are arranged so as to be perpendicular to each other. The communicable distance between the information writing / reading device and the RF-ID medium is greatly different.
[0015]
FIG. 8 illustrates the principle of the operation of writing and reading information to and from the non-contact IC label 500 when the non-contact IC label 500 shown in FIG. 6 is arranged perpendicular to the antenna of the information writing / reading device. FIG.
[0016]
As shown in FIG. 8, when the non-contact type IC label 500 is disposed so as to be perpendicular to the antenna 600 of the information writing / reading device, the non-contact type IC label 500 is placed in the information writing / reading device. If the antenna is not very close to the antenna 600, the magnetic field H generated by the current flowing through the antenna 600 of the information writing / reading device does not pass through the coil-shaped core portion of the antenna 520 of the non-contact type IC label 500, In addition, the amount of magnetic flux is small.
[0017]
Thereby, when the antenna of the information writing / reading device and the antenna of the RF-ID medium are arranged so as to be perpendicular to each other, the antenna of the information writing / reading device and the antenna of the RF-ID medium are opposed to each other. In this case, the communicable distance between the information writing / reading device and the RF-ID medium is extremely short as compared with the case where the information is written.
[0018]
Therefore, when writing or reading information to or from the RF-ID medium, the antenna of the information writing / reading device must face the RF-ID medium.
[0019]
The same applies to the case where the coil-shaped auxiliary antenna is provided on the RF-ID medium as described above, and the antenna and the auxiliary antenna provided on the RF-ID medium are opposed to the antenna of the information writing / reading device. Otherwise, the communicable distance between the information writing / reading device and the RF-ID medium cannot be increased.
[0020]
Here, as described above, as a method of using the RF-ID media, when the RF-ID media is attached to a book and the distribution or inventory management of the book is performed using the RF-ID media, the RF-ID media is used. When mounted on the spine side of a book, if the antenna of the information writing / reading device is arranged so as to face the spine of the book, writing and reading of information on the RF-ID medium can be performed. If the antenna of the information writing / reading device is arranged so as to face the front cover of the book, writing and reading of information on the RF-ID medium cannot be performed. In the distribution or inventory management of books, for example, when the books are stored in a bookshelf, the antenna of the information writing / reading device can be easily opposed to the spine of the books, and the books are stacked on a desk. In this state, the antenna of the information writing / reading device can be easily opposed to the cover of the book. Therefore, as described above, when the relative angle between the antenna of the information writing / reading device and the RF-ID medium is restricted, the object on which the RF-ID medium is mounted, such as book management, is used. On the other hand, when it is conceivable that the antenna of the information writing / reading device is opposed from a different angle depending on the situation, it is difficult to perform management or the like using an RF-ID medium. There is.
[0021]
SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the conventional technology, and has been described in connection with information writing / writing on an object on which an RF-ID medium is mounted from different angles depending on the situation. It is an object of the present invention to provide an RF-ID medium capable of writing and reading information even when an antenna of a reading device is opposed, and a method for manufacturing the RF-ID medium.
[0022]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides
A base having a plurality of layers laminated, first and second coiled antennas formed so that electromagnetic induction is generated in the base, and the base connected to the first antenna An RF-ID medium comprising at least an IC chip which is mounted on the IC chip and in which information is written and read out in a non-contact state via the first antenna,
The base material has two regions adjacent to each other, and is configured to be bendable so that the two regions face different directions,
The first antenna is formed in one of the two regions,
The second antenna is formed in the other of the two regions.
[0023]
Further, the base material is made of a transparent material,
The first and second antennas are made of a transparent conductor.
[0024]
Further, the coil-shaped first antenna is formed on the base material, and the IC chip capable of writing and reading information in a non-contact state through the first antenna is mounted on the inlet. A method for manufacturing an RF-ID medium, comprising stacking oversheets on which a coil-shaped second antenna in which electromagnetic induction is generated between the first antenna and the first antenna,
Forming the second antenna on the oversheet;
Stacking the inlet so that the first antenna is adjacent to the second antenna with respect to the oversheet on which the second antenna is formed.
[0025]
(Action)
In the present invention configured as described above, an area in which one of the first and second antennas formed so as to generate electromagnetic induction is attached to, for example, a spine of a book or the like. Then, the base material is further folded, and the area where the other antenna is formed is attached to the cover of a book or the like, so that the first and second antennas are directed to different directions from each other. If attached, when the antenna of the information writing / reading device is opposed to the first antenna connected to the IC chip, current flows to the first antenna due to electromagnetic induction from the information writing / reading device. This current is supplied to the IC chip, whereby information is written from the information writing / reading device to the IC chip, and information written to the IC chip is read by the information writing / reading device. When the antenna of the information writing / reading device is opposed to the second antenna, a current flows through the second antenna by electromagnetic induction from the information writing / reading device, and the magnetic field generated by the current causes A current flows through one antenna, and this current is supplied to the IC chip, whereby information is written from the information writing / reading device to the IC chip, or information written on the IC chip is written to the information writing / reading device. Or read.
[0026]
As described above, the first and second antennas provided so as to cause electromagnetic induction with each other are formed in one of two adjacent regions of the bendable base material, respectively. If the two regions where the antennas are bent are attached to the object so that the two regions face in different directions, writing and reading of information from the direction facing the first antenna, as well as the second antenna, Writing and reading of information can also be performed from opposite directions. Further, since the first antenna and the second antenna are integrally mounted on the base material, the distance between the first antenna and the second antenna is kept constant, and the first antenna and the second antenna are connected to each other. Predetermined resonance with the two antennas is performed stably.
[0027]
In addition, if the base material is made of a transparent material, and the first and second antennas are made of a transparent conductor, even when the RF-ID media is attached to a target such as a book, the target can be placed on the target. The described information is not hidden or hidden by the RF-ID media.
[0028]
In addition, a first coil-shaped antenna is formed on a base material, and an IC chip capable of writing and reading information in a non-contact state through the first antenna is mounted on the inlet. When manufacturing an RF-ID medium in which an oversheet in which a coil-shaped second antenna in which electromagnetic induction is generated between the antenna and the other antenna is laminated, the second antenna is pre-installed in the oversheet. If an RF-ID medium is manufactured by forming an inlet on the oversheet on which the second antenna is formed so that the first antenna is adjacent to the second antenna, the inlet can be formed in the inlet. There is no need to form the second antenna, and the inlet on which the first antenna is formed on the base material and the IC chip is mounted can be used for general purposes. It can be.
[0029]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0030]
(First Embodiment)
FIGS. 1A and 1B show a non-contact type IC label according to a first embodiment of the RF-ID medium of the present invention, wherein FIG. 1A shows an internal structure, and FIG. FIG. 11 is a sectional view taken along the line AA ′.
[0031]
In this embodiment, as shown in FIG. 1, an oversheet 20 such as paper having an adhesive layer 30a formed on one surface is divided into two regions 1a and 1b adjacent to each other via a foldable folding line 2. In one of the regions 1a, an IC chip 11 capable of externally writing and reading information is mounted on a resin sheet 14 serving as a base material, and is connected to the IC chip 11 via a contact 13; An electric current is supplied to the IC chip 11 by electromagnetic induction from an information writing / reading device (not shown) provided outside, and conductivity for writing and reading information to and from the IC chip 11 in a non-contact state is obtained. The inlet 10 on which the coiled first antenna 12 is formed is adhered via the adhesive layer 30a, and the coiled second antenna 22 is formed on the other area 1b. Further, it is constituted by a release paper 40 that is releasably attached to the inlet 10 and the oversheet 20 by the adhesive layer 30b formed on the back of the inlet 10 and the adhesive layer 30a formed on the back of the oversheet 20. ing. In addition, in the antenna 12 formed in the inlet 10, when the inlet 10 is adhered to the oversheet 20, electromagnetic induction occurs between the antenna 10 and the antenna 22, and the current flows due to the magnetic field generated by the current flowing through the antenna 22. It is formed in a flowing region. In the present embodiment, the base material is constituted by the oversheet 20, the adhesive layer 30a, and the inlet 10. The shortest distance between the outermost periphery of the antenna 12 and the antenna 22 is 1 cm in the present embodiment. If the distance is increased, the efficiency of resonance in electromagnetic induction is reduced. Therefore, it is preferable that the distance be about 2 cm or less, depending on the size of the antennas 12 and 22.
[0032]
Hereinafter, a method of manufacturing the non-contact type IC label configured as described above will be described.
[0033]
FIG. 2 is a view for explaining a method of manufacturing the non-contact type IC label shown in FIG.
[0034]
First, a conductive coil-shaped antenna 22 is formed by printing or the like on a portion to be the region 1b on one surface of the continuous paper-shaped oversheet 20 (FIG. 2A). In addition, since the antenna 22 is formed in a portion to be the region 1b, the pitch t needs to be equal to or larger than the width of the non-contact type IC label to be manufactured. At this time, the fold line 2 is formed on the oversheet 20 by perforation or cutting. In addition, in the fold line 2, since the overseat 20 may be bent so that the region 1a and the region 1b face different directions, depending on the material of the overseat 20, the overseat 20 is not necessarily formed by perforation or the like. You don't have to.
[0035]
Next, an adhesive layer 30a is formed on the surface of the oversheet 20 on which the antenna 22 is formed (FIG. 2B). Note that the adhesive layer 30a may be formed on the surface of the oversheet 20 where the antenna 22 is not formed.
[0036]
Next, the inlet 10 is sandwiched between the surface of the oversheet 20 on which the adhesive layer 30a is formed and the release paper 40 so as to be disposed in the area 1a, that is, between the antennas 22 (FIG. 2 (c)). )). The inlet 10 has an IC chip 11 capable of writing and reading information from the outside mounted on a resin sheet 14, and is connected to the IC chip 11 via a contact 13 to provide information provided outside. A conductive coil-shaped antenna 12 for supplying a current to the IC chip 11 by electromagnetic induction from a writing / reading device (not shown) and writing and reading information to and from the IC chip 11 in a non-contact state. Is formed in advance, and an adhesive layer 30b is formed on the surface of the resin sheet 14 on which the IC chip 11 is not mounted, and the oversheet is formed so that the adhesive layer 30b is on the release paper 40 side. 20 and the release paper 40.
[0037]
Thereby, in the part which becomes area | region 1a, the oversheet 20 and the inlet 10 are adhere | attached by the adhesive layer 30a formed in the oversheet 20, and the inlet 10 and the release paper 40 are adhered by the adhesive layer 30b formed in the inlet 10. Are adhered. Further, in the portion to be the region 1b, the oversheet 20 and the release paper 40 are adhered by the adhesive layer 30a (FIG. 2D).
[0038]
After that, the oversheet 20 and the release paper 40 that are bonded with the inlet 10 sandwiched therebetween are cut to the width of the non-contact type IC label (FIG. 2E). In order to continuously write information on the IC chip 11 and print or print information on the exposed surface, the oversheet 20 and the release paper 40 are not completely cut, but only the release paper 40 is used. It is also conceivable to form a slit so as to be connected.
[0039]
Hereinafter, the operation of the non-contact type IC label manufactured as described above will be described with reference to an example in which the non-contact type IC label is attached to a book and book management is performed using the non-contact type IC label. I do.
[0040]
3A and 3B are diagrams for explaining the operation of the non-contact type IC label shown in FIG. 1. FIG. 3A shows the antenna of the information writing / reading device in the area 1a where the first antenna 12 is formed. FIG. 4B is a diagram illustrating a state where the antenna of the information writing / reading device is opposed to a region 1b where the second antenna 22 is formed.
[0041]
As shown in FIG. 3, the non-contact type IC label shown in FIG. 1 is affixed to the spine of the book 50 in the area 1a where the antenna 12 is formed, and further folded at the folding line 2 to form the antenna 22. The area 1b thus obtained is attached to the cover of the book 50.
[0042]
In this manner, the non-contact type IC label is affixed to the book 50 and, for example, in a state where the book 50 is stored in the bookshelf or the like, as shown in FIG. When the antenna 60 of the device is opposed, a current flows to the antenna 12 due to electromagnetic induction from the information writing / reading device, and this current is supplied to the IC chip 11, whereby the antenna 12 is transmitted from the information writing / reading device. Information is written to the IC chip 11 via the IC chip 11, and the information written to the IC chip 11 is read by the information writing / reading device via the antenna 12.
[0043]
Further, for example, in a state where the books 50 are stacked on a desk or the like, as shown in FIG. 3B, when the antenna 60 of the information writing / reading device is opposed to the cover of the book 50, the information writing / reading is performed. A current flows through the antenna 22 due to electromagnetic induction from the device. Here, the antenna 12 formed in the inlet 10 is formed in a region where a current flows by a magnetic field generated by a current flowing through the antenna 22 when the inlet 10 is bonded to the oversheet 20. When a current flows through 22, a current flows due to a magnetic field generated by the current. Then, a current flowing through the antenna 12 is supplied to the IC chip 11, whereby information is written from the information writing / reading device to the IC chip 11 via the antennas 22 and 12, or information written on the IC chip 11 is written. Is read by the information writing / reading device via the antennas 12 and 22.
[0044]
(Second embodiment)
FIGS. 4A and 4B are diagrams showing a non-contact type IC label according to a second embodiment of the RF-ID medium of the present invention, wherein FIG. 4A shows the internal structure, and FIG. FIG. 11 is a sectional view taken along the line AA ′.
[0045]
In this embodiment, as shown in FIG. 4, an IC chip 111 capable of writing and reading information from the outside is mounted on a resin sheet 114, and is connected to the IC chip 111 via a contact point 113, and is connected to the outside. A conductive coil for supplying a current to the IC chip 111 by electromagnetic induction from a provided information writing / reading device (not shown) and writing and reading information to and from the IC chip 111 in a non-contact state. Antenna 112 is formed, and further, an inlet 110 in which a coiled antenna 122 having conductivity is formed in a region adjacent to the antenna 112, and an adhesive layer 130a is formed on a surface of the inlet 110 on which the IC chip 111 is mounted. Surface over which the IC chip 111 of the inlet 110 is not mounted. And a releasably adhered to release paper 140. via an adhesive layer 130b. The oversheet 120, the adhesive layers 130a and 130b, and the inlet 110 are divided into two regions 101a and 101b adjacent to each other via a foldable folding line 102. In the inlet 110, one of the regions 101a is An antenna 112 is formed, an IC chip 111 is mounted, and an antenna 122 is formed in the other region 101b. Note that the antenna 112 and the antenna 122 formed in the inlet 110 are formed in regions where electromagnetic induction occurs and current flows through the antenna 112 by a magnetic field generated by a current flowing through the antenna 122. In the present embodiment, the base material is composed of the oversheet 120, the adhesive layers 130a and 130b, and the inlet 110.
[0046]
Hereinafter, a method of manufacturing the non-contact type IC label configured as described above will be described.
[0047]
FIG. 5 is a diagram for explaining a method of manufacturing the non-contact type IC label shown in FIG.
[0048]
First, on the resin sheet 114 in the continuous state, the coil-shaped antenna 112 is formed by printing or the like on the portion that becomes the region 101a, and the coil-shaped antenna 122 is formed by printing or the like on the portion that becomes the region 101b (FIG. 5). (A)).
[0049]
Next, the IC chip 111 is mounted on the resin sheet 114 on which the antennas 112 and 122 are formed so as to be connected to the antenna 112 via the contacts 113, and the inlet 110 is completed (FIG. 5B).
[0050]
Next, an adhesive layer 130b is provided on the back surface of the inlet 110, and the inlet 110 is laminated on each other so as to be sandwiched between the oversheet 120 and the release paper 140 (FIG. 5C). At this time, an adhesive layer 130a is formed on the surface of the oversheet 120 to be bonded to the inlet 110, thereby bonding the oversheet 120 and the inlet 110.
[0051]
As a result, the inlet 110 is bonded to each other while being sandwiched between the oversheet 120 and the release paper 140, and the antenna 112 and the IC chip 111 are provided in the portion that becomes the region 101a, and the region 101b is formed. In the portion, an antenna 122 is provided (FIG. 5D). Note that, at the fold line 102, the inlet 110 may be formed in a state where the inlet 110 is sandwiched between the oversheet 120 and the release paper 140 and adhered to each other by perforation or cutting, or the like. It is conceivable to form the resin sheet 114 in advance.
[0052]
Then, the oversheet 120, the inlet 110, and the release paper 140 adhered to each other are cut to the width of the non-contact type IC label (FIG. 5E).
[0053]
In the non-contact type IC label manufactured as described above, similarly to the first embodiment, the area 101a is attached to the spine of the book, and the area 101a is folded at the folding line 102. If the book 101b is attached to the cover of the book, for example, when the antenna of the information writing / reading device is opposed to the spine of the book in a state where the book is stored in the bookshelf, for example, Even when the antenna of the information writing / reading device is opposed to the cover of the book in a state of being stacked on a desk or the like, the information writing / reading device writes information to the IC chip 111 or writes information to the IC chip 111. The read information can be read by the information writing / reading device.
[0054]
In the above two embodiments, the oversheets 20, 120, the resin sheets 14, 114, and the adhesive layers 30a, 30b, 130a, 130b are made of a transparent material, and the antennas 12, 22, 112, 122 are further formed. Is composed of a transparent conductor such as a transparent conductive thin film, even when a non-contact type IC label is attached to a book, information written on the cover or spine of the book is hidden by the non-contact type IC label. No more.
[0055]
Further, in the above two embodiments, the non-contact type IC label has been described as an example of the RF-ID medium. However, the present invention can write and read information in a non-contact state. The present invention can be applied to a non-contact type IC tag or the like as long as it can be bent at a folding line.
[0056]
【The invention's effect】
As described above, according to the present invention, a base material having a plurality of layers laminated, coil-shaped first and second antennas formed so that electromagnetic induction is generated between the base material, In an RF-ID medium comprising at least an IC chip connected to the antenna of the above and mounted on the base material and writing and reading information in a non-contact state via the first antenna, the base material is Has two regions adjacent to each other, the two regions are configured to be bendable so as to face different directions, the first antenna is formed in one of the two regions, and the second antenna is formed in the second region. Since the antenna is configured to be formed in the other of the two regions, the base material is bent and attached to a target so that the two regions where the antenna is formed face in different directions. ID media can be written and read even information even when made to face the antenna of the information writing / reading device from different angles, according to the context to the object mounted.
[0057]
In the case where the base material is made of a transparent material and the first and second antennas are made of a transparent conductor, even when the RF-ID media is attached to an object such as a book. In addition, the information described on the object is not hidden by the RF-ID medium.
[0058]
A first coil-shaped antenna is formed on the base material, and an IC chip capable of writing and reading information in a non-contact state through the first antenna is mounted on the inlet. In a method of manufacturing an RF-ID medium in which an oversheet on which a coil-shaped second antenna that generates electromagnetic induction between the antenna and another antenna is formed is laminated, the second antenna is formed on the oversheet. Manufacturing an RF-ID medium by sequentially performing a step and a step of laminating an inlet on the oversheet on which the second antenna is formed so that the first antenna is adjacent to the second antenna Does not require a second antenna to be formed in the inlet, the first antenna is formed on the base material, and the IC chip is mounted. The The inlet can be utilized universally.
[Brief description of the drawings]
FIG. 1 is a view showing a non-contact type IC label which is a first embodiment of an RF-ID medium of the present invention, wherein (a) shows an internal structure, and (b) shows an (a). FIG. 11 is a sectional view taken along the line AA ′.
FIG. 2 is a diagram for explaining a method of manufacturing the non-contact type IC label shown in FIG.
3A and 3B are diagrams for explaining the operation of the non-contact type IC label shown in FIG. 1; FIG. 3A shows an information writing / reading device in which an antenna is opposed to a region where a first antenna is formed; FIG. 3B is a diagram illustrating a state in which the antenna of the information writing / reading device is opposed to a region where the second antenna is formed.
4A and 4B are diagrams showing a non-contact type IC label according to a second embodiment of the RF-ID medium of the present invention, wherein FIG. 4A shows an internal structure, and FIG. FIG. 11 is a sectional view taken along the line AA ′.
FIG. 5 is a diagram for explaining a method of manufacturing the non-contact type IC label shown in FIG.
FIG. 6 is a diagram showing an example of the structure of a conventional non-contact type IC label.
FIG. 7 is a diagram for explaining the principle of information writing and reading operations on the non-contact type IC label shown in FIG. 6;
FIG. 8 is a view for explaining the principle of the operation of writing and reading information to and from the non-contact type IC label when the non-contact type IC label shown in FIG. 6 is arranged perpendicular to the antenna of the information writing / reading device. FIG.
[Explanation of symbols]
1a, 1b, 101a, 101b area
2,102 folding line
10,110 inlet
11,111 IC chip
12,22,60,112,122 Antenna
13,113 contacts
14,114 resin sheet
20,120 overseat
30a, 30b, 130a, 130b Adhesive layer
40,140 Release paper
50 books

Claims (3)

A base having a plurality of layers laminated, first and second coiled antennas formed so that electromagnetic induction is generated in the base, and the base connected to the first antenna An RF-ID medium comprising at least an IC chip which is mounted on the IC chip and in which information is written and read out in a non-contact state via the first antenna,
The base material has two regions adjacent to each other, and is configured to be bendable so that the two regions face different directions,
The first antenna is formed in one of the two regions,
The said 2nd antenna is formed in the other area | region of said two area | regions, The RF-ID medium characterized by the above-mentioned. The RF-ID medium according to claim 1,
The base material is made of a transparent material,
The first and second antennas are made of a transparent conductor. A first coil-shaped antenna is formed on a base material, and an IC chip capable of writing and reading information in a non-contact state via the first antenna is mounted on the inlet. A method for manufacturing an RF-ID medium, comprising: laminating an oversheet on which a coil-shaped second antenna such that electromagnetic induction occurs between the antenna and the other antenna,
Forming the second antenna on the oversheet;
Laminating the inlet on the oversheet on which the second antenna is formed, such that the first antenna is adjacent to the second antenna. Production method.

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