JP2006209653A - Base material for non-contact communication and production method therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent wire breakage of an antenna while perforations are formed without minute control, to prevent generation of a defective product even in the case of large-scale production, and to reduce possibility of destruction of a base material and to finely cut a cutting portion when the perforations are cut while the perforations are formed such that the wire breakage of the antenna is prevented. <P>SOLUTION: The antenna 2 connected to an IC chip 1, for performing non-contact communication to the IC chip 1 are branched into a plurality of lines such that the lines are connected to each other in parallel, in an area wherein the perforations 4 are formed at even intervals so as to cut off a part of a point card 10 according to a use method. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a non-contact communication base material used as a point card and a manufacturing method thereof.

  Conventionally, pachinko parlors and coins acquired by customers are exchanged for special prizes at amusement halls such as pachinko parlors, and cash is paid to the customers in exchange for the special prizes. In addition, in such special prizes, in order to shorten the processing time at the time of cashing or to prevent forgery, it is considered that a tag capable of non-contact communication is incorporated (for example, a patent) Reference 1). Such a technique is not limited to the special prize as described above, but can also be used for the point reduction in which the points acquired by the customer by shopping or the like are exchanged for those having equivalent value.

  Also, in recent years, a point card on which points are recorded is integrated with a CD-ROM on which games, music, and the like are recorded, thereby widening the range of selection in point reduction using points acquired by customers. Is considered.

  FIG. 9 is a view showing a point card as an example of a conventional non-contact communication base material used for point reduction. FIG. 9A is a view seen from the CD-ROM reading surface side, and FIG. ) Is a cross-sectional view taken along the line AA ′ shown in FIG.

  In this conventional example, as shown in FIG. 9, a coiled antenna 302 for non-contact communication is formed on a PET base material 303, and an IC chip 301 capable of non-contact communication via this antenna 302 is connected to the antenna 302. An inlet 306 that is connected and mounted on a PET base material 303 is sandwiched between a CD-ROM part 305 having an optical information recording part 305a on which information is optically recorded and a PET base material 308, and is adhered. The adhesives 309a and 309b are bonded to each other. As a result, a portion of the inlet 306 where the antenna 302 and the IC chip 301 are provided is exposed from the hole 305b of the CD-ROM portion 305. Further, in the outer region of the hole 305b, a perforation 304 that penetrates the PET base materials 303 and 308 is formed along the outer periphery of the hole 305b so that the cut portion is not formed on the antenna 302. Is formed.

  In the point card 310 configured as described above, a current is supplied to the antenna 302 by electromagnetic induction from the information writing / reading device by being brought close to an information writing / reading device (not shown) provided outside. This current is supplied to the IC chip 301, whereby information is written from the information writing / reading device to the IC chip 301 in a non-contact state, and information written to the IC chip 301 is written / read Or read by a reading device. Therefore, if the point information is written in the IC chip 301 or the card ID written in the IC chip 301 and the point information are registered in association with each other, the point information and the card ID are subsequently read from the IC chip 301. Can be recognized, and points can be reduced such as giving a privilege according to the points.

Further, if information such as a game or music corresponding to the point is optically recorded in the optical information recording unit 305a of the CD-ROM unit 305, the person who receives the point card 310 will then receive the personal computer. For example, the information recorded in the optical information recording unit 305a can be read to enjoy a game or play music. In this case, the perforations 304 formed on the PET base materials 303 and 308 are cut, and the point card 310 is inserted into a personal computer or the like. Here, when the perforation 304 is cut, the IC chip 301 is separated from the point card 310, and information written in the IC chip 301 cannot be read. Therefore, in this point card 310, either point reduction using information written in the IC chip 301 or provision of a game or music recorded in the optical information recording unit 305a of the CD-ROM unit 305 is provided. Only one of them will be provided selectively.
JP 2002-210761 A

  In the base material for non-contact communication as described above, only one of point reduction using information written in the IC chip and provision of a game or music recorded in the CD-ROM section is selectively used. In order to cut out this area when a part of an antenna and an IC chip are provided in the hole of the CD-ROM section and a game or music recorded in the CD-ROM section is received. The perforation is formed, but if the cut part forming the perforation is formed on the antenna, the antenna is disconnected or the antenna is cracked, and the perforation is not cut However, there is a risk that information cannot be written to or read from the IC chip.

  Therefore, it is conceivable to adjust the position of the perforation so that the cut portion is not formed on the antenna. However, when the antenna is composed of fine lines, fine control is required to form the perforation. In addition, even if the position of the perforation is adjusted by fine control, there is a slight error in the formation position of the perforation. There is a problem.

  In addition, as shown in FIG. 9, it may be possible to adjust the shape of the perforation so that the cut portion is not formed on the antenna. In that case, the portion excluding the cut portion is connected more than necessary. Thus, when the region surrounded by the perforation is cut, an unnecessary force is applied, and the entire base substrate may be destroyed by the force. In addition, since the portion excluding the cut portion is connected more than necessary, when the perforation is cut, the cut portion is not cut so as to have a clean cross section, thereby causing unevenness in the cut portion. As described above, when the disk is used as a rotating disk such as a CD or a DVD after separating the perforated area, the rotating operation is hindered and the data reading operation cannot be performed normally. There is a fear.

  In addition, it is conceivable that only a portion of the antenna where the perforation is formed is a solid pattern, but since the perforation is formed by applying pressure from above the base substrate after the antenna is formed, pressure is applied. There is a risk that information may be written to or read from the IC chip even in a state where a crack is generated from the region and the perforation is not cut as described above.

  The present invention has been made in view of the problems of the conventional techniques as described above, and can prevent the antenna from being disconnected while the perforation is formed without fine control, and can be manufactured in large quantities. Even if it is produced, defective products will not occur, and furthermore, the base material can be destroyed when the perforation is cut while the perforation is formed so that the antenna does not break It is an object of the present invention to provide a non-contact communication base material and a method for manufacturing the same that can reduce the cutting property and can cut the cut portion cleanly.

In order to achieve the above object, the present invention provides:
A non-contact communication base material in which an antenna for non-contact communication is formed on a base base material,
At least a part of the antenna branches into a plurality of lines so as to be connected in parallel with each other;
A perforation is formed in an area of the base substrate where at least the antenna is branched into a plurality of lines so that at least one of the antennas branched into the plurality of lines is not cut.

  An IC chip capable of non-contact communication via the antenna is connected to the antenna and provided on the base substrate.

In addition, an IC chip that includes a transmission / reception antenna and is capable of non-contact communication using the transmission / reception antenna is provided on the base substrate,
The antenna performs non-contact communication with the transmission / reception antenna.

In addition, an information recording disk that is affixed to the base substrate and supported by a hole formed in the central portion and from which information is read by rotation,
A protective sheet affixed to cover the information recording disc and the base substrate on the surface of the information recording disc to which the base substrate is affixed;
The perforation is formed in a region along the outer periphery of the hole.

  In the present invention configured as described above, even when the perforations formed in the base substrate are cut, the regions of the antenna where the perforations are formed are connected in parallel to each other. Since the perforations are formed so that at least one of the antennas branched into a plurality of lines and at least one of the antennas branched into the plurality of lines is not cut, the antenna does not break. Further, while the possibility that the antenna is disconnected is reduced, when the perforation is cut, an unnecessary force is not applied, and the cut portion is cut so that the cross section is clean.

Further, a base substrate, an antenna for non-contact communication formed on the base substrate and branched into a plurality of lines so that at least a part thereof is connected in parallel to each other, and at least the antenna of the base substrate Manufacturing a base material for non-contact communication having a perforation formed so that at least one of the antennas branched into the plurality of lines is not cut in a region formed by branching into the plurality of lines A method,
On the base substrate, forming the antenna branched into a plurality of lines so that at least some of them are connected in parallel with each other;
Forming the perforation so that at least one of the antennas branched into the plurality of lines is not cut in a region of the base substrate where the antennas are branched into a plurality of lines.

Further, a base substrate, an antenna for non-contact communication formed on the base substrate and branched into a plurality of lines so that at least a part thereof is connected in parallel to each other, and the base connected to the antenna An IC chip provided on a substrate and capable of non-contact communication via the antenna, and an antenna branched into the plurality of lines in a region formed by branching at least the antenna into a plurality of lines of the base substrate A perforation formed so that at least one of them is not cut, and an information recording disk that is affixed to the base substrate and supported by a hole formed in the central portion and rotated to read information. A protective sheet affixed to cover the information recording disc and the base substrate on the surface of the information recording disc to which the base substrate is affixed; Eyes, a manufacturing method of a noncontact communication base material formed in a region along the periphery of the hole,
On the base substrate, forming the antenna branched into a plurality of lines so that at least some of them are connected in parallel with each other;
Affixing the base substrate on which the antenna is formed to the information recording disk so that at least a part of a portion of the antenna branched into a plurality of lines is located outside the hole;
A step of affixing the protective sheet on the surface of the information recording disc to which the base substrate is affixed so as to cover the information recording disc and the base substrate;
The perforation so as to penetrate the protective sheet and the base substrate from the side on which the protective sheet of the information recording disk is affixed, and to overlap a portion of the antenna branched into a plurality of lines. Forming.

Further, a base substrate, an antenna for non-contact communication formed on the base substrate and branched into a plurality of lines so that at least a part thereof is connected in parallel to each other, and the base connected to the antenna An IC chip provided on a base material and capable of non-contact communication via the antenna, and an antenna branched to the plurality of lines in a region formed by branching the antenna of the base base material into a plurality of lines. An information recording disk on which information is read by rotating by perforation formed so that at least one of them is not cut, and affixed to the base substrate and supported by a hole formed in the central portion; A protective sheet affixed to cover the information recording disc and the base substrate on the surface of the information recording disc to which the base substrate is affixed; A manufacturing method of the hole noncontact communication base material formed in a region along the periphery of,
On the base substrate, forming the antenna branched into a plurality of lines so that at least some of them are connected in parallel with each other;
Attaching the protective sheet to the base substrate on which the antenna is formed;
Pasting the base substrate to which the protective sheet is affixed to the information recording disc so that at least a part of the portion branched into a plurality of lines of the antenna is located outside the hole;
The perforation so as to penetrate the protective sheet and the base substrate from the side on which the protective sheet of the information recording disk is affixed, and to overlap a portion of the antenna branched into a plurality of lines. It is also conceivable to manufacture by a forming process.

Further, a base substrate, an antenna for non-contact communication formed on the base substrate and branched into a plurality of lines so that at least a part thereof is connected in parallel to each other, and the base connected to the antenna An IC chip provided on a substrate and capable of non-contact communication via the antenna, and at least the antenna of the base substrate is branched into a plurality of lines, and is branched into the plurality of lines. Information is read by rotating by being supported by a perforation having an equal interval formed so that at least one of the antennas is not cut, and a hole formed in the central portion and attached to the base substrate. Information recording disk, and a protective sheet affixed to a surface of the information recording disk to which the base substrate is affixed so as to cover the information recording disc and the base substrate The have the perforations, a manufacturing method of a noncontact communication base material formed in a region along the periphery of the hole,
On the base substrate, forming the antenna branched into a plurality of lines so that at least some of them are connected in parallel with each other;
Attaching the protective sheet to the base substrate on which the antenna is formed;
Forming the perforation so as to penetrate the protective sheet and the base substrate and to overlap a portion of the antenna branched into a plurality of lines;
It is also conceivable to manufacture the base substrate to which the protective sheet is affixed by a step of affixing the information recording disk so that the perforation is located outside the hole.

  As described above, in the present invention, at least a part of the antenna formed on the base substrate branches into a plurality of lines so as to be connected in parallel to each other, and at least the antenna of the base substrate has a plurality of lines. Since the perforation is formed in the region formed by branching so that at least one of the antennas branched into a plurality of lines is not cut, the perforation is formed in the region where the antenna of the base substrate is formed. While being formed, the antenna can be prevented from being disconnected. In addition, defective products do not occur even when mass-produced, and the base material is destroyed when the perforation is cut while the perforation is formed so that the antenna is not disconnected. The possibility of being cut can be reduced, and the cut portion can be cut cleanly.

  Embodiments of the present invention will be described below with reference to the drawings.

(First embodiment)
FIG. 1 is a diagram showing a point card which is a first embodiment of a non-contact communication base material of the present invention, (a) is a diagram viewed from the CD-ROM reading surface side, (b) is ( AA 'sectional view shown to a), (c) is a figure which shows the structure of the inlet 6 shown to (a), (d) is the B section enlarged view shown to (a).

  In this embodiment, as shown in FIG. 1, a coiled antenna 2 for non-contact communication is formed on a PET base 3 serving as a base base, and an IC chip 1 capable of non-contact communication via this antenna 2. The inlet 6 connected to the antenna 2 and mounted on the PET base material 3 has an optical information recording part 5a in which information is optically recorded, and in a hole 5b formed in the central part. It is sandwiched between a CD-ROM section 5 which is an information recording disk from which information recorded in the optical information recording section 5a is read by being supported and rotated, and a PET substrate 8 which is a protective sheet, and an adhesive 9a, 9b is bonded to each other. Thereby, a part of the inlet 6 where the antenna 2 and the IC chip 1 are provided is exposed from the hole 5 b of the CD-ROM part 5. Further, in the region outside the hole portion 5b, perforations 4 having equal intervals penetrating the PET base materials 3 and 8 are formed along the outer periphery of the hole portion 5b. Further, in this embodiment, the portion of the antenna 2 where the perforation 4 is formed is branched into a plurality of lines so as to be connected in parallel to each other. As shown in FIG. The width of the tie portion is such that two of the antennas 2 branched into the plurality of lines can enter. In FIG. 1 (d), the perforation 4 is formed so that the cut portion avoids the antenna 2, but the width of the tie portion is two of the antennas 2 branched into the plurality of lines. With this width, even when the perforation 4 is shifted in the intermittent direction, a cut portion is not formed in at least one of the antennas 2 branched into a plurality of lines. Further, the perforations 4 are not limited to regular intervals as long as at least one of the antennas 2 branched into a plurality of lines is not cut.

  Below, the manufacturing method of the point card 10 comprised as mentioned above is demonstrated.

  FIG. 2 is a diagram for explaining a method of manufacturing the point card 10 shown in FIG.

  First, the antenna 2 branched into a plurality of lines is formed on the PET base material 3 by etching, vapor deposition, printing, or the like so that the portions are connected in parallel to each other (FIG. 2A).

  Next, the IC chip 1 is mounted on the surface of the PET base material 3 on which the antenna 2 is formed so as to be connected to the antenna 2 and adhered to the PET base material 3 using a conductive adhesive (not shown). . Thereby, the antenna 2 and the IC chip 1 are electrically connected, and the inlet 6 is completed (FIG. 2B).

  Next, on the surface opposite to the information reading surface of the CD-ROM portion 5 having the hole portion 5b in the central portion, the surface on which the antenna 2 is formed and the IC chip 1 is mounted is used as an adhesive surface. The inlet 6 is pasted by 9a (FIG. 2 (c)). At this time, the inlet 6 is affixed to the CD-ROM unit 5 so that at least a part of the portion of the antenna 2 branched into a plurality of lines is located outside the hole 5 b of the CD-ROM unit 5.

  Next, the PET base material 8 is pasted with the adhesive 9b so as to cover the inlet 6 and the CD-ROM section 5 on the entire surface of the CD-ROM section 5 on which the inlet 6 is pasted (FIG. 2D). ).

  Thereafter, the perforation 4 is formed so as to penetrate the PET substrate 8 and the inlet 6 from the side on which the PET substrate 8 is affixed, and to overlap with a portion branched into a plurality of lines in the antenna 2 ( FIG. 2 (e)).

  It is also conceivable that the PET base material 8 is affixed to the inlet 6 before the inlet 6 is affixed to the CD-ROM portion 5 without performing the above-described steps. In that case, the perforation 4 is formed before or after the inlet 6 and the PET base material 8 pasted to each other are stuck to the CD-ROM portion 5.

  That is, as another manufacturing method of the point card 10 shown in FIG. 1, first, the PET base material 8 is attached to the inlet 6 manufactured as shown in FIG. Affixed the inlet 6 to the CD-ROM portion 5, and then form the perforation 4 so as to penetrate the PET substrate 8 and the inlet 6 from the side where the PET substrate 8 is affixed, A PET substrate 8 is affixed to the inlet 6, a perforation 4 is formed on the affixed inlet 6 and the PET substrate 8, and then the inlet 6 affixed to the PET substrate 8 is affixed to the CD-ROM unit 5. It is possible to do.

  In addition, when manufacturing the inlet 6 alone as a non-contact communication base material, as described above, first, on the PET base material 3, an antenna branched into a plurality of lines so as to be partially connected to each other in parallel. Then, the IC chip 1 is mounted on the surface of the PET substrate 3 on which the antenna 2 is formed so as to be connected to the antenna 2. After that, the sewing machine is formed so that the antenna 2 is formed and the PET base material 3 on which the IC chip 1 is mounted penetrates the PET base material 3 and overlaps a portion of the antenna 2 branched into a plurality of lines. The eyes 4 will be formed.

  Further, when the PET base material 8 is pasted on the inlet 6, the PET base material 8 is pasted on the inlet 6 and then penetrates the inlet 6 and the PET base material 8 from the inlet 6 side or the PET base material 8 side. In addition, the perforation 4 is formed so as to overlap with a portion of the antenna 2 branched into a plurality of lines.

  Below, the point return method using the point card | curd 10 mentioned above is demonstrated.

  FIG. 3 is a diagram showing an example of a system for performing point return using the point card 10 shown in FIG.

  In this example, as shown in FIG. 3, a point card issuing machine 21 installed in a point card issuing store 20 that issues a point card 10 according to the purchase of goods or the like, and a point card issuing machine 21 via a communication line 60. Is connected to the point management server 40 for registering and managing the point information of the point card 10 issued by the point card issuing machine 21, and the point management server 40 via the communication line 60. Based on the point information managed in this manner, the point return machine 31 installed in the point return store 30 that returns points on the point card 10 and the information recorded in the CD-ROM unit 5 of the point card 10 are read and executed. And a personal computer 50 for this purpose.

  Further, the point card issuing machine 21 receives the card ID written in advance in the IC card 1 of the point card 10 inserted into the point card insertion unit 22 into which the point card 10 is inserted and the point card insertion unit 22 from the antenna 2. The information reading unit 23 that is read in a non-contact state via the point card, the point input unit 24 for inputting point information according to the purchase of goods in the point card issuing store 20, and the point card 10 at the information reading unit 23 The communication unit 25 transmits the card ID read from the point ID and the point information input via the point input unit 24 to the point management server 40 via the communication line 60.

  In addition, the point redemption machine 31 uses the antenna 2 to receive the card ID pre-written on the point card insertion unit 32 into which the point card 10 is inserted and the IC chip 1 of the point card 10 inserted into the point card insertion unit 32. The information reading unit 33 that is read in a non-contact state, and the card ID read from the point card 10 by the information reading unit 33 is transmitted to the point management server 40 via the communication line 60. The communication unit 35 is configured to receive the transmitted point information and the point output unit 34 is configured to display and output the point information received by the communication unit 35.

  First, processing when the point card 10 shown in FIG. 1 is issued in the system configured as described above will be described.

  FIG. 4 is a flowchart for explaining processing when the point card 10 shown in FIG. 1 is issued in the system shown in FIG.

  When a customer purchases a product or the like at the point card issuing store 20, the point card 10 in which information corresponding to the purchase price is written in the CD-ROM unit 5 is inserted into the point card inserting unit 22 of the point card issuing machine 21. (Step S1). Here, in the CD-ROM portion 5 of the point card 10, information such as a game or music corresponding to the purchase price of the product or the like is recorded in advance in the optical information recording portion 5a, and according to the purchase price of the product or the like. The type of point card 10 is inserted into the point card insertion unit 22.

  When the point card 10 is inserted into the point card insertion unit 22, the information reading unit 23 reads the card ID from the IC chip 1 of the point card 10 through the antenna 2 in a non-contact state (step S2). This is because current flows through the antenna 2 due to electromagnetic induction from the information reading unit 23, and this current is supplied to the IC chip 1, so that the card ID written in the IC chip 1 is information reading unit in a non-contact state. This is realized by being read by 23. The card ID is written in advance as identification information unique to each IC chip 1, and the point card 10 can be identified by the card ID. At this time, the perforation 4 is formed on the PET base material 3 on which the antenna 2 is formed as described above, but the portions of the antenna 2 on which the perforation 4 is formed are connected in parallel to each other. In addition, the width of the tie portion of the perforation 4 is such that two of the antennas 2 branched into the plurality of lines enter, so that the branch is divided into the plurality of lines. At least one of the antennas 2 is not cut, so that the information reading unit 23 can reliably read the card ID from the IC chip 1 of the point card 10.

  Further, when point information such as the number of points corresponding to the purchase of goods at the point card issuing store 20 is given to the point card 10 and input via the point input unit 24 (step S3), the information reading unit 23 receives the point information. The card ID read from the point card 10 and the point information input via the point input unit 24 are transmitted via the communication unit 25 (step S4).

  Thereafter, the card ID and the point information transmitted from the communication unit 25 of the point card issuing machine 21 are received by the point management server 40 via the communication line 60 (step S5) and received by the point management server 40. The card ID and the point information are registered and managed in association with each other (step S6).

  In the point card 10 issuing process described above, the card ID written in the IC chip 1 of the point card 10 is read with the point card 10 inserted into the point card issuing machine 21. It is also conceivable to read the card ID written on the IC chip 1 of the point card 10 by placing the card 10 in the information reading unit 23 without inserting it into the point card issuing machine 21.

  Next, processing when points are returned according to the point card 10 in the system configured as shown in FIG. 3 will be described.

  FIG. 5 is a flowchart for explaining processing when points are redeemed according to the point card 10 shown in FIG. 1 in the system shown in FIG.

  When the customer who has acquired the point card 10 issued at the point card issuing store 20 comes to the point returning store 30, and the point card 10 is inserted into the point card inserting unit 32 of the point returning machine 31 (step S11). In the information reading unit 33, the card ID is read from the IC chip 1 of the point card 10 through the antenna 2 in a non-contact state (step S12). At this time, the perforation 4 is formed on the PET base material 3 on which the antenna 2 is formed as described above, but the portions of the antenna 2 where the perforation 4 is formed are connected in parallel to each other. Since the width of the tie portion of the perforation 4 is such that two of the antennas 2 branched into the plurality of lines enter, the point card 10 described above Similar to the issuing process, at least one of the antennas 2 branched into a plurality of lines is not cut, so that the information reading unit 33 reliably reads the card ID from the IC chip 1 of the point card 10. be able to.

  When the card ID is read from the point card 10 by the information reading unit 33, the card ID read from the point card 10 is transmitted via the communication unit 35 (step S13).

  The card ID transmitted from the communication unit 35 of the point redemption machine 31 is received by the point management server 40 via the communication line 60 (step S14), and the point management server 40 associates it with the received card ID. The registered and managed point information is retrieved and transmitted (step S15). Here, the point information registered and managed by the point management server 40 is managed in association with the card ID written in the IC chip 1 of the point card 10 as described above. The point information given to the point card 10 in which the card ID is written can be searched.

  The point information transmitted from the point management server 40 is received by the communication unit 35 of the point redemption machine 31 via the communication line 60 (step S16), and is displayed and output via the point output unit 34 (step S17). . Note that the point information output by the point reduction machine 31 is not limited to display output via the point output unit 34, but may be performed by printing a receipt or the like.

  Thereafter, at the point return store 30, a gift or the like corresponding to the point information output from the point return machine 31 is delivered to the customer who has brought the point card 10.

  In the point redemption process corresponding to the point card 10 described above, the card ID written in the IC chip 1 of the point card 10 is read with the point card 10 inserted into the point redemption machine 31. However, it is also conceivable to read the card ID written on the IC chip 1 of the point card 10 by placing the point card 10 on the information reading unit 33 without inserting it into the point reducing machine 31.

  On the other hand, the customer who has acquired the point card 10 issued at the point card issuing store 20 is recorded in the CD-ROM unit 5 of the point card 10 instead of receiving the point return at the point returning store 30 as described above. When using information such as a game or music, the acquired point card 10 is inserted into the personal computer 50, and the personal computer 50 reads and executes the information recorded in the CD-ROM section 5 of the point card 10. It will be. At that time, the point card 10 cannot be inserted into the personal computer 50 if it remains in the shape as shown in FIG. Therefore, the perforation 4 of the point card 10 is cut to form a hole in the center of the point card 10 and inserted into the personal computer 50.

  FIG. 6 is a diagram illustrating a state in which the perforation 4 of the point card 10 illustrated in FIG. 1 is cut.

  As shown in FIG. 6, when the perforation 4 of the point card 10 shown in FIG. 1 is cut, the area surrounded by the perforation 4 is cut out, so that the hole 5 b of the CD-ROM portion 5 penetrates. To do. At this time, since the perforations 4 are formed at equal intervals, the perforations 4 can be cut without applying excessive force. Further, the cut portion has a beautiful cross section. Further, since the IC chip 1 is provided in the through hole 5b, the IC chip 1 is separated from the point card 10 when information such as games and music recorded in the CD-ROM unit 5 is used. As a result, the point information written in the IC chip 1 cannot be read.

  In this way, the customer who has acquired the point card 10 as shown in FIG. 1 receives a point reduction according to the number of points given to the point card 10 or receives information recorded in the CD-ROM unit 5. Either one of them will be selected.

  In this embodiment, when the point card 10 is issued, the point management server 40 associates the card ID written in the IC chip 1 of the point card 10 with the point information given to the point card 10. An example has been described in which, when the card ID is read from the point card 10 after that, the point information managed in association with the read card ID is retrieved and output. However, when the point card 10 is issued, the point information given to the point card 10 is written in the IC chip 1, and when the point is redeemed, the point information is read from the IC chip 1, and the point information is It is also conceivable to perform point reduction.

  It is also conceivable to attach a rewritable paper base material to the surface of the PET base material 8 of the point card 10 and print the card ID, the usage method, the number of points, etc. of the point card 10. .

  Further, in this embodiment, the point card issuing machine 21 is installed in the point card issuing store 20 and the point returning machine 31 is installed in the point returning store 30, but the point card issuing machine 21 and the point returning machine 31 are It may be installed in the same store.

(Second Embodiment)
FIG. 7 is a view showing a point card as a second embodiment of the non-contact communication base material of the present invention, (a) is a view seen from the CD-ROM reading surface side, (b) is ( AA 'sectional view shown to a), (c) is a figure showing the structure of inlet 106 shown to (a).

  In this embodiment, as shown in FIG. 7, a coiled antenna 102 for non-contact communication that serves as a booster antenna is formed on a PET substrate 103 that serves as a base substrate, and a transmission / reception antenna 102a is provided. CD-ROM unit 105 having an optical information recording unit 105a in which information is optically recorded is an inlet 106 in which an IC chip 101 capable of non-contact communication via an antenna 102a is mounted on a PET base material 103. And the PET base material 108 and bonded to each other by the adhesives 109a and 109b. As a result, a portion of the inlet 106 where the part of the antenna 102 and the IC chip 101 are provided is exposed from the hole 105 b of the CD-ROM portion 105. Further, in the region outside the hole 105b, a perforation 104 penetrating the PET base materials 103 and 108 is formed along the outer periphery of the hole 105b. In the present embodiment, the portion of the antenna 102 where the perforation 104 is formed is branched into a plurality of lines so as to be connected in parallel to each other, and the perforation 104 is the same as that shown in FIG. The width of the tie portion is such that two of the antennas 102 branched into a plurality of lines can enter.

  The point card 110 configured as described above is used in the same manner as that shown in the first embodiment. Here, the ease of reception in the IC chip 101 is shown. The sharpness Q is determined by the inductance, capacitance, and resistance component of the transmitting / receiving antenna 102a. Therefore, for example, when the conductor diameter of the transmitting / receiving antenna 102a is increased, the sharpness Q is increased, thereby extending the communicable distance of the IC chip 101. In this embodiment, since the antenna 102 serving as a booster antenna is formed on the PET base material 103, the antenna 102 and the transmission / reception antenna 102a are electromagnetically coupled, whereby an apparent conductor of the transmission / reception antenna 102a. The diameter increases and the sharpness Q increases. Therefore, in this embodiment, the IC chip 101 reads the card ID and point information via the transmitting / receiving antenna 102a and the antenna 102.

  Also, the point card 110 in this embodiment can be manufactured by the manufacturing method as described in the first embodiment.

(Third embodiment)
FIG. 8 is a view showing a point card as a third embodiment of the non-contact communication base material of the present invention, (a) is a view seen from the CD-ROM reading surface side, and (b) is ( AA 'sectional drawing shown to a), (c) is a figure which shows the structure of the inlet 206 shown to (a).

  In this embodiment, as shown in FIG. 8, an antenna 202 for non-contact communication is formed on a PET base material 203 as a base base material, and an IC chip 201 capable of non-contact communication via the antenna 202 is an antenna. An inlet 206 connected to 202 and mounted on a PET base material 203 is sandwiched between a CD-ROM part 205 having an optical information recording part 205 a on which information is optically recorded and a PET base material 208. The adhesives 209a and 209b are bonded to each other. As a result, a region of the inlet 206 where a part of the antenna 202 is formed is exposed from the hole 205 b of the CD-ROM unit 205. In the region outside the hole 205b, a perforation 204 that penetrates the PET base materials 203 and 208 is formed along the outer periphery of the hole 205b. In the present embodiment, the portion of the antenna 202 where the perforation 204 is formed is branched into a plurality of lines so as to be connected in parallel to each other, and the perforation 204 is the same as that shown in FIG. The width of the tie portion is such that two of the antennas 202 branched into the plurality of lines can enter.

  The point card 210 configured as described above is used in the same manner as that shown in the first embodiment, but the radio waves from the information reading units 23 and 33 (see FIG. 3) are used. As a result, the antenna 202 resonates, whereby a current is supplied to the IC chip 201 and the card ID written in the IC chip 201 is read. Here, the length of the antenna 202 corresponds to the 900 MHz band frequency when the antenna 202 is not disconnected by the perforation 204, and the antenna 202 is disconnected by the perforation 204. However, the length when the portion connected to the IC chip 201 is shortened responds to the frequency in the 2.45 GHz band. For this reason, it is conceivable to change the type of prize to be given to the customer at the time of point reduction by changing the reading frequency of the card ID from the IC chip 201. For example, when the card ID can be read at a frequency of 900 MHz band, the perforation 204 is not cut, that is, the information recorded in the CD-ROM unit 205 is not used, so an expensive prize is handed over. 2. When the card ID can be read at a frequency of 2.45 GHz band, the perforation 204 is cut, that is, the information recorded in the CD-ROM unit 205 is used, so an inexpensive premium is given. Etc. are considered.

  Also, the point card 210 in this embodiment can be manufactured by the manufacturing method as described in the first embodiment.

  In the three embodiments described above, the width of the tie portion of the perforation is such that two of the antennas branched into a plurality of lines enter, but the perforation has shifted in the intermittent direction. Even in such a case, it is sufficient that at least one of the antennas branched into a plurality of lines is completely intact. For this reason, the width of the tie portion of the perforation is at least two of the antennas branched into the plurality of lines. It is sufficient if the width is enough for a book to enter, and the number may be three or more.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows the point card | curd used as 1st Embodiment of the base material for non-contact communication of this invention, (a) is the figure seen from the CD-ROM reading surface side, (b) is shown to (a). A sectional view taken along line AA ′, (c) is a view showing the structure of the inlet shown in (a), and (d) is an enlarged view of a portion B shown in (a). It is a figure for demonstrating the manufacturing method of the point card | curd shown in FIG. It is a figure which shows an example of the system which performs the point reduction | restoration using the point card | curd shown in FIG. It is a flowchart for demonstrating the process at the time of issuing the point card shown in FIG. 1 in the system shown in FIG. It is a flowchart for demonstrating the process at the time of redeeming according to the point card | curd shown in FIG. 1 in the system shown in FIG. It is a figure which shows the state which cut the perforation of the point card | curd shown in FIG. It is a figure which shows the point card | curd used as 2nd Embodiment of the base material for non-contact communication of this invention, (a) is the figure seen from the CD-ROM reading surface side, (b) is shown to (a). AA 'sectional view, (c) is a figure showing the structure of the inlet shown in (a). It is a figure which shows the point card | curd used as 3rd Embodiment of the base material for non-contact communication of this invention, (a) is the figure seen from the CD-ROM reading surface side, (b) is shown to (a). AA 'sectional view, (c) is a figure showing the structure of the inlet shown in (a). It is a figure which shows the point card | curd which is an example of the conventional base material for non-contact communication used for point reduction | restoration, (a) is the figure seen from the CD-ROM reading surface side, (b) was shown to (a). AA 'sectional drawing, (c) is a figure which shows the structure of the inlet shown to (a).

Explanation of symbols

1, 101, 201 IC chip 2, 102, 202 Antenna 3, 8, 103, 108, 203, 208 PET base material 4, 104, 204 Perforation 5, 105, 205 CD-ROM part 5a, 105a, 205a Optical Information recording portion 5b, 105b, 205b Hole portion 6, 106, 206 Inlet 9a, 9b, 109a, 109b, 209a, 209b Adhesive 10, 110, 210 Point card 20 point card issuing store 21 point card issuing machine 22, 32 points Card insertion part 23, 33 Information reading part 24 Point input part 25, 35 Communication part 30 Point return store 31 Point return machine 34 Point output part 40 Point management server 50 Personal computer 60 Communication line 102a Transmission / reception antenna

Claims (8)

A non-contact communication base material in which an antenna for non-contact communication is formed on a base base material,
At least a part of the antenna branches into a plurality of lines so as to be connected in parallel with each other;
For non-contact communication, at least one of the antennas branched into the plurality of lines is formed in a region where at least the antenna of the base substrate is branched into a plurality of lines so as not to be cut. Base material. In the base material for non-contact communication according to claim 1,
An IC chip capable of non-contact communication via the antenna is connected to the antenna and provided on the base base material. In the base material for non-contact communication according to claim 1,
An IC chip having a transmission / reception antenna and capable of non-contact communication using the transmission / reception antenna is provided on the base substrate,
The base material for non-contact communication, wherein the antenna performs non-contact communication with the transmission / reception antenna. The base material for non-contact communication according to any one of claims 1 to 3,
An information recording disk that is affixed to the base substrate and supported by a hole formed in the center portion and rotated to read information;
A protective sheet affixed to cover the information recording disc and the base substrate on the surface of the information recording disc to which the base substrate is affixed;
The base material for non-contact communication, wherein the perforation is formed in a region along the outer periphery of the hole. A base substrate, an antenna for non-contact communication formed on the base substrate and branched into a plurality of lines so that at least a part of the base substrate is connected in parallel to each other; and at least a plurality of the antennas on the base substrate A non-contact communication base material manufacturing method comprising a perforation formed so that at least one of the antennas branched into a plurality of lines is not cut in an area formed by being branched into lines. There,
On the base substrate, forming the antenna branched into a plurality of lines so that at least some of them are connected in parallel with each other;
Forming the perforation so that at least one of the antennas branched into the plurality of lines is not cut in an area of the base substrate where the antennas are branched into a plurality of lines. A method for producing a substrate for contact communication. A base substrate, an antenna for non-contact communication formed on the base substrate and branched into a plurality of lines so that at least a part thereof is connected in parallel to each other, and the base substrate connected to the antenna An IC chip provided on the base and capable of non-contact communication via the antenna; and at least one of the antennas branched into the plurality of lines in the region of the base substrate formed by branching into the plurality of lines. An information recording disk on which information is read by rotating at least one perforation formed so as not to be cut, supported on a hole formed in a central portion and affixed to the base substrate; and A protective sheet affixed to cover the information recording disc and the base substrate on the surface of the information recording disc to which the base substrate is affixed; A method of manufacturing a non-contact communication base material formed in a region along the periphery of the hole,
On the base substrate, forming the antenna branched into a plurality of lines so that at least some of them are connected in parallel with each other;
Affixing the base substrate on which the antenna is formed to the information recording disk so that at least a part of a portion of the antenna branched into a plurality of lines is located outside the hole;
A step of affixing the protective sheet on the surface of the information recording disc to which the base substrate is affixed so as to cover the information recording disc and the base substrate;
The perforation so as to penetrate the protective sheet and the base substrate from the side on which the protective sheet of the information recording disk is affixed, and to overlap a portion of the antenna branched into a plurality of lines. The manufacturing method of the base material for non-contact communication which has a process to form. A base substrate, an antenna for non-contact communication formed on the base substrate and branched into a plurality of lines so that at least a part thereof is connected in parallel to each other, and the base substrate connected to the antenna An IC chip provided on the base and capable of non-contact communication via the antenna; and at least one of the antennas branched into the plurality of lines in the region of the base substrate formed by branching into the plurality of lines. An information recording disk on which information is read by rotating at least one perforation formed so as not to be cut, supported on a hole formed in a central portion and affixed to the base substrate; and A protective sheet affixed to cover the information recording disc and the base substrate on the surface of the information recording disc to which the base substrate is affixed; A method of manufacturing a non-contact communication base material formed in a region along the periphery of the hole,
On the base substrate, forming the antenna branched into a plurality of lines so that at least some of them are connected in parallel with each other;
Attaching the protective sheet to the base substrate on which the antenna is formed;
Pasting the base substrate to which the protective sheet is affixed to the information recording disc so that at least a part of the portion branched into a plurality of lines of the antenna is located outside the hole;
The perforation so as to penetrate the protective sheet and the base substrate from the side on which the protective sheet of the information recording disk is affixed, and to overlap a portion of the antenna branched into a plurality of lines. The manufacturing method of the base material for non-contact communication which has a process to form. A base substrate, an antenna for non-contact communication formed on the base substrate and branched into a plurality of lines so that at least a part thereof is connected in parallel to each other, and the base substrate connected to the antenna An IC chip provided on the base and capable of non-contact communication via the antenna; and at least one of the antennas branched into the plurality of lines in the region of the base substrate formed by branching into the plurality of lines. An information recording disk on which information is read by rotating at least one perforation formed so as not to be cut, supported on a hole formed in a central portion and affixed to the base substrate; and A protective sheet affixed to cover the information recording disc and the base substrate on the surface of the information recording disc to which the base substrate is affixed; A method of manufacturing a non-contact communication base material formed in a region along the periphery of the hole,
On the base substrate, forming the antenna branched into a plurality of lines so that at least some of them are connected in parallel with each other;
Attaching the protective sheet to the base substrate on which the antenna is formed;
Forming the perforation so as to penetrate the protective sheet and the base substrate and to overlap a portion of the antenna branched into a plurality of lines;
A method of manufacturing a base material for non-contact communication, comprising: attaching the base base material to which the protective sheet is attached to the information recording disk so that the perforation is located outside the hole portion.

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