JP2006031644A - Sheet base material and production method therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sheet base material wherein an IC chip is inserted and provided on a sheet-like member A, and to provide a production method therefor. <P>SOLUTION: An intermediate layer 12 and a member B 13 comprising paper are sequentially accumulated on one face of the sheet-like member A 11 having transmittance to laser light, the member B 13 is formed with a hole part 14, and the IC chip 15 is inserted and provided in the hole part 14. The IC chip 15 is bonded to the sheet-like member A 11 by adhesive partially left on the bottom face of the hole part 14. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a sheet base material in which an IC chip is inserted on a sheet-like member A and a manufacturing method thereof.

  Conventionally, forged securities such as prepaid cards, various admission tickets, gift certificates, stock certificates, etc. have been widely distributed because they are widely distributed and can be exchanged relatively easily. In particular, in recent years, with the improvement and popularization of copying machines such as color copiers, counterfeit products that cannot be easily distinguished from genuine products can be manufactured relatively easily, and countermeasures against counterfeiting are required. . Moreover, measures against counterfeiting are required not only for the above-mentioned securities but also for banknotes.

  As one of countermeasures against such counterfeiting, a member A called a thread, which is one of the sheet base materials into which an IC chip is inserted, is affixed or punched into securities or banknotes. Technology for preventing counterfeiting of securities and banknotes has been considered. In this technology, securities or banknotes such that a thread formed by cutting a plastic film, thin paper or the like into a paper width of about several millimeters is not exposed from the surface of securities or banknotes, or a part is exposed from the surface. The authenticity of securities and banknotes is determined based on the presence or absence of the thread.

Furthermore, in recent years, a technique for determining the authenticity of securities or bills using a thread on which an IC chip is mounted has been considered. In this technology, a thread formed by adhering an IC chip to one side of a film cut to a paper width of about several millimeters is inserted into a paper layer of securities or banknotes. By reading out the information written in, the authenticity of securities and banknotes is determined (see, for example, Patent Document 1).
JP 2002-319006 A

  However, the above-described thread and the IC chip-containing sheet in which the IC chip is mounted on the sheet base material like this thread have a configuration in which the IC chip is only adhered to one side of the film. There is a problem that the IC chip is easily damaged.

  The present invention has been made in view of the problems of the conventional techniques as described above, and is a sheet base material provided with an IC chip that can reduce the possibility of the IC chip being damaged. The purpose is to provide.

In order to solve such a problem, the sheet base material according to the present invention is made of paper on one surface of a sheet-like member A having translucency with respect to coherent light via an intermediate layer made of an adhesive. A laminated body in which the members B are stacked and holes are provided in the members B, and an IC chip is inserted into the holes.
With this configuration, a member B is provided on one surface of the sheet-like member A via an intermediate layer, and a hole is formed so that an IC chip enters by irradiating a part of the member B with laser light. Since the IC chip has entered the hole, the possibility of the IC chip being damaged is reduced.

The bottom surface of the hole is located in the region of the intermediate layer, and at least a part of the adhesive constituting the intermediate layer remains on the bottom surface of the hole.
Since a part of the intermediate layer remains, the IC chip can be firmly bonded to the sheet-like member A by the remaining adhesive when the IC chip is inserted later. Since part of the intermediate layer remains, it is not necessary to fill the hole with an adhesive in a separate process, and the process is simplified, contributing to cost reduction.

Moreover, the fiber of the said member B protrudes irregularly in the side surface which makes the said hole part, It is characterized by the above-mentioned.
When the IC chip is inserted into the hole, the fiber of the member B protrudes irregularly. Therefore, when the IC chip is inserted, the fiber is rubbed against the IC chip to absorb shock, and the IC chip. Can be held inside the hole.

Furthermore, a part of the adhesive constituting the intermediate layer fills the gap between the side surface of the hole and the side surface of the IC chip.
With this configuration, the IC chip is held by the fibers irregularly protruding from the side surface of the member B in the gap between the side surface of the member B and the side surface of the IC chip, and the gap and the space between the fibers are also filled. The IC chip is firmly bonded to the member B by the adhesive.

In addition, a part of the adhesive constituting the intermediate layer further covers at least a part of the surface layer part of the IC chip and / or the surface layer part of the member B.
With this configuration, the IC chip is held by the fibers irregularly protruding from the side surface of the member B in the gap between the side surface of the member B and the side surface of the IC chip, and the gap and the space between the fibers are also filled. The IC chip is firmly bonded to the member B by the adhesive.
Further, since the adhesive covers at least part of the surface layer portion of the IC chip and / or the surface layer portion of the member B, the IC chip is suppressed and protected by the adhesive.

In order to solve this problem, a sheet base material manufacturing method according to the present invention is a sheet base material manufacturing method in which an IC chip is arranged on a sheet-like member A, and one surface of the member A A step of providing an intermediate layer made of an adhesive, a step of providing a member B made of paper on the one surface of the member A, and a hole by directly irradiating the member B with coherent light Forming an IC chip in the hole, and applying heat to a part of the adhesive remaining on the bottom surface of the hole, whereby the IC chip is applied to the sheet-like member A. And a step of adhering to each other.
With this configuration, a member B made of paper is provided on one surface of the sheet-like member A via an intermediate layer. When a hole is formed by irradiating this member B with a laser beam, the bottom of the hole A part of the intermediate layer remains, or the adhesive of the intermediate layer existing in the vicinity of the bottom surface of the hole portion melts and melts and remains on the bottom surface of the hole portion. The IC chip can be bonded to the sheet-like member A by the remaining adhesive.

  As described above, the sheet base material manufactured according to the present invention may break the IC chip because the IC chip enters the hole formed in the member B and is bonded to the sheet-like member A. Can be reduced.

  Since a part of the intermediate layer remains on the bottom surface of the hole formed in the member B, the IC chip inserted thereby is firmly bonded to the sheet-like member A. Further, the fiber of the member B protrudes irregularly on the side surface forming the hole of the member B, and the fiber plays a role of absorbing shock when the IC chip is inserted, and the IC chip is attached to the hole of the hole. Demonstrates the function of holding inside.

  Further, the IC chip is firmly bonded to the member B by the adhesive that fills the gap between the side surface of the member B and the side surface of the IC chip and also between the fibers, and further, the surface layer portion of the member B The IC chip is protected by the adhesive covering at least a part of the surface layer portion of the IC chip, and the IC chip is firmly bonded to the member B.

  Embodiments of the present invention will be described below with reference to the drawings. In the following, description will be given using laser light which is one type of coherent light.

  FIG. 1 is a cross-sectional view showing an example of an embodiment of a sheet base material of the present invention.

  As shown in FIG. 1, the sheet substrate 10 according to the present embodiment includes an intermediate layer 12 and a member B13 made of paper on one surface of a sheet-like member A11 that is transparent to laser light. Stacked in order, a hole 14 is provided in the member B13, and an IC chip 15 is inserted into the hole 14, and this IC chip 15 is adhered to the bottom surface of the hole 14 by an adhesive (residue 12a). The sheet-like member A11 is bonded. The fibers 17 of the member B13 protrude irregularly on the side surface 16 of the hole 14. In other words, the fibers 17 of the member B13 made of paper are densely present in the gap 14a between the side surface 16 of the hole portion 14 and the side surface of the IC chip 15.

  As the sheet-like member A11, a material that is transparent to laser light, such as PET, PET-G, or PVC, is used. Since these sheet-like members A11 are translucent with respect to the laser beam, when the member B13 is irradiated with the laser beam in an attempt to form the hole 14 in a part of the member B13, the hole 14 is formed. The member B13 and the intermediate layer 12 existing in the lower part of the region to be absorbed absorb the energy of the laser beam and are evaporated and scattered, but the sheet-like member A11 transmits the laser beam and therefore does not absorb the energy of the laser beam. , Never evaporate and fly. That is, there is no processing.

  As the adhesive constituting the intermediate layer 12, a thermoplastic adhesive such as hot melt glue, an ultraviolet curable adhesive, or the like is used. When the thermoplastic adhesive is used, the sheet-like member A11 and the member B13 are heated while being pressed when the sheet-like member A11 and the member B13 are laminated via the intermediate layer 12, thereby melting the intermediate layer 12 and the sheet-like member A11. The member B13 is bonded to form the sheet base material 10. In the case of using the ultraviolet curable adhesive, when the sheet-like member A11 and the paper member B13 are laminated via the intermediate layer 12, the intermediate layer 12 is irradiated with ultraviolet rays from the sheet-like member A11 side. Is melted to bond the sheet-like member A11 and member B13 together. However, in the case of using an ultraviolet curable adhesive, the sheet-like member A11 needs to select a light-transmitting material with respect to ultraviolet rays as well as laser light in advance.

The member B13 is preferably made of paper that is opaque to the laser beam. By irradiating the laser beam, a part of the member B13 is evaporated and scattered by the energy of the laser beam to form the hole 14. Is done.
When the hole 14 is formed by irradiating the member B13 with the laser beam, the intermediate layer 12 is also opaque so that the intermediate layer 12 existing below the region where the hole 14 is to be formed is Most of the energy is evaporated and scattered by the energy, but a part of the intermediate layer 12 remains on the bottom surface of the hole 14, and the IC chip 15 to be inserted later can be bonded to the sheet-like member A11. As a result, it is not necessary to fill the adhesive in a separate process, and the manufacturing cost can be reduced.

  The adhesive remaining on the bottom surface of the hole 14 (residual adhesive 12a) may leave a part of the intermediate layer 12 existing under the region where the hole 14 is to be formed, The intermediate layer 12 existing around the bottom surface of the hole portion 14 may be melted by the energy of the laser light applied to the hole portion 14, flow into the hole portion 14, and remain on the bottom surface of the hole portion 14. .

  Further, paper fibers 18 that have not been completely removed by the laser beam protrude irregularly on the side surface 16 of the hole portion 14. If the paper fiber 18 does not interfere with the insertion of the IC chip 15, it is left as it is. When the IC chip 15 is inserted, the IC chip 15 and the remaining paper fiber 18 rub against each other. In addition to acting as a shock absorber, it functions to hold the IC chip 15 inside the hole 14.

  The IC chip 15 is inserted into the hole 14 formed in the member B13. The IC chip 15 is held in the upper surface side of the IC chip 15 by a mounter (not shown) having a suction / heating mechanism, and is put into the hole portion 14 while being heated. At this time, the intermediate layer 12 of the hole 14, that is, the remaining adhesive 12 a and the end 12 b of the intermediate layer 12 are also heated through the IC chip 15 by a heating mechanism of a mounter (not shown). Therefore, the end 12b of the intermediate layer 12 protrudes so as to cover the side surface of the IC chip 15. Further, the remaining adhesive 12a remaining on the bottom surface of the hole portion 14 is reheated to contribute to bonding the back surface of the IC chip 15 and the member A11.

  The IC chip 15 to be inserted can read information in a non-contact state, and the information written in the IC chip 15 is brought close to an information writing / reading device provided outside. Is read out.

  In the sheet base material 10 configured as described above, for example, an adhesive (not shown) is applied to one surface of the member B13 and is used by being affixed to securities or banknotes.

  When the securities or banknotes to which the sheet base material 10 is affixed are brought close to the information writing / reading device described above, for example, the information written in the IC chip 15 is read and based on the read information. Thus, authenticity determination of securities or banknotes is performed. In the IC chip 15, as described above, when the authentication is determined only by the information written in the IC chip 15, the information written in the IC chip 15 is read out in a non-contact state. However, the information writing / reading device may be arranged close to the information writing / reading device so that information can be written in a non-contact state.

  It is also conceivable that the sheet base material 10 shown in FIG. 1 is not affixed to securities or banknotes, but is used by inserting the sheet base material 10 into a paper layer of securities or banknotes. In that case, for example, a paper machine manufactured from at least two paper layers using a multi-tank round net Mako paper machine is used as securities or banknotes, and a sheet base is formed between the paper layers when manufacturing securities or banknotes. The material 10 is poured. In the case of securities, banknotes, and the like in which the sheet base material 10 is inserted in this manner, the sheet base material 10 may be sandwiched between papers in the same manner as described above.

  Moreover, a recessed part may be formed in securities, banknotes, etc., and the sheet | seat base material 10 shown in FIG. 1 may be engage | inserted in this recessed part. The securities and banknotes in which the sheet base material 10 is thus fitted are also used in the same manner as described above.

  The sheet base material 10 shown in FIG. 1 is not limited to securities and banknotes as described above, but is affixed, interleaved, pinched, or fitted into a recess on a sheet-like material. It is incorporated and used.

Below, the manufacturing method of the sheet | seat base material 10 mentioned above is demonstrated.
FIG. 2 is a diagram for explaining a method of manufacturing the sheet base material 10 shown in FIG.

First, an intermediate layer 12 made of an adhesive is provided on one surface of a sheet-like member A11 that is transparent to laser light (FIG. 2A).
Next, a member B13 made of paper is provided on one surface of the intermediate layer 12 (FIG. 2B).
Here, as described above, as the adhesive constituting the intermediate layer 12, a thermoplastic adhesive such as hot melt paste, an ultraviolet curable adhesive that melts by irradiation with ultraviolet rays, or the like is used.
When the thermoplastic adhesive is used, when the sheet-like member A11 and the member B13 made of paper are laminated via the intermediate layer 12, the intermediate layer 12 is melted by heating while being pressed to form a sheet. The member A11 and the member B13 made of paper are bonded. When an ultraviolet curable adhesive is used, when a sheet-like member A11 and a paper-made member B13 are laminated via the adhesive 12, ultraviolet rays are irradiated from the sheet-like member A11 side. The intermediate layer 12 is melted, and the sheet-like member A11 and the member B13 are bonded.
However, in the case of using an ultraviolet curable adhesive, it is necessary to select a material that is transparent to ultraviolet rays as well as laser light in advance for the sheet-like member A11.

  Next, the region where the IC chip 15 of the member B13 is inserted is irradiated with laser light to remove the region where the IC chip 15 of the member B13 is mounted, and further remove the intermediate layer 12 below the region. The hole 14 is formed (FIG. 2C). Although the intermediate layer 12 is not completely removed and a part thereof is likely to remain on the bottom surface of the hole portion 14, the remaining adhesive serves to adhere the IC chip 15 inserted later to the member A11. . Further, since the member B is made of fibrous paper on the side surface 16 of the hole 14 formed, a part of the paper fiber 17 remains without being removed but does not hinder the insertion of the IC chip 15. If the IC chip 15 is inserted, the IC chip 15 rubs against the paper fiber 17 when the IC chip 15 is inserted. Demonstrates the function of holding inside.

Next, the IC chip 15 is inserted into the hole 14 in which a part of the intermediate layer 12 remains on the bottom surface, and the IC chip 15 and the member A11 are bonded to each other with the remaining adhesive (FIG. 2D).
Thus, the sheet base material 10 into which the IC chip 15 is inserted is completed.

  Although the IC chip 15 inserted in the hole 14 of the member B13 is exposed on the sheet base material 10, a protective sheet (not shown) is provided on one surface of the member B13 so as to cover the IC chip 15. Also good. As a result, the IC chip 15 is protected, and by using a protective sheet (not shown) with good printability, a pattern can be printed, or a name and various information can be printed.

  The surface layer portion of the IC chip 15 and the surface layer portion of the member B13 may be flat, or the surface layer portion of the IC chip may protrude or be recessed. FIG. 1 shows an example in which the surface layer portion of the IC chip is depressed.

The sheet base material of the present invention may further be the following embodiments A, B, C, and D.
(Embodiment A)
Embodiment A is shown in FIG. 3 differs from FIG. 1 described above in that a part of the adhesive constituting the intermediate layer 32 fills the gap 34 a between the side surface 36 of the hole 34 and the side surface of the IC chip 35. is there.
In the present embodiment A, the fiber 37 of the member B33 that irregularly protrudes from the side surface 36 of the member B33 in the gap 34a between the side surface 36 of the member B33 and the side surface of the IC chip 35, as in the embodiment shown in FIG. Thus, the IC chip 35 is held. In addition to this, in the embodiment A, the IC chip 35 is firmly bonded to the member B33 by the adhesive 32b that fills the gap 34a and the space between the fibers 37 in the gap 34a.

(Embodiment B)
Embodiment B is shown in FIG. 4 differs from FIGS. 1 and 3 described above in that a part of the adhesive constituting the intermediate layer 42 has a gap 44a between the side surface 46 of the hole 44 and the side surface of the IC chip 45. 44a and between the fibers 47, and at least part of the surface layer of the member B43 and the IC chip 45 is covered.
In the present embodiment B, in the gap 44a between the side surface 46 of the member B43 and the side surface of the IC chip 45, the fibers 47 of the member B43 protruding irregularly from the side surface 46 of the member B43, as in the embodiment shown in FIG. Thus, the IC chip 45 is held. In addition, in the present embodiment B, in the gap 44a, the IC chip 45 is firmly bonded to the member B43 by the adhesive 42b that fills the gap 44a and the space between the fibers 47. Furthermore, the IC chip 45 is prevented from falling off by being pressed by the adhesive 42c covering at least part of the surface layer of the member B43 and the IC chip 45.

Embodiment C is shown in FIG. 5 differs from FIGS. 1, 3, and 4 described above in that a part of the adhesive constituting the intermediate layer 52 has a gap between the side surface 56 of the hole 54 and the side surface of the IC chip 55. In 54a, the gap 54a and the space between the fibers 57 are filled, and the entire surface layer portion of the IC chip 55 is covered.
In the present embodiment C, in the gap 54a between the side surface 56 of the member B53 and the side surface of the IC chip 55, the fibers 57 of the member B53 that irregularly project from the side surface 56 of the member B53, as in the embodiment shown in FIG. Thus, the IC chip 55 is held. In addition, in the present embodiment C, the IC chip 55 is firmly bonded to the member B53 in the gap 54a by the adhesive 52b that fills the gap 54a and fills between the fibers 57. Furthermore, the IC chip 55 is protected by the adhesive 52c covering the entire surface layer portion of the IC chip 55, and the IC chip 55 is prevented from falling off.

Embodiment D is shown in FIG. 6 differs from FIGS. 1, 3, 4, and 5 described above in that a part of the adhesive constituting the intermediate layer 62 is divided between the side surface 66 of the hole 64 and the side surface of the IC chip 65. In the gap 64a, the gap 64a and the space between the fibers 67 are also filled, and the entire surface layer portion of the IC chip 65 and a part of the surface layer portion of the member B63 (the hole side surface layer portion of the member B) are covered. That is.
In the present embodiment D, in the gap 64a between the side surface 66 of the member B63 and the side surface of the IC chip 65, the fibers 67 of the member B63 projecting irregularly from the side surface 66 of the member B63, as in the embodiment shown in FIG. Thus, the IC chip 65 is held. In addition, in the present embodiment D, the IC chip 65 is firmly bonded to the member B63 by the adhesive 62b that fills the gaps 64a and also fills the spaces between the fibers 67. Further, the adhesive 62c covering the surface layer portion of the member B63 on the hole 64 side and the surface layer portion of the end portion of the IC chip 65 prevents the IC chip 65 from falling off and prevents the IC chip 65 from falling off. The adhesive 62d covering the entire surface layer portion of the chip 55 protects the IC chip 65 and prevents the IC chip 65 from falling off.

  The adhesive that fills the gap between the side surface of the hole portion and the side surface of the IC chip and the fibers present in this gap, or covers the IC chip may be an adhesive remaining on the bottom surface of the hole portion, As shown in FIGS. 3 to 6, an appropriate amount of adhesive having the same component as the adhesive constituting the intermediate layer is replenished in the hole, and then an IC chip is inserted into the hole, thereby overflowing as shown in FIGS. 3 to 6. Alternatively, the adhesive may fill the gap between the side surface of the hole and the side surface of the IC chip, or between the fibers existing in the gap, or may cover the IC chip.

  The sheet base material of the present invention is not only used in securities, banknotes, etc., but also attached to books and used for book management, or attached to products in the distribution industry. It can be used for product management.

It is sectional drawing which shows an example of embodiment of the sheet | seat base material of this invention. It is a figure for demonstrating the manufacturing method of the sheet | seat base material shown in FIG. It is sectional drawing which shows Embodiment A of the sheet | seat base material of this invention. It is sectional drawing which shows Embodiment B of the sheet | seat base material of this invention. It is sectional drawing which shows Embodiment C of the sheet | seat base material of this invention. It is sectional drawing which shows Embodiment D of the sheet | seat base material of this invention.

Explanation of symbols

10 Sheet base material, 11 Member A, 12 Intermediate layer, 12a Residual adhesive, 12b End, 13 Member B, 14 Hole, 15 IC chip, 16 Side of hole, 17 Fibers.

Claims (6)

It is a laminate in which a member B made of paper is stacked on one surface of a sheet-like member A having translucency with respect to coherent light, with an intermediate layer made of an adhesive, and a hole is formed in the member B. There,
An IC chip is inserted into the hole, and a sheet base material is provided.   The bottom surface of the hole is located in the region of the intermediate layer, and at least a part of the adhesive constituting the intermediate layer remains on the bottom surface of the hole. The sheet base material according to 1.   The sheet base material according to claim 1, wherein the fiber of the member B protrudes irregularly on the side surface forming the hole.   The sheet base material according to claim 1, wherein a part of the adhesive constituting the intermediate layer fills a gap between a side surface of the hole and a side surface of the IC chip.   The part of the adhesive constituting the intermediate layer further covers at least a part of the surface layer part of the IC chip and / or the surface layer part of the member B. Sheet base material. A method for producing a sheet base material in which an IC chip is arranged on a sheet-like member A,
Providing an intermediate layer made of an adhesive on one surface of the member A;
Providing a member B made of paper on one surface of the member A with the intermediate layer interposed therebetween;
Irradiating the member B directly with coherent light to form a hole; and
Inserting an IC chip into the hole;
Bonding the IC chip to the sheet-like member A by applying heat to a part of the adhesive remaining on the bottom surface of the hole,
A method for producing a sheet base material, comprising:

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