JP2009245280A - Label-type information medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a label-type information medium allowing for detection of unauthorized peeling or replacement, and being difficult to be tampered. <P>SOLUTION: An IC tag label 10, which is the label type information medium, is provided with a break detection circuit section 23 which is a conductor connected to an IC chip 21, by being formed around an antenna section 22 on the outer periphery side of the antenna 22 section, as viewed from the direction of the normal line of a base 20 for detecting the breakage by application of voltage, and an easily broken section 70, which is formed at least in the break detection circuit section 23 and composed of a plurality of minute holes "m" which are distributed approximately uniformly. The holes "m" in the easily broken section 70 have diameters which are smaller than the width of the break detection circuit section 23 and do not penetrate through a first joining layer 30, and the easily broken section 70 has at least one section formed, at a position which is in contact with the outer periphery of the base 20. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a label type information medium on which an IC chip is mounted.

2. Description of the Related Art Recently, a technique for efficiently and accurately managing the inventory of an object to be attached has been proposed and realized by attaching a tag (label type information medium) equipped with an IC chip to an object to be attached such as a product. (For example, refer to Patent Document 1).
The data carrier described in Patent Document 1 has an easily breakable circuit made of a conductor provided with notches, perforations, etc. on the outer periphery of an IC chip antenna, and the data carrier is attached to a product or the like. If the data carrier is later peeled off, the conductor will break. Thereby, the data carrier of patent document 1 has a function which can detect improper replacement of a data carrier.
JP 2006-39643 A

However, since the position and shape of such a notch and perforation can be confirmed by visual observation, a person who tries to remove the data carrier illegally uses a tool or the like to avoid the perforation or notch. There was a risk of peeling off illegally.
In addition, as in Patent Document 1, when an easily breakable circuit is provided, if the perforation is formed carelessly, the conductor may be cut depending on the pitch of the perforation, and the breakage detection function may not be exhibited. There was a problem.

  An object of the present invention is to provide a label type information medium that can detect unauthorized peeling and reattachment and is difficult to tamper with.

The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated, it is not limited to this.
The invention of claim 1 includes a base material (20), an antenna part (22) provided on one surface of the base material and capable of communicating in a non-contact manner with an external device, and connected to the antenna part. An IC chip (21) for managing information communicated via the unit, a bonding layer (30) formed on one surface side or the other surface side of the base material, and a normal direction of the base material. A break detecting circuit portion that is formed on the outer peripheral side of the antenna portion so as to surround the antenna portion and is connected to the IC chip, and is capable of detecting a break by applying a voltage ( 23) and an easily breakable portion (70) formed of at least a plurality of fine holes (m) formed in the breakage detection circuit portion and distributed substantially uniformly.
According to a second aspect of the present invention, in the label type information medium according to the first aspect, the diameter of the hole (m) is smaller than the width of the breakage detection circuit portion (23). (10).
The invention of claim 3 is a label type information medium according to claim 1 or 2, further comprising a notch (C1) having an outer periphery of the substrate as one end. 10).
The invention of claim 4 is the label type information medium according to any one of claims 1 to 3, wherein the hole (m) does not penetrate the bonding layer (30). This is a label type information medium (10).
According to a fifth aspect of the present invention, in the label type information medium according to any one of the first to fourth aspects, the diameter of the hole (m) is in a range of 0.1 mm to 0.3 mm. This is a label type information medium (10).
The invention according to claim 6 is the label-type information medium according to any one of claims 1 to 5, wherein when viewed from the normal direction of the base material (20), the easily breakable portion ( 70) is a label type information medium (10) characterized in that at least a part thereof is in contact with the outer periphery of the substrate.

According to the present invention, the following effects can be obtained.
(1) A label-type information medium is a conductor that is formed on the outer peripheral side of an antenna portion so as to surround the antenna portion and is connected to an IC chip when viewed from the normal direction of the substrate, and is applied with a voltage. A breakage detection circuit part capable of detecting breakage, and an easy breakage part formed at least in the breakage detection circuit part and composed of a plurality of fine holes distributed substantially uniformly. Therefore, when trying to peel off the label type information medium from the object to be attached, the break detection circuit part is broken by the easy breakage part, and the breakage can be detected when communicating with the external device. Unauthorized peeling of the medium can be easily determined. Moreover, since the breakage detection circuit portion is broken by peeling, unauthorized tampering of the label type information medium can be prevented. Furthermore, since the easily breakable portion is a plurality of fine holes that are uniformly distributed, it is difficult to be recognized by a third party, and an effect of suppressing unauthorized peeling for a person who attempts to peel illegally can be obtained. .

(2) Since the diameter of the hole is smaller than the width of the breakage detection circuit part, the breakage detection circuit part is not disconnected by the hole of the easily breakable part, and conduction of the breakage detection circuit part can be ensured.

(3) Since it has a notch part with the outer periphery of the substrate as one end, when the label type information medium is to be peeled off from the object to be pasted, the notch part induces breakage between the holes of the easily breakable part, thereby detecting breakage. The circuit portion can be more easily broken. Therefore, the effect | action which detects the unauthorized peeling of a label information medium can be heightened more.

(4) Since the hole does not penetrate the bonding layer, burrs, dents and the like that are likely to occur when the hole is formed by penetrating the bonding layer do not occur. Therefore, the adhesive strength of the bonding layer to the object to be adhered can be increased.

(5) Since the diameter of the hole is in the range of 0.1 mm to 0.3 mm, breakage between adjacent holes of the easily breakable part is likely to occur, breakage of the breakage detection circuit part is more likely to occur, and unauthorized The effect of detecting peeling can be further enhanced. In addition, if the hole diameter is in the range of 0.1 mm to 0.3 mm, it is difficult to visually recognize the presence of the easily breakable portion. Have.

(6) When viewed from the normal direction of the substrate, at least a part of the region where the easily breakable portion is formed is in contact with the outer periphery of the substrate. Since labels and the like are generally peeled from the outer peripheral side, by forming at least a part of the region where the easily breakable part is formed in contact with the outer periphery of the substrate, the label type information medium is peeled off, The break detection circuit part is easily broken by the easily breakable part. Therefore, the effect of detecting unauthorized peeling can be further enhanced.

Hereinafter, embodiments of the label type information medium of the present invention will be described in detail with reference to the drawings.
Each figure shown below including FIG. 1 is a diagram schematically shown, and the size and shape of each part are appropriately exaggerated for easy understanding.
In the following specification, terms such as a sheet and a film are used. Generally, these are used in the order of a thickness, a plate, a sheet, and a film. It is used in the book as well. However, since there is no technical meaning for such proper use, the terms of plates, sheets, and films can be appropriately replaced. For example, the sheet-like member may be a film-like member or a plate-like member. The term “film” or the like relates to the thickness of the member, and does not limit the material of the member.
Furthermore, the material name of each member described in this specification is an example as an embodiment, and is not limited thereto, and may be appropriately selected and used.

(Embodiment)
FIG. 1 is a diagram showing an IC tag label 10 of the present embodiment. FIG. 1A is a plan view of the IC tag label 10, and FIG. 1B shows a cross-sectional view of the IC tag label 10 taken along the arrow AA shown in FIG.
FIG. 2 is a diagram showing the IC tag label 10 attached to the box 200.
As shown in FIG. 1, the IC tag label 10 is a label type information medium including a base material 20, a first bonding layer 30, a release paper 40, a second bonding layer 50, a protective layer 60, and the like. The IC tag label 10 of the present embodiment has a sheet shape, and the shape viewed from the thickness direction of the IC tag label is a substantially rectangular shape.

As shown in FIG. 2, the IC tag label 10 is attached to a pair of opening / closing lids 201 (201a, 201b) of a box 200 for packing and storing and packing documents, products, and the like, thereby performing product inventory management and the like. At the same time, the box 200 can be sealed and its sealed state can be managed.
The base material 20 is a sheet-like member that serves as a base for the IC tag label 10. In this embodiment, a sheet-like member made of polyethylene terephthalate (PET) resin is used. As a material of the substrate 20, a resin such as polyimide or polypropylene may be appropriately selected and used, or paper may be used.
In the substrate 20 of the present embodiment, the antenna unit 22 is disposed on one surface and the IC chip 21 and the breakage detection circuit unit 23 are provided on the other surface. The breakage detection circuit unit 23 may be provided on the same surface of the material 20 and the other surface.

  The IC chip 21 includes a CPU (Central Processing Unit) and a memory (not shown) inside, and an antenna unit 22 and a breakage detection circuit unit 23 are connected to the IC chip 21. The IC chip 21 has a function of transmitting / receiving information to / from an external device (such as a reader / writer) (not shown) and determining the state of the breakage detection circuit unit 23 via the antenna unit 22. In the IC chip 21 of the present embodiment, unique information relating to products and the like stored in the box 200 is recorded in a memory provided therein.

The IC chip 21 does not include a power supply by itself, and is activated by power generated based on radio waves received from the reader / writer or the like via the antenna unit 22. Then, the IC chip 21 applies a voltage to the breakage detection circuit unit 23 and detects whether or not the voltage value of the breakage detection circuit unit 23 matches the applied voltage value.
When it is detected that they do not match, it is determined that the break detection circuit unit 23 is in a broken state, that is, the IC tag label 10 has been peeled off, and the information is transmitted to a reader / writer or the like. On the other hand, when it is detected that they match, it is determined that the break detection circuit unit 23 is not broken, that is, no abnormality has occurred in the IC tag label 10, and the information is read by a reader / writer or the like. Send to.
In the present embodiment, as described above, the IC chip 21 detects the voltage value of the breakage detection circuit unit 23 and determines whether or not the breakage detection circuit unit 23 is broken. However, the present invention is not limited thereto. For example, the resistance value or the like of the break detection circuit unit 23 may be detected to determine whether or not the break detection circuit unit 23 is broken.

The antenna unit 22 is an antenna coil formed in a substantially annular shape on one side of the base material 20, and is connected to the IC chip 21. The antenna portion 22 of the present embodiment is connected to the IC chip 21 whose end 22 a penetrates the base material 20 and is disposed on the other surface of the base material 20. The antenna portion 22 is arranged so that the IC chip 21 is positioned inside the ring when viewed from the normal direction of the surface of the IC tag label 10 (base material 20) (the thickness direction of the IC tag label 10). It is arranged to surround.
The antenna portion 22 is formed by etching or plating a metal foil such as aluminum or copper.
The antenna unit 22 receives power from the reader / writer to the IC chip 21 and serves as a basis for command, or places specific information on the contents of the box 200 on the reader / writer side based on the received command. Used for non-contact communication to transmit.
The antenna unit 22 also transmits to the reader / writer information about the state of the break detection circuit unit 23 determined by the IC chip 21 (whether there is a break), that is, whether or not the IC tag label 10 has been peeled off.

When viewed from the normal direction of the surface of the substrate 20 (in the thickness direction of the IC tag label 10), the breakage detection circuit unit 23 is arranged on one side of the substrate 20 with the antenna unit 22 on the outer peripheral side of the antenna unit 22. It is a conductor formed so as to surround and connected to the IC chip 21. An easy break portion 70 is formed in the break detection circuit portion 23. Details of the easily breakable portion 70 will be described later.
As shown in FIG. 1B, the break detection circuit unit 23 of the present embodiment has an outer peripheral side and an inner peripheral side of the antenna unit 22 on the surface opposite to the surface on which the antenna unit 22 is formed. It is provided so that it may be located in the side. In the present embodiment, the break detection circuit unit 23 has a width w (see FIG. 3A) at a portion provided on the outer peripheral side of the antenna unit 22 of about 1 mm, and uses the same material as the antenna unit 22. And formed by etching or the like.

The first bonding layer 30 is a bonding layer that is formed on one side of the base material 20 and for bonding the IC tag label 10 to an object to be bonded such as the box 200.
The first bonding layer 30 of the present embodiment is formed by applying an adhesive to substantially the entire surface of the base member 20 on the antenna portion 22 side (the surface opposite to the protective layer 60 side).
The release paper 40 is a member that is detachably laminated on the opposite side of the first bonding layer 30 from the base material 20 and has easy peelability. The release paper 40 has a function of protecting the bonding surface 31 (the surface in contact with the object to be pasted) of the first bonding layer 30 before the IC tag label 10 is bonded to the box 200 or the like.
In the present embodiment, the release paper 40 whose surface is coated with a silicon resin or the like is used. However, the present invention is not limited to this. For example, a resin film having easy peelability may be used.
As shown in FIG. 1, the IC tag label 10 of the present embodiment is provided to the user in a state where the release paper 40 is laminated.

The second bonding layer 50 is a layer formed by applying an adhesive to substantially the entire surface of the substrate 20 on the side opposite to the first bonding layer 30. The second bonding layer 50 has a function of bonding the protective layer 60 to the substrate 20.
The protective layer 60 is a layer provided on the opposite side of the second bonding layer 50 from the base material 20, that is, on the position that is the outermost surface of the IC tag label 10. The protective layer 60 is provided to protect the IC chip 21 and the like provided on the substrate 20. In the present embodiment, a substantially transparent resin film-like member is used as the protective layer 60.

The easily breakable portion 70 is a portion that is formed in at least the breakage detecting circuit portion 23 and includes a plurality of fine holes m that are uniformly distributed.
FIG. 3 is a diagram illustrating the easily breakable portion 70. 3A is an enlarged view of the easily breakable portion 70, and FIG. 3B is an enlarged view of a cross section of the IC tag label 10 in the region where the easily breakable portion 70 is formed. c) is a diagram illustrating the depth of the hole m of the easily breakable portion 70. FIG. In order to facilitate understanding, in FIG. 3B, the release paper 40 is omitted, and in FIG. 3C, the release paper 40 is omitted, and the base material 20, the second bonding layer 50, The protective layer 60 is schematically shown as one layer.
The region where the easily breakable portion 70 is formed is provided so that at least a part thereof is in contact with the outer periphery 20 a of the substrate 20 when viewed from the normal direction of the substrate 20. As shown in FIG. 1A, the easily breakable portion 70 of the present embodiment is formed at the end of the base material 20 along the outer periphery 20a of the base material 20, and the antenna portion 22 and the IC chip 21 are provided. It is not formed in the area | region inside the base material 20 currently made. In the region where the easily breakable portion 70 is formed, the breakage detection circuit portion 23 is included.

The easily breakable portion 70 tends to cause breakage between the holes m when the IC tag label 10 is to be peeled off, and has an effect of inducing breakage between other adjacent holes m in a chained manner. Therefore, when the IC tag label 10 is peeled off, it is possible to detect that the breakage detection circuit portion 23 is cut off due to breakage between the holes m of the easily breakable portion 70 and the IC tag label 10 is illegally peeled off.
The diameter of the hole m of the easily breakable portion 70 (the diameter is the longest diameter of the hole m) ensures the conduction of the breakage detection circuit portion 23 and prevents the breakage detection circuit portion 23 from being interrupted. The diameter of the hole m is preferably smaller than the width, and preferably within a range of 0.1 to 0.3 mm, and the distance between the hole m and the hole m (FIG. 3A and FIG. 5A described later). ) The dimension of the uncut portion u) shown in the figure is required to be in the range of 0.3 to 2.0 mm, and preferably in the range of 0.3 to 1.0 mm. When the uncut portion u is larger than 2.0 mm, it is difficult to break, and in order to easily break, it is preferably 1.0 mm or less. The diameter of the hole m and the dimension of the uncut portion u can be appropriately selected depending on the width dimension of the breakage detection circuit portion 23 within the above range.

The easily breakable portion 70 has a diameter m within the above-described range and the uncut is uniformly distributed, so that the easily breakable portion 70 becomes difficult to visually recognize. It becomes difficult to try to peel away from 70, and unauthorized peeling can be suppressed. In addition, the diameter of the hole m of this embodiment is 0.3 mm, and the dimension of the uncut part u is 0.3 mm.
As shown in FIG. 3A, the easily breakable portions 70 of the present embodiment are staggered, that is, between the holes m of adjacent rows in the direction in which the centers of the holes m of any row are orthogonal to the rows. It is uniformly formed so as to be located (in a so-called staggered pattern). By forming in this way, the effect that the fracture between the holes m is more likely to occur due to the force for peeling the IC tag label 10 from the box 200 is obtained.

Here, the distribution state of the holes m of the easily breakable portion 70 will be described in detail.
FIG. 5 is a diagram for explaining a distribution state of the holes m of the easily breakable portion 70. In order to facilitate understanding, in FIG. 5, the hole m is indicated by a white ellipse. FIG. 5A shows an example in which the holes m are formed at the intersections of a square lattice in which the vertical and horizontal intervals are equal, and FIG. 5B is similar to the easily breakable portion 70 of the present embodiment. An example in which every other row of holes m is formed so as to be shifted by a half pitch of a square lattice is formed in a so-called staggered pattern.
In the examples shown in FIGS. 5A and 5B, it can be said that the holes m are uniformly formed, and an effect that it is difficult for a third party to visually recognize the holes m and the easily breakable portion 70 is obtained.

FIG. 5C shows an example in which holes m are formed at the intersections of the lattices in which the horizontal interval is twice the vertical interval. As shown in FIG. 5C, when the aspect ratio of the lattice is about 1: 2, the third person does not see the distribution of the holes m like a general perforation, and the holes m It can be said that it is formed like this.
In addition, when the aspect ratio of the lattice exceeds 1: 3 (the horizontal interval is more than three times the vertical interval), the third person can easily recognize the hole m as a perforation. Therefore, when the holes m are formed at the intersections of the lattices, it can be said that the aspect ratio of the lattices is 1: 3 is the limit when the holes m are uniformly distributed.
FIG. 5D shows an example in which holes m are formed at random positions one by one inside a square lattice having the same vertical and horizontal intervals. When the holes m are formed in such an arrangement, the holes m are not recognized as perforations, but are formed with the holes m distributed uniformly as a whole. It is hard to be done.

The degree of uniformity in which the holes m forming the easily breakable portion 70 are distributed is formed by connecting the adjacent holes m at the shortest distance to form a triangular mesh having the holes m as vertices as shown in the figure. It can be evaluated by using the standard deviation value of the length distribution of each side (L1, L2, L3,... Ln) of the mesh. If the value of this standard deviation is large, the variation in the distance between the hole m and the hole m adjacent to the hole is large, and the possibility of non-uniformity is large. If the non-uniformity in the distance between the holes m has a directivity, the holes m are visually noticeable like perforations.
Specifically, the center of gravity of the planar shape of the hole m is the center P of the hole m, the distance from the center P of the hole m to the center P1 of the adjacent hole m is L1, and so on. Ln is obtained and evaluated by the standard deviation of the distance between the holes m scaled by dividing by L1 to the average value (La) of Ln.
Table 1 below is a table for evaluating the distribution of the distance between the centers of the holes m.

Sample 1 shown in Table 1 is an example in which holes m are formed at intersections of a square lattice as shown in FIG. 5A, and Sample 2 is staggered as shown in FIG. 5B. In this example, holes m are formed, and sample 3 is an example in which holes m are arranged at the intersections of the lattice having an aspect ratio of 1: 2, as shown in FIG. Sample 4 is an example in which holes m are arranged at intersections of lattices having an aspect ratio of 1: 3, and sample 5 is an example in which holes m are arranged at intersections of lattices having an aspect ratio of 1: 4. As shown in FIG. 5E, sample 5 is a reference example in which holes m are randomly arranged inside a square lattice one by one, but the distance between holes m is extremely large. is there. In addition, the distribution evaluation of the hole m shown in Table 1 is evaluating the distribution of the distance of 23 places by the number of holes m 12 as an example.
As shown in Table 1, the standard deviation σ of sample 1 is 0.168, and the standard deviation σ of sample 2 is 0.055. The standard deviation σ of sample 3 is 0.334, and the standard deviation σ of sample 4 is 0.458. In these examples, the holes m are regularly and uniformly distributed.

On the other hand, in the sample 5, since the aspect ratio of the lattice is 1: 4, it is difficult to say that the holes m are uniformly distributed, and the standard deviation σ is 0.533. In sample 6, as is clear from FIG. 5E, it is difficult to say that the holes m are uniformly distributed, and the standard deviation σ is 0.565.
From the above, it can be said that the holes are uniformly distributed if the standard deviation σ of the value obtained by dividing the distance between the holes m by the average value and scaling is 0.46 or less. Therefore, if the standard deviation σ between the holes m is 0.46 or less, it can be said that the holes m are uniformly distributed. Therefore, even if the holes m are regularly formed, they are randomly formed. May be.
As shown in FIG. 3 (a), the holes m of this embodiment are formed in a staggered manner like the sample 2, so that the standard deviation σ is 0.46 or less and is uniformly distributed. I can say that.

Returning to FIG. 3B, the hole m of the easily breakable portion 70 is formed so as to penetrate not only the breakage detection circuit portion 23 but also the base material 20, the second bonding layer 50, and the protective layer 60. The first bonding layer 30 does not penetrate.
The hole m of the easily breakable portion 70 is formed by using the punching blade 300 or the like. As shown in FIG. 3C, the first bonding layer 30 is temporarily inserted by inserting the punching blade 300 from the protective layer 60 side. , A protruding portion called a burr 30b is generated by the punching blade 300 on the release paper 40 side surface (bonding surface 31) of the first bonding layer 30. Since the easily breakable portion 70 is in a state where a plurality of fine holes m are uniformly distributed, if the holes m penetrate the first bonding layer 30, the bonding surface 31 of the first bonding layer 30 is The flatness is lost by the plurality of burrs 30b, and the adhesive strength is lowered.
Moreover, if the punching blade 300 is inserted from the release paper 40 side to penetrate the first bonding layer 30 and the hole m is formed, a plurality of the bonding surfaces 31 of the first bonding layer 30 are caused by the punching blade 300. (Not shown) is generated, the flatness is lost, and the adhesive strength of the first bonding layer 30 is lowered.
Therefore, as shown in FIG. 3B, the hole m of the easily breakable portion 70 passes through the protective layer 60, the second bonding layer 50, the base material 20, and the breakage detection circuit portion 23. The layer 30 was not penetrating (formed only on the substrate 20 side in the thickness direction).

The cuts C1 are cuts having the outer periphery of the substrate 20 as one end, and a plurality of the cuts C1 are formed along the outer periphery of the substrate 20 as shown in FIG. The cut C1 of the present embodiment is formed from the outer periphery to the inner periphery of the substrate 20 when the substrate 20 is viewed from the normal direction, but is not formed in the breakage detection circuit unit 23. (See FIG. 1 (a) and FIG. 3 (a)).
Further, the cut C1 of the present embodiment cuts the protective layer 60, the second bonding layer 50, and the base material 20, but does not cut the first bonding layer 30, and the thickness direction of the first bonding layer 30 In this case, the base material 20 is cut from the side to the middle.

A method for attaching the IC tag label 10 to the box 200 will be described.
After the product or the like is packed in the box 200, the user uses the reader / writer or the like for the IC tag label 10 to store the unique information such as the product in the memory in the IC chip 21. Then, the user peels off the release paper 40 from the IC tag label 10 and affixes the box 200 across the joints of the pair of opening / closing lids 201 (201a, 201b) as shown in FIG. Seal. At this time, one end portion in one longitudinal direction of the IC tag label 10 is positioned in each of the pair of opening / closing lids 201a and 201b.
At this time, since the first bonding layer 30 is not penetrated or cut by the hole m and the cut C1 of the easily breakable portion 70, the flatness of the bonding surface is high and sufficient adhesive strength can be exhibited.

Next, the operation of the IC tag label 10 will be described.
When the IC tag label 10 receives a radio wave from a reader / writer or the like via the antenna unit 22, the IC chip 21 is activated based on the radio wave and reads a command for transmitting the unique information of the product from the received radio wave. Then, the IC chip 21 transmits product-specific information to the reader / writer or the like through the antenna unit 22 based on the read command.
In addition, the IC chip 21 applies a voltage to the breakage detection circuit unit 23 to detect whether the breakage detection circuit unit 23 is broken.
When the IC chip 21 detects that the break detection circuit unit 23 is broken, it determines that the IC tag label 10 has been peeled off, and transmits the determination information to the reader / writer or the like through the antenna unit 22. When the break detection circuit unit 23 detects that the IC tag label 10 is not broken, the IC tag label 10 is determined to be normal, and the determination information is transmitted to the reader / writer or the like by the antenna unit 22.
By performing such a detection operation, if a malicious third party illegally peels off the IC tag label 10 affixed to the box 200 and replaces the product that is the contents of the box 200, the opening / closing lid 101 is again provided. Even if the IC tag label 10 is affixed to the IC tag label 10, the IC tag label 10 is peeled off, so that the breakage detection circuit unit 23 is broken. Therefore, an external device such as a reader / writer and the IC tag label 10 communicate with each other. It can be detected that the portion 23 is broken.
Therefore, the user can easily determine that the box 200 has been opened illegally.

According to this embodiment, there are the following effects.
(1) Since the easy-to-break portion 70 is formed in the break detection circuit portion 23, the IC tag label 10 is broken after being attached to the box 200, and the break detection circuit portion 23 is broken and illegally peeled off. It can be easily detected. Moreover, since the breakage detection circuit part 23 is broken by the easy breakage part 70, it is possible to prevent the IC tag label 10 from being falsified.
(2) Since the diameter of the hole m of the easily breakable portion 70 is as fine as 0.1 to 0.3 mm and is distributed substantially uniformly, the breakage between the holes m is likely to occur, and the easily breakable It is difficult to visually recognize the portion 70. Therefore, it is possible to enhance the effect of detecting unauthorized peeling, and to prevent unauthorized peeling.
(3) Since the hole m and the cut C1 of the easily breakable portion 70 do not penetrate and cut through the first bonding layer 30, the flatness of the bonding surface 31 of the first bonding layer 30 can be maintained, and the first bonding The adhesive strength of the layer 30 to the object to be applied can be increased.

(4) Since the cut C1 is formed with the outer periphery of the base material 20 as one end, when the IC tag label 10 is to be peeled from the box 200, the base material 20 is broken by the cut C1 and is induced by this. Breakage between the holes m of the easily breakable portion 70 occurs, and the breakage detection circuit portion 23 is broken. Therefore, the effect of detecting unauthorized peeling of the IC tag label 10 can be further enhanced.
(5) Since the breakage detection circuit unit 23 is formed on the surface of the substrate 20 opposite to the antenna unit 22, the distance between the breakage detection circuit unit 23 and the antenna unit 22 can be increased, and the reader / writer When the communication is communicated with the IC tag label 10 and the reader / writer, the break detection circuit unit 23 affects the antenna unit 22 due to radio waves (magnetism) emitted from the reader / writer or the like. Can do.
Moreover, since the breakage detection circuit unit 23 is formed on the outer peripheral side of the antenna unit 22 so as to surround the antenna unit 22, it is possible to detect peeling of the outer periphery of the IC tag label 10 from all directions.

(Deformation)
The present invention is not limited to the embodiment described above, and various modifications and changes are possible, and these are also within the scope of the present invention.
(1) FIG. 4 is a diagram showing a modified IC tag label. FIG. 4A shows a modified IC tag label 10-2 in which the easily breakable portion 70 is formed on substantially the entire surface of the substrate 20. FIG. 4B shows an IC tag label 10-3 in which a cut C2 is formed on the inner side of the easily breakable portion 70. FIG. In addition, the same code | symbol is attached | subjected to the part which fulfill | performs the same function as embodiment mentioned above, and the overlapping description is abbreviate | omitted suitably.
In the present embodiment, the easily breakable portion 70 is formed so as to circulate along the outer periphery of the base material 20 when viewed from the normal direction of the base material 20, and the base material 20 on which the antenna portion 22 and the like are arranged. Although the example in which the easily breakable portion 70 is not formed is shown on the inner side, the present invention is not limited thereto, and may be formed on substantially the entire surface of the substrate 20 as shown in FIG. By forming in this way, when the IC tag label 10-2 is illegally peeled, the entire IC tag label 10-2 is broken unrecoverably, so that it can be determined by visual inspection that the IC tag label 10-2 has been illegally peeled. In addition, since the antenna unit 22 is also broken, communication cannot be performed, and it is possible to determine the presence or absence of unauthorized peeling.
Note that when the easily breakable portion 70 is formed on substantially the entire surface of the base material 20, the IC chip or the like may be damaged. Therefore, the hole m should not be formed in the region where the IC chip 21 is provided. preferable.

Further, as shown in FIG. 4B, a cut C <b> 2 may be formed inside the easily breakable portion 70 when viewed from the normal direction of the base material 20.
The cut C <b> 2 is a cut formed between the antenna unit 22 and the breakage detection circuit unit 23 so as to surround the antenna unit 22. The cut C2 may cut the first bonding layer 30, or may cut a part of the first bonding layer 30 on the substrate 20 side in the thickness direction in the same manner as the cut C1. By this cut C2, when the IC tag label 10-3 is peeled off, the base material 20 is broken and the IC tag label 10-3 is broken unrepairably. Therefore, unauthorized peeling of the IC tag label 10-3 can be easily visually confirmed. In addition, falsification of the IC tag label 10-3 can be prevented.

(2) In the present embodiment, an example in which printing or the like is not performed on the protective layer 60 is shown. However, the present invention is not limited to this. For example, a character such as “sealing” is provided on any surface of the protective layer 60. Design and visibility may be improved by printing a pattern, a pattern, a pattern, or the like. Further, when a barcode or the like associated with information related to unique information such as a product packed in the box 200 is provided on any surface of the protective layer 60 by printing, the management convenience can be improved. it can.

(3) In the present embodiment, an example in which an ink layer or the like is not formed on the bonding surface of the first bonding layer 30 is shown. However, the present invention is not limited to this. For example, one of the bonding surfaces 31 of the first bonding layer 30 An information ink layer in which characters such as “sealing” are formed using a soluble ink that is easily soluble in a solvent or the like, or a temperature-indicating ink that changes color irreversibly with a temperature change, may be provided. If an information ink layer with a soluble in group is provided, if the IC tag label is illegally removed using a solvent, etc., the information ink layer will dissolve and the characters will become unreadable. Traces of can be left. In addition, when an information ink layer is provided using temperature indicating ink, if the IC tag label is illegally peeled off by applying hot air, etc., the information ink layer will be irreversibly discolored. Can leave traces of.

(4) In the present embodiment, the IC tag label 10 on which the release paper 40 is laminated is shown as a single unit as shown in FIG. 1, but the present invention is not limited to this. A plurality of IC tag labels may be provided to the user in a form in which a plurality of IC tag labels are continuously stacked at equal intervals along the longitudinal direction of the paper 40.

(5) In the present embodiment, the first bonding layer 30 and the second bonding layer 50 are formed by applying an adhesive. However, the present invention is not limited to this. For example, the first bonding layer 30 and the second bonding layer 50 are formed by applying an adhesive. Alternatively, it may be formed using a sheet-like member having adhesiveness or adhesiveness.

(6) In the present embodiment, an example in which the protective layer 60 and the second bonding layer 50 are separate from each other has been shown. However, the present invention is not limited thereto, and for example, as the protective layer 60 and the second bonding layer 50, for example, on one side A resin sheet-like member to which an adhesive or an adhesive is applied may be used.
In addition, although this embodiment and modification can also be used in combination as appropriate, detailed description is abbreviate | omitted. Further, the present invention is not limited by the embodiments described above.

It is a figure showing IC tag label 10 of an embodiment. It is a figure which shows the IC tag label 10 affixed on the box 200. FIG. It is a figure explaining the easily breakable part. It is a figure which shows the IC tag label of a deformation | transformation form. It is a figure explaining the distribution state of the hole m of the easily breakable part.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 IC tag label 20 Base material 21 IC chip 22 Antenna part 23 Break detection circuit part 30 1st joining layer 40 Release paper 50 2nd joining layer 60 Protective layer

Claims (6)

A substrate;
An antenna unit provided on one surface of the base material and capable of communicating in a non-contact manner with an external device;
An IC chip connected to the antenna unit and managing information communicated via the antenna unit;
A bonding layer formed on one side or the other side of the substrate;
When viewed from the normal direction of the base material, the conductor is formed on the outer peripheral side of the antenna portion so as to surround the antenna portion and connected to the IC chip, and is broken by applying a voltage. A break detection circuit unit capable of detection;
At least an easily breakable portion formed of a plurality of fine holes formed in at least the breakage detection circuit portion and distributed substantially uniformly,
A label-type information medium comprising: The label type information medium according to claim 1,
The diameter of the hole is smaller than the width of the breakage detection circuit portion;
Label-type information medium characterized by In the label type information medium according to claim 1 or 2,
Having a notch with the outer periphery of the substrate as one end;
Label-type information medium characterized by In the label type information medium according to any one of claims 1 to 3,
The hole does not penetrate the bonding layer;
Label-type information medium characterized by In the label type information medium according to any one of claims 1 to 4,
The diameter of the hole is in the range of 0.1 mm to 0.3 mm;
Label-type information medium characterized by In the label type information medium according to any one of claims 1 to 5,
When viewed from the normal direction of the base material, at least a part of the region where the easily breakable portion is formed is in contact with the outer periphery of the base material,
Label-type information medium characterized by

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