JP6334036B1 - Inlet antenna, inlet antenna apparatus, and manufacturing method thereof - Google Patents

Abstract

An object of the present invention is to make it possible to clearly identify that an antenna has been tampered with when it is attempted to tamper open it by removing the exterior base material affixed to the surface of the antenna, and the antenna is damaged, making it impossible to read identification information. An inlet antenna, an inlet antenna device, and a manufacturing method thereof are provided. An inlet antenna 12 attached to an adherend 17 is formed into a film by applying an antenna pattern formed of a metal foil 12a and a resin material on one side of the antenna pattern (metal foil 12a). The resin layer 11 is provided. [Selection] Figure 1

Description

  The present invention relates to an inlet antenna, an inlet antenna device, and a manufacturing method thereof.

  Conventionally, in relatively expensive products such as various foods and drinking water, and package software for personal computers, containers for packaging products and products to prevent tampering and determine authenticity of various products In addition, a method of sticking a sealing label or a sealing sticker on an adherend such as a decorative box is known (see, for example, Patent Document 1).

  This seal label or seal is used to prevent the product or case from being tampered with by removing the label or seal, and to prevent tampering with the product inside or replacing it with a fake product. It is used to overlap the opening of the case.

  Such a conventional sealed label or seal is, for example, when an incision is made in a normal label, the label is peeled off, and an attempt is made to open the label. Is generated and destroyed.

  Therefore, even if it tries to seal the opened product main body and case again and tries to stick the sealed label, it cannot be used because the label base material is broken. Even if the sticking can be made, since the label has cracks and cuts in appearance, it can be visually identified that the label is clearly opened.

  In this way, if a label having a tamper-proofing function or a tamper-evident-preventing function is once peeled off from a state of being stuck to an adherend such as a container, it cannot be attached again, Therefore, it is difficult to restore the label, and it is possible to easily recognize that the label has been illegally peeled off or opened illegally.

JP-A-7-146651

  However, if the unsealed part of the product body or case is sealed with a fake sealed label or seal similar in appearance to the above-mentioned sealed label or seal, the label may be removed at first glance, It may not be possible to identify that it has been opened.

  Therefore, if you attempt to tamper open by removing the sealing label or sticker of various products affixed to the surface of the antenna, the antenna will be damaged and the identification information will not be read, and it will be tampered with. The technical problem to be solved in order to provide an inlet antenna, an inlet antenna device, and a method for manufacturing the same is generated, and the present invention aims to solve this problem. .

The invention according to claim 1 is an inlet antenna device that is attached to an adherend, and is formed into a film by applying an antenna pattern formed of metal foil and a resin material on one surface side of the antenna pattern. An antenna having a resin layer, an IC chip disposed on the other surface side of the antenna pattern, a weak adhesive layer provided on the one surface side of the antenna, and an adhesive strength stronger than the adhesive strength of the weak adhesive layer A strong adhesive layer provided on the other surface side of the antenna and attached to the adherend; and a sheet-like exterior member attached to the one surface side of the antenna via the weak adhesive layer; , An inlet antenna device is provided.

According to this configuration, since the antenna pattern formed of the metal foil is formed on the film-like resin layer and becomes brittle, if it is peeled off after being attached to the adherend, the antenna is damaged. It becomes impossible to function and even if it is pasted again, it can be clearly identified that it has been tampered with once. In addition, after being once attached to the adherend, if the exterior base material is peeled off, the resin layer attached to the adherend with the adhesive force of the strong adhesive layer having high adhesive strength is It remains stuck on. On the other hand, the exterior base material stuck using the weak adhesive layer with weak adhesive force peels off easily with the weak adhesive layer.

A second aspect of the present invention provides an inlet antenna device according to the first aspect , wherein the antenna pattern uses an aluminum foil or a copper foil.

  According to this configuration, the antenna pattern can be easily formed on the surface of the resin layer by masking the surface of the aluminum foil or copper foil with, for example, a resist ink layer. This contributes to economy and reliability.

Invention of Claim 4 is a manufacturing method of the inlet antenna apparatus affixed on a to-be-adhered body, Comprising: A liquid resin material is apply | coated to the one surface side of metal foil, and it is film-like on the said one surface side of said metal foil A resin layer forming step for forming a resin layer, an antenna forming step for forming an antenna having a predetermined pattern on one surface side of the resin layer by etching the metal foil, and an IC in which an identification signal is written An IC chip disposing step of disposing a chip on the other surface side of the antenna; a weak adhesive layer forming step of disposing a weak adhesive layer on one surface side of the antenna; and a weak adhesive layer on the one surface side of the antenna. An exterior base material attaching step for attaching the exterior base material, and a strong adhesive layer attached to the adherend having an adhesive strength stronger than the adhesive strength of the weak adhesive layer on the other surface side of the antenna. Providing a strong adhesive layer forming step; To provide a process for the preparation of the inlet antenna device to obtain.

  According to this manufacturing method, when the exterior substrate is peeled off after being once attached to the adherend, when the exterior substrate is peeled off, part of the antenna pattern is attached to the exterior substrate and peeled off together, A part of the antenna pattern is destroyed and the identification information written in the IC chip cannot be read. As a result, it is possible to easily obtain an inlet antenna device with an IC chip in which individual information is written, which can be clearly identified once tampered.

According to the present invention, since the antenna pattern formed of the metal foil is formed on the film-like resin layer and becomes fragile, if the antenna pattern is once attached to the adherend and then peeled off, the antenna is damaged. It becomes impossible to function, and even if it is pasted again, it can be clearly identified that it has been tampered with once. Therefore, even if it is attempted to conceal the opening by replacing it with a fake sealed label or seal that is similar in appearance to a sealed label or seal, fraud can be detected, which contributes to an improvement in reliability. In addition, after being once attached to the adherend, if the exterior base material is peeled off, the resin layer attached to the adherend with the adhesive force of the strong adhesive layer having high adhesive strength is It remains stuck on. On the other hand, the exterior base material stuck using the weak adhesive layer with weak adhesive force peels off easily with the weak adhesive layer.

It is the figure which showed typically the cross-sectional structure of one Example of the inlet antenna apparatus of this invention. It is sectional drawing shown typically which demonstrates an example of the manufacturing method of the inlet antenna of this invention.

  In the present invention, when an attempt is made to tamper with an external substrate such as a sealing label or a seal of various products attached to the surface of the antenna, the antenna is damaged and the identification information cannot be read. In order to achieve the purpose of providing an inlet antenna, an inlet antenna device, and a method of manufacturing the same, the inlet antenna that is attached to an adherend and formed of a metal foil This is realized by including an antenna pattern and a resin layer formed into a film by applying a resin material on one surface side of the antenna pattern.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the accompanying drawings. In the following description, expressions indicating directions such as front and back, up and down are not absolute, and are appropriate when the inlet antenna device of the present invention is depicted, but the attitude changes. In such a case, it should be interpreted according to changes in posture.

  FIG. 1 is a diagram schematically showing a cross-sectional structure of an embodiment of an inlet antenna device 10 of the present invention. An inlet antenna device 10 shown in FIG. 1 is an RFID (abbreviation for radio frequency identification) RFID antenna device, and has a film-shaped resin layer 11 and a predetermined shape with a metal foil 12 a on the lower surface side of the resin layer 11. The antenna 12 forming the antenna pattern, the IC chip 13 disposed on the back side of the antenna 12, the weak adhesive layer 14 applied on the upper surface side of the resin layer 11, and the weak adhesive layer 14 are interposed. The exterior base material 15 is attached to the upper surface side of the resin layer 11, and the strong adhesive layer 16 is applied so as to cover the antenna 12 and the IC chip 13. The inlet antenna device 10 is affixed to the adherend 17 with the adhesive force of the strong adhesive layer 16.

  The antenna 12 is formed by applying a resin material on one surface (upper surface) side of the metal foil 12a, which is a conductive material, and solidifying the resin material, thereby integrating the thin resin layer 11 on the one surface side of the metal foil 12a. Then, a resist ink (not shown) is applied or printed on the other surface (lower surface) side of the metal foil 12a as a mask, and the metal foil 12a is etched to form a metal circuit pattern on the surface of the resin layer 11, that is, It has a structure in which a predetermined antenna pattern is provided. Further, an IC chip 13 is disposed on the other surface (lower surface) side of the antenna 12 facing the resin layer 11, and is electrically connected and fixed to the antenna 12.

  In the IC chip 13, it is possible to write unique identification information for authenticity determination that prevents forgery of labels and seals, and reading / writing of the identification information and the like can be performed via the antenna 12. .

  That is, the antenna 12 constitutes an RF tag together with the IC chip 13, and can read and write the RF tag data in a non-contact manner using radio waves. In addition, when forming the antenna pattern, the antenna 12 is provided with a plurality of slits in the metal foil 12a for the purpose of weakening the antenna pattern.

  As the metal foil 12a, at least one selected from aluminum foil, copper foil, stainless steel foil, titanium foil, tinning, and the like can be used. Further, among these metal foils 12a, it is most preferable to use an aluminum foil or a copper foil from the viewpoint of economy and reliability. Moreover, aluminum foil is not limited to pure aluminum foil, but also includes an aluminum alloy.

  Examples of the resin material used for the resin layer 11 include polyethylene, polyethylene, polypropylene, polyethylene terephthalate, polyethylene naphthalate, polycarbonate, polyvinyl chloride, polyimide, amorphous polyethylene terephthalate, and liquid crystal polymer. The resin layer 11 is formed by laminating a liquid resin material on one surface (upper surface) side of the metal foil 12a, and then solidifying and laminating the resin material on the one surface (upper surface) side of the metal foil 12a. Forming. The resin layer 11 formed into a film has a thickness of about 13 to 15 μm, and the resin layer 11 is flexible so that it can be bent freely even after solidification.

  The exterior substrate 15 is a seal label or a seal of various products, and is formed into a sheet shape with paper or a plastic material. On the other hand, the adherend 17 is a main body of various products.

  The weak adhesive layer 14 is an adhesive layer formed by applying an adhesive to the surface of the resin layer 11, and the strong adhesive layer 16 is for attaching the resin layer 11 to the outer surface of the adherend 17 together with the antenna 12. And a layer of adhesive applied to the back surface (lower surface) side of the resin layer 11. Here, the adhesive force of the strong adhesive layer 16 is sufficiently stronger than the adhesive force of the weak adhesive layer 14. Note that the adhesive used in the weak adhesive layer 14 is, for example, a rubber adhesive, and the adhesive used in the strong adhesive layer 16 is, for example, an acrylic adhesive. Moreover, the weak adhesive layer 14 and the strong adhesive layer 16 may use a double-sided adhesive tape.

  Next, the operation of the inlet antenna device 10 configured as described above will be described. Normally, the inlet antenna device 10 is held in a state where the strong adhesive layer 16 is firmly attached to the outer surface of the adherend 17 which is a main body of various products and is sealed. Therefore, in this properly sealed state, a label identification information signal (unique identification signal) relating to a product transmitted from the IC chip 13 via the antenna 12 is received by a reader / writer (not shown) in a non-contact manner. Can be read. In addition, a necessary label identification information signal (unique identification signal) related to the product can be written to the IC chip 13 via the antenna 12 in a non-contact manner.

  Then, after sealing the adherend 17 once with the inlet antenna device 10, when the exterior base material 15 is peeled off from the non-adhesive body 17 and opened, the strong adhesive layer 16 having a stronger adhesive force than the weak adhesive layer 14 is removed. The resin layer 11 adhered to the adherend 17 is left on the adherend 17 side while being adhered to the adherend 17 with the strong adhesive layer 16, but the adhesive strength other than the strong adhesive layer 16 is weak. The exterior base material 15 side attached using the weak adhesive layer 14 is relatively easily peeled off together with the weak adhesive layer 14.

  When the exterior substrate 15 is peeled off together with the weak adhesive layer 14, a part of the antenna pattern (metal foil 12a) of the antenna 12 is attached to the weak adhesive layer 14, and is peeled off while breaking the antenna pattern. Thus, when a part of the antenna pattern is broken and the antenna 12 is destroyed, the unique identification information written in the IC chip 13 cannot be read. Since the identification information cannot be read, it can be known that the identification information has been opened once.

  Therefore, according to the structure of this embodiment, when the exterior substrate 15 is peeled off, a part of the antenna pattern (metal foil 12a) is destroyed. For example, the exterior substrate such as a sealed label or seal is used. Even if an attempt is made to conceal the opening by replacing it with a fake sealed label or seal similar in appearance to 15, it is possible to reliably detect fraud. This contributes to the improvement of reliability. In particular, since the metal foil 12a is provided with a plurality of slits for imparting brittleness, the antenna pattern (metal foil 12a) that adheres to and is peeled off from the exterior base material 15 when the exterior base material 15 is removed. The antenna 12 is easily broken by the slit.

  Next, an example of the manufacturing method of the inlet antenna device 10 will be described in the order of (1) to (6).

  (1) First, as shown in FIG. 2 (a), one surface (upper surface) of the metal foil 12a is coated with a liquid resin material, and the resin material is solidified to form one surface of the metal foil 12a. A film-like resin layer 11 is formed on the side (resin layer forming step).

  (2) Next, a predetermined antenna pattern is applied or printed on the other surface (lower surface) side of the metal foil 12a with resist ink or the like. Further, after printing, etching is performed to remove the metal foil 12a other than the antenna pattern on which the resist ink or the like is applied or printed, that is, the metal pattern of the metal foil 12a is left on the surface of the resin layer 11 having a film shape, An antenna 12 integrated with the resin layer 11 is formed on the surface of the resin layer 11 (antenna formation step). FIG. 2B shows the antenna 12 that is provided by integrating the patterned metal foil 12a on the surface of the resin layer 11 by etching.

  (3) Next, the IC chip 13 on which the identification signal is written is disposed on the other surface side of the antenna 12 facing the resin layer 11 to be electrically connected and fixed (IC chip disposing step).

  (4) Next, a weak adhesive layer 14 is applied or adhered to one surface of the antenna 12, that is, the upper surface side of the resin layer 11 to form a laminate (weak adhesive layer forming step), and further, an exterior is provided on the upper surface of the weak adhesive layer 14 The base material 15 is pasted (outer base material pasting step).

  (5) Next, on the other surface of the antenna 12, that is, on the lower surface side of the antenna 12, a strong adhesive layer 16 having an adhesive strength stronger than that of the weak adhesive layer is applied or adhered to form a laminate (strong). Adhesive layer forming step).

  (6) When the strong adhesive layer 16 is formed, the back side of the resin layer 11 is affixed to the adherend 17 that is a variety of products using the strong adhesive layer 16. As a result, the inlet antenna device 10 is disposed on the adherend 17.

  It should be noted that the present invention can be variously modified without departing from the spirit of the present invention, and the present invention naturally extends to the modified ones.

DESCRIPTION OF SYMBOLS 10 Inlet antenna apparatus 11 Resin layer 12 Antenna 12a Metal foil 13 IC chip 14 Weak adhesion layer 15 Exterior base material 16 Strong adhesion layer 17 Adhering body

Claims (4)

An inlet antenna device attached to an adherend,
An antenna having an antenna pattern formed of a metal foil, and a resin layer formed into a film by applying a resin material on one side of the antenna pattern;
An IC chip disposed on the other side of the antenna pattern;
A weak adhesive layer provided on the one surface side of the antenna;
A strong adhesive layer having an adhesive force stronger than that of the weak adhesive layer, provided on the other surface side of the antenna, and attached to the adherend;
A sheet-like exterior member attached to the one surface side of the antenna via the weak adhesive layer;
An inlet antenna device comprising: The inlet antenna device according to claim 1 , wherein the antenna pattern uses an aluminum foil or a copper foil. Wherein the antenna pattern is provided with a plurality of slits that weaken the antenna pattern, the inlet antenna device according to claim 1 or 2, characterized in that. A method for manufacturing an inlet antenna device to be attached to an adherend,
A resin layer forming step of applying a liquid resin material on one side of the metal foil to form a film-like resin layer on the one side of the metal foil;
An antenna forming step of etching the metal foil to form an antenna having a predetermined pattern on one surface side of the resin layer;
An IC chip disposing step of disposing the IC chip on which the identification signal is written on the other surface side of the antenna;
A weak adhesive layer forming step of providing a weak adhesive layer on one side of the antenna;
An exterior substrate pasting step of pasting an exterior substrate on the surface side of the antenna through the weak adhesive layer;
A strong adhesive layer forming step of providing a strong adhesive layer attached to the adherend having an adhesive strength stronger than that of the weak adhesive layer on the other surface side of the antenna;
A method for manufacturing an inlet antenna device, comprising: