JP2003044821A - Non-contact type data transmitting and receiving body and method for manufacturing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the security of a system utilizing a non-contact type data transmitting and receiving body by making a portion of an antenna unit remain on an adherend body side and making the antenna unit itself remain on the adherend body side to cause function destruction and structure destruction of the transmitting and receiving body when the non-contact type data transmitting and receiving body is stripped from the body to be adhered. SOLUTION: A first sticking layer 7 on one face of a base material is made to be a non-adhering part 11 which is disposed at at least one part within an antenna unit correspondence area 10 and does not have adhesiveness and a adhering part 12 disposed on the one face of the base material except the area of the non-adhering part 11, the antenna unit 6 is arranged on the antenna unit correspondence area 10 in the first sticking layer 7 while making at least a portion of the antenna unit 6 correspond to the non-adhering part 11, and a second sticking layer 8 is overlapped upon the first sticking layer 7 so as to cover the antenna unit 6.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a contactless data transmitter / receiver and a method for manufacturing the same.

[0002]

Conventionally, an information recording medium (R, such as a non-contact type IC tag, capable of recording and erasing data by transmitting and receiving data in a non-contact state).
F-ID (RadioFrequency IDent
The non-contact type data transmitter / receiver often used for the purpose of (application) has a configuration in which an antenna unit in which an IC chip is mounted on an antenna having a required pattern is arranged on a sheet-shaped base material. As described above, by exchanging data with a data reading device (referred to as a reader) or the like located at a distant position, it is possible to read the data recorded in advance on the non-contact type data transceiver side, As a specific example of usage, this non-contact type data transmitter / receiver has come to be used in general retail stores as price tags or product tags. And
In such applications, the contactless data transmitter / receiver stores product information in advance as data and uses it.
It is necessary to deal with improper handling. For example, in a general retail store, strip the A transmitter / receiver from the B product to which the A non-contact data transmitter / receiver is attached,
There is a possibility that an illegal operation may be performed such that the product of C is attached to another product of C and the product of C is made to appear as the product of B.

From this, it can be considered as a countermeasure to destroy the function of the non-contact type data transmitter / receiver attached to an adherend such as a product. However, since the conventional basic non-contact type data transmitter / receiver has an antenna unit formed on a film base material and is covered with resin, it causes structural damage due to careful illegal stripping operation. It is difficult to let Also, as a non-contact type data transmitter / receiver, a structure in which an antenna unit is formed on a paper base material has been proposed, but even in this transmitter / receiver, the antenna unit is covered with paper or film. Unauthorized stripping operations performed cannot cause structural destruction. That is, these non-contact type data transmitters / receivers are focused on increasing the reliability of the transmitter / receiver itself.
Destruction does not ensure system security. Therefore, in view of the above circumstances, the present invention allows a part of the antenna unit to remain on the adherend side when the non-contact data transmitter / receiver is stripped from the adherend, or the antenna unit itself remains on the adherend side. Therefore, it is an object of the present invention to cause functional destruction or structural destruction of the transmitter / receiver, and to improve the security of the system using the non-contact type data transmitter / receiver.

[0004]

SUMMARY OF THE INVENTION The present invention has been made in consideration of the above problems, and an antenna in which an adhesive layer is provided on one surface of a base material and an IC chip is provided on an antenna made of a conductive material in the adhesive layer. A non-contact type data transmitter / receiver in which a unit is arranged and can be attached to an adherend, wherein the adhesive layer on one side of the base material is a first adhesive layer on the base material side and the first adhesive layer. And a non-adhesive portion having no adhesiveness disposed in at least a part of the antenna unit corresponding region, and the non-adhesive portion having a non-adhesive portion. Consisting of an adhesive portion disposed on one side of the base material excluding the area of the adhesive portion, the second adhesive layer is the adhesive area over the entire area corresponding to one side of the base material, and on the antenna unit corresponding area in the first adhesive layer. At least a part of it covers the antenna unit arranged corresponding to the non-bonded part. Providing contactless data transmission and reception body characterized by being superimposed on the first bonded wear layer is intended to solve the above problems. And in the above invention,
The non-adhesion layer may be provided on the entire surface of the antenna unit corresponding region depending on the shape of the antenna unit.

Another aspect of the present invention is a non-contact type data transmission / reception that has an antenna unit in which an IC chip is provided on an antenna made of a conductive material in an adhesive layer on one surface of a base material so that it can be adhered to an adherend. In manufacturing the body, on one surface of the base material, a non-adhesive portion having no adhesiveness disposed in at least a part of the antenna unit corresponding area, and an adhesive portion arranged on one surface of the base material excluding the area of the non-adhesive portion. After disposing the first adhesive layer divided into, the antenna unit corresponding to the non-adhesive portion at least a part above the antenna unit corresponding area in the first adhesive layer, the whole surface of the base material single side corresponding area is arranged. It is characterized in that the second adhesive layer as an adhesive portion is laminated on the first adhesive layer so as to cover the antenna unit, and a method for manufacturing this comparative work-type data transceiver is provided. , Solving the above problem It is intended to. Further, in the above invention, the non-adhesive layer may be provided on the entire surface of the antenna unit corresponding region according to the shape of the antenna unit. Further, in the above-mentioned invention, the first adhesive layer loses its adhesiveness by applying a necessary condition to at least a portion of the adhesive layer previously formed on one surface of the base material in the antenna unit corresponding region. It is possible that a non-adhesive portion and an adhesive portion are separately formed by providing an adhesive agent for applying the above-mentioned antenna unit and then applying a condition for eliminating the adhesiveness.

[0006]

BEST MODE FOR CARRYING OUT THE INVENTION Next, the present invention will be described in detail based on the embodiments shown in FIGS. In the figure, reference numeral 1 denotes a non-contact type data transmitter / receiver, and the non-contact type data transmitter / receiver 1 is configured such that one surface of a thin base material 2 can be adhered to various adherends as an adhesive layer 3. In this adhesive layer 3, an antenna unit 6 in which an IC chip 5 is provided on an antenna 4 made of a conductive material is located. First,
In the example of the non-contact type data transmitter / receiver 1 shown in FIGS. 1 to 4, the adhesive layer 3 on one surface of the substrate 2 made of paper or synthetic resin film is a first adhesive layer made of an adhesive or an adhesive. 7 has a laminated structure with a second adhesive layer 8 made of an adhesive or an adhesive, and the antenna unit 6 is arranged between the first adhesive layer 7 and the second adhesive layer 8. Has been done. As described above, the antenna unit 6 is formed by connecting the IC chip 5 to the antenna 4, and the terminal portion of the antenna 4 is superposed and joined with a separately-formed interbosser member 9 having the IC chip 5 by a usual method. is doing.

In this example, the work of forming the antenna unit 6 itself is not carried out on the first adhesive layer 7, but the antenna 4 and the interbosser member 9 are integrated in advance. It is arranged on the dressing layer 7. The antenna 4 of the antenna unit 6 includes a conductive material pattern printed by a screen printing method, a conductive material pattern printed by an inkjet method, and a conductive material using a dispensing method on a base material (not shown) having peeling property. Pattern formation by the above method, pattern formation of a conductive material using a vapor deposition method, and the like. In addition, the interbosser member 9 is formed with connection terminals corresponding to respective ends of the antenna on a required base material, and the IC chip 5 is mounted so as to straddle the connection terminals. And the interbosser member 9
By bonding the connection terminal in 1 to the end of the antenna 4 via a conductive adhesive or the like, the antenna unit 6 in which the IC chip 5 is provided on the antenna 4 is obtained. Then, the antenna unit 6 is transferred onto the first adhesive layer 7 to be supported by the first adhesive layer 7.

In the first adhesive layer 7, in the antenna unit corresponding area 10 where the antenna unit 6 is located,
A non-adhesive portion 11 on which the adhesive property of the base material 2 side is lost by applying a release agent or the like is disposed, and the adhesive or An adhesive portion 12 made of an adhesive is provided, and the first adhesive layer 7 is divided into the non-adhesive portion 11 and the adhesive portion 12. The layout is set so that each loop of the antenna 4 crosses the non-bonded portion 11. As described above, the antenna unit 6 includes a part of the antenna 4 which is not attached to the non-bonded portion 11
The second sticking which is arranged on the first sticking layer 7 in a state of being located in the Layer 8 is overlaid. The adhesive portion 13 of the second adhesive layer 8 is also made of an adhesive or an adhesive like the adhesive portion 12 of the first adhesive layer 7, and the adhesive surface by the second adhesive layer 8 is By adjusting to the adherend, the non-contact data transmitter / receiver 1 can be attached to the adherend.

In the non-contact type data transmitter / receiver 1 having the above structure, a part of the antenna 4 of the antenna unit 6 is located at the non-adhesive portion 11 of the first attaching layer 7,
The non-adhesive portion 11 and the corresponding portion of the antenna 4 can be separated from each other. Therefore, when the non-contact data transmitter / receiver 1 is attached to an adherend and then peeled off from the adherend, a part of the antenna 4 corresponding to the non-adhesive portion 11 and this portion are covered. A part of the second adhesive layer 8 remains on the adherend side, and the stripped non-contact data transmitter / receiver 1 has a part of the antenna 4 missing as shown in FIG. It will be destroyed without possession. Therefore, even if the stripped non-contact type data transmitter / receiver 1 is attached to another adherend, the data cannot be transmitted / received to / from the reader side, and the non-contact type data transmitter / receiver illegally stripped off It is possible to reliably prevent the sending and receiving of data.

In the non-contact type data transmitter / receiver 1, a part of the antenna corresponding region 10 in the first adhesive layer 7 of the adhesive layer 3 is used as a non-adhesive portion 11, and a part of the antenna 4 of the antenna unit 6 is non-adhesive. When the non-contact type data transmitter / receiver 1 arranged corresponding to the portion 11 and attached to the adherend is peeled off, a part of the antenna 4 corresponding to the non-adhesive portion 11 remains on the adherend side. The non-contact type data transmitter / receiver 1 is destroyed. However, the contactless data transmitter / receiver 1 of the present invention is not limited to this example. 5 to 8 show another example, in which the non-adhesive portion 11 is arranged over the entire antenna unit corresponding area 10 as a pattern corresponding to the shape of the antenna unit 6, and the other area is attached to the adhesive portion 12. I am trying. Then, as in the above-described embodiment, the second adhesive layer 8 having the adhesive portion 13 over the entire surface of the one-sided base material is the first adhesive layer so as to cover the antenna unit 6 arranged in the antenna unit corresponding area 10. Stacked on 7. In this embodiment, since the antenna unit 6 is arranged only on the non-adhesive part 11, the non-contact type data transmitter / receiver 1 attached to the adherend.
By peeling off, the non-adhesive portion 11 and the antenna unit 6 are separated from each other so that the antenna unit 6 and the second adhesive layer 8 covering the antenna unit 6 remain on the adherend side. Become. Therefore, the stripped non-adhesive data transmitter / receiver 1 itself does not have the antenna unit 6 (see FIG. 8), and even if it is attached to another adherend, data transmission / reception is performed with the reader side. Therefore, it is possible to reliably prevent data transmission / reception with the non-contact type data transmitter / receiver that has been illegally stripped.

In the embodiment shown in FIGS. 5 to 8, the antenna unit 6 does not use an interbosser member. The antenna unit 6 in this example is
A bridge that straddles the loop portion of the antenna 4 formed on a peelable substrate via an insulating material is connected to one end of the antenna 4, and the IC chip 5 is mounted so as to extend over the bridge and the other end of the antenna 4. The antenna unit 6 thus formed is transferred from the release base material to the first adhesive layer 7.

In forming the antenna unit, any known method such as wire bonding or a method using a solder ball can be used to connect the IC chip and the antenna. For example, an adhesive layer may be interposed for establishing and fixing the connection between the IC chip and the antenna. As this adhesive layer, a known anisotropic conductive film (ACF (anisotropic) is used.
Conductive Film)), the above-mentioned anisotropic conductive paste (ACP (Anisotropic Co)).
nductive Paste)), insulating resin (NCP)
(Non-Conductive Paste)), a double-sided adhesive tape, or the like, and the coating method may be a known method such as a dispensing method, a printing method, or a spray method. Normally, bumps are formed on the connection terminals of the IC chip by metal electrolytic plating, studs, electroless metal plating, fixing of conductive resin, etc. Accordingly, heat, light, electromagnetic waves such as high frequency, and energy such as ultrasonic waves may be applied. After mounting, post-curing may be performed in order to achieve further immobilization. After mounting, in order to protect the IC mounting portion from physical or chemical impact, the mounting portion may be entirely or partially covered and protected with an underfill material such as a glove top material.

In manufacturing the non-contact type data transmitter / receiver 1, the antenna unit 6 obtained by the above-mentioned method is transferred to the antenna unit corresponding region 10 of the first adhesive layer 7, and then the second adhesive layer 8 is formed. Is laminated on the first adhesive layer 7, but before the antenna unit 6 is transferred, a release agent or the like is provided on the base material 2 side in the portion to be the non-adhesive portion 11 in the antenna unit corresponding region 10. In each of the illustrated examples, a pressure-sensitive adhesive or an adhesive is applied to one surface of the base material 2 in advance, and the release agent or the like is provided thereon to form the non-adhesive portion 11 in which the adhesiveness is lost. It is not necessary to provide a pressure-sensitive adhesive or a release agent that loses the adhesiveness of the adhesive by solid printing, and a pattern such as dots or lines may be used.
It may also be a combination of patterns such as dots and lines. It should be noted that the release agent or the like is directly provided on the portion of the base material corresponding to the non-adhesive portion, and the adhesive or the adhesive is provided on the other portion of the base material, so that the first adhesive layer is formed between the non-adhesive portion and the adhesive portion. You may divide into.

The non-adhesive portion 11 may be formed as follows. On the coated surface of the pressure-sensitive adhesive or the adhesive which is provided in advance on one surface of the base material 2 in a layered manner, heating, electromagnetic wave irradiation (light irradiation, high frequency irradiation, A pressure-sensitive adhesive or an adhesive that loses its adhesiveness by applying the necessary adhesiveness-eliminating conditions for losing the adhesiveness by electron beam irradiation) is applied. Alternatively, a pressure-sensitive adhesive or an adhesive that loses adhesiveness by applying the required adhesiveness disappearing condition is applied to the entire one surface of the base material 2. Then, after the transfer of the antenna unit 6, the required adhesiveness disappearing condition is applied (or the entire surface is coated with a pressure-sensitive adhesive or an adhesive that loses the adhesiveness by applying the required adhesiveness disappearing condition). In the case of a product, a necessary adhesive property disappearance condition is given to a portion to be a non-adhesive portion), and a non-adhesive portion 11 and an adhesive portion 12 are separately formed on the first adhesive layer 7. The form of the non-adhesive portion 11 formed in this way does not need to be continuous as a solid pattern, but may be a pattern of dots, lines, etc., or a combination of these patterns.

As described above, the second adhesive layer 8 has an adhesive portion 13 on the entire surface of one side of the base material, and is formed by applying an adhesive or an adhesive after the transfer of the antenna unit 6. An adhesive member layer such as an adhesive or an adhesive is provided in advance on the release base material forming the antenna unit 6, and the antenna unit 6 is formed on this adhesive member layer and is transferred at the time of transfer. The adhesive member layer may be transferred to the first adhesive layer together with the antenna unit so that the second adhesive layer is formed.

Next, the non-contact type data transmitter / receiver of the present invention was made of the following materials, and it was examined whether or not the antenna would be destroyed or the antenna unit would be pulled out when stripped from the adherend. (Example 1) (1) Release base material (manufactured by Teijin DuPont Films Ltd.)
Tetron A-31) is printed with an antenna pattern using a conductive ink (FA-353 manufactured by Fujikura Kasei Co., Ltd.) which is a conductive material, and heated at 150 ° C. for 30 minutes to form an antenna. An IC chip was mounted to form an antenna unit. (2) A release agent (KE1254, manufactured by Shin-Etsu Chemical Co., Ltd.) at a required position on the adhesive-coated surface (first adhesive layer) of a tack film (No 531, manufactured by Nitto Denko Corporation), which is a base material including a pressure-sensitive adhesive. Was printed in a grid pattern by screen printing and heated at 150 ° C. for 30 minutes. (3) A part of the antenna corresponds to the non-adhesive portion of the release base material on which the antenna unit of (1) above is formed and the base material on which the first adhesive layer of (2) above is formed. In this way, they were laminated and bonded together under the conditions of ² kg / cm ² and 40 ° C. Then, the release base material was removed and the antenna unit was transferred to the first adhesive layer. (4) 1 for the first adhesive layer on which the antenna unit is arranged
The peeling agent is cured by irradiating UV rays of J / cm ² to obtain the first adhesive layer on the substrate as a non-adhesive part and an adhesive part are formed separately. (5) A second adhesive layer is formed by applying a commonly used pressure-sensitive adhesive to the first adhesive layer so as to cover the entire surface of one side of the base material, and the non-contact data transmitter / receiver having this structure is coated. Body (SU
S plate) was attached. When the non-contact type data transmitter / receiver was stripped off, it was confirmed that the antenna was broken in a grid pattern.

(Example 2) (1) An antenna using a conductive ink (LS415C-M manufactured by Asahi Chemical Laboratory Co., Ltd.) as a conductive material on a release substrate (SP-8K Ao manufactured by Lintec Co., Ltd.) After the pattern was printed and heated at 150 ° C. for 30 minutes to form an antenna, an IC chip was mounted to form an antenna unit. (2) Ultraviolet curable as a peeling substance in the antenna unit corresponding region on the adhesive coated surface (first adhesive layer) of tack paper (Seven Tack manufactured by Fujikura Sangyo Co., Ltd.) as a base material having an adhesive Resin (manufactured by Toagosei Co., Ltd. B
U-246V) was printed in a solid form by screen printing. (3) The peeling base material on which the antenna unit of (1) above is formed, and the base material on which the first adhesive layer of (2) above is formed are antenna unit corresponding regions (non-adhesive portions). Part) and the antenna unit corresponding to each other, and they were bonded together under the conditions of ² kg / cm ² and 40 ° C. Then, the release base material was removed and the antenna unit was transferred to the first adhesive layer. (4) 1 for the first adhesive layer on which the antenna unit is arranged
The peeling substance is cured by irradiating ultraviolet rays of J / cm ² to obtain the first adhesive layer on the base material in which the non-adhesive portion and the adhesive portion are separately formed. (5) A second adhesive layer is formed by applying a commonly used adhesive to the first adhesive layer so as to cover the entire surface of one surface of the base material, and the non-contact data transmitter / receiver having this configuration is coated. Body (SU
S plate) was attached. When the non-contact type data transmitter / receiver was stripped off, it was confirmed that the antenna unit remained on the adherend side and the antenna unit was separated from the non-contact type data transmitter / receiver.

[0018]

According to the present invention described above, when the non-contact data transmitter / receiver is attached to the adherend and then the non-contact data transmitter / receiver is peeled off, the antenna unit is formed at the non-adhesive portion. Peeling occurs between them and the portion of the antenna unit corresponding to the non-adhesive portion remains on the adherend side, and the peeled off non-contact data transmitter / receiver does not function. Therefore, even if the stripped contactless data transmitter / receiver is attached to another adherend again, the data cannot be transmitted / received to / from the reader side, and the contactless data that has been stripped off illegally. For example, it is possible to reliably prevent the transmission and reception of data with the transmitter / receiver to improve the security of the system using the contactless data transmitter / receiver.
The effect is excellent in practicality.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing a first example of a non-contact type data transceiver according to the present invention as viewed from the adhesive layer side.

FIG. 2 is an explanatory diagram showing a state in which an antenna unit is arranged on a first adhesive layer in the first example.

FIG. 3 is an explanatory view showing a state in which a second adhesive layer is arranged on a first adhesive layer in the first example.

FIG. 4 is an explanatory diagram showing a state of being peeled off from an adherend in the first example.

FIG. 5 is an explanatory diagram showing a second example as viewed from the adhesive layer side.

FIG. 6 is an explanatory diagram showing a state in which an antenna unit is arranged on the first adhesive layer in the second example.

FIG. 7 is an explanatory diagram showing a state in which a second adhesive layer is arranged on a first adhesive layer in the second example.

FIG. 8 is an explanatory diagram showing a state of being peeled off from an adherend in the second example.

[Explanation of symbols]

1 ... Non-contact type data transmitter / receiver 2 ... Base material 3 ... Adhesive layer 4 ... antenna 5 ... IC chip 6 ... Antenna unit 7 ... First adhesive layer 8 ... Second adhesive layer 9 ... Interboser material 10 ... Antenna unit compatible area 11 ... Non-adhesive part 12 ... Adhesive part 13 ... Adhesive part

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Shingo Naoi             1-6, Kanda Surugadai, Chiyoda-ku, Tokyo             Within Toppan Forms Co., Ltd. F term (reference) 5B035 AA13 BA05 BB09 CA01 CA08                       CA23                 5K012 AA05 AB05 AC06 AC08 AC10

Claims (5)

[Claims] 1. A non-contact type in which an adhesive layer is provided on one surface of a base material, and an antenna unit having an IC chip attached to an antenna made of a conductive material is arranged on the adhesive layer to enable attachment to an adherend. In the data transmitter / receiver, the adhesive layer on one side of the base material has a laminated structure of a first adhesive layer on the base material side and a second adhesive layer laminated on the first adhesive layer. The first adhesive layer is composed of a non-adhesive portion having no adhesiveness disposed in at least a part of the antenna unit corresponding area and an adhesive portion disposed on one surface of the base material excluding the area of the non-adhesive portion. The second adhesive layer has an entire surface corresponding to one side of the base material as an adhesive portion,
Non-contact, characterized in that the first adhesive layer is laminated on the first adhesive layer so as to cover at least a part of the antenna unit corresponding to the non-adhesive portion on the antenna unit corresponding region in the first adhesive layer. Type data transceiver. 2. The non-contact type data transmitter / receiver according to claim 1, wherein the non-adhesive portion is provided on the entire surface of the antenna unit corresponding region in accordance with the shape of the antenna unit. 3. A non-contact type data transmitter / receiver which has an antenna unit having an IC chip provided on an antenna made of a conductive material in an adhesive layer on one surface of a base material and can be adhered to an adherend, A first non-adhesive portion having no adhesiveness arranged on at least a part of the antenna unit corresponding area on one side of the base material, and a non-adhesive portion on one side of the base material excluding the non-adhesive area The adhesive layer is provided, and the antenna unit is arranged on the antenna unit corresponding area in the first adhesive layer so that at least a part thereof corresponds to the non-adhesive portion, and then the whole surface of the base material single side corresponding area is used as the adhesive portion. A method for manufacturing a contact-type data transmitter / receiver, wherein the adhesive layer is laminated on the first adhesive layer so as to cover the antenna unit. 4. The method for manufacturing a non-contact type data transmitter / receiver according to claim 3, wherein the non-adhesive portion is provided on the entire surface of the antenna unit corresponding region according to the shape of the antenna unit. 5. The first adhesive layer loses its adhesiveness by applying a necessary condition to at least a part of the adhesive layer formed in advance on one surface of the base material in a region corresponding to the antenna unit. The non-contact type according to any one of claims 3 and 4, wherein a non-adhesive portion and an adhesive portion are separately formed by providing an adhesive agent and then applying a condition for eliminating adhesiveness after disposing the antenna unit. Data transmitter / receiver manufacturing method.