JP2013156905A - Rfid label and rfid label continuous body - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an RFID LABEL capable of performing data communication with a reader/writer, even when being attached close to a metal product, and offering the versatility in a use form by previously interposing an RFID magnetic sheet 8 between itself and the metal product, and to provide an RFID label continuous body.SOLUTION: An attention is focus on an idea that an RFID magnetic sheet 8 is previously disposed on a label base material 4 so as to face an RFID inlet 6. The RFID inlet 6 is disposed on the reverse face of the label base material 4, the RFID magnetic sheet 8 is disposed on the reverse face of the RFID inlet 6, and an adhesive layer (a third adhesive layer 9) for a sheet is provided on the reverse face side of the RFID magnetic sheet 8.

Description

    The present invention relates to RFID (Radio Frequency Identification) labels and RFID label continuums, and more particularly to RFID labels and RFID label continuums for mounting on metal products.

    Conventionally, an RFID label having an RFID inlet that has an IC chip and an RFID antenna and can wirelessly write and read data is attached to various articles, and various data on these articles is read and written. It is used in various fields such as necessary data management.

Thus, when the article is made of metal, data communication between the RFID antenna and a reader / writer having a writer antenna capable of wireless communication when the RFID label is pasted too close to the article. There is a problem that it is easy to cause trouble.
In order to solve this problem, particularly in the case of an RFID inlet that uses radio waves in the HF band (3 MHz to 30 MHz (for example, 13.56 MHz)), the magnetic permeability between the RFID inlet and the metal product is relatively high. By interposing a magnetic sheet (RFID magnetic sheet), the magnetic flux from the lighter antenna passes through the magnetic sheet and an induced current flows to the RFID antenna, enabling wireless communication between the RFID antenna and the lighter antenna. ing.

However, since the RFID magnetic sheet is used by interposing it between an RFID label configured to have predetermined display information (fixed information) in advance and a metal product, it is necessary for the RFID label. Depending on the situation, it is difficult to display arbitrary variable information, and there is a problem that its usage is limited.
In order to print and display variable information on the RFID tag, there is one in which the holding portion of the RFID inlet is bent away from the other portion so as to stand up from the metal surface (Patent Document 1). However, it is not all-purpose because it takes time to bend.

JP 2007-122542 A

    The present invention has been considered in view of the above problems, and it is an object of the present invention to provide an RFID label and an RFID label continuum that enable data communication with a reader / writer even when attached close to a metal product. And

    Another object of the present invention is to provide an RFID label and an RFID label continuum that can maintain a data communication function by interposing an RFID magnetic sheet in advance with a metal product.

    Further, the present invention provides an RFID label and a RFID label continuum that has an RFID magnetic sheet in advance, can select an attachment form to a metal product as necessary, and can have flexibility in use form. Let it be an issue.

    That is, according to the present invention, the RFID magnetic sheet is previously laminated on the label base so as to face the RFID inlet, that is, the RFID magnetic sheet is configured to be positioned between the RFID inlet and the metal product. The first invention is an RFID label having a label base material, and an RFID inlet that is equipped on the label base material and has an IC chip and an RFID antenna and capable of wireless data communication. The label base is provided with the RFID inlet on the back side thereof, the RFID magnetic sheet is provided on the back side of the RFID inlet, and a sheet adhesive layer is provided on the back side of the RFID magnetic sheet. It is an RFID label characterized by the above.

    A second invention is an RFID label having a plurality of RFID labels each having a label base material and an RFID inlet equipped with the label base material and having an IC chip and an RFID antenna and capable of wireless data communication It is a continuous body, and the label base material is provided with the RFID inlet on the back side thereof, the RFID magnetic sheet is provided on the back side of the RFID inlet, and the sheet adhesive is provided on the back side of the RFID magnetic sheet. The RFID label continuum is characterized in that a layer is provided and each of the label base materials can be temporarily attached onto a belt-like mount.

    The RFID magnetic sheet may have a size that can cover the RFID antenna of the RFID inlet.

    Variable information can be printed on the surface of the label substrate.

    A first pressure-sensitive adhesive layer can be provided between the label substrate and the RFID inlet, and a second pressure-sensitive adhesive layer can be provided between the RFID inlet and the RFID magnetic sheet.

    In the RFID label and the RFID label continuum according to the present invention, the RFID inlet is disposed on the back surface of the label substrate, the RFID magnetic sheet is disposed on the back surface of the RFID inlet, and the RFID inlet and the RFID magnetic sheet can be opposed to each other. Therefore, an RFID magnetic sheet can be interposed between the RFID inlet and the metal product, and data communication is possible even when the distance between the metal product and the RFID product is short. Since the sheet is built in, the mounting form to the metal product can be selected widely as required.

    In particular, according to the RFID label of the first invention, an RFID inlet and an RFID magnetic sheet are laminated on a label base material, the RFID inlet and the RFID magnetic sheet can be opposed to each other, and an RFID label incorporating the RFID magnetic sheet is obtained. In addition, data communication is possible even in the form of being attached to a metal product, and the usage as an RFID label can be flexible.

In particular, according to the RFID label continuum of the second invention, the RFID inlet and the RFID magnetic sheet are arranged on the label base so as to face each other, and each label base can be temporarily attached on a belt-like mount. Therefore, if necessary, it is loaded into a printer of an arbitrary type, and information is recorded on the IC chip of each RFID label, and predetermined variable information is continuously printed on the surface side of the label substrate. Can do.
Of course, the RFID label continuum can be loaded into any type of label applicator and incorporated into a system for automatically applying the RFID label.

It is a top view of the RFID label continuous body 1 by the Example of this invention. It is the II-II sectional view taken on the line of FIG. FIG. 3 is a schematic side view of a thermal printer 17 for printing on the label substrate 4. 2 is a plan view of the RFID label 3 printed by the thermal printer 17. FIG. 2 is a side view of the state in which the printed RFID label 3 is attached to the metal product M. FIG.

    The present invention realizes an RFID label and an RFID label continuous body in which an RFID inlet and an RFID magnetic sheet are laminated on a label base material, and the RFID inlet and the RFID magnetic sheet can be opposed to each other, and data communication is possible even when attached to a metal product. .

Next, an RFID label and an RFID label continuum according to an embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a plan view of the RFID label continuum 1, and FIG. 2 is a cross-sectional view taken along the line II-II of FIG. 1, and the RFID label continuum 1 is continuous with the belt-like mount 2 and the mount 2. And a plurality of RFID labels 3 temporarily attached at a predetermined pitch.

The RFID label 3 includes a label substrate 4, a first adhesive layer 5 coated on the back side of the label substrate 4, an RFID inlet 6, and a second adhesive coated on the back side of the RFID inlet 6. The adhesive layer 7, the RFID magnetic sheet 8, and the third adhesive layer 5 provided on the back side of the RFID magnetic sheet 8 that temporarily faces the mount 2 together with the first adhesive layer 5 facing the mount 2 side. Pressure-sensitive adhesive layer 9 (sheet pressure-sensitive adhesive layer).
That is, a first adhesive layer 5 is provided between the label base 4 and the RFID inlet 6, and a second adhesive layer 7 is provided between the RFID inlet 6 and the RFID magnetic sheet 8, An RFID inlet 6 and an RFID magnetic sheet 8 are integrated with the material 4.

    The label base material 4 is a sheet-like member made of a paper material or a synthetic resin material, and has a first pressure-sensitive adhesive layer 5 on the back surface thereof, and arbitrary information (fixed information 10 and variable information 11 on the surface). In FIG. 3 and FIG. 4, it is possible to print.

An RFID inlet 6 and an RFID magnetic sheet 8 are disposed in the substantially central portion on the back surface side of the label base 4, and an RFID magnetic sheet 8 is disposed on the back surface side of the RFID inlet 6. The magnetic sheet 8 can be stacked and opposed to each other.
The label substrate 4 has the first pressure-sensitive adhesive layer 5 on the back surface thereof (more precisely, surrounding the RFID inlet 6 and the RFID magnetic sheet 8), and the RFID magnetic sheet 8 is the third one. Thus, each label base material 4 can be temporarily attached onto the belt-like mount 2.

    The RFID inlet 6 has an IC chip 13 and an RFID antenna 14 on a film-like inlet sheet 12 and can perform wireless data communication.

The RFID magnetic sheet 8 is obtained by kneading metal powder having a relatively high magnetic permeability and low magnetic loss into a synthetic resin sheet, and has a size that can cover at least the RFID antenna 14 of the RFID inlet 6. doing.
As the metal powder, for example, it is desirable to use a metal such as iron or nickel, a metal oxide such as ferrite, or an alloy such as permalloy. The shape of the powder may be isotropic, anisotropic, or flat.

    A position detection mark 15 for detecting the relative position of the RFID label 3 in a printer (thermal printer 17, FIG. 3) is printed in advance on the back surface of the mount 2.

As described above, the fixed information 10 and the variable information 11 can be printed on the surface of the label base 4, and FIG. 3 is a schematic side view of the thermal printer 17 for printing on the label base 4. FIG. 4 is a plan view of the RFID label 3 printed by the thermal printer 17.
The thermal printer 17 includes a supply unit 18 for the RFID label continuum 1, a detection unit 19, a data reading / writing unit 20, a printing unit 21, and a peeling unit 22.

    The supply unit 18 holds the RFID label continuous body 1 in a roll shape, and can feed the RFID label continuous body 1 in a strip shape in the direction of the detection unit 19, the data reading / writing unit 20, and the printing unit 21.

    The detection unit 19 includes an optical sensor 23 that can detect the position detection mark 15 located on the back surface of the RFID label continuous body 1.

The data read / write unit 20 has a built-in antenna 24 and can read / write data to / from the IC chip 13 by data communication with the RFID inlet 6, and is provided near the print unit 21. Data communication can be performed almost simultaneously with the printing of various information (variable information 11) on the surface of the RFID label 3 by the printing unit 21.
The position where the built-in antenna 24 (data reading / writing unit 20) is provided may be either upstream or downstream of the printing unit 21.

The printing unit 21 includes a thermal head 25 and a platen roller 26, and a supply shaft 28 and a winding shaft 29 for the thermal transfer ink ribbon 27.
The RFID label continuum 1 and the thermal transfer ink ribbon 27 are sandwiched between the thermal head 25 and the platen roller 26, the platen roller 26 is driven to rotate, and the RFID label continuum 1 (RFID label 3 is detected by a print signal from the thermal head 25. The variable information 11 can be printed on the surface.
Note that the fixed information 10 is displayed in advance on the surface of the RFID label 3 by a printing machine (not shown), for example, “Management No.”, and the thermal printer 17 as the variable information 11 and the management No. For example, a visually recognizable “XXΔΔ” and an optically readable barcode are printed.

The peeling unit 22 has a peeling pin 30 and a mount winding shaft 31, and only the mount 2 of the RFID label continuous body 1 can be turned around the peeling pin 30 to be wound on the mount winding shaft 31. The RFID label 3 can be peeled from the mount 2 by turning.
The RFID label continuous body 1 is issued with the mount 2 without providing the peeling portion 22, and the RFID label 3 with the single leaf or the plurality of mounts 2 at a predetermined pitch is formed by an arbitrary cutting mechanism (not shown). It can be cut and handled as a single leaf or in the form of a strip, or even wound into a roll.

    In the RFID label continuous body 1 and the RFID label 3 having such a configuration, the RFID label 3 can be obtained in a state in which the RFID magnetic sheet 8 is built and laminated in contact with the RFID inlet 6 in advance.

FIG. 5 is a side view showing a state where the printed RFID label 3 is attached to the metal product M, and the RFID magnetic sheet 8 can be attached between the metal product M and the RFID inlet 6.
Therefore, even if the metal product M is close to the RFID inlet 6, the radio wave from the reader / writer 32 concentrates on the RFID magnetic sheet 8 beyond the RFID inlet 6, and as a result, the reader / writer 32 transmits data to the RFID label 3. Communication can be performed effectively.
Furthermore, since the RFID label 3 itself has the RFID magnetic sheet 8 inside, the attachment form of the RFID label 3 can be selected as necessary.

1 RFID label continuum (Example, Fig. 1 and Fig. 2)
2 Mount 3 RFID label (Example, FIG. 1 and FIG. 2)
4 Label base material 5 1st adhesive layer 6 RFID inlet 7 2nd adhesive layer 8 RFID magnetic sheet 9 3rd adhesive layer (adhesive layer for sheets)
10 Fixed information 11 Variable information 12 Inlet sheet 13 IC chip 14 RFID antenna 15 Position detection mark 17 Thermal printer (FIG. 3)
DESCRIPTION OF SYMBOLS 18 Supply part 19 Detection part 20 Data reading / writing part 21 Printing part 22 Separation part 23 Optical sensor 24 Built-in antenna 25 Thermal head 26 Platen roller 27 Thermal transfer ink ribbon 28 Supply axis 29 Take-up axis 30 Release pin 31 Mount take-up axis 32 Reader Writer (Figure 5)
M metal products (Fig. 5)

Claims (5)

A label substrate;
An RFID label equipped with the label substrate and having an IC chip and an RFID antenna and capable of wireless data communication,
In the label base material, the RFID inlet is disposed on the back side thereof,
An RFID magnetic sheet is disposed on the back side of the RFID inlet,
An RFID label comprising a sheet adhesive layer on the back side of the RFID magnetic sheet.     The RFID label according to claim 1, wherein the RFID magnetic sheet has a size that can cover the RFID antenna of the RFID inlet.     The RFID label according to claim 1 or 2, wherein variable information can be printed on a surface of the label base material. A first pressure-sensitive adhesive layer is provided between the label base material and the RFID inlet,
The RFID label according to any one of claims 1 to 3, wherein a second pressure-sensitive adhesive layer is provided between the RFID inlet and the RFID magnetic sheet. A label substrate;
An RFID label continuum having a plurality of RFID labels having an IC chip and an RFID antenna and capable of wireless data communication with the label substrate,
In the label base material, the RFID inlet is disposed on the back side thereof,
An RFID magnetic sheet is disposed on the back side of the RFID inlet,
A sheet adhesive layer is provided on the back side of the RFID magnetic sheet,
An RFID label continuous body, wherein each of the label base materials can be temporarily attached onto a belt-like mount.

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