JP6513543B2 - RFID tag and method of attaching the same - Google Patents

Description

The present invention relates to an RFID (Radio Frequency Identification) tag and a method of attaching the same, and more particularly to an RFID tag for attaching to a metal product and a method of attaching the same.

    Conventionally, an RFID tag having an IC chip and an RFID antenna and capable of wirelessly writing and reading data can be attached to an RFID tag provided with an RFID inlet, and reading and writing of various data on these articles are necessary. Data management and other fields.

Therefore, in the case where the article is made of metal such as a gas cylinder, if the RFID tag is attached in the state of being too close to the article, there is a problem that the data communication is likely to be disturbed.
In order to solve this problem, there is an RFID tag in which the holding portion of the RFID inlet is bent at a bent portion so as to be separated from the other portion and erected like a flag from a metal surface.

However, such an RFID tag is made of paper and is not stable because the bent portion is not fixed, its standing state is unstable, and the data communication performance differs depending on the attachment condition of the RFID tag. In addition to being out, there are problems with long-term use and environmental resistance.
Furthermore, since a double-sided tape or the like is used to attach the RFID tag to a metal product, there is a problem that it can not be used in the case of a product having a surface that is difficult to fix with the double-sided tape.

    Furthermore, when the attachment posture of the RFID tag to the metal product is not appropriate, the spacing between each part of the RFID tag (for example, the central part and both ends thereof) and the metal product is uneven depending on each part. As a result, there is a problem that the data communication performance between the RFID tag and the reader becomes unstable.

JP 2007-122542 A

    The present invention has been considered in view of the problems as described above, and it is an object of the present invention to provide an RFID tag and a method of attaching the same in which data communication is not hindered even if the article to which the RFID tag is attached is metal. I assume.

    Another object of the present invention is to provide an RFID tag capable of stably holding an RFID inlet in an upright and spaced state with respect to an article, and a method of attaching the RFID tag.

    Another object of the present invention is to provide an RFID tag capable of maintaining the standing state of the RFID tag stably and excellent in environmental resistance even when used for a long period of time, and a method of attaching the RFID tag.

    Another object of the present invention is to provide an RFID tag capable of properly holding the mounting posture between articles, particularly metal products, and a method of mounting the same.

    That is, according to the present invention, the tag substrate has an inlet holding area provided with an RFID inlet, an erecting area for raising the RFID inlet with respect to the article, and a left and right formed with through holes for inserting the fixture. Focusing on the formation of a pair of insertion areas, in the first invention, the tag base material, the tag base material and the IC chip and the RFID antenna are equipped, and wireless data communication is possible. An RFID tag for attaching to an article, the tag substrate including an inlet holding area provided with the RFID inlet, and a length direction of the RFID inlet of the inlet holding area A standup region for forming the RFID inlet with respect to the article while Adjacent to the erecting area and formed on the end edge, and defining a left and right pair of insertion areas in which through holes for inserting the fixtures are respectively formed. It is an RFID tag that is characterized.

    According to a second aspect of the present invention, an RFID tag attached to an article comprises a tag base and an RFID inlet mounted on the tag base and having an IC chip and an RFID antenna and capable of wireless data communication. A method of mounting, wherein the tag base material is formed at an inlet holding area provided with the RFID inlet, and at an end edge along the length direction of the RFID inlet of the inlet holding area, The standing region for raising the RFID inlet and a pair of left and right insertion regions which are formed adjacent to the rising region and in which through holes for inserting the fixtures are respectively formed The fixture is hung around the article in a state where the fixture is inserted into the through hole, and the fixture Attaching the RFID tag to the article such that the RFID inlet in the inlet holding area is separated from the article by tightening the article and causing the standing area to run on the article. It is a method.

    A third invention is an RFID tag attached to an article, comprising a tag base and an RFID inlet mounted on the tag base and having an IC chip and an RFID antenna and capable of wireless data communication. The tag substrate is formed at an inlet holding area provided with the RFID inlet and at an end edge along the length direction of the RFID inlet of the inlet holding area, and the RFID inlet for the article And a pair of left and right insertion regions which are formed on the end edge portion adjacent to the rising region and have through holes for inserting the fixture. The above-mentioned standing area is further formed with a pair of auxiliary through holes that can be superimposed on the through holes, respectively. Which is the RFID tag characterized.

    A fourth invention is an RFID tag attached to an article, comprising: a tag substrate; and an RFID inlet mounted on the tag substrate and having an IC chip and an RFID antenna to enable wireless data communication. A method of mounting, wherein the tag base material is formed at an inlet holding area provided with the RFID inlet, and at an end edge along the length direction of the RFID inlet of the inlet holding area, An upright area for erecting the RFID inlet, and a pair of left and right inserts formed in the end edge portion adjacent to the upright area and having through holes for inserting fixtures. And a pair of auxiliary through holes that can be superimposed on the through holes, respectively. In the state where the attachment is inserted into the through hole and the auxiliary through hole, the attachment is hung around the article, the attachment is tightened by the attachment, and the inlet holding area is The RFID tag is attached to the article such that the RFID inlet in the inlet holding area is separated from the article by deforming the standing area and the insertion area from the end edge portion. RFID tag attachment method.

    The insertion area may be located on the left and right of the standing area to define the insertion area.

    A connection area can be formed to connect the respective ends of the insertion area.

    The standing area and the insertion area may be independently bendable in opposite directions with respect to the surface of the inlet holding area.

    The RFID inlet can be separated from the article by the standing region riding on the article.

    The line direction connecting the through holes may be parallel to the length direction of the RFID inlet.

    The fixture includes a strap-like band body, a head portion formed at one end of the band body, and a tail portion formed at the other end of the band body, and the tail portion is the head portion. It can be a binding band which can be inserted into and engaged with the through engagement hole of the above to attach the RFID tag to the article.

    In the RFID tag and the attachment method thereof according to the present invention, the tag substrate includes an inlet holding area provided with an RFID inlet, an erecting area for raising the RFID inlet relative to the article, and a penetration for inserting the attachment. By defining the holes in a pair of left and right insertion areas formed respectively and attaching the RFID tag to the article using the fixture, the RFID inlet can be maintained in a standing posture from the surface of the article, so that the article Even if the case is made of metal, the RFID inlet can stably hold the separated state from the surface of the article stably, can maintain the data communication function over a long period of time, and has good environmental resistance. It can be done.

    In particular, according to the RFID tag of the first aspect of the present invention, the tag substrate includes an inlet holding area provided with an RFID inlet, an erecting area for raising the RFID inlet relative to the article, and a penetration for inserting the fixture. By defining the holes in the left and right pair of insertion areas and attaching the holes to the article using the fixture, the RFID inlet can be held upright from the surface of the article, so the RFID inlet can be made into an article The RFID tag can be attached away from the surface of the.

    In particular, according to the method of attaching the RFID tag of the second invention, with the attachment inserted through the through hole, the attachment is hung around the article, the article is clamped by the attachment, and the erecting area is applied to the article. By mounting the RFID tag on the article so that the RFID inlet in the inlet holding area is separated from the surface of the article, the mounting operation is secure and easy, and the standing state of the tag substrate is stably and surely ensured. Can be held.

    In particular, according to the RFID tag of the third aspect of the present invention, a pair of auxiliary through holes that can be respectively superimposed on the pair of through holes in the insertion area are formed in the erecting area, and fixtures are formed in the through holes and auxiliary through holes. Since the RFID inlet is attached to the article so as to be separated from the article, the standing state of the RFID inlet can be stably and reliably held.

In particular, according to the method of attaching the RFID tag of the fourth invention, the attachment is hung around the article with the attachment inserted through the through hole and the auxiliary through hole, the article is clamped by the attachment, and the inlet holding area is the erecting area and Since the RFID tag is attached to the article such that the RFID inlet in the inlet holding area is separated from the article by deforming from the edge with respect to the insertion area, the standing state of the RFID inlet can be stably and reliably maintained. Can.

FIG. 1 is a plan view of an RFID tag 1 according to a first embodiment of the present invention. FIG. 2 is a cross-sectional view taken along line II-II of FIG. Similarly, it is a side view of a binding band 12 (attachment). It is the principal part expanded sectional view of the binding band 12 equally. It is a perspective view which shows the middle of the state which attaches the RFID tag 1 to arbitrary metal products M (neck part MN) using the binding band 12 similarly. It is a side view which shows the state which attached the RFID tag 1 to the metal product M (neck part MN) using the binding band 12 similarly. It is a top view of RFID tag 20 by a 2nd example of the present invention. It is a perspective view which shows the middle of the state which attaches the RFID tag 20 to arbitrary metal products M (neck part MN) using the binding band 12 similarly. Similarly, it is a side view showing a state in which the RFID tag 20 is attached to the metal product M (neck part MN) using the binding band 12. FIG. 7 is a plan view of an RFID tag 30 according to a third embodiment of the present invention. Similarly, it is a perspective view showing the middle of a state in which the RFID tag 30 is attached to an arbitrary metal product M (neck portion MN) using the binding band 12. Similarly, it is a side view showing a state in which the RFID tag 30 is attached to the metal product M (neck part MN) using the binding band 12.

    In the present invention, since the mounting tool is inserted through the through hole of the tag substrate to attach the RFID tag to the metal product or other article, the standing area secures the RFID inlet away from the surface of the article for a long time In addition, an RFID tag that can be securely attached and that can ensure its data communication function and an attachment method thereof are realized.

Next, an RFID tag 1 according to a first embodiment of the present invention and a method of attaching the RFID tag 1 will be described with reference to FIGS.
FIG. 1 is a plan view of the RFID tag 1, and FIG. 2 is a cross-sectional view taken along the line II-II of FIG. 1. The RFID tag 1 has a tag substrate 2 and an RFID inlet 3.

    The tag substrate 2 is a flat sheet substrate made of, for example, a synthetic resin, having predetermined flexibility or elasticity, and rigidity, and is provided with the RFID inlet 3 therein.

The RFID inlet 3 includes, for example, an inlet substrate 4 such as polyethylene terephthalate or a laminated film thereof, and the IC chip 5 and the RFID antenna 6 to enable wireless data communication.
The RFID inlet 3 has, for example, a UHF band (300 MHz to 3 GHz (preferably 860 to 960 MHz, more specifically 433 MHz, 900 MHz, 915 to 928 MHz, 950 to 958 MHz) or microwave (1 to 30 GHz, specifically 2) Required for the IC chip 5 via the RFID antenna 6 by radio waves and electromagnetic effects of predetermined frequency bands such as .45 GHz, HF band (3 MHz to 30 MHz (preferably 13.56 MHz)) or 135 kHz or less Read and write data wirelessly (data communication).
However, the specific configurations of the IC chip 5 and the RFID antenna 6 are made appropriate in accordance with the respective radio waves used.
In particular, in the case of using radio waves having a wavelength of UHF band (for example, 860 to 960 MHz) level, the communication distance is usually about 5 to 10 m, and applications in various fields are expected.

    The tag substrate 2 defines the inlet holding area 7 including the RFID inlet 3, the standing area 8, and the pair of left and right insertion areas 9. Furthermore, connection areas 10 for connecting respective end portions of the insertion areas 9 are formed.

    The inlet holding area 7 is generally formed in an elongated rectangular shape along the longitudinal direction 3A of the RFID inlet 3.

    The standing area 8 is formed to extend from the central portion of the edge 7A along the lengthwise direction 3A of the RFID inlet 3 of the inlet holding area 7, and an article (for example, a metal product M, FIG. 5, FIG. This is an area for raising the RFID inlet 3 with respect to 6).

The pair of left and right insertion areas 9 are formed in the end edge 7A at positions adjacent to the left and right of the standing area 8 so as to extend in the same direction as the standing area 8, and 12, through holes 11 are formed in each of them for the purpose of passing through) based on FIG. 3 and FIG. Although the through holes 11 are circular in the illustrated example, they may have an elongated shape or any other suitable shape according to the binding band 12.
Although the formation position of the through hole 11 in the insertion area 9 can be arbitrarily designed according to the size of the metal product M and the RFID tag 1, the material of the RFID tag 1, etc., in the illustrated example, for example, comparison of the insertion area 9 It is formed at a position close to the target base.

    The rising area 8 and the insertion area 9 are edged with respect to the surface of the inlet holding area 7 because the tag substrate 2 has predetermined flexibility or elasticity and rigidity as described later in FIGS. 5 and 6. The RFID inlet 3 can be separated from the article by being bent independently in opposite directions with respect to the section 7A, and the standing area 8 running on the article.

    The linear direction 11A connecting the pair of left and right through holes 11 is parallel to the longitudinal direction 3A of the RFID inlet 3 (and hence to the end edge 7A).

    The connection area 10 connects the distal end portions of the respective insertion areas 9 and can be operated integrally with the insertion area 9.

    FIG. 3 is a side view of the binding band 12 (attachment), and FIG. 4 is an enlarged cross-sectional view of an essential part of the binding band 12. The binding band 12 is made of, for example, nylon. A strap-like band main body 13 having a predetermined length, a bulging head portion 14 formed at one end of the band main body 13, and a tapered tail portion formed at the other end of the band main body 13 And 15.

    Particularly, as shown in FIG. 4, the through engagement hole 16 is formed in the head portion 14, and the fixing elastic engagement projection 17 is formed in the through engagement hole 16.

On one surface of the band main body 13, a convex-concave belt-like engagement for securing the entire binding band 12 in a ring shape having an arbitrary circumferential length by engaging with the fixing elastic engagement projection 17 A joint 18 is formed.
Further, on one surface of the tail portion 15, an uneven portion 19 for making the tail portion 15 easy to grip is formed.
Therefore, the tail portion 15 is first inserted into the through hole 11 of the RFID tag 1 and is inserted into the through engagement hole 16 of the head portion 14, and the elastic engagement protrusion 17 for fixing The RFID tag 1 can be attached to an article (metal product M, FIGS. 5 and 6, described later) by engaging and making the band body 13 into a ring shape having a predetermined circumferential length.

    However, the through hole 11 (FIGS. 1 and 3) needs to be smaller than the head portion 14 of the binding band 12.

    In addition, as a fixture in this invention, if it has predetermined | prescribed rigidity and fastening performance, arbitrary string-like members other than the said binding band 12 are employable.

In the RFID tag 1 of such a configuration, the binding tag 12 can be used to attach the RFID tag 1 to any article (for example, the metal product M or its neck MN).
That is, FIG. 5 is a perspective view showing a state in which the RFID tag 1 is attached to an arbitrary metal product M (neck portion MN) using the binding band 12, and FIG. 6 is a metal of the RFID tag 1 using the binding band 12. It is a side view which shows the state attached to product M (neck part MN).

    As shown in FIG. 5, the standing area 8 of the tag substrate 2 is folded along the surface of the neck portion MN with the end edge 7A as a boundary, and the binding band 12 is passed through the tail portion 15 and the through hole 11 of the insertion area 9. In the inserted state, the band main body 13 is wound around the neck portion MN, and the tail portion 15 is inserted into the through engagement hole 16 of the head portion 14.

    Then, as shown in FIG. 6, the tail portion 15 is pulled further with respect to the head portion 14, and the neck portion MN is tightened by the ring-shaped band body 13 to set up the standing area 8 on the surface of the neck portion MN. The riding area 8 is brought into close contact with the outer surface of the neck portion MN, and the inlet holding area 7 is bent at the end edge portion 7A to stand from the neck portion MN. In addition, the insertion area 9 and the through hole 11 and further the connection area 10 are in close contact with the outer surface of the metal product M, and the elastic engagement projection 17 for fixing in the head portion 14 of the binding band 12 Since the engaged state of the parts 18 is maintained, this standing state can be ensured.

Thus, the RFID tag 1 can be attached to the metal product M such that the RFID inlet 3 located in the inlet holding area 7 separates from the neck portion MN of the metal product M.
Therefore, since the RFID inlet 3 is kept apart from the metal product M, the data communication function can be maintained.
Moreover, the RFID inlet 3 housed inside the inlet holding area 7 is attached so as to adjust its mounting posture so as to make the relative positional relationship with the surface of the metal product M substantially uniform in the length direction 3A. Data communication function can be stabilized.
In particular, the relative positional relationship between the shoulder MS, which is manufactured to a shape different from the neck portion MN of the metal product M, and the RFID inlet 3 may be substantially equivalent to the relative positional relationship between the neck portion MN and the RFID inlet 3 Since it is possible, the mounting attitude of the RFID tag 1 to the metal product M can be properly maintained.

    FIG. 7 is a plan view of an RFID tag 20 according to a second embodiment of the present invention, which is similar to the RFID tag 1 (FIG. 1, the first embodiment) described above. It has an inlet holding area 21 corresponding to the holding area 7, a standing area 22 corresponding to the standing area 8, and a pair of left and right insertion areas 23 corresponding to the pair of left and right insertion areas 9.

    The inlet holding area 21 accommodates the RFID inlet 3.

    The standing area 22 is formed at the central portion of the end edge 21A of the inlet holding area 21 along the longitudinal direction 3A of the RFID inlet 3. However, the standing area 22 is slightly larger in the vertical and horizontal directions as the area compared with the standing area 8 (FIG. 1).

    The pair of insertion areas 23 are located on the left and right of the standing area 22 to form a longer one compared to the insertion area 9 (FIG. 1), and form the through holes 11 at their tip portions. .

    Note that the linear direction 11A connecting the pair of left and right through holes 11 is parallel to the longitudinal direction 3A of the RFID inlet 3 (and thus to the end edge 21A).

Also in the RFID tag 20 having such a configuration, the binding tag 12 can be used to attach the RFID tag 20 to any item (for example, the metal product M or its neck MN).
That is, FIG. 8 is a perspective view showing a state in which the RFID tag 20 is attached to an arbitrary metal product M (neck portion MN) using the binding band 12, and FIG. 9 is a metal of the RFID tag 20 using the binding band 12. It is a side view which shows the state attached to product M (neck part MN).

    As shown in FIG. 8, the inlet holding area 21 of the tag base material 2 is folded along the surface of the neck portion MN with the end edge 21 A as a boundary, and the binding band 12 is through the through hole 11 of the insertion area 23 from its tail 15. In the inserted state, the band main body 13 is wound around the neck portion MN, and the tail portion 15 is inserted into the through engagement hole 16 of the head portion 14.

Then, as shown in FIG. 9, the tail portion 15 is pulled further with respect to the head portion 14, and the neck portion MN is tightened by the ring-shaped band body 13 so that the tip end edge 22A of the standing area 22 is necked While riding on the surface of MN, the tip 22A of the standing area 22 is in close contact with the outer surface of the neck MN, and the inlet holding area 21 is bent at the end edge 21A to stand from the neck MN. .
Thus, the RFID tag 20 can be attached to the metal product M such that the RFID inlet 3 in the inlet holding area 21 separates from the metal product M.
Therefore, since the RFID inlet 3 is kept apart from the metal product M, the data communication function can be maintained.
Moreover, the RFID inlet 3 housed inside the inlet holding area 21 has its relative positional relationship with the surface of the metal product M (the neck MN and the shoulder MS) in the length direction 3A substantially uniformed. Since the mounting attitude can be adjusted to adjust the data communication function can be stabilized.

    FIG. 10 is a plan view of an RFID tag 30 according to a third embodiment of the present invention, which is similar to the RFID tag 20 (FIG. 7, second embodiment) described above. It has an inlet holding area 31 corresponding to the holding area 21, a standing area 32 corresponding to the standing area 22, and a pair of left and right insertion areas 33 corresponding to the pair of left and right insertion areas 23.

    The inlet holding area 31 accommodates the RFID inlet 3.

The standing area 32 is formed at the central portion of the end edge 31A of the inlet holding area 31 along the longitudinal direction 3A of the RFID inlet 3.
A pair of auxiliary through holes 34 which can be respectively superimposed on the pair of through holes 11 in the insertion region 33 are formed in the rising region 32. The rising region 32 is slightly longer than the insertion region 33. And has a pair of left and right inclined legs 35 from the end edge 31A, and is bendable in the portion of the inclined legs 35.
Between the pair of inclined legs 35 is a triangular first air gap 36, and between the pair of auxiliary through holes 34 and the insertion area 33 is also a left and right second air gap 37.

    The insertion area 33 is located on the left and right of the standing area 32, and the through holes 11 are formed in the tip 33A.

    The linear direction 11A connecting the pair of left and right through holes 11 and the pair of auxiliary through holes 34 is parallel to the longitudinal direction 3A of the RFID inlet 3 (and hence to the end edge 31A).

Also in the RFID tag 30 having such a configuration, the binding tag 12 can be used to attach the RFID tag 30 to any article (for example, the metal product M or its neck MN).
FIG. 11 is a perspective view showing a state in which the RFID tag 30 is attached to an arbitrary metal product M (neck portion MN) using the binding band 12, and FIG. 12 is a metal product M using the binding band 12. It is a side view which shows the state attached to (neck part MN).

As shown in FIG. 11, the erecting area 32 and the insertion area 33 are folded back along the surface of the neck portion MN with the end edge 31A as a boundary, and the pair of through holes 11 in the insertion area 33 are paired in the erecting area 32. The band body 13 is inserted from the tail portion 15 into the through hole 11 of the insertion area 33 and the auxiliary through hole 34 of the erecting area 32 in a state of being deformed so as to overlap the auxiliary through holes 34 respectively. Around the neck portion MN and the tail portion 15 is inserted into the through engagement hole 16 of the head portion 14.
In addition, since the first gap 36 and the second gap 37 are formed inward and outward of the standing region 32, the insertion region is formed so that the through hole 11 is superimposed on the auxiliary through hole 34. When aligning 33 with the standing area 32, the insertion operation of the insertion area 33 and the standing area 32 can be smoothly performed.

Then, as shown in FIG. 12, the tail portion 15 is pulled further with respect to the head portion 14 and the neck portion MN is tightened by the ring-shaped band main body 13 to insert the tip end edge 32A of the standing area 32 and insertion. The tip 33A of the area 33 is placed on the surface of the neck MN, and the tip 32A of the standing area 32 is in close contact with the outer surface of the neck MN, and the inlet holding area 31 is bent at the edge 31A. It is in a state of standing up from the neck MN.
Thus, by deforming the inlet holding area 31 from the end edge 7A with respect to the standing area 32 and the insertion area 33, the RFID tag is made to be an article so that the RFID inlet 3 in the inlet holding area 31 separates from the metal product M. Attach to
Therefore, since the RFID inlet 3 is kept apart from the metal product M, the data communication function can be maintained.
Moreover, the RFID inlet 3 housed inside the inlet holding area 31 has its relative positional relationship with the surface of the metal product M (the neck portion MN and the shoulder portion MS) in the length direction 3A substantially uniform. Since the mounting attitude can be adjusted to adjust the data communication function can be stabilized.

In the present invention, the shape and orientation of the through hole 11 or the auxiliary through hole 34, as well as the shape and orientation of the through hole 11 or the auxiliary through hole 34, the size or the size of the RFID antenna 6 of the RFID inlet 3, and the metal product M It can be arbitrarily selected according to the shape and size of the neck portion MN and the shoulder portion MS, the type of the binding band 12, and the like.

1 RFID tag (first embodiment, FIG. 1)
2 tag base 3 RFID inlet 3A RFID inlet 3 length direction 4 inlet base 5 IC chip 6 RFID antenna 7 inlet holding area 7A edge of inlet holding area 7 upstanding area 9 insertion area 10 connection area 11 left and right A pair of through holes 11A, a linear direction 12 connecting a pair of left and right through holes 11, and a binding band (a fixture, FIGS. 3 and 4)
13 band main body 14 of binding band 12 head part 15 of binding band 12 tail part 16 of binding band 12 through engagement hole 17 elastic engagement projection 18 for fixation belt-like engagement section 19 uneven part 20 RFID tag (second embodiment) , Figure 7)
21: Inlet Holding Area 21A: End Edge 22 of Inlet Holding Area 21: Upright Area 22A: Leading Edge 23 of Upright Area 22: Insertion Area 30: RFID Tag (Third Embodiment, FIG. 7)
31 inlet holding area 31A end edge 32 of inlet holding area 31 rising area 32A leading end edge 33 of rising area 32 insertion area 33A front end 34 of insertion area 33 left and right pair of auxiliary through holes 35 inclined leg 36 Void part 37 of 1 2nd void part M metal product (article, FIG. 5, FIG. 6, FIG. 8, FIG. 9, FIG. 9, FIG. 11, FIG. 12)
MN Metal product M neck MS Metal product M shoulder

Claims (6)

Tag base material,
An RFID tag mounted on an article, comprising: an RFID inlet mounted on the tag substrate and capable of wireless data communication, having an IC chip and an RFID antenna;
The tag substrate is
An inlet holding area comprising the RFID inlet;
An erecting area for forming the inlet holding area at an end edge along the longitudinal direction of the RFID inlet and for raising the RFID inlet with respect to the article;
The left and right standing regions are formed adjacent to each other on the left and right of the standing region and formed in the end edge, and a pair of left and right insertion regions each having a through hole for inserting a fixture are defined. Yes,
In the insertion area, connection areas for connecting respective ends of the insertion area are formed,
The erecting area and the insertion area can be bent independently in opposite directions with respect to the surface of the inlet holding area,
An RFID tag characterized in that the RFID inlet can be separated from the article by the standing area riding on the article . The line direction connecting the through holes is
The RFID tag according to claim 1 , wherein the RFID tag is parallel to the length direction of the RFID inlet. The fixture is
A strap-like band body, a head portion formed at one end of the band body, and a tail portion formed at the other end of the band body;
The RFID tag according to claim 1 or 2 , wherein the RFID tag is a binding band capable of attaching the RFID tag to the article by inserting and engaging the tail part with the through engagement hole of the head part. Tag base material,
A method of attaching an RFID tag to be attached to an article, comprising: an RFID inlet mounted on the tag substrate and having an IC chip and an RFID antenna and capable of wireless data communication.
The tag substrate is
An inlet holding area comprising the RFID inlet;
An erecting area for forming the inlet holding area at an end edge along the longitudinal direction of the RFID inlet and for raising the RFID inlet with respect to the article;
The left and right standing regions are formed adjacent to each other on the left and right of the standing region and formed in the end edge , and a pair of left and right insertion regions each having a through hole for inserting a fixture are defined. Yes,
In the insertion area, connection areas for connecting respective ends of the insertion area are formed,
The erecting area and the insertion area can be bent independently in opposite directions with respect to the surface of the inlet holding area,
In a state where the attachment is inserted into the through hole, the attachment is hung around the article;
While tightening the article by the fixture;
A method of attaching an RFID tag, wherein the RFID tag is attached to the article such that the RFID inlet in the inlet holding area is separated from the article by causing the standing area to ride on the article. . Tag base material,
An RFID tag mounted on an article, comprising: an RFID inlet mounted on the tag substrate and capable of wireless data communication, having an IC chip and an RFID antenna;
The tag substrate is
An inlet holding area comprising the RFID inlet;
An erecting area for forming the inlet holding area at an end edge along the longitudinal direction of the RFID inlet and for raising the RFID inlet with respect to the article;
The left and right standing regions are formed adjacent to each other on the left and right of the standing region and formed in the end edge, and a pair of left and right insertion regions each having a through hole for inserting a fixture are defined. Yes,
In the insertion area, connection areas for connecting respective ends of the insertion area are formed,
The erecting area and the insertion area can be bent independently in opposite directions with respect to the surface of the inlet holding area,
The RFID inlet can be separated from the article by the standing area riding on the article;
Furthermore, a pair of auxiliary through holes that can be superimposed on the through holes, respectively, are formed in the standing area. Tag base material,
A method of attaching an RFID tag to be attached to an article, comprising: an RFID inlet mounted on the tag substrate and having an IC chip and an RFID antenna and capable of wireless data communication.
The tag substrate is
An inlet holding area comprising the RFID inlet;
An erecting area for forming the inlet holding area at an end edge along the longitudinal direction of the RFID inlet and for raising the RFID inlet with respect to the article;
The left and right standing regions are formed adjacent to each other on the left and right of the standing region and formed in the end edge, and a pair of left and right insertion regions each having a through hole for inserting a fixture are defined. Yes,
In the insertion area, connection areas for connecting respective ends of the insertion area are formed,
The erecting area and the insertion area can be bent independently in opposite directions with respect to the surface of the inlet holding area,
The RFID inlet can be separated from the article by the standing area riding on the article;
Furthermore, a pair of auxiliary through holes that can be superimposed on the through holes, respectively, are formed in the standing area,
In a state where the attachment is inserted into the through hole and the auxiliary through hole, the attachment is hung around the article, and the attachment is tightened by the attachment.
By deforming the inlet holding area from the end portion with respect to the standing area and the insertion area, the RFID tag is moved to the article such that the RFID inlet in the inlet holding area is separated from the article. A method of attaching an RFID tag characterized by attaching.

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