JP4830892B2 - Fixture and non-contact IC tag - Google Patents

Description

The present invention relates for example pigs, cattle, sheep etc. Animal ears, bird feathers, chicken cockscomb or mounted such fin fish attached target individuals such fittings used for identifying, in a non-contact IC tag .

  Conventionally, in order to identify individual animals such as pigs and cows, ear tags have been used as attachments attached to the ears of domestic animals. This ear tag is composed of a male tool and a female tool. Then, the ear tag is attached to the ear of the livestock by inserting the projection of the male tool into the hole of the female tool so that the ear of the livestock is sandwiched between the male tool and the female tool. In this ear tag, an individual identification number of livestock such as a livestock registration number is written. This solid identification number is printed by a bar code or a two-dimensional code, or written by hand.

  However, such a conventional method has a problem that written characters or printed bar codes are dirty and difficult to read. In addition, the handwritten method has a problem that when the number of digits of the individual identification number increases, it cannot be written on the ear tag. Further, in the method using a bar code or a two-dimensional code, it is necessary to manually scan and read the bar code or the two-dimensional code one by one. For this reason, the method using a bar code or a two-dimensional code has a problem that the work of pressing and reading live animals moving is heavy labor.

  Because of these problems, in recent years, contactless IC tags that can read and write data wirelessly using induced electromagnetic fields or radio waves instead of handwriting, barcodes or two-dimensional codes have been incorporated into ear tags and used. (See Patent Documents 1 and 2). The non-contact IC tag can store a large amount of data in the IC. For this reason, the non-contact IC tag can cope with an increase in the number of digits of the registration number. Further, the non-contact IC tag can read data in a non-contact manner from a position several centimeters to several meters away. Therefore, the non-contact IC tag can read data even when the surface of the ear tag is dirty or the IC tag to be read is hidden behind the object.

  However, even if a non-contact IC tag excellent in convenience is used, there is a problem that the male tag and the female tool may fall off. This dropout is caused by a situation where a livestock catches an ear tag on a fence or the like, or another livestock bites the ear tag.

  As described above, when the ear tag is dropped, solid identification cannot be performed, and when the drop rate increases, there is a problem that the practicality of the livestock is lost.

JP 2006-304768 A JP 2005-224214 A

In view of the above-described problems, an object of the present invention is to provide a fixture and a non-contact IC tag that can be prevented from falling off from an attachment target.

The present invention includes a male tool and a female tool that sandwich an attachment target, the male tool having a plate-like male main body and a protruding portion protruding from the male main body, and the female tool includes a plate A penetrating portion through which the protruding portion penetrates is formed in the female side main body, and the attachment is made on the surface on the attachment target side in contact with the attachment target in either the male main body or the female main body. A friction force improving portion, which is a deformable sheet for improving the friction force with the object, is provided, and the friction force improving portion is a fitting made of a rubber material having a type A durometer hardness of 60 or less .

  As a result, it is possible to prevent the fixture from rotating around the projection with respect to the attachment target such as an animal ear, bird wing, chicken crown, or fish cage, and prevent the fixture from dropping from the attachment target. it can.

Moreover, by making the frictional force improving portion a deformable sheet, the sheet can be deformed along the attachment target, and the frictional force can be increased. Further, it is possible to prevent stress on the animal to be attached.

Moreover, the said frictional force improvement part can provide the non-contact IC tag with a high anti-slip | skid effect at the time of attaching to a fixture by being a rubber material of Type A durometer hardness 60 or less.

Further, as an aspect of the present invention, the frictional force improving portion is formed with a cut at a position where the protrusion penetrates, and rises along the protrusion when the protrusion penetrates around the notch. It can be set as the structure which has a rising part.

  Accordingly, it is possible to prevent the rising portion from entering the gap between the attachment target and the protrusion, and the attachment tool from rattling.

The present invention also includes an IC, an antenna, and a member to which the IC and the antenna are attached. The member has a penetrating portion through which a projection of a male part of the fixture passes, and the attachment of the member friction enhancing portion frictional force is deformable sheet to improve with the attachment object on one surface in contact is provided to the subject, the frictional force increase section, the non-contact of the type a durometer hardness of 60 or less of the rubber material It can be an IC tag.

  Thereby, the projection part of the male tool of the conventional fixture can be penetrated to a penetration part, and it can utilize as a fixture with a non-contact IC tag.

As a mode of this invention, it can be set as the structure by which the protection part which protects the non-contact IC tag is provided in the opposite side to the frictional force improvement part of the member.
Thereby, it is possible to prevent the non-contact IC tag from being damaged by an external force such as being bitten by an animal .

  Moreover, as an aspect of this invention, the said protection part can be set as the structure which is a rubber material of 60 or more type A durometer hardness.

Thereby, a non-contact IC tag having a high protection capability against external force such as biting of an animal can be provided .

According to the present invention, it is possible to provide an attachment that can be prevented from falling off the attachment target, and a non-contact IC tag.

  An embodiment of the present invention will be described below with reference to the drawings.

  FIG. 1 shows an exploded longitudinal sectional view of an ear tag 1 attached to an animal ear, FIG. 2 shows a bottom view of a non-contact IC tag 10, and FIG. 3 shows a longitudinal sectional view and a plan view of an inlet 13.

The ear tag 1 is composed of a fixture 2 and a non-contact IC tag 10.
The fixture 2 includes a resin female tool 3 and a resin male tool 5.
The female tool 3 includes a circular plate-like flat plate portion 3e and a retaining portion 3a provided at the center of the flat plate portion 3e so as to protrude to one side (the side opposite to the ear shell 9). The flat plate portion 3e and the retaining portion 3a are provided with through holes 3b and 3d penetrating the circle center of the flat plate portion 3e. The through hole 3b has a larger diameter than the through hole 3d on the flat plate portion 3e side. Accordingly, a step 3c is provided between the through hole 3b and the through hole 3d.

  The male tool 5 has a circular plate-like flat plate portion 5d and an insertion protrusion 5c provided at the center of the flat plate portion 5d so as to protrude to one side (ear shell 9 side). The insertion protrusion 5c is provided perpendicular to the flat plate portion 5d, and has a columnar column shaft portion 5b and a triangular pyramid-shaped tip portion 5a provided at the tip of the column shaft portion 5b. is doing. The tip 5a has a sharp tip and a base that is larger in diameter than the column shaft 5b. Thus, when the insertion protrusion 5c is inserted into the through holes 3b and 3d of the female tool 3, the base side edge of the distal end portion 5a is caught by the step portion 3c and is prevented from coming off.

The non-contact IC tag 10 includes an inlet 13, an ear side cover 11, and a male instrument side cover 15.
As illustrated in FIG. 3, the inlet 13 includes a circular film-like base material 23, an antenna 24, an IC 21, and a conductor circuit board 22.

The antenna 24 is a coil-type antenna disposed in a circle along the outer periphery of the base material 23.
The IC 21 is an IC chip having a control unit that performs control operations as a storage unit that stores data.
The conductor circuit board 22 is a board on which the IC 21 is mounted and connects the IC 21 and the antenna 24.

  The inlet 31 is configured such that electronic components such as the IC 21, the conductor circuit board 22, and the antenna 24 are arranged in the vicinity of the outer periphery, and no electronic components are present in the central portion. In the inlet 31, an adhesive having a good adhesive property with a rubber material (for example, butyl rubber) is applied to the surface of the base material 23 on the side where the conductor circuit board 22 on which the IC 21 is mounted is not disposed. .

The ear-side cover 11 is formed in a circular sheet shape from a vulcanized rubber having a high rebound resilience (low hardness) type A durometer hardness of 60 or less, such as silicon. The ear-side cover 11 is applied or laminated on the surface side of the inlet 31 on which the conductor circuit board 22 is disposed.
A penetrating cross-shaped cut 12 (see FIGS. 1 and 2) is formed at the center of the ear-side cover 11 (the portion where no electronic component such as the antenna 24 exists). The cut 12 is formed to have a length approximately the same as the diameter of the through hole 16 of the male instrument side cover 15. Around the cut 12, a raised portion 11a is formed that rises when the insertion protrusion 5c of the male tool 5 is inserted.

The male side cover 15 has a low rebound resilience (high hardness) and has a wall thickness of about twice the thickness of the IC 21 by vulcanized rubber such as butyl having a type A durometer hardness of 60 or more. It is formed in a circle.
A through hole 16 is formed in the central portion of the male instrument side cover 15 (a portion where no electronic component such as the antenna 24 exists).

4 is a block diagram showing a non-contact IC tag manufacturing apparatus 50 for manufacturing the non-contact IC tag 10, and FIG. 5 is a non-contact IC tag manufacturing apparatus 50 that is gradually completed by each process executed by the non-contact IC tag manufacturing apparatus 50. It is explanatory drawing of the contact IC tag.
The non-contact IC tag manufacturing apparatus 50 includes an electronic component holding film 51, an adhesive application unit 52, a male side cover sheet 60, rollers 53 and 61, a vulcanization unit 54, and a perforation unit in order from the previous stage. 55, an ear-side cover sheet 56, rollers 57 and 63, a vulcanization unit 58, a press unit 59, and a take-up roll 65 are arranged.

Here, the electronic component holding film 51, the male-side cover sheet 60, and the ear-side cover sheet 56, which are materials, will be described.
The electronic component holding film 51 is obtained by winding a sheet on which a plurality of sets of the IC 21, the conductor circuit board 22, and the antenna 24 are arranged in a roll shape. Accordingly, a plurality of inlets 13 are provided.

  The male instrument side cover sheet 60 is a sheet in which a sheet to be the male instrument side cover 15 is wound in a roll shape. The sheet constituting the male instrument side cover sheet 60 is made of unvulcanized butyl rubber which is flexible and has a certain degree of plastic deformability.

The ear side cover sheet 56 is a sheet in which a sheet to be the ear side cover 11 is wound in a roll shape.
The non-contact IC tag manufacturing apparatus 50 executes steps A to E described below.

<Process A>
In this step A, as shown in FIG. 5A, a male-side cover sheet 60 made of vulcanized butyl rubber or the like is laminated on the surface of the electronic component holding film 51 on which the IC 21 is mounted and protrudes. .

  First, the non-contact IC tag manufacturing apparatus 50 uses an adhesive application unit 52 to provide an adhesive layer for improving adhesion to butyl rubber or the like on the side where the IC 21 of the electronic component holding film 51 is mounted and protruding. Form on the surface.

  Next, the rollers 53 and 61 laminate or apply the male-side cover sheet 60 on the adhesive layer. At this time, the male-side cover sheet 60 laminated or applied has a thickness approximately twice that of the IC 21. This lamination or application is performed by a laminating method in which the electronic component holding film 51 and the male instrument side cover sheet 60 are stacked and passed between the rollers 53 and 61.

  Here, a roller 53 (or a flat plate) that is relatively harder than unvulcanized rubber is disposed on the surface side on which the conductor circuit board 22 on which the IC 21 is mounted on the electronic component holding film 51 is disposed. Thereby, the convex part of the portion where the IC 21 is mounted is absorbed by the unvulcanized rubber 202 that can be plastically deformed, and the conductor circuit 330 becomes flat.

  Next, the non-contact IC tag manufacturing apparatus 50 performs vulcanization by the vulcanizing unit 54 to impart elasticity and durability to the male-side cover sheet 60 that becomes an unvulcanized rubber layer. The vulcanized unit 54 continuously loads unvulcanized rubber with a pressure of about 25 atm and a high temperature of about 180 ° C. At this time, the electronic component holding film 51 is also loaded with the same high temperature and high pressure as described above. However, since the unvulcanized rubber (male side cover sheet 60) that is disposed on the surface and is capable of plastic deformation acts as a buffer layer against pressure and heat during vulcanization, the electronic component holding film 51 The IC 21 is protected from breakage.

  By this vulcanization process, the unvulcanized rubber of the male side cover sheet 60 which becomes the male side cover 15 increases in elasticity and durability, and becomes a vulcanized rubber of type A durometer hardness 60 to 70. For this reason, the male side cover 15 after vulcanization acts as a layer for buffering external force. Therefore, the male instrument side cover 15 can protect the IC 21 on the inner inlet 13 from damage due to an external force load when the non-contact IC tag 10 is used.

  Further, since the male-side cover sheet 60 is vulcanized and cured while the conductor circuit board 22 is fixed flatly, the disconnection of the electrode portion of the IC 21 due to the deformation of the conductor circuit board 22 that is a failure factor of the non-contact IC tag 10 is prevented. it can.

  In this example, butyl rubber excellent in chemical resistance and weather resistance was used. However, hyperon rubber having similar characteristics, nitrile rubber excellent in oil resistance, EPDM (ethylene- Propylene-diene rubber) or the like may be selected and used depending on the application of the ear tag 1.

<Process B>
In this process B, the non-contact IC tag manufacturing apparatus 50 makes a through hole in the male-side cover sheet 60 as shown in FIG. The through hole 16 is formed in the through hole 16 (see FIG. 1) by opening a hole in the central portion of the male side cover 15 arranged in the male side cover sheet 60 (portion where the electronic component of the inlet 13 does not exist). ).

<Process C>
In this step C, the non-contact IC tag manufacturing apparatus 50 has a high rebound resilience (low hardness) on the surface opposite to the male cover sheet 60 of the electronic component holding film 51 as shown in FIG. An ear-side cover sheet 56 made of vulcanized rubber (for example, silicon rubber) is laminated.

  First, the non-contact IC tag manufacturing apparatus 50 forms an adhesive layer with good adhesion to silicon rubber on the surface of the electronic component holding film 51.

  Next, the non-contact IC tag manufacturing apparatus 50 continuously laminates, for example, a 1.0 mm-thick unvulcanized silicon rubber sheet on the surface of the adhesive layer by a laminating method using rollers 57 and 63. .

  Then, the non-contact IC tag manufacturing apparatus 50 continuously applies a pressure of about 25 atm and a high temperature of about 180 ° C. to the unvulcanized rubber (ear cover sheet 56) by the vulcanizing unit 58, The vulcanized rubber is transformed into a vulcanized rubber having a type A durometer hardness of about 50 rich in elasticity.

  At this time, the unvulcanized rubber (ear-side cover sheet 56) that is flexible and can be plastically deformed flows into the through hole 16 formed in the process B. A structure (see FIG. 5C) is formed by the flow portion so that the joint cross-section portion of the male instrument side cover 15 and the inlet 13 is covered with the flow portion 11 b of the ear side cover 11.

  In addition, when the structure which covers a joining cross-section part with the flow part 11b of the ear | edge side cover 11 in this way is unnecessary, it is good to laminate by making the said unvulcanized rubber sheet into a vulcanized rubber sheet. Thereby, the vulcanization process by the vulcanization unit 58 can be deleted.

  Further, in this embodiment, silicon rubber is used for the ear cover sheet 56 as a high resilience (low hardness) layer, but natural rubber or nitrile rubber that is widely used for food and medical purposes may be used. Good.

<Process D>
In this step D, the non-contact IC tag manufacturing apparatus 50, as shown in FIG. 5 (D), has a cross-shaped cut 12 penetrating through the portion where the through hole 16 of the ear cover 11 (see FIG. 1) is located. Form. The formation of the cut 12 is preferably performed by the press unit 59, but may be performed by a separate device.

<Process E>
In the last step E, the non-contact IC tag manufacturing apparatus 50 cuts off the non-contact IC tag 10 having a required shape and a required size from the continuous sheet 62 by the press unit 59 as shown in FIG. By this cutting off, the non-contact IC tag 10 is completed.
In addition, the winding roll 65 is a roll which wound up the remainder of the continuous sheet 62 after extracting the non-contact IC tag 10.

  The non-contact IC tag 10 can be manufactured by the above manufacturing process. Then, as shown in FIG. 1, the insertion protrusion 5 c of the male tool 5 is inserted into the cut 12 of the non-contact IC tag 10, the animal's ear 9 is penetrated, and inserted into the retaining part 3 a of the female tool 3 to be fixed. can do.

  At this time, as shown in the longitudinal sectional view of FIG. 6, the ear cover 11 formed of a vulcanized rubber having a high rebound resilience (low hardness) type A durometer hardness of 60 or less, such as silicon, is provided in the ear shell 9. Contact with. The effect that the ear tag 1 is supported by the friction generated by the contact of the ear side cover 11 with the surface of the ear shell 9 is obtained. Accordingly, the ear cover 11 can reduce the movement of the ear tag 1, the ear tag 1 rotates many times around the column shaft portion 5 b, and the hole 9 a formed in the ear shell 9 of the animal widens. Can prevent the problem of Thereby, dropping of the ear tag 1 can be prevented.

  Further, the hole 9a formed in the ear shell 9 has the size of the distal end portion 5a of the male tool 5, and thus the opening diameter is larger than that of the column shaft portion 5b. The difference in opening diameter can be absorbed. That is, the raised portion 11 a of the ear-side cover 11 is raised by the insertion protrusion 5 c to be inserted, and enters between the hole 9 a formed in the ear shell 9 and the column shaft portion 5 b of the male tool 5. For this reason, rattling between the column shaft portion 5b of the male tool 5 and the hole 9a of the ear shell 9 is eliminated, and expansion of the hole 9a of the ear shell 9 can be suppressed. Thereby, dropping of the ear tag 1 can be prevented.

  Further, the raised portion 11a also has an effect of fixing the non-contact IC tag 10 to the column shaft portion 5b of the male tool 5, so that the position of the non-contact IC tag 10 when attaching to the ear shell 9 of a moving animal, It is possible to prevent the problem that the ear mark 1 becomes difficult to attach due to a change in state.

  Further, the ear-side cover 11 can buffer the pressing force when the male tool 5 is pressed against the ear shell 9. For this reason, the danger that the ear tag 1 damages the ear shell 9 can be suppressed, and the stress of the animal can be alleviated.

  Further, the external stress applied to the IC 21 can be absorbed and relaxed by the male cover 15 made of a material having low rebound resilience (high hardness). Thereby, damage of IC21 by the impact from the outside that an animal bites can be prevented.

  Moreover, since the non-contact IC tag 10 can be used simply by being inserted into the insertion protrusion 5c of the conventional male tool 5, it can be manufactured at low cost. That is, as another method of incorporating the non-contact IC tag into the ear tag, for example, a method of embedding a non-contact IC tag processed into a cylindrical shape in the shaft column of the column shaft portion 5b of the male tool 5, or a male tool or a female tool A method of incorporating or embedding a non-contact IC tag processed into a flat plate shape into the flat plate portion made of resin is conceivable.

  However, in such a method, there is a problem that it is necessary to modify an earmark production facility that has been conventionally used to embed a non-contact IC tag integrally in a part of the earmark. In addition, there is a problem that the ear tag itself is expensive to embed a non-contact IC tag. In addition, in the case of farmers who do not need to use non-contact IC tags or when it is not necessary to wear them on all heads, it is necessary to determine whether or not to install non-contact IC tags on site and to reduce costs There is a problem that it can not cope. In addition, there is a problem that when a protective structure and material are devised for the purpose of protecting the non-contact IC tag from the external environment such as external force or humidity, this contrivance is made a necessary condition as an ear mark. is there.

  Since the non-contact IC tag 10 of the first embodiment described above does not have such a problem, it can be manufactured at a low cost, can easily respond to a user's request, and the conventional female tool 3 and male tool 5. Can be used as is.

  Moreover, since the female tool 3 and the male tool 5 and the non-contact IC tag 10 are separate members, when the ear tag 1 is attached to the animal at the site, it can be determined on the spot whether or not the non-contact IC tag 10 is attached. .

  Moreover, the restriction | limiting with respect to the structure of the non-contact IC tag 10 can also be made small, and the countermeasure which protects an IC tag from external environment can be selected easily.

  Further, compared with the method of embedding the non-contact IC tag 10 in the resin, the productivity is good, the manufacturing cost can be reduced, and the production of tens of millions or hundreds of millions can be easily performed.

  Moreover, the non-contact IC tag 10 excellent in water resistance, weather resistance, and chemical resistance such as alkali resistance and acid resistance can be provided.

FIG. 7 is a longitudinal sectional view showing the ear tag 1a of the second embodiment.
The ear tag 1a is different from the first embodiment in the non-contact IC tag 10a, and is arranged so that the ear side cover 11 contacts the flat plate portion 5d of the male tool 5, and the male tool side cover 15 is attached to the ear shell 9. It is arranged to touch.

  This non-contact IC tag 10a is suitable for preventing breakage of the IC 21 portion when an external impact such as an animal biting is applied from the ear shell 9 side. In the second embodiment, it is preferable to apply a non-slip process such as roughening to the surface of the male cover 15 having a low rebound resilience (high hardness) that comes into contact with the ear shell 9. Further, in the case of the non-contact IC tag 10a of the second embodiment, the ear-side cover 11 having high rebound resilience (low hardness) does not need to have high rebound resilience characteristics, and low rebound resilience (high rebound) The same material as the male side cover 15 of (hardness) may be used.

  FIG. 8 is an explanatory diagram of a state in which the non-contact IC tag 10b according to the third embodiment is manufactured, and FIG. 9 is a bottom view of the non-contact IC tag 10b according to the third embodiment.

  The non-contact IC tag 10b of the third embodiment covers the joint section of the inlet 13 formed in the first embodiment, the male instrument side cover 15, and the ear side cover 11 with the flow portions 11b and 11c of the ear side cover 11, and is joined. It is an example of the structure devised so that a cross-section part may be shielded from the outside air environment.

The difference from Example 1 in the manufacturing process is a process B shown in FIG. In Example 2, after executing Step B of Example 1, before executing Step C, the non-contact IC tag 10b is removed from the sheet material into a predetermined shape. When the non-contact IC tag 10b is vulcanized in a state where it is pressed against the ear-side cover sheet 56 (see FIG. 4) which is an unvulcanized rubber sheet, the unvulcanized ear-side cover sheet 56 is plastically flowed and joined. Flowing portions 11b and 11c covering the cross-sectional portion are formed.
Since other manufacturing steps and structures are the same as those in the first embodiment, the same reference numerals are given to the same elements, and detailed description thereof is omitted.
With the above configuration, the same effect as that of the first embodiment can be obtained, and the joint cross-section can be protected from the outside air environment and protected by the flow portions 11b and 11c.

  The ear tags 1 and 1a described above are not limited to animal ears, and can be attached to various animal parts such as bird feathers, chicken crowns, or fish cages. Therefore, it can be used for individual identification of various animals.

In correspondence between the configuration of the present invention and the above-described embodiment,
The female side body of the present invention corresponds to the flat plate portion 3e of the embodiment,
Similarly,
The through part corresponds to the through holes 3b and 3d,
The male side body corresponds to the flat plate portion 5d,
The protrusion corresponds to the insertion protrusion 5c,
The mounting target corresponds to the earshell 9
The frictional force improving portion and the deformable sheet correspond to the ear side cover 11,
The raised part corresponds to the raised part 11a,
The cut corresponds to the cut 12,
The protective part corresponds to the male instrument side cover 15,
The member corresponds to the base material 23,
The unvulcanized rubber material processed into a sheet shape corresponds to the ear-side cover sheet 56 or the male-side cover sheet 60,
The present invention is not limited only to the configuration of the above-described embodiment, and many embodiments can be obtained.

The exploded longitudinal cross-sectional view of an ear tag. The bottom view of a non-contact IC tag. Explanatory drawing of an inlet. The block diagram of a non-contact IC tag manufacturing apparatus. Explanatory drawing of the manufacture condition of a non-contact IC tag. The longitudinal cross-sectional view of a non-contact IC tag. The longitudinal cross-sectional view which shows the ear tag of Example 2. FIG. Explanatory drawing of the manufacture condition of the non-contact IC tag of Example 3. FIG. The bottom view of the non-contact IC tag of Example 3. FIG.

DESCRIPTION OF SYMBOLS 1,1a ... Ear mark, 3 ... Female tool, 3b, 3d ... Through-hole, 3e ... Flat plate part, 5 ... Male tool, 5c ... Insertion protrusion, 5d ... Flat plate part, 9 ... Ear shell 10, 10a, 10b ... Non-contact IC tag, 11 ... ear side cover, 11a ... raised portion, 12 ... cut, 15 ... male side cover, 21 ... IC, 23 ... base material, 24 ... antenna, 51 ... electronic component holding film, 56 ... ear Side cover sheet, 60 ... Male cover sheet

Claims (5)

It has a male tool and a female tool that sandwich the mounting target,
The male implement has a plate-like male main body and a protrusion protruding from the male main body,
The female tool is formed with a penetrating part through which the protruding part penetrates a plate-shaped female main body,
A friction force improving portion, which is a deformable sheet that improves the friction force with the attachment target, is provided on the surface of the attachment target in contact with the attachment target in either the male main body or the female main body. It is,
The frictional force improving portion is a rubber material having a type A durometer hardness of 60 or less . The frictional force improving portion has a notch formed at a position where the protrusion penetrates, and has a raised portion around the notch that rises along the protrusion when the protrusion penetrates. The fixture according to claim 1 . An IC, an antenna, and a member to which the IC and the antenna are attached;
The member penetrations protrusions male member of the fitting passes through is formed, and a deformable sheet to improve the frictional force between the mounting object on one surface in contact with the mounting object of the member friction A power improvement section is provided ,
The frictional force improving part is a non-contact IC tag made of a rubber material having a type A durometer hardness of 60 or less . The non-contact IC tag according to claim 3 , wherein a protective part for protecting the non-contact IC tag is provided on the side of the member opposite to the frictional force improving part. The non-contact IC tag according to claim 4 , wherein the protection part is a rubber material having a type A durometer hardness of 60 or more.

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