JP5269690B2 - RFID tag - Google Patents

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JP5269690B2
JP5269690B2 JP2009113874A JP2009113874A JP5269690B2 JP 5269690 B2 JP5269690 B2 JP 5269690B2 JP 2009113874 A JP2009113874 A JP 2009113874A JP 2009113874 A JP2009113874 A JP 2009113874A JP 5269690 B2 JP5269690 B2 JP 5269690B2
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plate portion
mounting plate
restoring
spacer
plate
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JP2010262538A (en
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文雄 岩月
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小林クリエイト株式会社
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Description

本発明は、金属製の被取付物に取付けて使用するRFIDタグに関する。   The present invention relates to an RFID tag used by being attached to a metal attachment.

RFID(Radio Frequency Identification)システムで用いられる非接触型ICタグ等のRFIDタグは、ICチップとアンテナとを備えてなり、入出力装置(リーダ・ライタ)との間で電磁波を利用して非接触でコマンド,データ等の信号を送受信し得る機能がある。このRFIDタグは、入出力装置側のアンテナが放射する有効電磁波ゾーンに進入すると、RFIDタグのアンテナが誘導起電力を生成し、該電力により動作状態となって入出力装置からのコマンド,データ等の信号を検出するとともに、そのコマンド信号に従ってICチップが具備するデータの読み書きが可能なメモリに受信データを格納したり、メモリに格納されているデータを入出力装置に送信するものであり、小型軽量で取扱い性に優れているため、近年、交通・レジャー分野,物流分野,セキュリティー分野,工場生産分野,環境分野,その他の幅広い分野で導入が進められている。   An RFID tag such as a non-contact type IC tag used in an RFID (Radio Frequency Identification) system includes an IC chip and an antenna, and uses an electromagnetic wave between an input / output device (reader / writer) and is non-contact type. It has a function that can send and receive signals such as commands and data. When this RFID tag enters an effective electromagnetic wave zone radiated by the antenna on the input / output device side, the RFID tag antenna generates an induced electromotive force, which becomes an operating state by the electric power, and commands, data, etc. from the input / output device. In response to the command signal, the received data is stored in a memory capable of reading and writing data included in the IC chip, or the data stored in the memory is transmitted to the input / output device. In recent years, it has been introduced in a wide range of fields such as transportation / leisure field, logistics field, security field, factory production field, environmental field, etc.

このようなRFIDタグは、金属製の被取付物に直接取付けると、送受信機能が極端に低下したり、送受信不能となることが知られている。そこで、従来はRFIDタグの裏面に合成樹脂やゴムからなる非金属製のスペーサを配設し、該スペーサを介してRFIDタグを金属製の被取付物に取付けることにより、RFIDタグのアンテナと金属面とを離間させて送受信機能の低下を抑制するようにしていた(例えば、特許文献1参照)。   When such an RFID tag is directly attached to a metal attachment, it is known that the transmission / reception function is extremely lowered or transmission / reception is disabled. Therefore, conventionally, a non-metallic spacer made of synthetic resin or rubber is disposed on the back surface of the RFID tag, and the RFID tag is attached to a metal attachment object via the spacer, thereby the RFID tag antenna and the metal. A reduction in transmission / reception function is suppressed by separating the surface (see, for example, Patent Document 1).

特開2009−9205号公報(「0004」、図5)Japanese Patent Laying-Open No. 2009-9205 ("0004", Fig. 5)

ところで、上記のようにスペーサを用いる場合、送受信機能の低下を抑制するためには、スペーサの厚みを大きくしてRFIDタグのアンテナと金属面との間に充分な間隔を確保する必要があるが、スペーサの厚みを大きくすると該スペーサを含むRFIDタグ全体のサイズが大きくなり、これが被取付物の外面から突出するため、被取付物の運搬時や保管時に嵩張ってしまうという問題点があった。   By the way, when using a spacer as described above, it is necessary to increase the thickness of the spacer and secure a sufficient space between the antenna of the RFID tag and the metal surface in order to suppress the deterioration of the transmission / reception function. If the thickness of the spacer is increased, the size of the entire RFID tag including the spacer increases, and this protrudes from the outer surface of the attached object, which causes a problem that the attached object becomes bulky during transportation and storage. .

本発明は、かかる問題点を解決するためになされたものであり、被取付物の運搬時や保管時には厚みが薄くなる状態に変形し、送受信時には金属面との間に充分な間隔を確保する状態に復元し得るRFIDタグを提供することを目的とするものである。   The present invention has been made to solve such a problem, and is deformed so that the thickness is reduced during transportation and storage of the attached object, and a sufficient space is ensured between the metal surface during transmission and reception. An object of the present invention is to provide an RFID tag that can be restored to a state.

本発明は、データを書き換え可能に格納するメモリを具備したICチップと、該ICチップに接続されたアンテナとを備え、前記データを所定の入出力装置と非接触で送受信する機能を備えたRFIDインレットと、金属製の被取付物の外面に取付けられる取付板部と、RFIDインレットを担持する非金属製の担持板部と、該担持板部を前記取付板部から所定間隔で離間させて保持し、かつ圧縮変形すると弾発力を生じる少なくとも一対の復元スペーサー板部とからなり、担持板部の表面側からの外力によって復元スペーサー板部が圧縮変形すると担持板部が取付板部に近接する退避状態となり、外力が除かれると、圧縮変形した復元スペーサー板部に生じている弾発力によって担持板部が取付板部から所定間隔で離間して定常状態に復帰するインレット保持体とを備えてなることを特徴とするRFIDタグである。   The present invention includes an IC chip having a memory for storing data in a rewritable manner and an antenna connected to the IC chip, and an RFID having a function of transmitting and receiving the data in a contactless manner with a predetermined input / output device. An inlet, a mounting plate portion that is attached to the outer surface of the metal attachment object, a non-metallic support plate portion that supports the RFID inlet, and the support plate portion that is spaced apart from the mounting plate portion at a predetermined interval and held. And at least a pair of restoring spacer plate portions that generate elastic force when compressively deformed. When the restoring spacer plate portion is compressed and deformed by an external force from the surface side of the carrying plate portion, the carrying plate portion comes close to the mounting plate portion. When the external force is removed when the retracted state is removed, the support plate part is separated from the mounting plate part at a predetermined interval by the elastic force generated in the compressed and deformed restoration spacer plate part and returns to the steady state. That an RFID tag characterized in that it comprises an inlet support.

ここで、RFIDインレットは、ICチップとアンテナとを合成樹脂シート上に担持して構成したり、ICチップとアンテナとを合成樹脂シート上に担持し、これを合成樹脂の外装体で被覆して構成され得る。   Here, the RFID inlet is configured by supporting an IC chip and an antenna on a synthetic resin sheet, or by supporting an IC chip and an antenna on a synthetic resin sheet and covering them with a synthetic resin outer package. Can be configured.

前記RFIDタグにあって、復元スペーサー板部が、弾性を有する合成樹脂または合成ゴムからなる構成が提案される。   In the RFID tag, a configuration is proposed in which the restoration spacer plate portion is made of an elastic synthetic resin or synthetic rubber.

また、インレット保持体の側部を覆う弾性変形可能な非金属製の保護カバー体を備えている構成が提案される。   In addition, a configuration is proposed that includes a non-metallic protective cover body that is elastically deformable and covers the side of the inlet holder.

また、担持板部を取付板部から離間させる方向に付勢し、かつ定常状態に復帰させるばねからなる補助付勢手段を備えている構成が提案される。   In addition, a configuration is proposed that includes auxiliary biasing means that includes a spring that biases the support plate portion in a direction away from the mounting plate portion and returns to the steady state.

さらに、担持板部を退避状態に保持するストッパーを備えている構成が提案される。   Furthermore, the structure provided with the stopper which hold | maintains a support plate part in a retracted state is proposed.

本発明は、上述したように、データを書き換え可能に格納するメモリを具備したICチップと、該ICチップに接続されたアンテナとを備え、前記データを所定の入出力装置と非接触で送受信する機能を備えたRFIDインレットと、金属製の被取付物の外面に取付けられる取付板部と、RFIDインレットを担持する非金属製の担持板部と、該担持板部を前記取付板部から所定間隔で離間させて保持し、かつ圧縮変形すると弾発力を生じる少なくとも一対の復元スペーサー板部とからなり、担持板部の表面側からの外力によって復元スペーサー板部が圧縮変形すると担持板部が取付板部に近接する退避状態となり、外力が除かれると、圧縮変形した復元スペーサー板部に生じている弾発力によって担持板部が取付板部から所定間隔で離間して定常状態に復帰するインレット保持体とを備えてなるRFIDタグであるから、インレット保持体の取付板部を金属製の被取付物の外面に取付けることにより、RFIDインレットを担持する非金属製の担持板部を被取付物の外面から所定間隔で離間させて保持することができる。このような担持板部が金属製の被取付物の外面から所定間隔で離間して保持される定常状態にあっては、RFIDインレットと金属面との間に所定の間隔が確保されて送受信機能の低下が抑制されるため、RFIDインレットによるデータの送受信を支障なく行わせることができる。一方、被取付物の運搬時や保管時においては、RFIDタグが取付けられた被取付物の外面を、RFIDタグを介して他の被取付物の外面やトラックの荷台の壁面或いは建造物の壁面に押し当てると、担持板部の表面側から加わる外力によって復元スペーサー板部が圧縮変形し、担持板部が取付板部に近接する退避状態となる。これによりRFIDタグの厚みが薄くなり被取付物の外面からの突出幅が小さくなるため、RFIDタグの厚さに起因する被取付物の嵩張りを解消することができる。また、外力が除かれると、圧縮変形した復元スペーサー板部に生じている弾発力によって、担持板部が取付板部から所定間隔で離間する定常状態に自動的に復帰させることができる。   As described above, the present invention includes an IC chip having a memory for storing data in a rewritable manner and an antenna connected to the IC chip, and transmits / receives the data to / from a predetermined input / output device in a contactless manner. RFID inlet having a function, a mounting plate portion to be attached to the outer surface of a metal attachment object, a non-metallic support plate portion for supporting the RFID inlet, and the support plate portion at a predetermined distance from the mounting plate portion At least a pair of restoring spacer plates that generate elastic force when compressed and deformed. When the restoring spacer plates are compressed and deformed by an external force from the surface side of the carrying plate, the carrier plate is attached. When the retracted state close to the plate portion is removed and the external force is removed, the support plate portion is separated from the mounting plate portion at a predetermined interval by the elastic force generated in the compressed and deformed restoration spacer plate portion. Since the RFID tag is provided with an inlet holder that returns to a steady state, a non-metallic carrier that carries the RFID inlet by attaching the mounting plate portion of the inlet holder to the outer surface of the metal attachment object The plate portion can be held at a predetermined interval from the outer surface of the attachment. In such a steady state that the holding plate portion is held at a predetermined interval from the outer surface of the metal attachment object, a predetermined interval is secured between the RFID inlet and the metal surface, so Therefore, data transmission / reception by the RFID inlet can be performed without any trouble. On the other hand, during transportation or storage of the attachment, the outer surface of the attachment to which the RFID tag is attached is connected to the outer surface of another attachment, the surface of the truck bed or the wall of the building via the RFID tag. When pressed against, the restoring spacer plate portion is compressed and deformed by an external force applied from the front surface side of the carrying plate portion, and the carrying plate portion enters a retracted state close to the mounting plate portion. As a result, the thickness of the RFID tag is reduced and the protrusion width from the outer surface of the attached object is reduced, so that the bulkiness of the attached object due to the thickness of the RFID tag can be eliminated. Further, when the external force is removed, the carrying plate portion can be automatically returned to the steady state in which it is separated from the mounting plate portion at a predetermined interval by the elastic force generated in the compression-deformed restoring spacer plate portion.

前記RFIDタグにあって、復元スペーサー板部が、弾性を有する合成樹脂または合成ゴムからなる構成にあっては、復元スペーサー板部に良好な圧縮変形作用と、その圧縮変形による良好な弾発力発生作用を生じさせることができる。   In the RFID tag, when the restoring spacer plate portion is made of a synthetic resin or synthetic rubber having elasticity, the restoring spacer plate portion has a good compressive deformation action and good elastic force due to the compressive deformation. A generating action can be produced.

また、インレット保持体の側部を覆う弾性変形可能な非金属製の保護カバー体を備えている構成にあっては、退避状態と定常状態とに変化するインレット保持体の状態変化に保護カバー体をその弾性変形作用を介して追従させることができ、該保護カバー体によって、インレット保持体に側方から加わる衝撃と、インレット保持体内への異物の侵入とを防止することができるとともに、担持板部に担持されたRFIDインレットを保護することができる。   Further, in the configuration including the non-metallic protective cover body that can be elastically deformed to cover the side portion of the inlet holder, the protective cover body is affected by the state change of the inlet holder that changes between the retracted state and the steady state. The protective cover body can prevent the impact applied from the side to the inlet holder and the intrusion of foreign matter into the inlet holder, and the support plate. The RFID inlet carried on the part can be protected.

また、担持板部を取付板部から離間させる方向に付勢し、かつ定常状態に復帰させるばねからなる補助付勢手段を備えている構成にあっては、該補助付勢手段によって担持板部を退避状態から定常状態へ迅速かつ確実に復帰させることができる。   Further, in the configuration provided with auxiliary urging means comprising a spring for urging the carrying plate part in the direction of separating from the mounting plate part and returning to the steady state, the carrying plate part is formed by the auxiliary urging means. Can be quickly and reliably returned from the retracted state to the steady state.

さらに、担持板部を退避状態に保持するストッパーを備えている構成にあっては、被取付物の運搬時や保管時以外でも、RFIDインレットによるデータの送受信を行う必要がないときには、ストッパーによって担持板部を退避状態に保持することにより、RFIDタグが被取付物の外面から大きく突出しないため、定常状態において被取付物の外面から突出したRFIDタグが周辺のものと衝突することによって発生するRFIDタグの脱落或いは破損や故障を未然に防止することができる。   Furthermore, in the configuration having a stopper for holding the supporting plate portion in the retracted state, it is supported by the stopper when it is not necessary to transmit / receive data by the RFID inlet, even when the attachment is not transported or stored. By holding the plate portion in the retracted state, the RFID tag does not protrude greatly from the outer surface of the attached object. Therefore, the RFID tag that protrudes from the outer surface of the attached object in a steady state collides with the surrounding RFID. It is possible to prevent the tag from dropping or being damaged or malfunctioning.

第一実施例にかかるRFIDタグ1Aの外観斜視図である。1 is an external perspective view of an RFID tag 1A according to a first embodiment. 被取付物7の外面9に取付けられたRFIDタグ1Aを示し、(A)は定常状態、(B)は退避状態の縦断面図である。The RFID tag 1A attached to the outer surface 9 of the attachment 7 is shown, (A) is a steady state, and (B) is a longitudinal sectional view in a retracted state. RFIDタグ1Aの使用時における作用説明図である。It is operation | movement explanatory drawing at the time of use of RFID tag 1A. 第一実施例の第一の変形実施例にかかるRFIDタグ1Aの外観斜視図である。It is an external appearance perspective view of RFID tag 1A concerning the 1st modification of a 1st example. 第一実施例の第二の変形実施例にかかるRFIDタグ1Aを示し、(A)は外観斜視図、(B)は被取付物7の外面9に取付けた状態の縦断面図である。The RFID tag 1A concerning the 2nd modification of a 1st Example is shown, (A) is an external appearance perspective view, (B) is a longitudinal cross-sectional view of the state attached to the outer surface 9 of the to-be-attached object 7. FIG. 第一実施例の第三の変形実施例にかかるRFIDタグ1Aを示し、一対の弾性枠体10A,10Aによって取付板部4と復元スペーサー板部6とを構成した状態の外観斜視図である。FIG. 7 is an external perspective view showing an RFID tag 1A according to a third modified embodiment of the first embodiment, in a state where the mounting plate portion 4 and the restoring spacer plate portion 6 are configured by a pair of elastic frames 10A, 10A. 第一実施例の第四の変形実施例にかかるRFIDタグ1Aを示し、(A)は一対の弾性体10B,10Bによって取付板部4と復元スペーサー板部6とを構成した状態の外観斜視図、(B)は各弾性体10Bの矩形状底板部分12に取付板部4を配設した状態の外観斜視図である。1 shows an RFID tag 1A according to a fourth modified embodiment of the first embodiment, in which (A) is an external perspective view of a state in which a mounting plate portion 4 and a restoring spacer plate portion 6 are constituted by a pair of elastic bodies 10B and 10B. (B) is an external perspective view of a state in which the mounting plate portion 4 is disposed on the rectangular bottom plate portion 12 of each elastic body 10B. 第二実施例にかかるRFIDタグ1Bを示し、インレット保持体3と保護カバー体13とを分離した状態の外観斜視図である。FIG. 7 is an external perspective view showing the RFID tag 1B according to the second embodiment, with the inlet holder 3 and the protective cover body 13 separated. (A)は同上のRFIDタグ1Bの定常状態の縦断面図、(B)は退避状態の縦断面図である。(A) is a longitudinal sectional view of the RFID tag 1B in the steady state, and (B) is a longitudinal sectional view in a retracted state. 第三実施例にかかるRFIDタグ1Cを示し、(A)は平面図、(B)は縦断面図である。An RFID tag 1C according to a third embodiment is shown, in which (A) is a plan view and (B) is a longitudinal sectional view. 第四実施例にかかるRFIDタグ1Dを示し、(A)は外観斜視図、(B)は退避状態の縦断面図である。4A and 4B show an RFID tag 1D according to a fourth embodiment, in which (A) is an external perspective view, and (B) is a longitudinal sectional view in a retracted state.

以下に、本発明の第一実施例を、図1〜図3に基づいて説明する。
RFIDタグ1Aは、RFIDインレット2と、該RFIDインレット2を保持するインレット保持体3とを備えている。
Below, the 1st Example of this invention is described based on FIGS. 1-3.
The RFID tag 1 </ b> A includes an RFID inlet 2 and an inlet holder 3 that holds the RFID inlet 2.

RFIDインレット2は、ICチップと、該ICチップに電気的に接続されたアンテナとを備えており、該ICチップとアンテナとが合成樹脂製の絶縁シート上に配設されている。このRFIDインレット2は、図示しない入出力装置(リーダ・ライタ)との間で電磁波を利用してコマンド,データ等の信号を非接触で送受信し得る非接触型の電池レスタイプとなっている。尚、RFIDインレット2は、ICチップとアンテナとを絶縁シート上に配設し、これを合成樹脂の外装体で被覆したものであってもよい。また、RFIDインレット2は、HF帯域(例えば13.56MHz),UHF帯域(例えば953MHzや2.45GHz)等の何れの帯域で作動するものであってもよい。   The RFID inlet 2 includes an IC chip and an antenna electrically connected to the IC chip, and the IC chip and the antenna are disposed on a synthetic resin insulating sheet. The RFID inlet 2 is a non-contact type battery-less type that can transmit and receive signals such as commands and data without contact with an input / output device (reader / writer) (not shown). The RFID inlet 2 may be one in which an IC chip and an antenna are disposed on an insulating sheet and this is covered with a synthetic resin outer package. The RFID inlet 2 may operate in any band such as an HF band (for example, 13.56 MHz) and a UHF band (for example, 953 MHz or 2.45 GHz).

インレット保持体3は、金属製の被取付物7(図2参照)の外面9に取付けられる取付板部4と、前記RFIDインレット2を担持する非金属製の担持板部5と、該担持板部5を前記取付板部4から所定間隔で離間させて保持し、かつ圧縮変形すると弾発力を生じる復元スペーサー板部6とからなる。   The inlet holder 3 includes a mounting plate portion 4 that is attached to an outer surface 9 of a metal attachment 7 (see FIG. 2), a non-metallic support plate portion 5 that supports the RFID inlet 2, and the support plate. The part 5 includes a restoring spacer plate part 6 that holds the part 5 apart from the mounting plate part 4 at a predetermined interval and generates a resilient force when compressed and deformed.

前記担持板部5は、硬質合成樹脂、弾性を有する合成樹脂または合成ゴムを用いて平板矩形状に形成されており、該担持板部5の裏面にRFIDインレット2が接着剤または粘着テープにより固定されて担持されている。一方、前記取付板部4は、硬質合成樹脂、弾性を有する合成樹脂または合成ゴム或いは金属板を用いて担持板部5と同一形状に形成されており、その裏面に設けられた粘着層8(図2参照)によって前記被取付物7の外面9に取付けられるようになっている。この粘着層8には剥離紙(図示省略)が剥離可能に被着されており、被取付物7の外面9に取付けられるまでの間、該剥離紙によってその粘着面が保護されている。尚、粘着層8は、取付板部4の裏面に粘着剤を塗布して設けたり、両面粘着テープを貼着することによって設けられ得る。また、この粘着層8に代えて、取付板部4に磁石を配設し、該磁石の磁力によって金属製の被取付物7の外面9に吸着させるようにしてもよい。さらに、取付板部4を鉄板等の強磁性体で形成した場合には、該強磁性体に着磁処理を施してもよい。   The carrier plate 5 is formed in a flat rectangular shape using a hard synthetic resin, an elastic synthetic resin or a synthetic rubber, and the RFID inlet 2 is fixed to the back surface of the carrier plate 5 with an adhesive or an adhesive tape. Being carried. On the other hand, the mounting plate portion 4 is formed in the same shape as the supporting plate portion 5 using a hard synthetic resin, an elastic synthetic resin, a synthetic rubber, or a metal plate, and an adhesive layer 8 ( 2), the outer surface 9 of the attachment 7 is attached. A release paper (not shown) is detachably attached to the adhesive layer 8, and the adhesive surface is protected by the release paper until it is attached to the outer surface 9 of the attachment 7. The pressure-sensitive adhesive layer 8 can be provided by applying a pressure-sensitive adhesive on the back surface of the mounting plate portion 4 or attaching a double-sided pressure-sensitive adhesive tape. Further, instead of the adhesive layer 8, a magnet may be disposed on the mounting plate portion 4 and may be attracted to the outer surface 9 of the metal attachment 7 by the magnetic force of the magnet. Furthermore, when the attachment plate portion 4 is formed of a ferromagnetic material such as an iron plate, the ferromagnetic material may be subjected to a magnetization process.

復元スペーサー板部6は、前記取付板部4と担持板部5間に設けられており、この第一実施例では、取付板部4と担持板部5の上下で対向する各辺縁を繋ぐようにして、側部の四箇所に夫々配設されている。各復元スペーサー板部6は、弾性を有する合成樹脂または合成ゴムの板状体によって、外方に突出する断面く字形に形成されている。ここで、弾性を有する合成樹脂としては、ポリエチレンテレフタレート(PET),ポリプロピレン(PP),ポリアセタール(POM),ポリカーボネート(PC),ポリブチレンテレフタレート(PBT),ポリフェニレンサルファイド(PPS)等が適用され、これらの中でも硬質で引張り強さ,曲げ強さ,圧縮強さ及び弾性に優れたポリエチレンテレフタレート(PET)やポリプロピレン(PP)が好適に用いられ得る。また、合成ゴムとしては、ウレタンゴム,シリコーンゴム,スチレン‐ブタジエンゴム(SBR),ニトリル‐ブタジエンゴム(NBR),ブタジエンゴム,イソプレンゴム,クロロプレンゴム等が用いられ得る。   The restoring spacer plate portion 6 is provided between the mounting plate portion 4 and the carrying plate portion 5. In this first embodiment, the restoring spacer plate portion 6 connects the edges of the mounting plate portion 4 and the carrying plate portion 5 that are opposed to each other at the top and bottom. In this way, they are arranged at four locations on the side. Each restoring spacer plate portion 6 is formed in a cross-sectional shape that protrudes outward by a plate-like body of synthetic resin or synthetic rubber having elasticity. Here, as the synthetic resin having elasticity, polyethylene terephthalate (PET), polypropylene (PP), polyacetal (POM), polycarbonate (PC), polybutylene terephthalate (PBT), polyphenylene sulfide (PPS) and the like are applied. Among them, polyethylene terephthalate (PET) and polypropylene (PP) which are hard and excellent in tensile strength, bending strength, compression strength and elasticity can be suitably used. As the synthetic rubber, urethane rubber, silicone rubber, styrene-butadiene rubber (SBR), nitrile-butadiene rubber (NBR), butadiene rubber, isoprene rubber, chloroprene rubber and the like can be used.

尚、復元スペーサー板部6は、弾性を有する合成樹脂または合成ゴムからなる取付板部4及び/または担持板部5と一体形成するようにしてもよい。   The restoring spacer plate portion 6 may be integrally formed with the mounting plate portion 4 and / or the supporting plate portion 5 made of an elastic synthetic resin or synthetic rubber.

インレット保持体3は、担持板部5の表面側からの外力を受けない定常状態にあっては、図2(A)に示すように、担持板部5が復元スペーサー板部6によって取付板部4から所定間隔で離間して保持されている。そして、担持板部5の表面側から外力を受けると、図2(B)に示すように、復元スペーサー板部6が圧縮変形し、担持板部5が取付板部4に近接する退避状態となる。また、担持板部5の表面側からの外力が除かれると、圧縮変形した復元スペーサー板部6に生じている弾発力によって、図2(A)に示すように、担持板部5が取付板部4から所定間隔で離間する定常状態に復帰する。尚、定常状態において担持板部5が取付板部4から離間する間隔は1cm程度に設定することが好ましい。   In the steady state where the inlet holder 3 is not subjected to external force from the front surface side of the support plate portion 5, the support plate portion 5 is attached to the mounting plate portion by the restoring spacer plate portion 6 as shown in FIG. It is held at a predetermined interval from 4. Then, when an external force is received from the surface side of the support plate portion 5, as shown in FIG. 2B, the restoring spacer plate portion 6 is compressed and deformed, and the support plate portion 5 is in a retracted state in the vicinity of the mounting plate portion 4. Become. When the external force from the surface side of the support plate portion 5 is removed, the support plate portion 5 is attached as shown in FIG. It returns to the steady state in which it is separated from the plate part 4 at a predetermined interval. It should be noted that the interval at which the support plate 5 is separated from the mounting plate 4 in a steady state is preferably set to about 1 cm.

図3(A)に、被取付物7としての金属製コンテナの側壁の外面9にRFIDタグ1Aを取付けた状態を示す。この状態にあっては、RFIDインレット2を担持する非金属製の担持板部5が被取付物7の外面9から所定間隔で離間して保持される定常状態(図2(A)参照)となり、送受信機能の低下が抑制されるため、RFIDインレット2によるデータの送受信を支障なく行わせることができる。   FIG. 3A shows a state in which the RFID tag 1A is attached to the outer surface 9 of the side wall of the metal container as the attachment 7. In this state, a steady state (see FIG. 2 (A)) in which the non-metallic carrier plate portion 5 carrying the RFID inlet 2 is held at a predetermined interval from the outer surface 9 of the attachment 7 is held. Since the deterioration of the transmission / reception function is suppressed, data transmission / reception by the RFID inlet 2 can be performed without any trouble.

一方、被取付物7の運搬時や保管時においては、図3(B)に示すように、RFIDタグ1Aが取付けられた被取付物7の外面9を、RFIDタグ1Aを介して他の被取付物7の外面9やトラックの荷台の壁面21(或いは建造物の壁面)に押し当てると、担持板部5の表面側から加わる外力によって復元スペーサー板部6が圧縮変形し、担持板部5が取付板部4に近接する退避状態(図2(B)参照)となる。これによりRFIDタグ1Aの厚みが薄くなり被取付物7の外面9からの突出幅が小さくなるため、RFIDタグ1Aの厚さに起因する被取付物7の嵩張りを解消することができる。また、外力が除かれると、圧縮変形した復元スペーサー板部6に生じている弾発力によって、担持板部5が取付板部4から所定間隔で離間する定常状態(図2(A)参照)に自動的に復帰させることができる。   On the other hand, during transportation and storage of the attachment 7, as shown in FIG. 3B, the outer surface 9 of the attachment 7 to which the RFID tag 1A is attached is connected to another attachment via the RFID tag 1A. When pressed against the outer surface 9 of the attachment 7 or the wall surface 21 of the truck bed (or the wall surface of the building), the restoring spacer plate portion 6 is compressed and deformed by an external force applied from the surface side of the support plate portion 5, and the support plate portion 5. Is in a retracted state (see FIG. 2B) close to the mounting plate portion 4. As a result, the thickness of the RFID tag 1A is reduced and the protruding width of the attached object 7 from the outer surface 9 is reduced, so that the bulkiness of the attached object 7 due to the thickness of the RFID tag 1A can be eliminated. Further, when the external force is removed, a steady state in which the supporting plate portion 5 is separated from the mounting plate portion 4 at a predetermined interval by the elastic force generated in the restored deformable spacer plate portion 6 (see FIG. 2A). Can be automatically restored.

図4は、第一実施例の第一の変形実施例を示し、この第一の変形実施例は、取付板部4と担持板部5の辺縁を繋ぐ復元スペーサー板部6を、前後方向または左右方向で対向する側部の二箇所に配設したものである。このように復元スペーサー板部6は、前後方向または左右方向で対向する側部の二箇所に少なくとも一対で設けられていればよい。   FIG. 4 shows a first modified embodiment of the first embodiment. In the first modified embodiment, the restoration spacer plate portion 6 that connects the edges of the mounting plate portion 4 and the support plate portion 5 is arranged in the front-rear direction. Or it arrange | positions in two places of the side part which opposes in the left-right direction. Thus, at least a pair of restoring spacer plate portions 6 may be provided at two locations on the side portions facing each other in the front-rear direction or the left-right direction.

図5は、第一実施例の第二の変形実施例を示し、この第二の変形実施例は、図5(A)に示すように、担持板部5の前後方向または左右方向で対向する二辺縁に復元スペーサー板部6を一対で配設し、各復元スペーサー板部6の下端に帯板状の取付板部4を連成したものである。このように取付板部4は必ずしも担持板部5と同一形状に形成する必要はなく、インレット保持体3を金属製の被取付物7(図5(B)参照)の外面9に取付け得る形状であればよい。   FIG. 5 shows a second modified embodiment of the first embodiment, and this second modified embodiment faces in the front-rear direction or the left-right direction of the carrier plate portion 5 as shown in FIG. A pair of restoring spacer plate portions 6 are arranged on the two edges, and a belt-like mounting plate portion 4 is coupled to the lower end of each restoring spacer plate portion 6. Thus, the mounting plate portion 4 does not necessarily have to be formed in the same shape as the support plate portion 5, and can be attached to the outer surface 9 of the metal attachment 7 (see FIG. 5B). If it is.

図6は、第一実施例の第三の変形実施例を示し、この第三の変形実施例は、担持板部5の裏面の前後または左右の二箇所に、弾性を有する合成樹脂板または合成ゴム板を用いて形成した断面略六角形を呈する弾性枠体10A,10Aを夫々配設したものであって、各弾性枠体10Aの天板部11が担持板部5の裏面に接合されており、各弾性枠体10Aの矩形状底板部分を取付板部4とし、く字形に屈曲して取付板部4と天板部11を繋ぐ二つのく字形に屈曲した帯板部分を復元スペーサー板部6としたものである。尚、弾性枠体10Aは、担持板部5の裏面の前後及び左右の四箇所に配設することも可能である。   FIG. 6 shows a third modified embodiment of the first embodiment. This third modified embodiment is a synthetic resin plate or a synthetic resin having elasticity at two places on the front and rear or the left and right of the back surface of the support plate portion 5. Elastic frame bodies 10A, 10A each having a substantially hexagonal cross section formed using a rubber plate are provided, and the top plate portion 11 of each elastic frame body 10A is joined to the back surface of the support plate portion 5. The rectangular bottom plate portion of each elastic frame 10A is used as the mounting plate portion 4, and the band plate portion bent into two character shapes that are bent in a square shape and connects the mounting plate portion 4 and the top plate portion 11 is restored to the restoring spacer plate. This is part 6. Note that the elastic frame body 10 </ b> A can also be disposed at four locations on the front and rear and on the left and right of the back surface of the support plate portion 5.

かかる構成にあっても、インレット保持体3は、担持板部5の表面側からの外力によって復元スペーサー板部6が圧縮変形して担持板部5が取付板部4に近接する退避状態となり、外力が除かれると、圧縮変形した復元スペーサー板部6に生じている弾発力によって担持板部5が取付板部4から所定間隔で離間して定常状態に復帰するものとなる。   Even in such a configuration, the inlet holding body 3 is in a retracted state in which the restoring spacer plate portion 6 is compressed and deformed by an external force from the surface side of the carrying plate portion 5 so that the carrying plate portion 5 is close to the mounting plate portion 4. When the external force is removed, the support plate portion 5 is separated from the mounting plate portion 4 at a predetermined interval by the elastic force generated in the compressed and deformed restoration spacer plate portion 6 and returns to the steady state.

図7(A)は、第一実施例の第四の変形実施例を示し、この第四の変形実施例は、担持板部5の裏面の前後または左右の二箇所に、弾性を有する合成樹脂板または合成ゴム板を用いて形成した断面略Z字形を呈する一対の弾性体10B,10Bを夫々配設したものであって、各弾性体10Bの天板部11が担持板部5の裏面に接合されており、各弾性体10Bの矩形状底板部分を取付板部4とし、該取付板部4と天板部11を繋ぐ傾斜した帯板部分を復元スペーサー板部6としたものである。尚、一対の弾性体10B,10Bは、担持板部5の裏面の前後及び左右の四箇所に配設することも可能である。また、図7(B)に示すように、各弾性体10Bの矩形状底板部分12を、担持板部5と同一形状に形成した取付板部4に接合する構成とすることも可能である。   FIG. 7A shows a fourth modified embodiment of the first embodiment. The fourth modified embodiment is a synthetic resin having elasticity at two locations on the front and rear sides or on the left and right of the back surface of the support plate portion 5. A pair of elastic bodies 10B, 10B each having a substantially Z-shaped cross section formed using a plate or a synthetic rubber plate are disposed, and the top plate portion 11 of each elastic body 10B is disposed on the back surface of the support plate portion 5. The rectangular bottom plate portion of each elastic body 10B is used as the attachment plate portion 4, and the inclined strip portion connecting the attachment plate portion 4 and the top plate portion 11 is used as the restoring spacer plate portion 6. It should be noted that the pair of elastic bodies 10B and 10B can also be disposed at the front and rear of the back surface of the support plate portion 5 and at the four locations on the left and right. Further, as shown in FIG. 7B, the rectangular bottom plate portion 12 of each elastic body 10 </ b> B can be joined to the mounting plate portion 4 formed in the same shape as the carrying plate portion 5.

尚、前記第一実施例及び各変形実施例にあって、インレット保持体3は矩形の立体形状に限定されるものではなく、その他の円形,三角形,多角形等の立体形状としてもよい。   In the first embodiment and each modified embodiment, the inlet holder 3 is not limited to a rectangular three-dimensional shape, and may be another three-dimensional shape such as a circle, a triangle, or a polygon.

図8,図9は、第二実施例を示し、この第二実施例のRFIDタグ1Bは、インレット保持体3の側部を覆う保護カバー体13を備えている。保護カバー体13は、担持板部5の上面に固着される基板部14の四辺縁から斜め下方に延成されてインレット保持体3の側部を囲繞する截頭角錐状の傾斜板部15を備えており、該傾斜板部15の四箇所のコーナー部分が切込み16によって分断されている。傾斜板部15は、担持板部5が取付板部4から離間して保持される定常状態(図9(A)参照)にあるときに、金属製の被取付物7の外面9に当接する長さに形成されている。この保護カバー体13の素材には、上述した弾性変形可能な合成樹脂や合成ゴムが用いられる。尚、このような保護カバー体13を設ける場合には、RFIDインレット2を担持板部5の表面側に固定することも可能である。   8 and 9 show a second embodiment, and the RFID tag 1B of the second embodiment includes a protective cover body 13 that covers the side portion of the inlet holder 3. The protective cover 13 includes a truncated pyramid-shaped inclined plate portion 15 that extends obliquely downward from the four edges of the substrate portion 14 fixed to the upper surface of the support plate portion 5 and surrounds the side portion of the inlet holder 3. The four corner portions of the inclined plate portion 15 are divided by the cuts 16. The inclined plate portion 15 comes into contact with the outer surface 9 of the metal attachment 7 when the carrier plate portion 5 is in a steady state (see FIG. 9A) in which it is held away from the attachment plate portion 4. It is formed in length. As the material of the protective cover body 13, the above-described elastically deformable synthetic resin or synthetic rubber is used. In the case where such a protective cover body 13 is provided, the RFID inlet 2 can be fixed to the surface side of the carrier plate portion 5.

かかる構成にあって、インレット保持体3が退避状態(図9(B)参照)と定常状態(図9(A)参照)とに選択的に変化すると、保護カバー体13がその弾性変形作用を介してインレット保持体3の状態変化に追従する。これにより、インレット保持体3の側部を保護カバー体13によって常時覆うことができるため、インレット保持体3に側方から加わる衝撃と、インレット保持体3内への異物の侵入とを防止することができるとともに、担持板部5に担持されたRFIDインレット2を保護することができる。   In this configuration, when the inlet holder 3 is selectively changed between the retracted state (see FIG. 9B) and the steady state (see FIG. 9A), the protective cover body 13 exerts its elastic deformation action. Through the state change of the inlet holder 3. Thereby, since the side part of the inlet holding body 3 can always be covered with the protective cover body 13, the impact applied to the inlet holding body 3 from the side and the entry of foreign matter into the inlet holding body 3 can be prevented. In addition, the RFID inlet 2 carried on the carrying plate portion 5 can be protected.

図10は、第三実施例を示し、この第三実施例のRFIDタグ1Cは、担持板部5を取付板部4から離間させる方向に付勢し、かつ定常状態に復帰させる補助付勢手段を備えている。補助付勢手段は、取付板部4と担持板部5間に介装されたばね17からなり、該ばね17には金属製または合成樹脂製のばねが用いられ得る。ここで、図示した実施例ではコイルばねからなる四個のばね17を、平板矩形状に形成された取付板部4及び担持板部5の四隅位置に配設しているが、担持板部5を取付板部4から均等に離間させる付勢作用が得られるのであれば、ばね17の数及び配設位置はこれに限定されるものではない。また、コイルばねに代えて板ばねを用いることも可能である。   FIG. 10 shows a third embodiment, and the RFID tag 1C according to the third embodiment urges the carrier plate portion 5 in the direction separating the mounting plate portion 5 from the mounting plate portion 4 and restores the steady state. It has. The auxiliary biasing means includes a spring 17 interposed between the mounting plate portion 4 and the support plate portion 5, and a spring made of metal or synthetic resin can be used for the spring 17. Here, in the illustrated embodiment, four springs 17 made of coil springs are arranged at the four corner positions of the mounting plate portion 4 and the supporting plate portion 5 formed in a flat plate rectangular shape. If the urging | biasing effect | action which leaves | separates uniformly from the attachment board part 4 is obtained, the number and arrangement | positioning position of the spring 17 will not be limited to this. Further, a leaf spring can be used instead of the coil spring.

かかる構成にあっては、ばね17からなる補助付勢手段によって担持板部5を退避状態から定常状態へ迅速かつ確実に復帰させることができる。   In this configuration, the supporting plate portion 5 can be quickly and reliably returned from the retracted state to the steady state by the auxiliary biasing means including the spring 17.

図11は、第四実施例を示し、この第四実施例のRFIDタグ1Dは、担持板部5を退避状態に保持するストッパー18,18を備えている。該ストッパー18,18は、担持板部5の上面の辺縁近傍に前後または左右一対で配設されている。各ストッパー18は略コ字形のフックからなり、該フックの一端が担持板部5の上面の辺縁近傍に固着された取付部材19を介して上下方向に回動可能に枢結されている。また、取付板部4の辺縁には前記ストッパー18,18の他端が係合可能な一対の係合溝20,20が形成されている。   FIG. 11 shows a fourth embodiment, and an RFID tag 1D according to the fourth embodiment includes stoppers 18 and 18 for holding the carrier plate portion 5 in a retracted state. The stoppers 18 and 18 are arranged in the vicinity of the edge of the upper surface of the support plate 5 in front and rear or a pair of left and right. Each stopper 18 is formed of a substantially U-shaped hook, and one end of the hook is pivotally connected to the upper surface of the support plate 5 via an attachment member 19 fixed in the vicinity of the edge of the upper surface of the carrier plate 5 so as to be vertically rotatable. In addition, a pair of engaging grooves 20, 20 that can engage the other ends of the stoppers 18, 18 are formed on the edge of the mounting plate portion 4.

かかる構成にあって、ストッパー18,18を使用するには、担持板部5を表面側から押圧して該担持板部5が取付板部4に近接する退避状態とし、この状態でストッパー18,18の他端を取付板部4の係合溝20,20に係合させることにより、図11(B)に示すように、担持板部5を退避状態に保持することができる。これにより、被取付物7の運搬時や保管時以外でも、RFIDインレット2によるデータの送受信を行う必要がないときには、ストッパー18,18によって担持板部5を退避状態に保持することにより、RFIDタグ1Dが被取付物7の外面9から大きく突出しないため、定常状態において被取付物7の外面9から突出するRFIDタグ1Dが周辺のものと衝突することによって発生するRFIDタグ1Dの脱落或いは破損や故障を未然に防止することができる。   In this configuration, in order to use the stoppers 18, 18, the carrier plate part 5 is pressed from the surface side to bring the carrier plate part 5 into a retracted state close to the mounting plate part 4, and in this state, the stopper 18, By engaging the other end of 18 with the engagement grooves 20 and 20 of the mounting plate portion 4, the carrier plate portion 5 can be held in the retracted state as shown in FIG. Thus, when it is not necessary to transmit / receive data by the RFID inlet 2 even when the attachment 7 is not transported or stored, the RFID tag 2 is held by the stoppers 18 and 18 in the retracted state. Since 1D does not protrude greatly from the outer surface 9 of the attachment 7, the RFID tag 1D protruding from the outer surface 9 of the attachment 7 in a steady state collides with the surrounding one, and the RFID tag 1D is dropped or damaged. Failure can be prevented in advance.

尚、上述した第四実施例にあっては、ストッパー18,18を担持板部5に配設し、係合溝20,20を取付板部4に配設するようにしているが、このストッパー18,18と係合溝20,20の配置関係を逆にすることも可能である。また、ストッパー18,18を略コ字形のフックとしたが、これに代えて一対の平帯体の先端に面ファスナーを設けたものや、一対の平帯体の先端に係脱可能なホックを設けたものであってもよい。   In the above-described fourth embodiment, the stoppers 18 and 18 are disposed on the carrier plate portion 5 and the engaging grooves 20 and 20 are disposed on the mounting plate portion 4. It is also possible to reverse the positional relationship between the 18, 18 and the engaging grooves 20, 20. In addition, the stoppers 18 and 18 are substantially U-shaped hooks, but instead of this, a hook provided with a hook-and-loop fastener at the ends of a pair of flat strips or a hook that can be engaged and disengaged at the ends of the pair of flat strips. It may be provided.

1A〜1D RFIDタグ
2 RFIDインレット
3 インレット保持体
4 取付板部
5 担持板部
6 復元スペーサー板部
7 被取付物
9 外面
13 保護カバー体
17 ばね(補助付勢手段)
18 ストッパー
1A to 1D RFID tag 2 RFID inlet 3 Inlet holder 4 Mounting plate portion 5 Supporting plate portion 6 Restoring spacer plate portion 7 Mounted object 9 Outer surface 13 Protective cover body 17 Spring (auxiliary biasing means)
18 Stopper

Claims (5)

データを書き換え可能に格納するメモリを具備したICチップと、該ICチップに接続されたアンテナとを備え、前記データを所定の入出力装置と非接触で送受信する機能を備えたRFIDインレットと、
金属製の被取付物の外面に取付けられる取付板部と、RFIDインレットを担持する非金属製の担持板部と、該担持板部を前記取付板部から所定間隔で離間させて保持し、かつ圧縮変形すると弾発力を生じる少なくとも一対の復元スペーサー板部とからなり、担持板部の表面側からの外力によって復元スペーサー板部が圧縮変形すると担持板部が取付板部に近接する退避状態となり、外力が除かれると、圧縮変形した復元スペーサー板部に生じている弾発力によって担持板部が取付板部から所定間隔で離間して定常状態に復帰するインレット保持体と
を備えてなるものであって、
復元スペーサー板部は、上下で対向して配置される取付板部と担持板部の、各辺縁を繋ぐようにして両板部間に設けられた、外方に突出する断面く字形をなすものであることを特徴とするRFIDタグ。
An RFID chip having an IC chip having a memory for storing data in a rewritable manner and an antenna connected to the IC chip, and having a function of transmitting and receiving the data in a contactless manner with a predetermined input / output device;
A mounting plate portion attached to the outer surface of the metal attachment, a non-metallic carrier plate portion supporting the RFID inlet, the carrier plate portion being held at a predetermined distance from the mounting plate portion, and It consists of at least a pair of restoring spacer plates that generate elastic force when compressed and deformed, and when the restoring spacer plates are compressed and deformed by an external force from the surface side of the carrying plate, the carrying plate is in a retracted state close to the mounting plate. An inlet holding body in which when the external force is removed, the supporting plate portion is separated from the mounting plate portion at a predetermined interval by a resilient force generated in the compressed and deformed restoring spacer plate portion and returns to a steady state;
Comprising:
The restoring spacer plate portion is formed in a cross-sectional shape projecting outwardly provided between the plate portions so as to connect the edges of the mounting plate portion and the supporting plate portion arranged facing each other in the vertical direction. An RFID tag characterized by being a thing.
担持板部を取付板部から離間させる方向に付勢し、かつ定常状態に復帰させるばねからなる補助付勢手段を備えていることを特徴とする請求項1に記載のRFIDタグ。 2. The RFID tag according to claim 1 , further comprising auxiliary urging means comprising a spring that urges the support plate portion in a direction away from the mounting plate portion and returns to a steady state. 担持板部を退避状態に保持するストッパーを備えていることを特徴とする請求項1又は請求項2に記載のRFIDタグ。 The RFID tag according to claim 1, further comprising a stopper that holds the carrying plate portion in a retracted state. データを書き換え可能に格納するメモリを具備したICチップと、該ICチップに接続されたアンテナとを備え、前記データを所定の入出力装置と非接触で送受信する機能を備えたRFIDインレットと、
金属製の被取付物の外面に取付けられる取付板部と、RFIDインレットを担持する非金属製の担持板部と、該担持板部を前記取付板部から所定間隔で離間させて保持し、かつ圧縮変形すると弾発力を生じる少なくとも一対の復元スペーサー板部とからなり、担持板部の表面側からの外力によって復元スペーサー板部が圧縮変形すると担持板部が取付板部に近接する退避状態となり、外力が除かれると、圧縮変形した復元スペーサー板部に生じている弾発力によって担持板部が取付板部から所定間隔で離間して定常状態に復帰するインレット保持体と
備えてなるものであって、
担持板部の裏面の前後または左右の二箇所に、弾性を有する合成樹脂板または合成ゴム板を用いて形成した断面略六角形を呈する弾性枠体を夫々配設し、かつ各弾性枠体の天板部を担持板部の裏面に接合することにより、各弾性枠体の矩形状底板部分を取付板部とし、く字形に屈曲して取付板部と天板部を繋ぐ二つのく字形に屈曲した帯板部分を復元スペーサー板部とした
ことを特徴とするRFIDタグ。
An RFID chip having an IC chip having a memory for storing data in a rewritable manner and an antenna connected to the IC chip, and having a function of transmitting and receiving the data in a contactless manner with a predetermined input / output device;
A mounting plate portion attached to the outer surface of the metal attachment, a non-metallic carrier plate portion supporting the RFID inlet, the carrier plate portion being held at a predetermined distance from the mounting plate portion, and It consists of at least a pair of restoring spacer plates that generate elastic force when compressed and deformed, and when the restoring spacer plates are compressed and deformed by an external force from the surface side of the carrying plate, the carrying plate is in a retracted state close to the mounting plate. , when an external force is removed, carrier plate portion by the elastic force occurring to restore the spacer plate portion which is compressed and deformed is provided with an inlet holding member spaced from the attachment plate portion at predetermined intervals to return to a steady state as Because
Elastic frames each having a substantially hexagonal cross section formed by using a synthetic resin plate or a synthetic rubber plate having elasticity are arranged in front, rear, or left and right of the back surface of the support plate portion, and each elastic frame By joining the top plate part to the back surface of the carrier plate part, the rectangular bottom plate part of each elastic frame is used as the attachment plate part, bent into a square shape and connected to the two plate shapes connecting the attachment plate part and the top plate part. An RFID tag characterized in that a bent strip plate portion is used as a restoring spacer plate portion .
データを書き換え可能に格納するメモリを具備したICチップと、該ICチップに接続されたアンテナとを備え、前記データを所定の入出力装置と非接触で送受信する機能を備えたRFIDインレットと、
金属製の被取付物の外面に取付けられる取付板部と、RFIDインレットを担持する非金属製の担持板部と、該担持板部を前記取付板部から所定間隔で離間させて保持し、かつ圧縮変形すると弾発力を生じる少なくとも一対の復元スペーサー板部とからなり、担持板部の表面側からの外力によって復元スペーサー板部が圧縮変形すると担持板部が取付板部に近接する退避状態となり、外力が除かれると、圧縮変形した復元スペーサー板部に生じている弾発力によって担持板部が取付板部から所定間隔で離間して定常状態に復帰するインレット保持体と
備えてなるものであって、
担持板部の裏面の前後または左右の二箇所に、弾性を有する合成樹脂板または合成ゴム板を用いて形成した断面略Z字形を呈する一対の弾性体を夫々配設し、各弾性体の天板部を担持板部の裏面に接合することにより、各弾性体の矩形状底板部分を取付板部とし、該取付板部と天板部を繋ぐ傾斜した帯板部分を復元スペーサー板部とした
ことを特徴とするRFIDタグ。
An RFID chip having an IC chip having a memory for storing data in a rewritable manner and an antenna connected to the IC chip, and having a function of transmitting and receiving the data in a contactless manner with a predetermined input / output device;
A mounting plate portion attached to the outer surface of the metal attachment, a non-metallic carrier plate portion supporting the RFID inlet, the carrier plate portion being held at a predetermined distance from the mounting plate portion, and It consists of at least a pair of restoring spacer plates that generate elastic force when compressed and deformed, and when the restoring spacer plates are compressed and deformed by an external force from the surface side of the carrying plate, the carrying plate is in a retracted state close to the mounting plate. , when an external force is removed, carrier plate portion by the elastic force occurring to restore the spacer plate portion which is compressed and deformed is provided with an inlet holding member spaced from the attachment plate portion at predetermined intervals to return to a steady state as Because
A pair of elastic bodies having a substantially Z-shaped cross section formed by using a synthetic resin plate or a synthetic rubber plate having elasticity are arranged in front, rear, left and right of the back surface of the supporting plate portion, respectively. By joining the plate part to the back surface of the support plate part, the rectangular bottom plate part of each elastic body is used as a mounting plate part, and the inclined strip part connecting the mounting plate part and the top plate part is used as a restoring spacer plate part. An RFID tag characterized by the above.
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