JP2012043283A - Non-contact type data receiving/transmitting body - Google Patents

Non-contact type data receiving/transmitting body Download PDF

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JP2012043283A
JP2012043283A JP2010185301A JP2010185301A JP2012043283A JP 2012043283 A JP2012043283 A JP 2012043283A JP 2010185301 A JP2010185301 A JP 2010185301A JP 2010185301 A JP2010185301 A JP 2010185301A JP 2012043283 A JP2012043283 A JP 2012043283A
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covering material
protective member
data receiving
chip
protective
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Hitoshi Kagaya
仁 加賀谷
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Toppan Edge Inc
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Toppan Forms Co Ltd
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Abstract

PROBLEM TO BE SOLVED: To provide a non-contact type data receiving/transmitting body having excellent durability and flexibility even in a high-temperature/high-pressure environment.SOLUTION: A non-contact type data receiving/transmitting body 10 includes: an inlet 11; a coating material 12 for coating both surfaces of the inlet 11; and a protective member 15 attached to the coating material 12 to overlap with at least an IC chip 17 and the vicinity. First recesses 22 and 22 recessed in a short-side direction of a laminated body 21 constituted of the inlet 11 and the coating material 12 are provided in the vicinity of the IC chip 17 on both sides of an outer edge along a long-side direction of the laminated body 21. The protective member 15 is externally fitted to the first recesses 22 and 22. The coating material 12 is made of a flexible material, while the protective member 15 is made of a material harder than the coating material 12.

Description

本発明は、RFID(Radio Frequency IDentification)用途の情報記録メディアのように、電磁波または電波を媒体として外部から情報を受信し、また、外部に情報を送信できるようにした非接触型データ受送信体に関し、特に、高温・高圧の環境における耐久性に優れるとともに柔軟性にも優れる非接触型データ受送信体に関する。  The present invention relates to a non-contact type data receiver / receiver that can receive information from the outside using electromagnetic waves or radio waves as a medium, and can transmit information to the outside, such as an information recording medium for RFID (Radio Frequency IDentification). In particular, the present invention relates to a non-contact type data receiving / transmitting body that has excellent durability in a high temperature / high pressure environment and excellent flexibility.

非接触型データ受送信体の一例であるICタグは、基材と、その一方の面に設けられ互いに接続されたアンテナおよびICチップとから構成されるインレットを備えており、情報書込/読出装置からの電磁波または電波を受信すると共振作用によりアンテナに起電力が発生し、この起電力によりICタグ内のICチップが起動し、このICチップ内の情報を信号化し、この信号がICタグのアンテナから発信される。  An IC tag, which is an example of a non-contact type data transmitting / receiving body, includes an inlet composed of a base material, an antenna provided on one surface thereof and connected to each other, and an information writing / reading When an electromagnetic wave or radio wave is received from the device, an electromotive force is generated in the antenna by a resonance action, and the IC chip in the IC tag is activated by this electromotive force, and the information in the IC chip is converted into a signal. Transmitted from the antenna.

このようなICタグの一例として衣類に取り付けることを目的とするリネンタグと呼ばれるものが知られている。リネンタグは、例えば、洗濯時やクリーニング時などにおいて、高温・高圧の環境にさらされる。したがって、リネンタグは、このような環境にも耐え得る構造であることが求められている。
リネンタグとしては、ICチップと、長方形状のアンテナと、ICチップを覆う硬質の第一の保護材と、アンテナの少なくとも一部を覆い、第一の保護材よりも軟質の第二の保護材とを備えたものが開示されている(例えば、特許文献1参照)。 As an example of such an IC tag, a so-called linen tag intended to be attached to clothing is known. Linen tags are exposed to high temperature and high pressure environments, for example, during washing and cleaning. Therefore, the linen tag is required to have a structure that can withstand such an environment.
The linen tag includes an IC chip, a rectangular antenna, a hard first protective material that covers the IC chip, a second protective material that covers at least a part of the antenna and is softer than the first protective material. (For example, refer patent document 1).

特開2007−004323号公報JP 2007-004323 A

しかしながら、上述のような構造のリネンタグでは、軟質の第二の保護材によって、硬質の第一の保護材が覆われているため、このリネンタグを曲げると、第二の保護材におけるアンテナ部材のみを覆っている部分と、第二の保護材における第一の保護材を覆っている部分との境界近傍で、第二の保護材が破れて、第一の保護材が外部に露出するという問題があった。このように第二の保護材が破れると、リネンタグの高温・高圧の環境における耐久性が劣化する。  However, in the linen tag having the above-described structure, the hard first protective material is covered with the soft second protective material. Therefore, when the linen tag is bent, only the antenna member in the second protective material is used. In the vicinity of the boundary between the covering portion and the portion covering the first protective material in the second protective material, there is a problem that the second protective material is torn and the first protective material is exposed to the outside. there were. When the second protective material is broken in this way, the durability of the linen tag in a high temperature / high pressure environment deteriorates.

本発明は、上記事情に鑑みてなされたものであって、高温・高圧の環境においても耐久性に優れるとともに柔軟性にも優れる非接触型データ受送信体を提供することを目的とする。  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a non-contact type data transmitting / receiving body that is excellent in durability and flexibility even in a high temperature / high pressure environment.

本発明の非接触型データ受送信体は、インレットと、該インレットにおける少なくともICチップが設けられた面を被覆する被覆材と、少なくとも前記ICチップおよびその近傍に重なるように、前記被覆材、または、前記被覆材および前記インレットの基材に添設された保護部材と、を備えてなる非接触型データ受送信体であって、前記インレットと前記被覆材からなる積層体の長手方向に沿う外縁の両側には、前記ICチップの近傍において、前記積層体の短手方向に凹む第一の凹部が設けられ、該第一の凹部に前記保護部材が外嵌され、前記被覆材は可撓性の材料からなり、前記保護部材は、前記被覆材よりも硬質の材料からなることを特徴とする。  The non-contact type data transmitting / receiving body of the present invention includes an inlet, a covering material that covers at least a surface of the inlet on which the IC chip is provided, and the covering material so as to overlap at least the IC chip and the vicinity thereof, or A non-contact type data receiving / transmitting body comprising a covering member and a protective member attached to a base material of the inlet, and an outer edge along a longitudinal direction of the laminate including the inlet and the covering material On both sides, a first recess is provided in the vicinity of the IC chip and is recessed in the short direction of the laminate. The protective member is externally fitted in the first recess, and the covering material is flexible. The protective member is made of a material harder than the covering material.

前記保護部材の前記被覆材と対向する面において、前記積層体の長手方向または短手方向に沿う外縁の両側には突条が設けられたことが好ましい。  It is preferable that protrusions are provided on both sides of the outer edge along the longitudinal direction or the lateral direction of the laminated body on the surface of the protective member facing the covering material.

前記被覆材には、前記第一の凹部の一方から他方に渡って延在し、前記被覆材の厚さ方向に凹む第二の凹部が設けられ、該第二の凹部に前記保護部材が外嵌されたことが好ましい。  The covering material is provided with a second recessed portion extending from one side of the first recessed portion to the other and recessed in the thickness direction of the covering material, and the protective member is disposed in the second recessed portion. It is preferable that it is fitted.

本発明の非接触型データ受送信体によれば、インレットと被覆材からなる積層体の長手方向に沿う外縁の両側に設けられた第一の凹部に保護部材が外嵌されて、被覆材を介して、ICチップおよびその近傍に重なるように、保護部材が配置されているので、洗濯時やクリーニング時などにおいて、高温・高圧の環境にさらされた場合であっても、保護部材が位置ずれすることなく、ICチップおよびその近傍に外力が加わるのを抑制できる。また、第一の凹部に保護部材が外嵌されることにより、保護部材が位置決め、固定されるので、保護部材を圧着、熔着または楔着することなく、インレットと被覆材からなる積層体に対して保護部材を固定することができるから、これらの固定方法を用いて保護部材を固定することによって、ICチップおよびその近傍が劣化するのを防止できる。また、被覆材は可撓性の材料からなり、被覆材を覆う保護部材は、被覆材よりも硬質の材料からなるので、積層体を曲げても、被覆材が破れて、インレットが露出することがない。したがって、本発明の非接触型データ受送信体は、高温・高圧の環境における耐久性に優れたものである。  According to the non-contact type data receiving / transmitting body of the present invention, the protective member is externally fitted to the first concave portions provided on both sides of the outer edge along the longitudinal direction of the laminate composed of the inlet and the covering material, and the covering material is used. Since the protective member is arranged so as to overlap with the IC chip and its vicinity, the protective member is displaced even when exposed to a high temperature and high pressure environment during washing or cleaning. Therefore, it is possible to suppress the external force from being applied to the IC chip and the vicinity thereof. Further, since the protective member is positioned and fixed by externally fitting the protective member in the first recess, the laminated member composed of the inlet and the covering material can be formed without crimping, welding, or wedged the protective member. On the other hand, since the protective member can be fixed, it is possible to prevent the IC chip and its vicinity from deteriorating by fixing the protective member using these fixing methods. In addition, the covering material is made of a flexible material, and the protective member covering the covering material is made of a material harder than the covering material. Therefore, even if the laminate is bent, the covering material is torn and the inlet is exposed. There is no. Therefore, the non-contact type data transmitting / receiving body of the present invention is excellent in durability in a high temperature / high pressure environment.

本発明の非接触型データ受送信体の第一の実施形態を示す概略構成図であり、(a)は平面図、(b)は(a)のA−A線に沿う断面図、(c)は(a)のB−B線に沿う断面図である。It is a schematic block diagram which shows 1st embodiment of the non-contact-type data transmission / reception body of this invention, (a) is a top view, (b) is sectional drawing which follows the AA line of (a), (c ) Is a cross-sectional view taken along line BB in FIG. 本発明の非接触型データ受送信体の第一の実施形態に用いられる保護部材を示す概略図であり、(a)は平面図、(b)は(a)のC−C線に沿う断面図、(c)は(a)のD−D線に沿う断面図である。It is the schematic which shows the protection member used for 1st embodiment of the non-contact-type data transmission / reception body of this invention, (a) is a top view, (b) is the cross section in alignment with CC line of (a). FIG. 4C is a cross-sectional view taken along the line DD in FIG. 本発明の非接触型データ受送信体の第二の実施形態を示す概略構成図であり、(a)は平面図、(b)は(a)のE−E線に沿う断面図、(c)は(a)のF−F線に沿う断面図である。It is a schematic block diagram which shows 2nd embodiment of the non-contact-type data transmission / reception body of this invention, (a) is a top view, (b) is sectional drawing which follows the EE line of (a), (c ) Is a cross-sectional view taken along line FF in FIG. 本発明の非接触型データ受送信体の第二の実施形態に用いられる保護部材を示す概略図であり、(a)は平面図、(b)は(a)のG−G線に沿う断面図、(c)は(a)のH−H線に沿う断面図である。It is the schematic which shows the protection member used for 2nd embodiment of the non-contact-type data transmission / reception body of this invention, (a) is a top view, (b) is the cross section which follows the GG line of (a). FIG. 4C is a cross-sectional view taken along the line HH in FIG. 本発明の非接触型データ受送信体の第三の実施形態を示す概略構成図であり、(a)は平面図、(b)は(a)のI−I線に沿う断面図、(c)は(a)のJ−J線に沿う断面図である。It is a schematic block diagram which shows 3rd embodiment of the non-contact-type data transmission / reception body of this invention, (a) is a top view, (b) is sectional drawing which follows the II line | wire of (a), (c ) Is a cross-sectional view taken along line JJ in FIG. 本発明の非接触型データ受送信体の第四の実施形態を示す概略構成図であり、(a)は平面図、(b)は(a)のK−K線に沿う断面図、(c)は(a)のL−L線に沿う断面図である。It is a schematic block diagram which shows 4th embodiment of the non-contact-type data transmission / reception body of this invention, (a) is a top view, (b) is sectional drawing which follows the KK line | wire of (a), (c ) Is a cross-sectional view taken along line LL in FIG. 本発明の非接触型データ受送信体に用いられる保護部材の第三の実施形態を示す概略斜視図である。It is a schematic perspective view which shows 3rd embodiment of the protection member used for the non-contact-type data transmission / reception body of this invention. 本発明の非接触型データ受送信体に用いられる保護部材の第四の実施形態を示す概略斜視図である。It is a schematic perspective view which shows 4th embodiment of the protection member used for the non-contact-type data transmission / reception body of this invention. 本発明の非接触型データ受送信体に用いられる保護部材の第五の実施形態を示す概略斜視図である。It is a schematic perspective view which shows 5th embodiment of the protection member used for the non-contact-type data transmission / reception body of this invention.

本発明の非接触型データ受送信体の実施の形態について説明する。
なお、この実施の形態は、発明の趣旨をより良く理解させるために具体的に説明するものであり、特に指定のない限り、本発明を限定するものではない。 An embodiment of the non-contact type data receiving / transmitting body of the present invention will be described.
This embodiment is specifically described for better understanding of the gist of the invention, and does not limit the present invention unless otherwise specified.

(1)非接触型データ受送信体の第一の実施形態
図1は、本発明の非接触型データ受送信体の第一の実施形態を示す概略構成図であり、(a)は平面図、(b)は(a)のA−A線に沿う断面図、(c)は(a)のB−B線に沿う断面図である。図2は、本発明の非接触型データ受送信体の第一の実施形態に用いられる保護部材を示す概略図であり、(a)は平面図、(b)は(a)のC−C線に沿う断面図、(c)は(a)のD−D線に沿う断面図である。
この実施形態の非接触型データ受送信体10は、平面視略長方形状のインレット11と、インレット11の一方の面11aを被覆する第一の被覆材13と、インレット11の他方の面11bを被覆する第二の被覆材14と、第一の被覆材13および第二の被覆材14を介してインレット11のICチップ17およびその近傍に重なるように、第一の被覆材13および第二の被覆材14に添設された保護部材15とから概略構成されている。 (1) First Embodiment of Non-Contact Data Receiver / Transmitter FIG. 1 is a schematic configuration diagram showing a first embodiment of a non-contact data receiver / transmitter of the present invention, and (a) is a plan view. (B) is sectional drawing which follows the AA line of (a), (c) is sectional drawing which follows the BB line of (a). FIG. 2 is a schematic view showing a protective member used in the first embodiment of the non-contact type data receiving / transmitting body of the present invention, where (a) is a plan view and (b) is a CC of (a). Sectional drawing which follows a line, (c) is sectional drawing which follows the DD line | wire of (a).
The non-contact type data transmitting / receiving body 10 of this embodiment includes an inlet 11 having a substantially rectangular shape in plan view, a first covering material 13 that covers one surface 11 a of the inlet 11, and the other surface 11 b of the inlet 11. The first covering material 13 and the second covering material 14 are overlapped with the IC chip 17 of the inlet 11 and the vicinity thereof via the second covering material 14 to be coated, the first covering material 13 and the second covering material 14. A protective member 15 attached to the covering material 14 is schematically configured.

なお、第一の被覆材13と第二の被覆材14を総称して、被覆材12ということもある。
すなわち、非接触型データ受送信体10は、インレット11の両面(一方の面11aおよび他方の面11b)が、被覆材12で直接、被覆されて、第一の被覆材13、インレット11および第二の被覆材14が、その厚さ方向において、この順に積層された構造をなしている。これにより、非接触型データ受送信体10は、平面視略長方形状をなしている。 The first covering material 13 and the second covering material 14 may be collectively referred to as the covering material 12.
That is, in the non-contact type data receiving / transmitting body 10, both surfaces (one surface 11a and the other surface 11b) of the inlet 11 are directly covered with the covering material 12, and the first covering material 13, the inlet 11 and the first surface 11 The two coating | covering materials 14 have comprised the structure laminated | stacked in this order in the thickness direction. Thereby, the non-contact type data receiving / transmitting body 10 has a substantially rectangular shape in plan view.

インレット11は、基材16と、基材16の一方の面16aに設けられ、互いに電気的に接続されたICチップ17およびアンテナ18とから概略構成されている。
アンテナ18は、各種導電体からなり、互いに対向し、その対向する側にそれぞれ給電点(ICチップ17と接続している部分)を有する一対の面状の放射素子19,20からなるダイポールアンテナである。
アンテナ18の長手方向における長さは、非接触ICカードなどの非接触ICモジュールに利用できる極超短波帯〈UHF〉やマイクロ波帯の電波帯の周波数(300MHz〜30GHz)の1/2波長に相当する長さとなっている。すなわち、放射素子19,20の長手方向における長さは、1/4波長に相当する長さとなっている。 The inlet 11 is generally configured by a base material 16 and an IC chip 17 and an antenna 18 which are provided on one surface 16a of the base material 16 and are electrically connected to each other.
The antenna 18 is a dipole antenna composed of a pair of planar radiating elements 19 and 20 made of various conductors, facing each other and having a feeding point (portion connected to the IC chip 17) on the facing side. is there.
The length in the longitudinal direction of the antenna 18 corresponds to a half wavelength of the frequency (300 MHz to 30 GHz) of the ultra-high frequency band <UHF> and the microwave band that can be used for a non-contact IC module such as a non-contact IC card. It is the length to do. That is, the length in the longitudinal direction of the radiating elements 19 and 20 is a length corresponding to a quarter wavelength.

なお、インレット11の一方の面11aは、基材16の一方の面16aに相当し、インレット11の他方の面11bは、基材16の他方の面16bに相当する。
ゆえに、インレット11の一方の面11aでは、ICチップ17およびアンテナ18が第一の被覆材13によって被覆されている。 One surface 11 a of the inlet 11 corresponds to one surface 16 a of the base material 16, and the other surface 11 b of the inlet 11 corresponds to the other surface 16 b of the base material 16.
Therefore, the IC chip 17 and the antenna 18 are covered with the first covering member 13 on the one surface 11 a of the inlet 11.

また、インレット11と被覆材12からなる積層体21の長手方向に沿う外縁の両側には、ICチップ17の近傍、すなわち、積層体21の長手方向の中央部において、積層体21の短手方向(積層体21の幅方向)に凹む、一対の第一の凹部22,22が対向して設けられている。  In addition, on both sides of the outer edge along the longitudinal direction of the laminated body 21 composed of the inlet 11 and the covering material 12, in the short direction of the laminated body 21 in the vicinity of the IC chip 17, that is, in the central portion of the laminated body 21 in the longitudinal direction. A pair of first recesses 22 and 22 that are recessed in the width direction of the laminated body 21 are provided to face each other.

また、第一の凹部22は、積層体21の長手方向に沿って、その積層体21の短手方向に一定の幅で凹むように設けられている。また、第一の凹部22の幅は、後述する保護部材15を構成する第一部材23Aおよび第二部材23Bの側壁部25の厚さとほぼ等しくなっている。
これにより、第一の凹部22,22に保護部材15が外嵌された場合、保護部材15の外側面15aが積層体21の側面21aと同一面上に配置され、かつ、保護部材15の外側面15bが積層体21の側面21bと同一面上に配置されている。すなわち、積層体21の側面21a,21bに対して突出しないように、保護部材15が配置されている。 The first recess 22 is provided so as to be recessed with a certain width in the short direction of the laminate 21 along the longitudinal direction of the laminate 21. Further, the width of the first concave portion 22 is substantially equal to the thickness of the side wall portion 25 of the first member 23A and the second member 23B constituting the protective member 15 described later.
Thereby, when the protection member 15 is fitted on the first recesses 22, 22, the outer surface 15 a of the protection member 15 is arranged on the same surface as the side surface 21 a of the laminated body 21, and the outer side of the protection member 15 is outside. The side surface 15 b is disposed on the same plane as the side surface 21 b of the stacked body 21. That is, the protection member 15 is disposed so as not to protrude with respect to the side surfaces 21 a and 21 b of the stacked body 21.

また、第一の凹部22,22にて、保護部材15の内側面15cが積層体21の側面21aに密着され、保護部材15の内側面15dが積層体21の側面21bに密着されている。
さらに、保護部材15の内表面15eの全面が被覆材12の表面(外面)12aに密着され、かつ、保護部材15の内底面15fの全面が被覆材12の表面(外面)12bに密着されている。
これにより、積層体21が保護部材15に挿通された状態となっている。
なお、被覆材12の表面(外面)12aは、第一の被覆材13の外面(第一の被覆材13のインレット11と接している面とは反対側の面)13aに相当し、被覆材12の表面(外面)12bは、第二の被覆材14の外面(第二の被覆材14のインレット11と接している面とは反対側の面)14aに相当する。 Further, the inner side surface 15 c of the protective member 15 is in close contact with the side surface 21 a of the stacked body 21, and the inner side surface 15 d of the protective member 15 is in close contact with the side surface 21 b of the stacked body 21 in the first recesses 22 and 22.
Further, the entire inner surface 15e of the protective member 15 is in close contact with the surface (outer surface) 12a of the covering member 12, and the entire inner bottom surface 15f of the protective member 15 is in close contact with the surface (outer surface) 12b of the covering member 12. Yes.
Thereby, the laminated body 21 is inserted into the protective member 15.
The surface (outer surface) 12a of the covering material 12 corresponds to the outer surface of the first covering material 13 (the surface opposite to the surface in contact with the inlet 11 of the first covering material 13) 13a. The surface (outer surface) 12b of 12 corresponds to the outer surface of the second covering material 14 (the surface opposite to the surface in contact with the inlet 11 of the second covering material 14) 14a.

第一の被覆材13の厚さは、特に限定されないが、少なくともインレット11のICチップ17およびアンテナ18に起因する凹凸が、被覆材12の表面(外面)12a(第一の被覆材13の外面13a)に現れない程度、かつ、インレット11が外部からの衝撃により破損しない程度であり、例えば、10μm〜2000mmの範囲内である。
また、第二の被覆材14の厚さは、特に限定されないが、インレット11が外部からの衝撃により破損しない程度であり、例えば、10μm〜2000mmの範囲内である。 The thickness of the first covering material 13 is not particularly limited, but at least unevenness caused by the IC chip 17 and the antenna 18 of the inlet 11 is the surface (outer surface) 12a of the covering material 12 (the outer surface of the first covering material 13). 13a) and the extent that the inlet 11 is not damaged by an external impact, for example, in the range of 10 μm to 2000 mm.
The thickness of the second covering material 14 is not particularly limited, but is such that the inlet 11 is not damaged by an external impact, and is, for example, in the range of 10 μm to 2000 mm.

さらに、積層体21の柔軟性(可撓性)を十分なものとし、積層体21を曲げた場合に、インレット11に対して、第一の被覆材13と第二の被覆材14の厚さの差に起因する応力が生じないようにするためには、第一の被覆材13の厚さと第二の被覆材14の厚さは等しいことが好ましい。  Furthermore, when the softness | flexibility (flexibility) of the laminated body 21 is made sufficient and the laminated body 21 is bent, the thickness of the 1st coating | covering material 13 and the 2nd coating | covering material 14 with respect to the inlet 11 In order to prevent the stress due to the difference between the thicknesses of the first covering material 13 and the second covering material 14, it is preferable that the thickness is equal.

保護部材15は、同一形状の第一部材23Aと第二部材23Bを組み合わせてなる筒状の部材である。
すなわち、保護部材15は、積層体21の両面(一方の外面および他方の外面)側から、第一の凹部22に外嵌された第一部材23Aと第二部材23Bが、積層体21の厚さの中間において、互いに突き合わされ、熔着されて、固定されたものである。 The protection member 15 is a cylindrical member formed by combining the first member 23A and the second member 23B having the same shape.
That is, the protective member 15 includes a first member 23A and a second member 23B that are externally fitted to the first recess 22 from both sides (one outer surface and the other outer surface) of the laminate 21. In the middle, they are butted together, welded and fixed.

第一部材23Aおよび第二部材23Bは、平面視略長方形状でかつ平板状の基部24と、基部24の一方の面(被覆材12と対向する面)24aの対向する縁(ここでは、基部24の一方の面24aの対向する短辺側の縁)のそれぞれに垂設された一対の側壁部25,25とから構成されている。
一対の側壁部25,25の間隔は、積層体21において、第一の凹部22,22の間の幅とほぼ等しくなっている。したがって、第一の凹部22,22に、第一部材23Aおよび第二部材23Bが外嵌された場合、第一の凹部22,22にて、側壁部25,25の内側面25a,25aが、積層体21の側面21a,21bに密着する。
なお、側壁部25,25の内側面25a,25aは、保護部材15の内側面15c,15dに相当する。 The first member 23A and the second member 23B are substantially rectangular in plan view and have a flat plate-like base 24 and opposing edges (here, the base) of one surface (surface facing the covering material 12) 24a of the base 24. 24, one side 24a of the one side 24a is opposed to each other on the short side thereof).
The interval between the pair of side wall portions 25, 25 is substantially equal to the width between the first concave portions 22, 22 in the stacked body 21. Therefore, when the first member 23A and the second member 23B are externally fitted to the first recesses 22 and 22, the inner side surfaces 25a and 25a of the side wall portions 25 and 25 at the first recesses 22 and 22 are The laminate 21 is in close contact with the side surfaces 21a and 21b.
The inner side surfaces 25 a and 25 a of the side wall portions 25 and 25 correspond to the inner side surfaces 15 c and 15 d of the protection member 15.

側壁部25の先端部、すなわち、第一部材23Aと第二部材23Bを熔着する際、互いに突き合わされる部分は、基部24とは反対側に凸のテーパ状をなしている。
第一部材23Aと第二部材23Bが突き合された後、このテーパ状の先端部を熔融することにより、第一部材23Aと第二部材23Bが熔着される。 When the first member 23 </ b> A and the second member 23 </ b> B are welded, the front end portion of the side wall portion 25 has a tapered shape that is convex on the side opposite to the base portion 24.
After the first member 23A and the second member 23B are abutted, the first member 23A and the second member 23B are welded by melting the tapered tip.

さらに、側壁部25の高さ、すなわち、基部24の一方の面24aを基準とし、上記のテーパ状の先端部の基端までの長さは、積層体21の厚さの半分とほぼ等しくなっている。したがって、第一の凹部22,22に、第一部材23Aおよび第二部材23Bが外嵌されて、第一部材23Aと第二部材23Bが突き合され、第一部材23Aと第二部材23Bが熔着され、保護部材15が形成されると、保護部材15の内表面15eの全面が被覆材12の表面(外面)12aに密着し、かつ、保護部材15の内底面15fの全面が被覆材12の表面(外面)12bに密着する。  Further, the height of the side wall portion 25, that is, the length to the base end of the tapered tip portion on the basis of the one surface 24 a of the base portion 24 is substantially equal to half the thickness of the stacked body 21. ing. Accordingly, the first member 23A and the second member 23B are fitted onto the first recesses 22 and 22, the first member 23A and the second member 23B are abutted, and the first member 23A and the second member 23B are When the protective member 15 is formed by welding, the entire inner surface 15e of the protective member 15 is in close contact with the surface (outer surface) 12a of the covering material 12, and the entire inner bottom surface 15f of the protecting member 15 is the covering material. 12 is in close contact with the surface (outer surface) 12b.

第一部材23Aおよび第二部材23Bの厚さ、すなわち、基部24の厚さおよび側壁部25の厚さは、特に限定されないが、非接触型データ受送信体10が、洗濯時やクリーニング時などにおいて、高温・高圧の環境にさらされた場合に、ICチップ17およびその近傍に外力が加わるのを抑制できる程度であり、例えば、0.5mm〜2000mmの範囲内である。  The thickness of the first member 23A and the second member 23B, that is, the thickness of the base portion 24 and the thickness of the side wall portion 25 is not particularly limited, but the non-contact type data receiving / transmitting body 10 is used for washing or cleaning. In this case, the external force applied to the IC chip 17 and the vicinity thereof can be suppressed when exposed to a high temperature / high pressure environment, for example, in the range of 0.5 mm to 2000 mm.

このように、保護部材15が、第一の凹部22,22に外嵌されているので、積層体21の厚さ方向において、第一の被覆材13および第二の被覆材14を介してICチップ17およびその近傍に重なるように、保護部材15が配置される。すなわち、第一の被覆材13および第二の被覆材14を介して、ICチップ17およびその近傍が、保護部材15によって覆われている。
なお、ICチップ17の近傍とは、例えば、ICチップ17とアンテナ18が接続している部分の近傍のことである。 As described above, since the protective member 15 is externally fitted to the first concave portions 22, 22, the IC in the thickness direction of the laminate 21 via the first covering material 13 and the second covering material 14. The protection member 15 is disposed so as to overlap the chip 17 and the vicinity thereof. That is, the IC chip 17 and the vicinity thereof are covered with the protective member 15 via the first covering material 13 and the second covering material 14.
The vicinity of the IC chip 17 is, for example, the vicinity of the portion where the IC chip 17 and the antenna 18 are connected.

被覆材12は、可撓性の材料から構成されている。具体的には、被覆材12は、使用前は液状であり、加熱、紫外線照射、電子線照射などの外的条件を加えなくても、主剤と硬化剤の反応によって硬化する2液混合型ウレタン系接着剤、または、室温あるいは低温加熱により、ゴム状に硬化する液状シリコーンゴムからなるものである。  The covering material 12 is made of a flexible material. Specifically, the coating material 12 is in a liquid state before use, and is a two-component mixed urethane that cures by the reaction between the main agent and the curing agent without applying external conditions such as heating, ultraviolet irradiation, and electron beam irradiation. It is made of a system adhesive or a liquid silicone rubber that is cured into a rubber-like shape by heating at room temperature or low temperature.

2液混合型ウレタン系接着剤としては、第一液としてのイソシアネートと、第二液としての水酸基が1級水酸基であるポリオールとを含む混合液に、さらに、エポキシ基を有するシランカップリング剤を添加したものが用いられる。
この2液混合型ウレタン系接着剤では、イソシアネートのイソシアネート基と、ポリオールの水酸基とのモル比(−NCO/−OH)が0.8以上、1.1以下となる配合比で、イソシアネートとポリオールが混合されている。また、この2液混合型ウレタン系接着剤の全量に対するエポキシ基を有するシランカップリング剤の配合量は、0.1質量%以上、2.0質量%以下である。 As a two-component mixed urethane adhesive, a silane coupling agent having an epoxy group is further added to a mixed solution containing an isocyanate as a first solution and a polyol having a hydroxyl group as a second solution as a second solution. The added one is used.
In this two-component mixed urethane adhesive, the isocyanate and polyol are blended so that the molar ratio (-NCO / -OH) between the isocyanate group of the isocyanate and the hydroxyl group of the polyol is 0.8 or more and 1.1 or less. Are mixed. Moreover, the compounding quantity of the silane coupling agent which has an epoxy group with respect to whole quantity of this 2 liquid mixing type urethane type adhesive agent is 0.1 to 2.0 mass%.

また、2液混合型ウレタン系接着剤としては、第一液としてのイソシアネートと、第二液としての水酸基が1級水酸基であるポリオールとを含む混合液に、さらに、アスペクト比が10以上、100以下の無機微粒子を添加したものが用いられる。
この2液混合型ウレタン系接着剤の全量に対するアスペクト比が10以上、100以下の無機微粒子の配合量は、5質量%以上、40質量%以下である。 Further, as the two-component mixed urethane adhesive, a mixed solution containing an isocyanate as the first solution and a polyol whose hydroxyl group is a primary hydroxyl group as the second solution has an aspect ratio of 10 or more, 100 What added the following inorganic fine particles is used.
The blending amount of the inorganic fine particles having an aspect ratio of 10 or more and 100 or less with respect to the total amount of the two-component mixed urethane adhesive is 5% by mass or more and 40% by mass or less.

このような2液硬化型ウレタン系接着剤の具体例としては、主剤(商品名:MLT2900、イーテック社製)と硬化剤(商品名:G3021−B174、イーテック社製)からなる接着剤が挙げられる。  Specific examples of such a two-component curable urethane-based adhesive include an adhesive composed of a main agent (trade name: MLT2900, manufactured by Etec) and a curing agent (trade name: G3021-B174, manufactured by Etec). .

液状シリコーンゴムとしては、硬化時にICチップ17が劣化するのを防止するために、硬化温度が室温以上、40℃以下のものが好ましく、例えば、東レ・ダウコーニング社製の各種グレードのものが用いられ、製品名としては、例えば、「SE9185」、「SE9186」、「SE9186L」、「SE9206L」などが挙げられる。
このような液状シリコーンゴムとしては、液状シリコーンゴムの各種グレードの全般の何れでもよく、例えば、モメンティブ・パフォーマンス・マテリアルズ・ジャパン合同会社製の各種グレードのものが用いられ、製品名としては、例えば、「TSE392」、「TSE3925」、「TSE3940」、「TSE3941」、「TSE3945」、「TSE3946」、「XW11-B5320」、「XE11-A5133S」、「TSE3944」、「TSE3853-W」、「TSE3971」、「TSE3976-B」、「TSE397」などが挙げられる。 As the liquid silicone rubber, in order to prevent the IC chip 17 from deteriorating at the time of curing, those having a curing temperature of room temperature or higher and 40 ° C. or lower are preferable. For example, those of various grades manufactured by Toray Dow Corning are used. Examples of product names include “SE9185”, “SE9186”, “SE9186L”, “SE9206L”, and the like.
Such a liquid silicone rubber may be any of various grades of liquid silicone rubber, for example, those of various grades manufactured by Momentive Performance Materials Japan G.K. , “TSE392”, “TSE3925”, “TSE3940”, “TSE3941”, “TSE3945”, “TSE3946”, “XW11-B5320”, “XE11-A5133S”, “TSE3944”, “TSE3853-W”, “TSE3971” , “TSE3976-B”, “TSE397” and the like.

また、被覆材12を形成する接着剤には、必要に応じて、公知の無機顔料、有機顔料、染料などの着色剤が含まれていてもよい。この着色剤により、被覆材12は任意の色に着色される。  In addition, the adhesive forming the covering material 12 may contain a colorant such as a known inorganic pigment, organic pigment, or dye as necessary. The coating material 12 is colored in an arbitrary color by the colorant.

保護部材15は、被覆材12よりも硬質の材料から構成されている。具体的には、保護部材15は、ポリエーテルイミド(PEI)、ポリフェニレンサルファイド(PPS)、ポリアリレート(PAR)、ポリサルフォン(PSF)、ポリエーテルサルフォン(PES)、ポリアミドイミド(PAI)、ポリエーテルエーテルケトン(PEEK)などの耐熱性樹脂やステンレスなどの金属からなるものである。
保護部材15を熔着する場合、保護部材15の材料としては、ポリエーテルイミド(PEI)が好ましい。 The protection member 15 is made of a material harder than the covering material 12. Specifically, the protective member 15 includes polyetherimide (PEI), polyphenylene sulfide (PPS), polyarylate (PAR), polysulfone (PSF), polyethersulfone (PES), polyamideimide (PAI), and polyether. It is made of a heat-resistant resin such as ether ketone (PEEK) or a metal such as stainless steel.
When the protective member 15 is welded, the material of the protective member 15 is preferably polyetherimide (PEI).

基材16としては、ポリエチレンテレフタレート(PET)、グリコール変性ポリエチレンテレフタレート(PET−G)、ポリブチレンテレフタレート(PBT)、ポリエチレンナフタレート(PEN)などのポリエステル樹脂からなる基材;ポリエチレン(PE)、ポリプロピレン(PP)などのポリオレフィン樹脂からなる基材;ポリフッ化ビニル、ポリフッ化ビニリデン、ポリ4フッ化エチレンなどのポリフッ化エチレン系樹脂からなる基材;ナイロン6、ナイロン6,6などのポリアミド樹脂からなる基材;ポリ塩化ビニル(PVC)、エチレン−酢酸ビニル共重合体、ポリビニルアルコール、ビニロンなどのビニル重合体からなる基材;ポリメタクリル酸メチル、ポリメタクリル酸エチル、ポリアクリル酸エチル、ポリアクリル酸ブチルなどのアクリル系樹脂からなる基材;ポリスチレンからなる基材;ポリカーボネート(PC)からなる基材;ポリアリレートからなる基材;ポリイミドからなる基材;上質紙、薄葉紙、グラシン紙、硫酸紙などの紙からなる基材などが用いられる。  As the base material 16, a base material made of a polyester resin such as polyethylene terephthalate (PET), glycol-modified polyethylene terephthalate (PET-G), polybutylene terephthalate (PBT), polyethylene naphthalate (PEN); polyethylene (PE), polypropylene Base material made of polyolefin resin such as (PP); Base material made of polyfluorinated ethylene resin such as polyvinyl fluoride, polyvinylidene fluoride, polytetrafluoroethylene; Made of polyamide resin such as nylon 6, nylon 6,6 Base material: Base material made of vinyl polymer such as polyvinyl chloride (PVC), ethylene-vinyl acetate copolymer, polyvinyl alcohol, vinylon; polymethyl methacrylate, polyethyl methacrylate, polyethyl acrylate, polyacryl Base material made of acrylic resin such as butyl; Base material made of polystyrene; Base material made of polycarbonate (PC); Base material made of polyarylate; Base material made of polyimide; Fine paper, thin paper, glassine paper, sulfate paper, etc. A substrate made of paper is used.

ICチップ17としては、特に限定されず、アンテナ18を介して非接触状態にて情報の書き込みおよび読み出しが可能であり、非接触型ICタグや非接触型ICラベル、あるいは、非接触型ICカードなどのRFIDメディアに適用可能なものであればいかなるものでも用いられる。  The IC chip 17 is not particularly limited, and information can be written and read out in a non-contact state via the antenna 18, and a non-contact type IC tag, a non-contact type IC label, or a non-contact type IC card. Anything can be used as long as it is applicable to RFID media.

アンテナ18は、基材16の一方の面16aに、ポリマー型導電インクを用いて所定のパターンにスクリーン印刷、インクジェット印刷などの印刷法により形成されてなるものか、もしくは、導電性箔をエッチングしてなるもの、金属メッキしてなるものである。  The antenna 18 is formed on one surface 16a of the base material 16 using a polymer type conductive ink in a predetermined pattern by a printing method such as screen printing or ink jet printing, or by etching the conductive foil. It is made by metal plating.

ポリマー型導電インクとしては、例えば、銀粉末、金粉末、白金粉末、アルミニウム粉末、パラジウム粉末、ロジウム粉末、カーボン粉末(カーボンブラック、カーボンナノチューブなど)などの導電微粒子が樹脂組成物に配合されたものが挙げられる。  Examples of polymer-type conductive inks are those in which conductive fine particles such as silver powder, gold powder, platinum powder, aluminum powder, palladium powder, rhodium powder, carbon powder (carbon black, carbon nanotube, etc.) are blended in the resin composition Is mentioned.

樹脂組成物として熱硬化型樹脂を用いれば、ポリマー型導電インクは、200℃以下、例えば、100〜150℃程度でアンテナ18をなす塗膜を形成することができる熱硬化型となる。アンテナ18をなす塗膜の電気の流れる経路は、塗膜を構成する導電微粒子が互いに接触することにより形成され、この塗膜の抵抗値は10−5Ω・cmオーダーである。
また、本発明におけるポリマー型導電インクとしては、熱硬化型の他にも、光硬化型、浸透乾燥型、溶剤揮発型といった公知のものが用いられる。 If a thermosetting resin is used as the resin composition, the polymer conductive ink becomes a thermosetting type capable of forming a coating film forming the antenna 18 at 200 ° C. or less, for example, about 100 to 150 ° C. The path through which electricity of the coating film forming the antenna 18 flows is formed when the conductive fine particles constituting the coating film contact each other, and the resistance value of this coating film is on the order of 10 −5 Ω · cm.
Further, as the polymer type conductive ink in the present invention, known ones such as a photo-curing type, a permeation drying type, and a solvent volatilization type are used in addition to the thermosetting type.

光硬化型のポリマー型導電インクは、光硬化性樹脂を樹脂組成物に含むものであり、硬化時間が短いので、製造効率を向上させることができる。光硬化型のポリマー型導電インクとしては、例えば、熱可塑性樹脂のみ、あるいは、熱可塑性樹脂と架橋性樹脂(特に、ポリエステルとイソシアネートによる架橋系樹脂など)とのブレンド樹脂組成物に、導電微粒子が60質量%以上配合され、ポリエステル樹脂が10質量%以上配合されたもの、すなわち、溶剤揮発型あるいは架橋/熱可塑併用型(ただし、熱可塑型が50質量%以上である)のものや、熱可塑性樹脂のみ、あるいは、熱可塑性樹脂と架橋性樹脂(特に、ポリエステルとイソシアネートによる架橋系樹脂など)とのブレンド樹脂組成物に、ポリエステル樹脂が10質量%以上配合されたもの、すなわち、架橋型あるいは架橋/熱可塑併用型のものなどが好適に用いられる。  The photocurable polymer type conductive ink contains a photocurable resin in the resin composition and has a short curing time, so that the production efficiency can be improved. Examples of the photocurable polymer type conductive ink include, for example, a thermoplastic resin alone, or a conductive resin fine particle in a blend resin composition of a thermoplastic resin and a crosslinkable resin (particularly, a crosslinkable resin made of polyester and isocyanate). 60% by mass or more and a polyester resin of 10% by mass or more, that is, a solvent volatile type or a crosslinked / thermoplastic combined type (however, the thermoplastic type is 50% by mass or more), heat Polyester resin alone or a blend resin composition of a thermoplastic resin and a crosslinkable resin (especially a crosslinkable resin composed of polyester and isocyanate) is blended with 10% by mass or more of a polyester resin, that is, a crosslinked type or A cross-linking / thermoplastic combination type is preferably used.

また、アンテナ18をなす導電性箔としては、銅箔、銀箔、金箔、白金箔、アルミニウム箔などが挙げられる。
さらに、アンテナ18をなす金属メッキとしては、銅メッキ、銀メッキ、金メッキ、白金メッキなどが挙げられる。 Examples of the conductive foil forming the antenna 18 include copper foil, silver foil, gold foil, platinum foil, and aluminum foil.
Furthermore, examples of the metal plating that forms the antenna 18 include copper plating, silver plating, gold plating, and platinum plating.

この非接触型データ受送信体10は、第一の凹部22,22に保護部材15が外嵌され、被覆材12を介して、ICチップ17およびその近傍に重なるように、保護部材15が配置されているので、非接触型データ受送信体10が、洗濯時やクリーニング時などにおいて、高温・高圧の環境にさらされた場合であっても、保護部材15が位置ずれすることなく、その保護部材15によってICチップ17およびその近傍に外力が加わるのを抑制できる。また、第一の凹部22,22に保護部材15が外嵌されることにより、保護部材15が位置決め、固定されるので、保護部材15を圧着、熔着または楔着することなく、積層体21に対して保護部材15を固定することができるから、これらの固定方法を用いて保護部材15を固定することによって、ICチップ17およびアンテナ18が劣化するのを防止できる。また、被覆材12は可撓性の材料からなり、被覆材12を覆う保護部材15は、被覆材12よりも硬質の材料からなるので、積層体21を曲げても、被覆材12が破れて、インレット11が露出することがない。したがって、非接触型データ受送信体10は、高温・高圧の環境における耐久性に優れている。  In this non-contact type data receiving / transmitting body 10, the protective member 15 is externally fitted in the first recesses 22, 22, and the protective member 15 is disposed so as to overlap the IC chip 17 and its vicinity via the covering material 12. Therefore, even when the contactless data receiving / transmitting body 10 is exposed to a high temperature and high pressure environment during washing or cleaning, the protection member 15 is protected without being displaced. The member 15 can suppress external force from being applied to the IC chip 17 and the vicinity thereof. Further, since the protective member 15 is positioned and fixed by externally fitting the protective member 15 in the first recesses 22 and 22, the laminated body 21 without being crimped, welded or wedged. Therefore, it is possible to prevent the IC chip 17 and the antenna 18 from deteriorating by fixing the protective member 15 using these fixing methods. Further, since the covering material 12 is made of a flexible material, and the protective member 15 covering the covering material 12 is made of a material harder than the covering material 12, the covering material 12 is torn even if the laminate 21 is bent. The inlet 11 is not exposed. Therefore, the non-contact type data receiving / transmitting body 10 is excellent in durability in a high temperature / high pressure environment.

ここで、積層体21に保護部材15を圧着するとは、保護部材15を積層体21の厚さ方向にかしめて固定することである。また、積層体21に保護部材15を熔着するとは、保護部材15の一部を溶融して、被覆材12に保護部材15を接着することである。また、積層体21に保護部材15を楔着するとは、保護部材15を積層体21の厚さ方向に楔のように打ち込んで固定することである。  Here, the pressure bonding of the protective member 15 to the laminate 21 means that the protective member 15 is caulked and fixed in the thickness direction of the laminate 21. Further, welding the protective member 15 to the laminate 21 means melting a part of the protective member 15 and bonding the protective member 15 to the covering material 12. Further, to wedge the protective member 15 on the laminated body 21 means that the protective member 15 is driven and fixed like a wedge in the thickness direction of the laminated body 21.

なお、この実施形態では、インレット11の両面(一方の面11aおよび他方の面11b)が被覆材12で被覆されている場合を例示したが、本発明はこれに限定されない。本発明にあっては、インレットにおけるICチップが設けられた面のみを被覆するように被覆材が設けられていてもよい。インレットにおけるICチップが設けられた面のみを被覆するように被覆材が設けられた場合、保護部材は、被覆材およびインレットの基材に添設される。  In addition, in this embodiment, although the case where both surfaces (the one surface 11a and the other surface 11b) of the inlet 11 were coat | covered with the coating | covering material 12 was illustrated, this invention is not limited to this. In the present invention, the covering material may be provided so as to cover only the surface of the inlet where the IC chip is provided. When the covering material is provided so as to cover only the surface of the inlet where the IC chip is provided, the protective member is attached to the covering material and the inlet base material.

また、この実施形態では、非接触型データ受送信体10が平面視略長方形状をなしている場合を例示したが、本発明はこれに限定されない。本発明にあっては、非接触型データ受送信体は、平面視した場合、任意のカード形状、タグ形状をなしていてもよい。
また、この実施形態では、一対の面状の放射素子19,20から構成されるダイポールアンテナからなるアンテナ18を有するインレット11を備えた場合を例示したが、本発明はこれに限定されない。本発明にあっては、アンテナは一対の枠状の放射素子から構成されるダイポールアンテナ、メアンダ状のダイポールアンテナ、モノポールアンテナなどであってもよい。 Moreover, in this embodiment, although the case where the non-contact type data transmission / reception body 10 has comprised the planar view substantially rectangular shape was illustrated, this invention is not limited to this. In the present invention, the non-contact data receiving / transmitting body may have an arbitrary card shape or tag shape when viewed in plan.
Moreover, although this embodiment illustrated the case where the inlet 11 having the antenna 18 composed of a dipole antenna composed of a pair of planar radiating elements 19 and 20 is provided, the present invention is not limited to this. In the present invention, the antenna may be a dipole antenna composed of a pair of frame-shaped radiating elements, a meander-shaped dipole antenna, a monopole antenna, or the like.

また、この実施形態では、側壁部25の先端部がテーパ状をなし、第一部材23Aと第二部材23Bを突き合わせた後、このテーパ状の先端部を熔融することにより、第一部材23Aと第二部材23Bを熔着して筒状の保護部材15を形成した場合を例示したが、本発明はこれに限定されない。本発明にあっては、第一部材および第二部材の先端を平坦面としてもよい。この場合、第一部材と第二部材は、接着剤を用いた接着、あるいは、熔着により、接着、固定される。  Moreover, in this embodiment, the front-end | tip part of the side wall part 25 comprises a taper shape, and after abutting the 1st member 23A and the 2nd member 23B, by melting this taper-shaped front-end | tip part, Although the case where the 2nd member 23B was welded and the cylindrical protective member 15 was formed was illustrated, this invention is not limited to this. In the present invention, the tips of the first member and the second member may be flat surfaces. In this case, the first member and the second member are bonded and fixed by bonding using an adhesive or by welding.

(2)非接触型データ受送信体の第二の実施形態
図3は、本発明の非接触型データ受送信体の第二の実施形態を示す概略構成図であり、(a)は平面図、(b)は(a)のE−E線に沿う断面図、(c)は(a)のF−F線に沿う断面図である。図4は、本発明の非接触型データ受送信体の第二の実施形態に用いられる保護部材を示す概略図であり、(a)は平面図、(b)は(a)のG−G線に沿う断面図、(c)は(a)のH−H線に沿う断面図である。
図3において、図1に示した第一の実施形態の構成要素と同じ構成要素には同一符号を付して、その説明を省略する。
この実施形態の非接触型データ受送信体30が、上述の第一の実施形態の非接触型データ受送信体10と異なる点は、保護部材15の代りに、保護部材31を用いている点である。 (2) Second Embodiment of Non-Contact Type Data Receiver / Transmitter FIG. 3 is a schematic configuration diagram showing a second embodiment of the non-contact type data receiver / transmitter of the present invention, and (a) is a plan view. (B) is sectional drawing which follows the EE line of (a), (c) is sectional drawing which follows the FF line of (a). FIG. 4 is a schematic view showing a protective member used in the second embodiment of the non-contact type data transmitting / receiving body of the present invention, where (a) is a plan view and (b) is a GG of (a). Sectional drawing which follows a line, (c) is sectional drawing which follows the HH line | wire of (a).
3, the same components as those of the first embodiment shown in FIG. 1 are denoted by the same reference numerals, and the description thereof is omitted.
The contactless data receiving / transmitting body 30 of this embodiment differs from the contactless data receiving / transmitting body 10 of the first embodiment described above in that a protection member 31 is used instead of the protection member 15. It is.

保護部材31は、積層体21の第一の凹部22,22に外嵌されている。第一の凹部22,22に保護部材31が外嵌された場合、保護部材31の外側面31aが積層体21の側面21aと同一面上に配置され、かつ、保護部材31の外側面31bが積層体21の側面21bと同一面上に配置されている。すなわち、積層体21の側面21a,21bに対して突出しないように、保護部材31が配置されている。  The protection member 31 is externally fitted to the first recesses 22 and 22 of the stacked body 21. When the protective member 31 is externally fitted in the first recesses 22, 22, the outer surface 31 a of the protective member 31 is disposed on the same surface as the side surface 21 a of the laminate 21, and the outer surface 31 b of the protective member 31 is It arrange | positions on the same surface as the side surface 21b of the laminated body 21. FIG. That is, the protection member 31 is disposed so as not to protrude with respect to the side surfaces 21 a and 21 b of the stacked body 21.

また、第一の凹部22,22にて、保護部材31の内側面31c,31dが、積層体21の側面21a,21bに密着されている。
さらに、保護部材31の内表面31eに延在する突条35のみが被覆材12の表面(外面)12aに密着され、かつ、保護部材31の内底面31fに延在する突条35のみが被覆材12の表面(外面)12bに密着されている。
これにより、積層体21が保護部材31に挿通された状態となっている。 Further, the inner side surfaces 31 c and 31 d of the protection member 31 are in close contact with the side surfaces 21 a and 21 b of the stacked body 21 at the first recesses 22 and 22.
Further, only the ridge 35 extending to the inner surface 31 e of the protection member 31 is in close contact with the surface (outer surface) 12 a of the covering material 12, and only the ridge 35 extending to the inner bottom surface 31 f of the protection member 31 is covered. The material 12 is in close contact with the surface (outer surface) 12b.
Thereby, the laminated body 21 is inserted into the protective member 31.

保護部材31は、同一形状の第一部材32Aと第二部材32Bを組み合わせてなる筒状の部材である。
すなわち、保護部材31は、積層体21の両面(一方の外面および他方の外面)側から、第一の凹部22に外嵌された第一部材32Aと第二部材32Bが、積層体21の厚さの中間において、互いに突き合わされ、熔着されて、固定されたものである。 The protection member 31 is a cylindrical member formed by combining the first member 32A and the second member 32B having the same shape.
That is, the protective member 31 includes a first member 32A and a second member 32B that are externally fitted to the first recess 22 from both sides (one outer surface and the other outer surface) of the laminate 21. In the middle, they are butted together, welded and fixed.

第一部材32Aおよび第二部材32Bは、平面視略長方形状でかつ平板状の基部33と、基部33の一方の面(被覆材12と対向する面)33aの対向する縁(ここでは、基部33の一方の面33aの対向する短辺側の縁)のそれぞれに垂設された一対の側壁部34と、基部33の一方の面33aの対向する縁(ここでは、基部33の一方の面33aの対向する長辺側の縁)のそれぞれに延在する一対の突条35とから構成されている。  The first member 32 </ b> A and the second member 32 </ b> B are substantially rectangular in plan view and have a flat plate-like base portion 33 and an opposing edge (here, the base portion) of one surface (surface facing the covering material 12) 33 a of the base portion 33. A pair of side wall portions 34 suspended from each of the opposite surfaces 33a of one surface 33a of 33 and an opposite edge of one surface 33a of the base portion 33 (here, one surface of the base portion 33). And a pair of protrusions 35 extending to each of the opposing long side edges 33a.

一対の側壁部34,34の間隔は、積層体21において、第一の凹部22,22の間の幅とほぼ等しくなっている。したがって、第一の凹部22,22に、第一部材32Aおよび第二部材32Bが外嵌された場合、第一の凹部22,22にて、側壁部34,34の内側面34a,34aが、積層体21の側面21a,21bに密着する。
なお、側壁部34,34の内側面34a,34aは、保護部材31の内側面31c,31dに相当する。 The distance between the pair of side wall portions 34 and 34 is substantially equal to the width between the first recesses 22 and 22 in the stacked body 21. Therefore, when the first member 32A and the second member 32B are externally fitted to the first recesses 22 and 22, the inner side surfaces 34a and 34a of the side walls 34 and 34 are The laminate 21 is in close contact with the side surfaces 21a and 21b.
The inner side surfaces 34 a and 34 a of the side wall portions 34 and 34 correspond to the inner side surfaces 31 c and 31 d of the protection member 31.

側壁部34の先端部、すなわち、第一部材32Aと第二部材32Bを熔着する際、互いに突き合わされる部分は、基部33とは反対側に凸のテーパ状をなしている。
第一部材32Aと第二部材32Bが突き合された後、このテーパ状の先端部を熔融することにより、第一部材32Aと第二部材32Bが熔着される。 When the first member 32 </ b> A and the second member 32 </ b> B are welded to each other, the tip of the side wall 34 has a tapered shape that is convex on the side opposite to the base 33.
After the first member 32A and the second member 32B are abutted, the first member 32A and the second member 32B are welded by melting the tapered tip.

さらに、側壁部34の高さ、すなわち、基部33の一方の面33aを基準とし、上記のテーパ状の先端部の基端までの長さは、積層体21の厚さの半分とほぼ等しくなっている。したがって、第一の凹部22,22に、第一部材32Aおよび第二部材32Bが外嵌されて、第一部材32Aと第二部材32Bが突き合され、第一部材32Aと第二部材32Bが熔着され、保護部材31が形成されると、保護部材31の内表面31eの全面が被覆材12の表面(外面)12aに密着し、かつ、保護部材31の内底面31fの全面が被覆材12の表面(外面)12bに密着する。  Furthermore, the height of the side wall 34, that is, the length to the base end of the tapered tip end portion, with reference to the one surface 33 a of the base portion 33, is substantially equal to half the thickness of the stacked body 21. ing. Accordingly, the first member 32A and the second member 32B are fitted on the first recesses 22 and 22, the first member 32A and the second member 32B are butted, and the first member 32A and the second member 32B are When the protective member 31 is formed by welding, the entire inner surface 31e of the protective member 31 is in close contact with the surface (outer surface) 12a of the covering material 12, and the entire inner bottom surface 31f of the protecting member 31 is the covering material. 12 is in close contact with the surface (outer surface) 12b.

突条35は、基部33の一方の面33aから僅かに突出した帯状の部位であり、その高さ(基部33の一方の面33aを基準とする高さ)は、側壁部34の厚さ(基部33の一方の面33aを基準とする高さ)よりも短くなっている。  The protrusion 35 is a belt-like portion slightly protruding from one surface 33a of the base portion 33, and the height thereof (the height with respect to the one surface 33a of the base portion 33) is the thickness of the side wall portion 34 ( It is shorter than the height of the one side 33a of the base 33).

このように、保護部材31が、第一の凹部22,22に外嵌されているので、積層体21の厚さ方向において、第一の被覆材13および第二の被覆材14を介してICチップ17およびその近傍に重なるように、保護部材31が配置される。すなわち、第一の被覆材13および第二の被覆材14を介して、ICチップ17およびその近傍が、保護部材31によって覆われている。  Thus, since the protection member 31 is externally fitted to the first recesses 22, 22, the IC in the thickness direction of the laminate 21 via the first covering material 13 and the second covering material 14. The protection member 31 is disposed so as to overlap the chip 17 and the vicinity thereof. That is, the IC chip 17 and its vicinity are covered with the protective member 31 via the first covering material 13 and the second covering material 14.

また、保護部材31は、第一部材32Aの突条35のみで、被覆材12の表面(外面)12aと接しており、保護部材31の内表面31eと被覆材12の表面12aの間には、突条35の厚さにほぼ等しい隙間36が形成されている。すなわち、ICチップ17の配置されている領域およびその近傍において、保護部材31の内表面31eと被覆材12の表面12aの間に隙間36が形成されている。
同様に、保護部材31は、第二部材32Bの突条35のみで、被覆材12の表面(外面)12bと接しており、保護部材31の内底面31fと被覆材12の表面12bの間には、突条35の厚さにほぼ等しい隙間37が形成されている。すなわち、ICチップ17の配置されている領域およびその近傍において、保護部材31の内底面31fと被覆材12の表面12bの間に隙間37が形成されている。 Further, the protection member 31 is in contact with the surface (outer surface) 12a of the covering material 12 only by the protrusion 35 of the first member 32A, and between the inner surface 31e of the protection member 31 and the surface 12a of the covering material 12 A gap 36 substantially equal to the thickness of the protrusion 35 is formed. That is, a gap 36 is formed between the inner surface 31 e of the protection member 31 and the surface 12 a of the covering material 12 in the region where the IC chip 17 is disposed and in the vicinity thereof.
Similarly, the protective member 31 is in contact with the surface (outer surface) 12b of the covering material 12 only by the protrusion 35 of the second member 32B, and between the inner bottom surface 31f of the protective member 31 and the surface 12b of the covering material 12. Is formed with a gap 37 substantially equal to the thickness of the protrusion 35. That is, a gap 37 is formed between the inner bottom surface 31 f of the protection member 31 and the surface 12 b of the covering material 12 in the region where the IC chip 17 is disposed and in the vicinity thereof.

なお、第一部材32Aの基部33の一方の面33aは保護部材31の内表面31eに相当し、第二部材32Bの基部33の一方の面33aは保護部材31の内底面31fに相当する。  One surface 33a of the base portion 33 of the first member 32A corresponds to the inner surface 31e of the protection member 31, and one surface 33a of the base portion 33 of the second member 32B corresponds to the inner bottom surface 31f of the protection member 31.

第一部材32Aおよび第二部材32Bの厚さ、すなわち、基部33の厚さおよび側壁部34の厚さは、特に限定されないが、非接触型データ受送信体30が、洗濯時やクリーニング時などにおいて、高温・高圧の環境にさらされた場合に、ICチップ17およびその近傍に外力が加わるのを抑制できる程度であり、例えば、0.5mm〜2000mmの範囲内である。  The thickness of the first member 32A and the second member 32B, that is, the thickness of the base portion 33 and the thickness of the side wall portion 34 is not particularly limited, but the non-contact type data receiving / transmitting body 30 is at the time of washing or cleaning, etc. In this case, the external force applied to the IC chip 17 and the vicinity thereof can be suppressed when exposed to a high temperature / high pressure environment, for example, in the range of 0.5 mm to 2000 mm.

保護部材31の材料としては、上述の第一の実施形態と同様のものが用いられる。  As the material of the protection member 31, the same material as that of the first embodiment described above is used.

この非接触型データ受送信体30は、第一の凹部22,22に保護部材31が外嵌され、被覆材12を介して、ICチップ17およびその近傍に重なるように、保護部材31が配置されているとともに、保護部材31の内表面31eと被覆材12の表面12aの間に隙間36が形成され、かつ、保護部材31の内底面31fと被覆材12の表面12bの間に隙間37が形成されているので、非接触型データ受送信体30が、洗濯時やクリーニング時などにおいて、高温・高圧の環境にさらされた場合であっても、保護部材31が位置ずれすることがない上に、保護部材31に外力が加えられたとしても、上記の隙間36,37により、その外力がICチップ17およびその近傍に直接加えられるのを緩和することができるから、ICチップ17およびその近傍に外力が加わるのを抑制できる。また、第一の凹部22,22に保護部材31が外嵌されることにより、保護部材31が位置決め、固定されるので、保護部材31を圧着、熔着または楔着することなく、積層体21に対して保護部材31を固定することができるから、これらの固定方法を用いて保護部材31を固定することによって、ICチップ17およびアンテナ18が劣化するのを防止できる。したがって、非接触型データ受送信体30は、高温・高圧の環境における耐久性に優れている。  In this non-contact type data receiving / transmitting body 30, the protective member 31 is externally fitted in the first recesses 22, 22, and the protective member 31 is disposed so as to overlap the IC chip 17 and its vicinity via the covering material 12. In addition, a gap 36 is formed between the inner surface 31e of the protection member 31 and the surface 12a of the covering material 12, and a gap 37 is formed between the inner bottom surface 31f of the protection member 31 and the surface 12b of the covering material 12. Therefore, even when the contactless data receiving / transmitting body 30 is exposed to a high temperature / high pressure environment during washing or cleaning, the protective member 31 is not displaced. In addition, even when an external force is applied to the protection member 31, the gap 36, 37 can mitigate the external force being directly applied to the IC chip 17 and the vicinity thereof. And it can suppress the external force is applied to the vicinity thereof. Further, since the protective member 31 is positioned and fixed by externally fitting the protective member 31 to the first recesses 22 and 22, the laminate 21 is not crimped, welded, or wedged. Therefore, the IC chip 17 and the antenna 18 can be prevented from deteriorating by fixing the protective member 31 using these fixing methods. Therefore, the non-contact type data receiving / transmitting body 30 is excellent in durability in a high temperature / high pressure environment.

なお、この実施形態では、保護部材31を構成する第一部材32Aおよび第二部材32Bの基部33の一方の面33aにおける対向する長辺側の縁のそれぞれに延在する突条35が設けられた場合を例示したが、本発明はこれに限定されない。本発明にあっては、保護部材を構成する第一部材および第二部材の基部の一方の面における対向する短辺側の縁のそれぞれに延在する突条が設けられていてもよい。また、上記の突条は、保護部材の被覆材と対向する面(上記の基部の一方の面)において、積層体の長手方向または短手方向に沿う外縁の両側に一部に設けられていてもよい。  In this embodiment, a ridge 35 extending to each of the opposing long side edges of one surface 33a of the base 33 of the first member 32A and the second member 32B constituting the protective member 31 is provided. However, the present invention is not limited to this. In this invention, the protrusion extended to each of the edge of the opposing short side in one surface of the base of the 1st member and 2nd member which comprise a protection member may be provided. Moreover, said protrusion is provided in a part on both sides of the outer edge along the longitudinal direction or a transversal direction of a laminated body in the surface (one surface of said base part) facing the coating | covering material of a protection member. Also good.

また、この実施形態では、側壁部34の先端部がテーパ状をなし、第一部材32Aと第二部材32Bを突き合わせた後、このテーパ状の先端部を熔融することにより、第一部材32Aと第二部材32Bを熔着して保護部材31を形成した場合を例示したが、本発明はこれに限定されない。本発明にあっては、第一部材および第二部材の先端を平坦面としてもよい。この場合、第一部材と第二部材は、接着剤を用いた接着、あるいは、熔着により、接着、固定される。  Moreover, in this embodiment, the front-end | tip part of the side wall part 34 comprises a taper shape, and after abutting the 1st member 32A and the 2nd member 32B, by melting this taper-shaped front-end | tip part, it is 1 Although the case where the protection member 31 was formed by welding the second member 32B was illustrated, the present invention is not limited to this. In the present invention, the tips of the first member and the second member may be flat surfaces. In this case, the first member and the second member are bonded and fixed by bonding using an adhesive or by welding.

(3)非接触型データ受送信体の第三の実施形態
図5は、本発明の非接触型データ受送信体の第三の実施形態を示す概略構成図であり、(a)は平面図、(b)は(a)のI−I線に沿う断面図、(c)は(a)のJ−J線に沿う断面図である。
図5において、図1に示した第一の実施形態の構成要素と同じ構成要素には同一符号を付して、その説明を省略する。
この実施形態の非接触型データ受送信体40が、上述の第一の実施形態の非接触型データ受送信体10と異なる点は、上記の非接触型データ受送信体10の構成に加えて、被覆材12には、第一の凹部22,22の一方から他方に渡って延在し、被覆材12の厚さ方向に凹む第二の凹部41,42が設けられ、この第二の凹部41,42および第一の凹部22,22に保護部材15が外嵌されている点である。 (3) Third Embodiment of Non-Contact Data Receiver / Transmitter FIG. 5 is a schematic configuration diagram showing a third embodiment of the non-contact data receiver / transmitter of the present invention, and (a) is a plan view. (B) is sectional drawing which follows the II line of (a), (c) is sectional drawing which follows the JJ line of (a).
In FIG. 5, the same components as those of the first embodiment shown in FIG.
The contactless data receiving / transmitting body 40 of this embodiment differs from the contactless data receiving / transmitting body 10 of the first embodiment described above in addition to the configuration of the contactless data receiving / transmitting body 10 described above. The covering material 12 is provided with second recessed portions 41 and 42 extending from one of the first recessed portions 22 and 22 to the other and recessed in the thickness direction of the covering material 12. The protective member 15 is externally fitted to the first and second recesses 22 and 22.

第二の凹部41,42は、第一の凹部22,22の一方から他方に渡って、被覆材12の長手方向と垂直な方向に、保護部材15の短手方向の幅(第一部材23Aおよび第二部材23Bを構成する基部24の短手方向の幅)とほぼ等しい幅で延在している。
また、第二の凹部41,42の深さは、保護部材15の厚さ(第一部材23Aおよび第二部材23Bを構成する基部24の厚さ)とほぼ等しくなっている。 The second recesses 41, 42 extend from one of the first recesses 22, 22 to the other in the direction perpendicular to the longitudinal direction of the covering material 12 (the first member 23 </ b> A). And the width in the short direction of the base 24 constituting the second member 23B).
Further, the depth of the second recesses 41 and 42 is substantially equal to the thickness of the protective member 15 (the thickness of the base 24 constituting the first member 23A and the second member 23B).

これにより、第一の凹部22,22および第二の凹部41,42に保護部材15が外嵌された場合、保護部材15の外側面15aが積層体21の側面21aと同一面上に配置され、かつ、保護部材15の外側面15bが積層体21の側面21bと同一面上に配置されるとともに、保護部材15の表面(外面)15gが被覆材12の表面(外面)12aと同一面上に配置され、かつ、保護部材15の表面(外面)15hが被覆材12の表面(外面)12bと同一面上に配置されている。すなわち、積層体21の側面21a,21b、および、被覆材12の表面(外面)12a,12bに対して突出しないように、保護部材15が配置されている。  Thereby, when the protective member 15 is fitted on the first concave portions 22 and 22 and the second concave portions 41 and 42, the outer surface 15 a of the protective member 15 is arranged on the same surface as the side surface 21 a of the laminate 21. And the outer surface 15b of the protection member 15 is arrange | positioned on the same surface as the side surface 21b of the laminated body 21, and the surface (outer surface) 15g of the protection member 15 is on the same surface as the surface (outer surface) 12a of the coating | covering material 12. Further, the surface (outer surface) 15h of the protection member 15 is disposed on the same surface as the surface (outer surface) 12b of the covering material 12. That is, the protective member 15 is disposed so as not to protrude from the side surfaces 21 a and 21 b of the laminated body 21 and the surfaces (outer surfaces) 12 a and 12 b of the covering material 12.

さらに、第一の凹部22,22および第二の凹部41,42に保護部材15が外嵌された場合、第一の凹部22,22にて、保護部材15の内側面15cが積層体21の側面21aに密着され、かつ、保護部材15の内側面15dが積層体21の側面21bに密着されているとともに、第二の凹部41にて、保護部材15の内表面15eが被覆材12の表面(外面)12aに密着され、かつ、第二の凹部42にて、保護部材15の内表面15fが被覆材12の表面(外面)12bに密着されている。  Further, when the protective member 15 is fitted on the first concave portions 22 and 22 and the second concave portions 41 and 42, the inner side surface 15 c of the protective member 15 is the laminated body 21 in the first concave portions 22 and 22. The inner surface 15d of the protective member 15 is in close contact with the side surface 21b of the laminated body 21, and the inner surface 15e of the protective member 15 is the surface of the covering material 12 at the second recess 41. The outer surface 15f of the protective member 15 is in close contact with the surface (outer surface) 12b of the covering material 12 at the second recess 42.

第一部材23Aおよび第二部材23Bの側壁部25の高さ、すなわち、基部24の一方の面24aを基準とし、上記のテーパ状の先端部の基端までの長さは、第二の凹部41と第二の凹部42の間における積層体21の厚さの半分とほぼ等しくなっている。したがって、第一の凹部22,22および第二の凹部41,42に第一部材23Aと第二部材23Bが外嵌されて、第一部材23Aと第二部材23Bが突き合され、第一部材23Aと第二部材23Bが熔着され、保護部材15が形成されると、第二の凹部41にて保護部材15の内表面15eの全面が被覆材12の表面(外面)12aに密着し、かつ、第二の凹部42にて保護部材15の内底面15fの全面が被覆材12の表面(外面)12bに密着する。  The height of the side wall portion 25 of the first member 23A and the second member 23B, that is, the length from the one surface 24a of the base portion 24 to the base end of the tapered tip portion is the second concave portion. It is substantially equal to half the thickness of the laminate 21 between 41 and the second recess 42. Therefore, the first member 23A and the second member 23B are fitted on the first recesses 22 and 22 and the second recesses 41 and 42, and the first member 23A and the second member 23B are abutted to each other. When 23A and the second member 23B are welded and the protection member 15 is formed, the entire inner surface 15e of the protection member 15 is in close contact with the surface (outer surface) 12a of the covering material 12 in the second recess 41, In addition, the entire inner bottom surface 15 f of the protection member 15 is in close contact with the surface (outer surface) 12 b of the covering material 12 at the second recess 42.

この非接触型データ受送信体40は、第一の凹部22,22および第二の凹部41,42に保護部材15が外嵌され、被覆材12を介して、ICチップ17およびその近傍に重なるように、保護部材15が配置されているので、非接触型データ受送信体40が、洗濯時やクリーニング時などにおいて、高温・高圧の環境にさらされた場合であっても、保護部材15が位置ずれすることなく、その保護部材15によってICチップ17およびその近傍に外力が加わるのを抑制できる。また、第一の凹部22,22および第二の凹部41,42に保護部材15が外嵌されることにより、保護部材15が位置決め、固定されるので、保護部材15を圧着、熔着または楔着することなく、積層体21に対して保護部材15を固定することができるから、これらの固定方法を用いて保護部材15を固定することによって、ICチップ17およびアンテナ18が劣化するのを防止できる。また、非接触型データ受送信体40の全面において、積層体21に対して、保護部材15が突出しないように配置されているので、保護部材15が何かに引っ掛かるなどして、非接触型データ受送信体40が損傷するのを防止できる。したがって、非接触型データ受送信体40は、高温・高圧の環境における耐久性に優れている。  In this non-contact type data receiving / transmitting body 40, the protective member 15 is externally fitted to the first concave portions 22, 22 and the second concave portions 41, 42, and overlaps with the IC chip 17 and its vicinity via the covering material 12. Thus, since the protection member 15 is arranged, even if the non-contact type data receiving / transmitting body 40 is exposed to a high temperature / high pressure environment during washing or cleaning, the protection member 15 It is possible to suppress external force from being applied to the IC chip 17 and the vicinity thereof by the protective member 15 without being displaced. Further, since the protective member 15 is positioned and fixed by fitting the protective member 15 to the first concave portions 22 and 22 and the second concave portions 41 and 42, the protective member 15 is crimped, welded or wedged. Since the protective member 15 can be fixed to the laminate 21 without being worn, the IC chip 17 and the antenna 18 are prevented from deteriorating by fixing the protective member 15 using these fixing methods. it can. Further, since the protective member 15 is arranged on the entire surface of the non-contact type data receiving / transmitting body 40 so as not to protrude with respect to the laminate 21, the non-contact type data receiving / transmitting body 40 is caught by something such as the protective member 15 being caught. It is possible to prevent the data receiving / transmitting body 40 from being damaged. Therefore, the non-contact type data receiving / transmitting body 40 is excellent in durability in a high temperature / high pressure environment.

(4)非接触型データ受送信体の第四の実施形態
図6は、本発明の非接触型データ受送信体の第四の実施形態を示す概略構成図であり、(a)は平面図、(b)は(a)のK−K線に沿う断面図、(c)は(a)のL−L線に沿う断面図である。
図6において、図1に示した第一の実施形態の構成要素と同じ構成要素には同一符号を付して、その説明を省略する。
この実施形態の非接触型データ受送信体50が、上述の第一の実施形態の非接触型データ受送信体10と異なる点は、保護部材15の代りに、上述の第二の実施形態における保護部材31を用い、かつ、上述の第三の実施形態と同様に、被覆材12には、第二の凹部41,42が設けられ、この第二の凹部41,42および第一の凹部22,22に保護部材31が外嵌されている点である。 (4) Fourth Embodiment of Non-Contact Data Receiver / Transmitter FIG. 6 is a schematic configuration diagram showing a fourth embodiment of the non-contact data receiver / transmitter of the present invention, and (a) is a plan view. (B) is sectional drawing which follows the KK line of (a), (c) is sectional drawing which follows the LL line of (a).
In FIG. 6, the same components as those of the first embodiment shown in FIG. 1 are denoted by the same reference numerals, and the description thereof is omitted.
The non-contact type data receiving / transmitting body 50 of this embodiment is different from the non-contact type data receiving / transmitting body 10 of the first embodiment described above in that the second embodiment described above is used instead of the protective member 15. Similarly to the third embodiment described above using the protection member 31, the covering material 12 is provided with second recesses 41 and 42, and the second recesses 41 and 42 and the first recess 22. , 22 is a point in which a protective member 31 is externally fitted.

第二の凹部41,42は、第一の凹部22,22の一方から他方に渡って、被覆材12の長手方向と垂直な方向に、保護部材31の短手方向の幅(第一部材32Aおよび第二部材32Bを構成する基部33の短手方向の幅)とほぼ等しい幅で延在している。
また、第二の凹部41,42の深さは、保護部材31の厚さ(第一部材32Aおよび第二部材32Bを構成する基部33の厚さ)とほぼ等しくなっている。 The second recesses 41, 42 extend from one of the first recesses 22, 22 to the other in the direction perpendicular to the longitudinal direction of the covering material 12 (the first member 32 </ b> A). And the width of the base 33 constituting the second member 32 </ b> B in the short-side direction).
The depth of the second recesses 41 and 42 is substantially equal to the thickness of the protective member 31 (the thickness of the base 33 constituting the first member 32A and the second member 32B).

これにより、第一の凹部22,22および第二の凹部41,42に保護部材31が外嵌された場合、保護部材31の外側面31aが積層体21の側面21aと同一面上に配置され、かつ、保護部材31の外側面31bが積層体21の側面21bと同一面上に配置されるとともに、保護部材31の表面(外面)31gが被覆材12の表面(外面)12aと同一面上に配置され、かつ、保護部材31の表面(外面)31hが被覆材12の表面(外面)12bと同一面上に配置されている。すなわち、積層体21の側面21a,21b、および、被覆材12の表面(外面)12a,12bに対して突出しないように、保護部材31が配置されている。  Thereby, when the protective member 31 is fitted on the first concave portions 22 and 22 and the second concave portions 41 and 42, the outer side surface 31 a of the protective member 31 is disposed on the same plane as the side surface 21 a of the laminate 21. And the outer side surface 31b of the protection member 31 is arrange | positioned on the same surface as the side surface 21b of the laminated body 21, and the surface (outer surface) 31g of the protection member 31 is the same surface as the surface (outer surface) 12a of the coating | covering material 12. Further, the surface (outer surface) 31h of the protection member 31 is disposed on the same surface as the surface (outer surface) 12b of the covering material 12. That is, the protective member 31 is disposed so as not to protrude from the side surfaces 21 a and 21 b of the laminated body 21 and the surfaces (outer surfaces) 12 a and 12 b of the covering material 12.

また、側壁部34の高さ、すなわち、基部33の一方の面33aを基準とし、上記のテーパ状の先端部の基端までの長さは、第二の凹部41と第二の凹部42の間における積層体21の厚さの半分とほぼ等しくなっている。
したがって、第一の凹部22,22に、第一部材32Aおよび第二部材32Bが外嵌されて、第一部材32Aと第二部材32Bが突き合され、第一部材32Aと第二部材32Bが熔着され、保護部材31が形成されると、第一の凹部22,22にて保護部材31の内側面31cが積層体21の側面21aに密着され、保護部材31の内側面31dが積層体21の側面21bに密着されている。
さらに、第二の凹部41,42に、第一部材32Aおよび第二部材32Bが外嵌されて、第一部材32Aと第二部材32Bが突き合され、第一部材32Aと第二部材32Bが熔着されると、第二の凹部41にて保護部材31の内表面31eに延在する突条35のみが被覆材12の表面(外面)12aに密着し、第二の凹部42にて保護部材31の内底面31fに延在する突条35のみが被覆材12の表面(外面)12bに密着する。 Further, the height of the side wall 34, that is, the length to the base end of the tapered tip end portion with respect to the one surface 33 a of the base portion 33, is determined by the second recess 41 and the second recess 42. It is substantially equal to half of the thickness of the laminated body 21 between them.
Accordingly, the first member 32A and the second member 32B are fitted on the first recesses 22 and 22, the first member 32A and the second member 32B are butted, and the first member 32A and the second member 32B are When the protective member 31 is formed by welding, the inner surface 31c of the protective member 31 is brought into close contact with the side surface 21a of the laminated body 21 in the first recesses 22 and 22, and the inner side surface 31d of the protective member 31 is laminated. 21 is in close contact with the side surface 21b.
Furthermore, the first member 32A and the second member 32B are fitted into the second recesses 41 and 42, the first member 32A and the second member 32B are abutted, and the first member 32A and the second member 32B are When welded, only the protrusion 35 extending to the inner surface 31e of the protection member 31 in the second recess 41 is in close contact with the surface (outer surface) 12a of the covering material 12, and is protected by the second recess 42. Only the protrusion 35 extending to the inner bottom surface 31 f of the member 31 is in close contact with the surface (outer surface) 12 b of the covering material 12.

詳細には、保護部材31は、第二の凹部41にて、第一部材32Aの突条35のみで、被覆材12の表面(外面)12aと接しており、保護部材31の内表面31eと被覆材12の表面12aの間には、突条35の厚さにほぼ等しい隙間36が形成されている。すなわち、ICチップ17の配置されている領域およびその近傍において、保護部材31の内表面31eと被覆材12の表面12aの間に隙間36が形成されている。
同様に、保護部材31は、第二の凹部42にて、第二部材32Bの突条35のみで、被覆材12の表面(外面)12bと接しており、保護部材31の内底面31fと被覆材12の表面12bの間には、突条35の厚さにほぼ等しい隙間37が形成されている。すなわち、ICチップ17の配置されている領域およびその近傍において、保護部材31の内底面31fと被覆材12の表面12bの間に隙間37が形成されている。 Specifically, the protection member 31 is in contact with the surface (outer surface) 12a of the covering material 12 only at the protrusion 35 of the first member 32A in the second recess 41, and the inner surface 31e of the protection member 31 A gap 36 that is substantially equal to the thickness of the protrusion 35 is formed between the surfaces 12 a of the covering material 12. That is, a gap 36 is formed between the inner surface 31 e of the protection member 31 and the surface 12 a of the covering material 12 in the region where the IC chip 17 is disposed and in the vicinity thereof.
Similarly, the protection member 31 is in contact with the surface (outer surface) 12b of the covering material 12 only by the protrusion 35 of the second member 32B in the second recess 42, and covers the inner bottom surface 31f of the protection member 31. A gap 37 that is substantially equal to the thickness of the protrusion 35 is formed between the surfaces 12 b of the material 12. That is, a gap 37 is formed between the inner bottom surface 31 f of the protection member 31 and the surface 12 b of the covering material 12 in the region where the IC chip 17 is disposed and in the vicinity thereof.

この非接触型データ受送信体50は、第一の凹部22,22および第二の凹部41,42に保護部材31が外嵌され、被覆材12を介して、ICチップ17およびその近傍に重なるように、保護部材31が配置されているとともに、保護部材31の内表面31eと被覆材12の表面12aの間に隙間36が形成され、かつ、保護部材31の内底面31fと被覆材12の表面12bの間に隙間37が形成されているので、非接触型データ受送信体30が、洗濯時やクリーニング時などにおいて、高温・高圧の環境にさらされた場合であっても、保護部材31が位置ずれすることがない上に、保護部材31に外力が加えられたとしても、上記の隙間36,37により、その外力がICチップ17およびその近傍に直接加えられるのを緩和することができるから、ICチップ17およびその近傍に外力が加わるのを抑制できる。また、第一の凹部22,22および第二の凹部41,42に保護部材31が外嵌されることにより、保護部材31が位置決め、固定されるので、保護部材31を圧着、熔着または楔着することなく、積層体21に対して保護部材31を固定することができるから、これらの固定方法を用いて保護部材31を固定することによって、ICチップ17およびアンテナ18が劣化するのを防止できる。また、非接触型データ受送信体50の全面において、積層体21に対して、保護部材31が突出しないように配置されているので、保護部材31が何かに引っ掛かるなどして、非接触型データ受送信体50が損傷するのを防止できる。したがって、非接触型データ受送信体50は、高温・高圧の環境における耐久性に優れている。  In this non-contact type data receiving / transmitting body 50, the protective member 31 is externally fitted to the first concave portions 22, 22 and the second concave portions 41, 42, and overlaps with the IC chip 17 and its vicinity via the covering material 12. As described above, the protective member 31 is disposed, a gap 36 is formed between the inner surface 31e of the protective member 31 and the surface 12a of the covering material 12, and the inner bottom surface 31f of the protective member 31 and the covering material 12 are Since the gap 37 is formed between the front surfaces 12b, the protection member 31 is provided even when the non-contact type data receiving / transmitting body 30 is exposed to a high temperature / high pressure environment during washing or cleaning. In addition, even if an external force is applied to the protection member 31, it is possible to mitigate that the external force is directly applied to the IC chip 17 and the vicinity thereof by the gaps 36 and 37. Since it can be prevented that the external force is applied to the IC chip 17 and the vicinity thereof. Further, since the protective member 31 is positioned and fixed by fitting the protective member 31 to the first concave portions 22 and 22 and the second concave portions 41 and 42, the protective member 31 is crimped, welded or wedged. Since the protective member 31 can be fixed to the laminate 21 without being worn, the IC chip 17 and the antenna 18 are prevented from deteriorating by fixing the protective member 31 using these fixing methods. it can. In addition, since the protective member 31 is arranged on the entire surface of the non-contact type data receiving / transmitting body 50 so as not to protrude from the stacked body 21, the non-contact type data receiving / transmitting body 50 is caught by something such as the protective member 31 being caught. It is possible to prevent the data receiving / transmitting body 50 from being damaged. Therefore, the non-contact type data receiving / transmitting body 50 is excellent in durability in a high temperature / high pressure environment.

(5)保護部材の第三の実施形態
図7は、本発明の非接触型データ受送信体に用いられる保護部材の第三の実施形態を示す概略斜視図である。
この実施形態の保護部材60は、形状の異なる第一部材61と第二部材62を組み合わせてなる筒状の部材である。
この保護部材60は、上述のように、積層体21の厚さの中間において、インレット11と被覆材12からなる積層体21の両面(一方の外面および他方の外面)側から、被覆材12に第一部材61と第二部材62が添設され、この2つの部材が熔着または接着されて、固定されたものである。 (5) Third Embodiment of Protection Member FIG. 7 is a schematic perspective view showing a third embodiment of the protection member used in the non-contact type data receiving / transmitting body of the present invention.
The protection member 60 of this embodiment is a cylindrical member formed by combining a first member 61 and a second member 62 having different shapes.
As described above, the protective member 60 is applied to the covering material 12 from both sides (one outer surface and the other outer surface) of the laminated body 21 including the inlet 11 and the covering material 12 in the middle of the thickness of the laminated body 21. A first member 61 and a second member 62 are attached, and these two members are fixed by welding or bonding.

第一部材61は、平面視略長方形状でかつ平板状の基部63と、基部63の一方の面(被覆材12と対向する面)63aの対向する縁(ここでは、基部63の一方の面63aの対向する短辺側の縁)のそれぞれに垂設された一対の側壁部64,64とから構成されている。
一対の側壁部64,64の間隔は、積層体21における第一の凹部22,22の間の幅とほぼ等しくなっている。したがって、第一の凹部22,22に、第一部材61が外嵌された場合、第一の凹部22,22にて、側壁部64,64の内側面64a,64aが、積層体21の側面21a,21bに密着する。 The first member 61 has a substantially rectangular shape in plan view and a flat plate-like base portion 63, and an opposing edge (here, one surface of the base portion 63) of one surface (surface facing the covering material 12) 63a of the base portion 63. 63a is formed of a pair of side wall portions 64 and 64 that are suspended from each other.
The distance between the pair of side wall portions 64 and 64 is substantially equal to the width between the first concave portions 22 and 22 in the stacked body 21. Therefore, when the first member 61 is externally fitted in the first recesses 22, 22, the inner side surfaces 64 a, 64 a of the side wall portions 64, 64 are the side surfaces of the laminate 21 in the first recesses 22, 22. It adheres to 21a, 21b.

また、側壁部64の中央部には、第二部材62と接合される面から基部63側に凹む凹部64bが設けられている。
凹部64bは、後述する第二部材62の側壁部66の凸部66bと形状がほぼ等しくなっている。また、凹部64bは、第一部材61の側壁部64と第二部材62の側壁部66を突き合わせた場合、凹部64bに凸部66bが嵌合する位置に設けられている。 In addition, a concave portion 64 b that is recessed toward the base portion 63 from the surface that is joined to the second member 62 is provided in the central portion of the side wall portion 64.
The concave portion 64b has substantially the same shape as a convex portion 66b of a side wall portion 66 of the second member 62 described later. Moreover, when the side wall part 64 of the 1st member 61 and the side wall part 66 of the 2nd member 62 are faced | matched, the recessed part 64b is provided in the position where the convex part 66b fits into the recessed part 64b.

第一部材61の厚さ、すなわち、基部63の厚さおよび側壁部64の厚さは、特に限定されないが、保護部材60を用いた非接触型データ受送信体が、洗濯時やクリーニング時などにおいて、高温・高圧の環境にさらされた場合に、ICチップおよびその近傍に外力が加わるのを抑制できる程度であり、例えば、0.5mm〜2000mmの範囲内である。  The thickness of the first member 61, that is, the thickness of the base portion 63 and the thickness of the side wall portion 64 is not particularly limited, but the non-contact type data receiving / transmitting body using the protection member 60 is used for washing or cleaning. However, when exposed to a high temperature / high pressure environment, it is possible to suppress the external force from being applied to the IC chip and its vicinity, for example, within a range of 0.5 mm to 2000 mm.

第二部材62は、平面視略長方形状でかつ平板状の基部65と、基部65の一方の面(被覆材12と対向する面)65aの対向する縁(ここでは、基部65の一方の面65aの対向する短辺側の縁)のそれぞれに垂設された一対の側壁部66,66とから構成されている。
一対の側壁部66,66の間隔は、積層体21における第一の凹部22,22の間の幅とほぼ等しくなっている。したがって、第一の凹部22,22に、第二部材62が外嵌された場合、第一の凹部22,22にて、側壁部66,66の内側面66a,66aが、積層体21の側面21a,21bに密着する。 The second member 62 has a substantially rectangular shape in plan view and a flat plate-like base portion 65, and an opposing edge (here, one surface of the base portion 65) of one surface (surface facing the covering material 12) 65a of the base portion 65. 65a, a pair of side wall portions 66, 66 suspended from each of the opposing short side edges 65a.
The distance between the pair of side wall portions 66 and 66 is substantially equal to the width between the first concave portions 22 and 22 in the stacked body 21. Therefore, when the second member 62 is externally fitted in the first recesses 22, 22, the inner side surfaces 66 a, 66 a of the side wall portions 66, 66 are the side surfaces of the laminate 21 in the first recesses 22, 22. It adheres to 21a, 21b.

また、側壁部66の中央部には、第一部材61と接合される面から基部65とは反対側に向かって凸部66bが突設されている。
凸部66bは、第一部材61の側壁部64の凹部64bと形状がほぼ等しくなっている。また、凸部66bは、第一部材61の側壁部64と第二部材62の側壁部66を突き合わせた場合、凹部64bに凸部66bが嵌合する位置に設けられている。 Further, a convex portion 66 b is projected from the surface joined to the first member 61 toward the side opposite to the base portion 65 at the central portion of the side wall portion 66.
The convex portion 66 b has substantially the same shape as the concave portion 64 b of the side wall portion 64 of the first member 61. Moreover, the convex part 66b is provided in the position where the convex part 66b fits into the recessed part 64b, when the side wall part 64 of the 1st member 61 and the side wall part 66 of the 2nd member 62 are faced | matched.

第二部材62の厚さ、すなわち、基部65の厚さおよび側壁部66の厚さは、特に限定されないが、保護部材60を用いた非接触型データ受送信体が、洗濯時やクリーニング時などにおいて、高温・高圧の環境にさらされた場合に、ICチップおよびその近傍に外力が加わるのを抑制できる程度であり、例えば、0.5mm〜2000mmの範囲内である。  The thickness of the second member 62, that is, the thickness of the base portion 65 and the thickness of the side wall portion 66 is not particularly limited, but the non-contact type data receiving / transmitting body using the protection member 60 is used for washing or cleaning. However, when exposed to a high temperature / high pressure environment, it is possible to suppress the external force from being applied to the IC chip and its vicinity, for example, within a range of 0.5 mm to 2000 mm.

さらに、第一部材61の側壁部64の高さ、すなわち、基部63の一方の面63aを基準とし、凹部64bの基端となる面までの長さは、積層体21の厚さの半分とほぼ等しくなっている。また、第二部材62の側壁部66の高さ、すなわち、基部65の一方の面65aを基準とし、凸部66bの基端となる面までの長さは、積層体21の厚さの半分とほぼ等しくなっている。
したがって、第一の凹部22,22に、第一部材61および第二部材62が外嵌されて、第一部材61の側壁部64と第二部材62の側壁部66が突き合され、第一部材61と第二部材62が熔着され、保護部材60が形成されると、第一部材61の基部63の一方の面63aの全面が被覆材12の表面(外面)12aに密着し、かつ、第二部材62の基部65の一方の面65aの全面が被覆材12の表面(外面)12bに密着する。 Further, the height of the side wall portion 64 of the first member 61, that is, the length to the surface serving as the base end of the concave portion 64 b on the basis of the one surface 63 a of the base portion 63 is half the thickness of the stacked body 21. It is almost equal. Further, the height of the side wall portion 66 of the second member 62, that is, the length to the surface serving as the base end of the convex portion 66 b on the basis of the one surface 65 a of the base portion 65 is half of the thickness of the stacked body 21. It is almost equal to.
Accordingly, the first member 61 and the second member 62 are externally fitted into the first recesses 22, 22, and the side wall portion 64 of the first member 61 and the side wall portion 66 of the second member 62 are abutted with each other. When the member 61 and the second member 62 are welded and the protective member 60 is formed, the entire surface of one surface 63a of the base 63 of the first member 61 is in close contact with the surface (outer surface) 12a of the covering material 12, and The entire surface of one surface 65a of the base 65 of the second member 62 is in close contact with the surface (outer surface) 12b of the covering material 12.

また、この保護部材60を被覆材12に添設する場合、第一部材61と第二部材62のどちらを第一の被覆材13側に配置してもよい。  Further, when the protective member 60 is attached to the covering material 12, either the first member 61 or the second member 62 may be disposed on the first covering material 13 side.

なお、この実施形態では、第一部材61における基部63の一方の面(被覆材12と対向する面)63a、および、第二部材62における基部65の一方の面(被覆材12と対向する面)65aが平坦面である場合を例示したが、本発明はこれに限定されない。
本発明にあっては、保護部材の被覆材と対向する面、すなわち、第一部材における基部の一方の面、および、第二部材における基部の一方の面において、インレットと被覆材からなる積層体の長手方向または短手方向に沿う外縁の両側に突条が設けられていてもよい。この場合、第一部材の側壁部の高さおよび第二部材の側壁部の高さは、上述の非接触型データ受送信体の第二の実施形態または第四の実施形態と同様である。 In this embodiment, one surface (surface facing the covering material 12) 63a of the base 63 in the first member 61 and one surface (surface facing the covering material 12) of the base 65 in the second member 62 are arranged. ) 65a is a flat surface, but the present invention is not limited to this.
In the present invention, a laminate comprising an inlet and a covering material on the surface of the protective member facing the covering material, that is, one surface of the base portion of the first member and one surface of the base portion of the second member. Projections may be provided on both sides of the outer edge along the longitudinal direction or the lateral direction. In this case, the height of the side wall portion of the first member and the height of the side wall portion of the second member are the same as those in the second embodiment or the fourth embodiment of the above-described non-contact type data transmitting / receiving body.

(6)保護部材の第四の実施形態
図8は、本発明の非接触型データ受送信体に用いられる保護部材の第四の実施形態を示す概略斜視図である。
この実施形態の保護部材70は、形状の異なる第一部材71と第二部材72を組み合わせてなる筒状の部材である。
この保護部材70は、上述のように、積層体21の厚さの中間において、インレット11と被覆材12からなる積層体21の両面(一方の外面および他方の外面)側から、被覆材12に第一部材71と第二部材72が添設され、この2つの部材が熔着または接着されて、固定されたものである。 (6) Fourth Embodiment of Protection Member FIG. 8 is a schematic perspective view showing a fourth embodiment of the protection member used in the non-contact data receiving / transmitting body of the present invention.
The protection member 70 of this embodiment is a cylindrical member formed by combining a first member 71 and a second member 72 having different shapes.
As described above, the protective member 70 is applied to the covering material 12 from both sides (one outer surface and the other outer surface) of the laminated body 21 including the inlet 11 and the covering material 12 in the middle of the thickness of the laminated body 21. A first member 71 and a second member 72 are attached, and these two members are fixed by welding or bonding.

第一部材71は、平面視略長方形状でかつ平板状の基部73と、基部73の一方の面(被覆材12と対向する面)73aの対向する縁(ここでは、基部73の一方の面73aの対向する短辺側の縁)のそれぞれに垂設された一対の側壁部74,74とから構成されている。
一対の側壁部74,74の間隔は、積層体21における第一の凹部22,22の間の幅とほぼ等しくなっている。したがって、第一の凹部22,22に、第一部材71が外嵌された場合、第一の凹部22,22にて、側壁部74,74の内側面74a,74aが、積層体21の側面21a,21bに密着する。 The first member 71 has a substantially rectangular shape in plan view and a flat plate-like base 73 and an opposing edge (here, one surface of the base 73) of one surface (surface facing the covering material 12) 73a of the base 73. 73a, and a pair of side wall portions 74, 74 suspended from each of the opposing short side edges 73a.
The distance between the pair of side wall portions 74 and 74 is substantially equal to the width between the first concave portions 22 and 22 in the stacked body 21. Therefore, when the first member 71 is externally fitted in the first recesses 22 and 22, the inner side surfaces 74 a and 74 a of the side wall portions 74 and 74 are the side surfaces of the stacked body 21 in the first recesses 22 and 22. It adheres to 21a, 21b.

また、側壁部74の中央部には、第二部材72と接合される面から基部73側に凹む凹部74bが設けられている。
凹部74bは、後述する第二部材72の両側面72aに突設された凸部72bと形状がほぼ等しくなっている。また、凹部74bは、第一部材71の側壁部74上に第二部材72を配置した場合、凹部74bに凸部72bが嵌合する位置に設けられている。 In addition, a concave portion 74 b that is recessed toward the base portion 73 from a surface that is joined to the second member 72 is provided in the central portion of the side wall portion 74.
The concave portion 74b has substantially the same shape as the convex portion 72b protruding from both side surfaces 72a of the second member 72 described later. Further, when the second member 72 is disposed on the side wall portion 74 of the first member 71, the concave portion 74b is provided at a position where the convex portion 72b is fitted into the concave portion 74b.

第一部材71の厚さ、すなわち、基部73の厚さおよび側壁部74の厚さは、特に限定されないが、保護部材70を用いた非接触型データ受送信体が、洗濯時やクリーニング時などにおいて、高温・高圧の環境にさらされた場合に、ICチップおよびその近傍に外力が加わるのを抑制できる程度であり、例えば、0.5mm〜2000mmの範囲内である。  The thickness of the first member 71, that is, the thickness of the base portion 73 and the thickness of the side wall portion 74 is not particularly limited, but the non-contact type data receiving / transmitting body using the protection member 70 is used for washing or cleaning. However, when exposed to a high temperature / high pressure environment, it is possible to suppress the external force from being applied to the IC chip and its vicinity, for example, within a range of 0.5 mm to 2000 mm.

第二部材72は、平面視略長方形状でかつ平板状の部材であり、その短辺側の側面72aの中央部にはそれぞれ、長手方向と平行にかつ外側に向かって凸部72bが突設されている。
凸部72bは、第一部材71の側壁部74の凹部74bと形状がほぼ等しくなっている。また、凸部72bは、第一部材71の側壁部74上に第二部材72を配置した場合、凹部74bに凸部72bが嵌合する位置に設けられている。
また、第二部材72の側面72aの一方から他方までの長さは、積層体21における第一の凹部22,22の間の幅、すなわち、第一部材71の側壁部74,74の間隔とほぼ等しくなっている。したがって、第一部材71の凹部74bに第二部材72の凸部72bが嵌合された場合、第二部材72の側面72aと、第一部材71の側壁部74の内側面74aとが密着する。 The second member 72 is a flat plate-like member having a substantially rectangular shape in plan view, and a convex portion 72b projects in parallel to the longitudinal direction and toward the outside at the central portion of the side surface 72a on the short side. Has been.
The convex portion 72 b has substantially the same shape as the concave portion 74 b of the side wall portion 74 of the first member 71. Further, when the second member 72 is disposed on the side wall portion 74 of the first member 71, the convex portion 72b is provided at a position where the convex portion 72b fits into the concave portion 74b.
Further, the length from one side of the side surface 72 a of the second member 72 to the other is the width between the first concave portions 22, 22 in the laminate 21, that is, the interval between the side wall portions 74, 74 of the first member 71. It is almost equal. Therefore, when the convex portion 72b of the second member 72 is fitted into the concave portion 74b of the first member 71, the side surface 72a of the second member 72 and the inner side surface 74a of the side wall portion 74 of the first member 71 are in close contact. .

第二部材72の厚さは、特に限定されないが、保護部材70を用いた非接触型データ受送信体が、洗濯時やクリーニング時などにおいて、高温・高圧の環境にさらされた場合に、ICチップおよびその近傍に外力が加わるのを抑制できる程度であり、例えば、0.5mm〜2000mmの範囲内である。  The thickness of the second member 72 is not particularly limited. However, when the non-contact type data receiving / transmitting body using the protection member 70 is exposed to a high-temperature / high-pressure environment during washing or cleaning, the IC It is a grade which can suppress that external force is added to a chip | tip and its vicinity, For example, it exists in the range of 0.5 mm-2000 mm.

さらに、第一部材71の側壁部74の高さ、すなわち、基部73の一方の面73aを基準とし、凹部74bの基端となる面までの長さは、積層体21の厚さとほぼ等しくなっている。
したがって、第一の凹部22,22に、第一部材71が外嵌されて、第一部材71の凹部74bに第二部材72の凸部72bが嵌合され、第一部材71と第二部材72が熔着されると、第一部材71の基部73の一方の面73aの全面が被覆材12の表面(外面)12aに密着し、かつ、第二部材72の第一部材71と対向する面の全面が被覆材12の表面(外面)12bに密着する。 Further, the height of the side wall portion 74 of the first member 71, that is, the length to the surface serving as the base end of the recess 74 b on the basis of the one surface 73 a of the base portion 73 is substantially equal to the thickness of the stacked body 21. ing.
Therefore, the first member 71 is externally fitted to the first concave portions 22, 22, and the convex portion 72 b of the second member 72 is fitted to the concave portion 74 b of the first member 71. When 72 is welded, the entire surface of one surface 73a of the base 73 of the first member 71 is in close contact with the surface (outer surface) 12a of the covering material 12, and faces the first member 71 of the second member 72. The entire surface is in close contact with the surface (outer surface) 12 b of the covering material 12.

また、この保護部材70を被覆材12に添設する場合、第一部材71と第二部材72のどちらを第一の被覆材13側に配置してもよい。  When the protective member 70 is attached to the covering material 12, either the first member 71 or the second member 72 may be disposed on the first covering material 13 side.

なお、この実施形態では、第一部材71における基部73の一方の面(被覆材12と対向する面)73a、および、第二部材72の一方の面(被覆材12と対向する面)が平坦面である場合を例示したが、本発明はこれに限定されない。
本発明にあっては、保護部材の被覆材と対向する面、すなわち、第一部材における基部の一方の面、および、第二部材の一方の面において、インレットと被覆材からなる積層体の長手方向または短手方向に沿う外縁の両側に突条が設けられていてもよい。この場合、第一部材の側壁部の高さは、上述の非接触型データ受送信体の第二の実施形態または第四の実施形態と同様である。 In this embodiment, one surface (surface facing the covering material 12) 73a of the base 73 in the first member 71 and one surface (surface facing the covering material 12) of the second member 72 are flat. Although the case where it is a surface was illustrated, this invention is not limited to this.
In the present invention, the length of the laminate composed of the inlet and the covering material on the surface of the protective member facing the covering material, that is, one surface of the base portion of the first member and one surface of the second member. The protrusion may be provided on both sides of the outer edge along the direction or the short direction. In this case, the height of the side wall portion of the first member is the same as that of the second embodiment or the fourth embodiment of the non-contact type data receiving / transmitting body described above.

(7)保護部材の第五の実施形態
図9は、本発明の非接触型データ受送信体に用いられる保護部材の第五の実施形態を示す概略斜視図である。
この実施形態の保護部材80は、形状の異なる第一部材81と第二部材82を組み合わせてなる筒状の部材である。
この保護部材80は、上述のように、積層体21の厚さの中間において、インレット11と被覆材12からなる積層体21の両面(一方の外面および他方の外面)側から、被覆材12に第一部材81と第二部材82が添設され、この2つの部材が熔着または接着されて、固定されたものである。 (7) Fifth Embodiment of Protective Member FIG. 9 is a schematic perspective view showing a fifth embodiment of a protective member used in the non-contact data receiving / transmitting body of the present invention.
The protection member 80 of this embodiment is a cylindrical member formed by combining a first member 81 and a second member 82 having different shapes.
As described above, the protective member 80 is applied to the covering material 12 from both sides (one outer surface and the other outer surface) of the laminated body 21 including the inlet 11 and the covering material 12 in the middle of the thickness of the laminated body 21. A first member 81 and a second member 82 are attached, and these two members are fixed by welding or bonding.

第一部材81は、平面視略長方形状でかつ平板状の基部83と、基部83の一方の面(被覆材12と対向する面)83aの対向する縁(ここでは、基部83の一方の面83aの対向する短辺側の縁)のそれぞれに垂設された一対の側壁部84,84とから構成されている。
一対の側壁部84,84の間隔は、積層体21における第一の凹部22,22の間の幅とほぼ等しくなっている。したがって、第一の凹部22,22に、第一部材81が外嵌された場合、第一の凹部22,22にて、側壁部84,84の内側面84a,84aが、積層体21の側面21a,21bに密着する。
また、側壁部84,84の間隔は、第二部材82の長手方向の幅とほぼ等しくなっている。 The first member 81 has a substantially rectangular plate-like base 83 in plan view, and an opposing edge (here, one surface of the base 83) of one surface (surface facing the covering material 12) 83a of the base 83. 83a, a pair of side wall portions 84 and 84 that are suspended from each other on the short side edge 83a.
The distance between the pair of side wall portions 84 and 84 is substantially equal to the width between the first concave portions 22 and 22 in the stacked body 21. Therefore, when the first member 81 is externally fitted in the first recesses 22, 22, the inner side surfaces 84 a, 84 a of the side wall portions 84, 84 are the side surfaces of the stacked body 21 in the first recesses 22, 22. It adheres to 21a, 21b.
Further, the interval between the side wall portions 84 and 84 is substantially equal to the width of the second member 82 in the longitudinal direction.

第一部材81の厚さ、すなわち、基部83の厚さおよび側壁部84の厚さは、特に限定されないが、保護部材80を用いた非接触型データ受送信体が、洗濯時やクリーニング時などにおいて、高温・高圧の環境にさらされた場合に、ICチップおよびその近傍に外力が加わるのを抑制できる程度であり、例えば、0.5mm〜2000mmの範囲内である。  The thickness of the first member 81, that is, the thickness of the base portion 83 and the thickness of the side wall portion 84 is not particularly limited, but the non-contact type data receiving / transmitting body using the protection member 80 is used for washing or cleaning. However, when exposed to a high temperature / high pressure environment, it is possible to suppress the external force from being applied to the IC chip and its vicinity, for example, within a range of 0.5 mm to 2000 mm.

第二部材82は、平面視略長方形状でかつ平板状の部材であり、その長手方向の幅は、第一部材81の側壁部84,84の間隔とほぼ等しくなっている。
したがって、第一部材81の側壁部84,84の内側面84a,84aに、第二部材82の短辺側の側面82a,82aを接触させるように、第一部材81に対して第二部材82を配置することにより、第一部材81に第二部材82が嵌合される。 The second member 82 is a flat plate-like member having a substantially rectangular shape in plan view, and the width in the longitudinal direction is substantially equal to the interval between the side wall portions 84, 84 of the first member 81.
Therefore, the second member 82 with respect to the first member 81 is brought into contact with the inner side surfaces 84a and 84a of the side wall portions 84 and 84 of the first member 81 so that the side surfaces 82a and 82a on the short side of the second member 82 are brought into contact with each other. The second member 82 is fitted to the first member 81 by arranging the above.

さらに、第一部材81の側壁部84の高さ、すなわち、基部83の一方の面83aを基準とする高さは、積層体21の厚さとほぼ等しくなっている。
したがって、第一の凹部22,22に、第一部材81が外嵌されて、第一部材81の側壁部84,84の内側面84a,84aに、第二部材82の短辺側の側面82a,82aを接触させるように、第一部材81に対して第二部材82が配置され、第一部材81と第二部材82が熔着されると、第一部材81の基部83の一方の面83aの全面が被覆材12の表面(外面)12aに密着し、かつ、第二部材82の第一部材81と対向する面の全面が被覆材12の表面(外面)12bに密着する。 Further, the height of the side wall portion 84 of the first member 81, that is, the height based on the one surface 83 a of the base portion 83 is substantially equal to the thickness of the stacked body 21.
Therefore, the first member 81 is externally fitted in the first recesses 22, 22, and the side surfaces 82 a on the short side of the second member 82 are formed on the inner surfaces 84 a, 84 a of the side walls 84, 84 of the first member 81. When the second member 82 is arranged with respect to the first member 81 and the first member 81 and the second member 82 are welded, one surface of the base portion 83 of the first member 81 is contacted. The entire surface of 83a is in close contact with the surface (outer surface) 12a of the covering material 12, and the entire surface of the second member 82 facing the first member 81 is in close contact with the surface (outer surface) 12b of the covering material 12.

また、この保護部材80を被覆材12に添設する場合、第一部材81と第二部材82のどちらを第一の被覆材13側に配置してもよい。  When the protective member 80 is attached to the covering material 12, either the first member 81 or the second member 82 may be disposed on the first covering material 13 side.

なお、この実施形態では、第一部材81における基部83の一方の面(被覆材12と対向する面)83a、および、第二部材82の一方の面(被覆材12と対向する面)が平坦面である場合を例示したが、本発明はこれに限定されない。
本発明にあっては、保護部材の被覆材と対向する面、すなわち、第一部材における基部の一方の面、および、第二部材の一方の面において、インレットと被覆材からなる積層体の長手方向または短手方向に沿う外縁の両側に突条が設けられていてもよい。この場合、第一部材の側壁部の高さは、上述の非接触型データ受送信体の第二の実施形態または第四の実施形態と同様である。 In this embodiment, one surface (surface facing the covering material 12) 83a of the base 83 in the first member 81 and one surface (surface facing the covering material 12) of the second member 82 are flat. Although the case where it is a surface was illustrated, this invention is not limited to this.
In the present invention, the length of the laminate composed of the inlet and the covering material on the surface of the protective member facing the covering material, that is, one surface of the base portion of the first member and one surface of the second member. The protrusion may be provided on both sides of the outer edge along the direction or the short direction. In this case, the height of the side wall portion of the first member is the same as that of the second embodiment or the fourth embodiment of the non-contact type data receiving / transmitting body described above.

10,30,40,50・・・非接触型データ受送信体、11・・・インレット、12・・・被覆材、13・・・第一の被覆材、14・・・第二の被覆材、15,31,60,70,80・・・保護部材、16・・・基材、17・・・ICチップ、18・・・アンテナ、19,20・・・放射素子、21,22・・・第一の凹部、23A,32A,61,71,81・・・第一部材、23B,32B,62,72,82・・・第二部材、24,33,63,65,73,83・・・基部、25,34,64,66,74,84・・・側壁部、35・・・突条、36,37・・・隙間、41,42・・・第二の凹部。 10, 30, 40, 50: Non-contact type data transmitting / receiving body, 11: Inlet, 12 ... Covering material, 13 ... First coating material, 14 ... Second coating material 15, 31, 60, 70, 80 ... protective member, 16 ... substrate, 17 ... IC chip, 18 ... antenna, 19, 20 ... radiating element, 21, 22, ... First recess 23A, 32A, 61, 71, 81 ... first member, 23B, 32B, 62, 72, 82 ... second member, 24, 33, 63, 65, 73, 83 .. Base part, 25, 34, 64, 66, 74, 84 ... side wall part, 35 ... ridge, 36, 37 ... gap, 41, 42 ... second recess.

Claims (3)

インレットと、該インレットにおける少なくともICチップが設けられた面を被覆する被覆材と、少なくとも前記ICチップおよびその近傍に重なるように、前記被覆材、または、前記被覆材および前記インレットの基材に添設された保護部材と、を備えてなる非接触型データ受送信体であって、
前記インレットと前記被覆材からなる積層体の長手方向に沿う外縁の両側には、前記ICチップの近傍において、前記積層体の短手方向に凹む第一の凹部が設けられ、該第一の凹部に前記保護部材が外嵌され、
前記被覆材は可撓性の材料からなり、
前記保護部材は、前記被覆材よりも硬質の材料からなることを特徴とする非接触型データ受送信体。 An inlet, a covering material that covers at least the surface of the inlet on which the IC chip is provided, and the covering material or the covering material and the inlet base material so as to overlap at least the IC chip and the vicinity thereof. A contactless data receiving / transmitting body comprising: a protective member provided;
On both sides of the outer edge along the longitudinal direction of the laminate composed of the inlet and the covering material, a first recess is provided in the vicinity of the IC chip and is recessed in the lateral direction of the laminate. The protective member is externally fitted to
The covering material is made of a flexible material,
The non-contact type data receiving / transmitting body, wherein the protective member is made of a material harder than the covering material. 前記保護部材の前記被覆材と対向する面において、前記積層体の長手方向または短手方向に沿う外縁の両側には突条が設けられたことを特徴とする請求項1に記載の非接触型データ受送信体。  2. The non-contact type according to claim 1, wherein protrusions are provided on both sides of an outer edge along a longitudinal direction or a lateral direction of the laminated body on a surface of the protective member facing the covering material. Data sending / receiving body. 前記被覆材には、前記第一の凹部の一方から他方に渡って延在し、前記被覆材の厚さ方向に凹む第二の凹部が設けられ、該第二の凹部に前記保護部材が外嵌されたことを特徴とする請求項1または2に記載の非接触型データ受送信体。
The covering material is provided with a second recessed portion extending from one side of the first recessed portion to the other and recessed in the thickness direction of the covering material, and the protective member is disposed in the second recessed portion. The contactless data receiving / transmitting body according to claim 1, wherein the contactless data receiving / transmitting body is fitted.
JP2010185301A 2010-08-20 2010-08-20 Non-contact type data receiving/transmitting body Pending JP2012043283A (en)

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JP5652581B1 (en) * 2013-08-27 2015-01-14 株式会社村田製作所 Method for manufacturing antenna device
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