JP2009160763A - Coating implement - Google Patents

Coating implement Download PDF

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Publication number
JP2009160763A
JP2009160763A JP2007340193A JP2007340193A JP2009160763A JP 2009160763 A JP2009160763 A JP 2009160763A JP 2007340193 A JP2007340193 A JP 2007340193A JP 2007340193 A JP2007340193 A JP 2007340193A JP 2009160763 A JP2009160763 A JP 2009160763A
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Japan
Prior art keywords
capsule
adhesive
applicator
micro
main body
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JP2007340193A
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Japanese (ja)
Inventor
Shogo Kobayashi
彰吾 小林
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Kokuyo Co Ltd
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Kokuyo Co Ltd
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Priority to JP2007340193A priority Critical patent/JP2009160763A/en
Priority to PCT/JP2008/073279 priority patent/WO2009084498A1/en
Publication of JP2009160763A publication Critical patent/JP2009160763A/en
Pending legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B43WRITING OR DRAWING IMPLEMENTS; BUREAU ACCESSORIES
    • B43MBUREAU ACCESSORIES NOT OTHERWISE PROVIDED FOR
    • B43M11/00Hand or desk devices of the office or personal type for applying liquid, other than ink, by contact to surfaces, e.g. for applying adhesive
    • B43M11/06Hand-held devices
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B43WRITING OR DRAWING IMPLEMENTS; BUREAU ACCESSORIES
    • B43MBUREAU ACCESSORIES NOT OTHERWISE PROVIDED FOR
    • B43M5/00Devices for closing envelopes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H37/00Article or web delivery apparatus incorporating devices for performing specified auxiliary operations
    • B65H37/002Web delivery apparatus, the web serving as support for articles, material or another web
    • B65H37/005Hand-held apparatus
    • B65H37/007Applicators for applying coatings, e.g. correction, colour or adhesive coatings
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2701/00Handled material; Storage means
    • B65H2701/10Handled articles or webs
    • B65H2701/17Nature of material
    • B65H2701/172Composite material
    • B65H2701/1722Composite material including layer with adhesive properties
    • B65H2701/17222Encapsulated adhesive

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  • Coating Apparatus (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To enable a functional material to be taken out of a capsule at a required timing without using a special implement other than a coating implement in the coating implement for applying a coating substance in which the capsule including the functional material is a main material. <P>SOLUTION: The coating implement 1 for applying the coating substance, in which the capsule including the functional material is the main material, is equipped with a coating substance storing room 2s for storing the coating substance, a body 2 equipped with a felt 4 being a coating element for applying the coating substance fed from the coating substance storing room 2s on an object to be coated, and a spatula 5 provided by being adjacent to the body 2 and having a pressing face 5a being a fracture accelerating element for accelerating a fracture of the capsule in the coating substance applied. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

本発明は、機能性材料を内包してなるカプセルを主材とする塗布物を塗布するための塗布具に関する。   The present invention relates to an applicator for applying an applied product mainly composed of a capsule containing a functional material.

従来より、各種の機能性材料を内包してなるカプセルは種々考えられてきている。また、近時は、このようなカプセルを所望の箇所に塗布することを可能にすべく、機能性材料を内包してなるカプセルを主材とする塗布物を収容する塗布物収容室と、この塗布物収容室から供給される塗布物を塗布対象物に塗布するための塗布要素を備えた塗布具が種々考えられてきている(例えば、特許文献1、2を参照)。
特開2007−196136号公報 特開2006−111761号公報
Conventionally, various capsules including various functional materials have been considered. In addition, recently, in order to make it possible to apply such a capsule to a desired location, an applied material storage chamber for storing an applied material mainly composed of a capsule containing a functional material, and this Various applicators provided with an application element for applying an application supplied from an application storage chamber to an application object have been considered (see, for example, Patent Documents 1 and 2).
JP 2007-196136 A JP 2006-111761 A

ところで、上述したようなカプセルには、カプセルを破壊し、カプセルに内包させた機能性材料を放出させることによりはじめて機能性材料の機能を発揮させるタイプのものが存在する。しかして、前記特許文献1記載の塗布具は、カプセルを所望の箇所に塗布することのみを目的とするものであり、このような塗布具により塗布されたカプセルを破壊する際には別途カプセルを破壊するための手段を用意する必要がある。一方、前記特許文献2記載の塗布具により塗布されるカプセルは破壊可能であることを前提としているが、この特許文献2記載の構成では塗布時にカプセルを破壊するようにしているため、特に機能性材料が空気中の成分に触れることや光の照射を受けること等により急速な化学変化を起こすものである場合に不適切であることがあり得る。   By the way, among the capsules as described above, there is a type of capsule that exhibits the function of the functional material only after the capsule is broken and the functional material encapsulated in the capsule is released. Therefore, the applicator described in Patent Document 1 is only intended to apply the capsule to a desired location. When the capsule applied by such an applicator is broken, a separate capsule is required. It is necessary to prepare a means for destruction. On the other hand, it is assumed that the capsule applied by the applicator described in Patent Document 2 can be broken. However, in the configuration described in Patent Document 2, since the capsule is broken at the time of application, the functionality is particularly good. It may be inappropriate if the material is subject to rapid chemical changes, such as by touching components in the air or being exposed to light.

本発明は、以上に述べた課題を解決すべく、すなわち別途カプセルを破壊するための手段を必要とせず、所望のタイミングでカプセルから機能性材料を取り出すことができるようにすべく構成するものである。   The present invention is configured to solve the above-described problem, that is, without requiring a means for separately destroying the capsule and to be able to take out the functional material from the capsule at a desired timing. is there.

すなわち本発明に係る塗布具は、機能性材料を内包してなるカプセルを主材とする塗布物を塗布するものであって、塗布物を収容する塗布物収容室及びこの塗布物収容室から供給される塗布物を塗布対象物に塗布するための塗布要素と、この塗布要素と別部位に設けられ該塗布要素により塗布した塗布物中の前記カプセルの破壊を促進する破壊促進要素とを具備してなることを特徴とする。   That is, the applicator according to the present invention is for applying a coating material mainly composed of a capsule containing a functional material, and is supplied from the coating material storage chamber for storing the coating material and the coating material storage chamber. An application element for applying the applied object to the object to be applied, and a breakage promoting element that is provided at a site different from the application element and promotes the destruction of the capsule in the application applied by the application element. It is characterized by.

このようなものであれば、塗布作業を行った後、所望のタイミングで破壊促進要素を利用してカプセルを破壊する操作を行うことができるので、塗布具以外に特別な用具を用いることなく、所望のタイミングでカプセルを破壊してカプセルから機能性材料を取り出すことができる。なお、本発明において、「カプセルを破壊する」とは、外壁に機能性材料を内包してなるカプセルの外壁を破壊することの他に、外壁に機能性材料の注入及び放出が可能な大きさの細孔を有するとともにこの細孔をコーティング層により被覆する態様のカプセルのコーティング層を除去し機能性材料をカプセル外に放出しうる状態にすること等、機能性材料をカプセル外に放出しうる状態にすること全般を含む概念である。また、「破壊促進要素を塗布要素と別部位に設ける」とは、塗布要素に破壊促進要素としての機能をも備えさせる以外の態様で破壊促進要素を設けること全般を含む概念である。   If this is the case, after performing the application work, it is possible to perform the operation of destroying the capsule using the destruction promoting element at a desired timing, so without using a special tool other than the application tool, The functional material can be taken out from the capsule by breaking the capsule at a desired timing. In the present invention, “breaking the capsule” means that the outer wall of the capsule formed by encapsulating the functional material in the outer wall can be injected and discharged in addition to breaking the outer wall of the capsule. The functional material can be released out of the capsule, such as removing the coating layer of the capsule in which the pores are covered with the coating layer so that the functional material can be released out of the capsule. It is a concept that includes the overall state. Further, “providing the destruction promoting element at a different site from the application element” is a concept including the whole provision of the destruction promoting element in a mode other than providing the application element also with a function as a destruction promoting element.

特に、前記破壊促進要素が、本体の基端側に形成した押圧部であれば、破壊促進要素の位置がわかりやすいので、破壊作業を行うべく破壊促進要素を探す手間を軽減できる。   In particular, if the breakage promoting element is a pressing portion formed on the base end side of the main body, the position of the breakage promoting element is easy to understand. Therefore, it is possible to reduce the trouble of searching for the breakage promoting element to perform the breaking work.

さらに、前記押圧部に、前記カプセルに優先的に当接する凸部を複数設けているものであれば、この凸部からカプセルが受ける圧力を大きくしてカプセルを突き破るようにできるので、より少ない作用でカプセルを破壊するようにできる。   Furthermore, if the pressing portion is provided with a plurality of convex portions that preferentially abut against the capsule, the pressure received by the capsule from the convex portion can be increased so as to break through the capsule, so there is less effect. Can destroy the capsule.

また、前記破壊促進要素が、本体の基端側に形成した押圧部と、本体を回転ないし平行移動させて塗布物を塗布した塗布対象物との間に摩擦熱を発生させるための摩擦促進部とであれば、摩擦熱によりカプセルを融解させて破壊するようにできる。   In addition, the friction promoting part is a friction promoting part for generating frictional heat between the pressing part formed on the base end side of the main body and the application object to which the application is applied by rotating or translating the main body. If so, the capsule can be melted and destroyed by frictional heat.

一方、前記破壊促進要素が、前記本体の塗布要素近傍に設けたローラであれば、塗布作業に引き続いてローラによりカプセルを破壊し、塗布作業を速やかに行うことができるようになる。   On the other hand, if the breakage promoting element is a roller provided in the vicinity of the coating element of the main body, the capsule can be broken by the roller following the coating work, and the coating work can be performed quickly.

さらに、前記カプセルが機能性材料の他に磁性体微粒子を内包してなる塗布物を塗布するものであって、前記破壊促進要素が、前記磁性体微粒子を吸引することによりカプセルの破壊を促進する磁石であれば、カプセルを直接押圧することなく、磁力により磁性体微粒子を吸引させ、この磁性体粒子の移動に伴いカプセルを損傷させることにより、カプセルを破壊する操作、すなわち機能性材料をカプセル外に放出可能な状態にする操作の支援を行うことができる。   Further, the capsule is applied with a coating material containing magnetic fine particles in addition to the functional material, and the breakage promoting element promotes breakage of the capsule by sucking the magnetic fine particles. In the case of a magnet, the magnetic fine particles are attracted by magnetic force without directly pressing the capsule, and the capsule is damaged by the movement of the magnetic particles to destroy the capsule, that is, the functional material is removed from the capsule. It is possible to support the operation to make it ready for release.

加えて、前記塗布物収容室に補充するための塗布物が充填され、前記本体に対して着脱可能に設けられるリフィルを具備してなるものであれば、収容室内に収容した塗布物を使い切った際には、リフィルのみを交換すればよく、その他の箇所は廃棄する必要なく引き続き使用可能であるので、収容室内に収容した塗布物を使い切った際の廃棄物を最小限にすることができる。   In addition, if the coating material for replenishing the coating material storage chamber is filled and provided with a refill detachably attached to the main body, the coating material stored in the storage chamber is used up. In this case, only the refill needs to be replaced, and other portions can be used without being discarded. Therefore, waste when the coating material stored in the storage chamber is used up can be minimized.

なお、本発明において、「塗布」とは、塗布物を転写シートの離型基材上から塗布面に転写する態様も含む概念である。   In the present invention, “application” is a concept including a mode in which an application is transferred from the release substrate of the transfer sheet to the application surface.

本発明に係る塗布具の構成を採用すれば、塗布物を塗布対象物に塗布するための塗布要素を備えた本体に、塗布した塗布物中の前記カプセルの破壊を促進する破壊促進要素を添接させて設けているので、塗布作業を行った後、所望のタイミングで破壊促進要素を利用してカプセルを破壊する操作を行うことができるので、塗布具以外に特別な用具を用いることなく、所望のタイミングでカプセルを破壊してカプセルから機能性材料を取り出すことができる。   If the configuration of the applicator according to the present invention is adopted, a breakage promoting element that promotes breakage of the capsule in the applied applied material is added to the main body provided with an applying element for applying the applied material to the applied object. Since it is provided in contact with each other, after performing the application work, it is possible to perform an operation of destroying the capsule using a breakage promoting element at a desired timing, without using a special tool other than the application tool, The functional material can be taken out from the capsule by breaking the capsule at a desired timing.

以下、本発明の第一実施形態について図面を参照して説明する。   Hereinafter, a first embodiment of the present invention will be described with reference to the drawings.

本実施形態に係る塗布具1は、図1の(a)に全体斜視図を示すように、本体2と、本体2の基部に着脱可能に取り付けてなるリフィル3と、本体2の基端部に設けてなり破壊促進要素たる押圧面5aを有するへら5とを具備する。   The applicator 1 according to this embodiment includes a main body 2, a refill 3 that is detachably attached to a base portion of the main body 2, and a base end portion of the main body 2, as shown in FIG. And a spatula 5 having a pressing surface 5a which is a fracture promoting element.

前記本体2は、本実施形態では内部に塗布物たる接着材料を収容する塗布物収容室2sを備えた筒状としている。また、図示はしないが、長手方向中間部には前記リフィル3に設けた雄ネジ部と螺合可能な雌ネジ部を設けている。そして、先端部には、被接着物と当接した状態で前記収容室2sから供給される接着材料を排出するための塗布要素たるフェルト4を設けている。このフェルト4は、本実施形態では、蛍光ペンのペン先に用いられているものとして周知のものと同様の構成を有する。すなわち、先端に向かうにつれ断面積が小さくなる略平板状をなし、先端部から接着材料を放出する。なお、このフェルト4は、非使用時にはキャップ41により被覆するようにしている。   In the present embodiment, the main body 2 has a cylindrical shape including an applied material storage chamber 2s for storing an adhesive material as an applied material. Although not shown, a female screw portion that can be screwed with a male screw portion provided in the refill 3 is provided in the middle portion in the longitudinal direction. And the felt 4 which is an application | coating element for discharging | emitting the adhesive material supplied from the said storage chamber 2s in the state contact | abutted with the to-be-adhered object is provided in the front-end | tip part. In the present embodiment, the felt 4 has the same configuration as that known as that used for the pen tip of a fluorescent pen. That is, it has a substantially flat plate shape with a cross-sectional area that decreases toward the tip, and the adhesive material is discharged from the tip. The felt 4 is covered with a cap 41 when not in use.

前記リフィル3は、図1の(b)に示すように、本実施形態では有底筒状をなし、内部に接着材料を収容してなる収容室3sを備えている。また、図示はしないが、先端部に前記本体2の長手方向中間部の雌ネジ部と螺合可能な雄ネジ部を設けていて、先端側を前記本体2の内部に収納可能にしている。そして、このリフィル3を本体2に装着した際に、このリフィル3の全体が本体2の塗布物収容室2s内に収納されるようにしている。   As shown in FIG. 1B, the refill 3 has a bottomed cylindrical shape in the present embodiment, and includes a storage chamber 3s that stores an adhesive material therein. Although not shown in the drawings, a male screw portion that can be screwed with a female screw portion in the middle in the longitudinal direction of the main body 2 is provided at the front end portion so that the front end side can be accommodated in the main body 2. When the refill 3 is attached to the main body 2, the entire refill 3 is stored in the applied material storage chamber 2 s of the main body 2.

前記へら5は、本体2から離れるにつれ断面積が小さくなる略平板状をなし、このへら5の前記本体のフェルト4と反対側の端面を、被接着物に圧着することにより破壊促進要素としての機能を発揮する押圧面5aとしている。なお、このへら5は、非使用時にはキャップ51により被覆するようにしている。   The spatula 5 has a substantially flat plate shape whose cross-sectional area decreases as it moves away from the main body 2, and the end surface of the spatula 5 opposite to the felt 4 on the opposite side of the spatula 5 is pressure-bonded to an object to be bonded. The pressing surface 5a exerts its function. The spatula 5 is covered with a cap 51 when not in use.

一方、前記接着材料Xは、外力により破壊可能な防水性を有する骨材たる外壁X2と、この外壁X2に内包された機能性材料たる粘着剤X3とを備えた、図2に断面を示すような(マイクロ)カプセルX1を複数個具備してなるとともに、この(マイクロ)カプセルX1を、分散媒X4中に複数個分散させてなる。そして、この接着材料Bは、一方の接着対象物S上に配し、この接着材料上に他方の接着対象物をさらに配した状態で、接着対象物同士を圧着させることにより前記外壁X2を破壊されることにより、前記粘着剤X3を放出させて接着対象物同士を接着する機能を発揮する。なお、「(マイクロ)カプセル」とは、外径1000μm未満の「カプセル」を「マイクロカプセル」とした上で、「マイクロカプセル」とそれ以外の「カプセル」とを包括的に示す概念である。   On the other hand, the adhesive material X includes an outer wall X2 that is a waterproof aggregate that can be broken by an external force, and a pressure-sensitive adhesive X3 that is a functional material contained in the outer wall X2, as shown in FIG. A plurality of (micro) capsules X1 are provided, and a plurality of (micro) capsules X1 are dispersed in a dispersion medium X4. Then, the adhesive material B is disposed on one adhesion target S, and the outer wall X2 is destroyed by crimping the adhesion targets in a state where the other adhesion target is further disposed on the adhesive material. As a result, the pressure-sensitive adhesive X3 is released to exert a function of bonding the objects to be bonded together. Note that “(micro) capsule” is a concept that comprehensively shows “microcapsules” and other “capsules” after defining “capsules” having an outer diameter of less than 1000 μm as “microcapsules”.

前記外壁X2は、粘着剤X3と混じり合わず、かつ粘着剤X3と化学反応を起こさない材質である必要がある。例えば、疎水性の天然及び合成高分子ワックス類に代表される有機化合物や無機化合物等が考えられる。さらに、この外壁X2を形成する材質としては、膜を形成した際に細孔が形成されない、あるいは水分子よりも小さな細孔のみが形成されるような材質が望ましい。   The outer wall X2 needs to be made of a material that does not mix with the adhesive X3 and does not cause a chemical reaction with the adhesive X3. For example, organic compounds and inorganic compounds represented by hydrophobic natural and synthetic polymer waxes can be considered. Further, the material for forming the outer wall X2 is preferably a material in which no pores are formed when a film is formed, or only pores smaller than water molecules are formed.

この外壁X2の厚さ寸法は、所定の本止め閾値N1以上の外圧が加えられた際には破壊されるように設定する必要がある。ここで、前記本止め閾値N1は、10N/cm2以上150N/cm2未満の範囲、より好ましくは20N/cm2以上100N/cm2未満の範囲に設定している。なお、10N/cm2という値は、一方の接着対象物上にこの接着材料Zを塗布する際に(マイクロ)カプセルX1が受ける圧力を考慮して求められた値である。一方、150N/cm2という値は、接着対象物同士を相寄る方向に押圧する作業を行う際に接着対象物が受ける圧力の実用上の上限値を考慮して定めた値である。さらに、この外壁X2の厚さ寸法は、所定の仮止め閾値N2以下の外力ではいずれの(マイクロ)カプセルX1も破壊されないように設定している。ここで、前記仮止め閾値N2は、50N/cm2と前記本止め閾値N1とのうち小さい方の値以下であり、より好ましくは20N/cm2以下である。さらに、前記本止め閾値N1を20N/cm2以上100N/cm2未満の範囲に設定すると、この外壁X2の設計容易性と使いやすさとを両立させやすくできる。特に、前記本止め閾値N1が前記仮止め閾値N2の2倍以上、より好ましくは2.5倍以上6倍未満であれば、これら外壁X2の設計容易性と使いやすさとの両立を容易に行うことができ、実用性を高めることができる。 The thickness dimension of the outer wall X2 needs to be set so that the outer wall X2 is destroyed when an external pressure equal to or greater than a predetermined final stop threshold N1 is applied. Here, the final stop threshold N1 is set in a range of 10 N / cm 2 or more and less than 150 N / cm 2 , more preferably in a range of 20 N / cm 2 or more and less than 100 N / cm 2 . Note that the value of 10 N / cm 2 is a value obtained in consideration of the pressure received by the (micro) capsule X1 when the adhesive material Z is applied onto one object to be bonded. On the other hand, the value of 150 N / cm 2 is a value determined in consideration of a practical upper limit value of the pressure applied to the adhesion target object when performing an operation of pressing the adhesion target objects in the direction of approaching each other. Further, the thickness dimension of the outer wall X2 is set so that any (micro) capsule X1 is not broken by an external force equal to or less than a predetermined temporary fixing threshold N2. Here, the temporary fixing threshold N2 is equal to or smaller than the smaller value of 50 N / cm 2 and the final fixing threshold N1, and more preferably equal to or less than 20 N / cm 2 . Furthermore, when the final stop threshold value N1 is set in a range of 20 N / cm 2 or more and less than 100 N / cm 2, it is possible to easily achieve both ease of design and use of the outer wall X2. In particular, if the final stop threshold value N1 is 2 times or more than the temporary stop threshold value N2, more preferably 2.5 times or more and less than 6 times, both the ease of design of the outer wall X2 and the ease of use are easily performed. Can improve practicality.

一方、前記粘着剤X3としては、ゴム系、アクリル系、ウレタン系、シリコーン系、ビニルエーテル系等の各種粘着剤が好適に用いられる。なお、この粘着剤X3に代えて、化学反応型接着剤、合成ゴム系接着剤等を用いてもよい。   On the other hand, as the pressure-sensitive adhesive X3, various pressure-sensitive adhesives such as rubber, acrylic, urethane, silicone, and vinyl ether are preferably used. In place of this pressure-sensitive adhesive X3, a chemically reactive adhesive, a synthetic rubber adhesive, or the like may be used.

そして、前記分散媒X4としては、エタノール等の水溶性有機溶剤が好適に用いられる。   And as said dispersion medium X4, water-soluble organic solvents, such as ethanol, are used suitably.

また、この(マイクロ)カプセルX1の外径は、2μm以上3000μm未満、より好ましくは5μm以上1000μm未満となるように設定している。ここで、(マイクロ)カプセルX1の外径をこの範囲に設定するのは、2μm未満の外径では、150N/cm2以上の外力を加えても外壁X2が破壊されず粘着剤X3が放出されないので用をなさず、逆に、3000μm以上の外径では、10N/cm2以下の外力でこの(マイクロ)カプセルX1を塗布する際に外壁X2が破壊されて粘着剤X3が放出されてしまう不具合が発生し得るからである。 The outer diameter of the (micro) capsule X1 is set to be 2 μm or more and less than 3000 μm, more preferably 5 μm or more and less than 1000 μm. Here, the outer diameter of the (micro) capsule X1 is set within this range. When the outer diameter is less than 2 μm, the outer wall X2 is not broken and the adhesive X3 is not released even if an external force of 150 N / cm 2 or more is applied. On the contrary, when the outer diameter is 3000 μm or more, when the (micro) capsule X1 is applied with an external force of 10 N / cm 2 or less, the outer wall X2 is broken and the adhesive X3 is released. It is because it may occur.

このような塗布具1を使用して接着対象物Sに接着材料Xを塗布する際には、図3に示すように、前記フェルト4の先端を一方の接着対象物に当接させる。すると、前記収容室2s内から接着材料B、すなわち(マイクロ)カプセルX1及び分散媒X4が吐出される。その後、他方の接着対象物を接着材料を塗布した接着対象物と重合させ、図4に示すようにへら5の押圧面5aにより塗布箇所を押圧する。すると、(マイクロ)カプセルX1に前記所定の閾値N1以上の強い外力が作用して外壁B2が破壊され、粘着剤X3が放出され、この粘着剤X3により2つの接着対象物が接着される。   When the adhesive material X is applied to the bonding object S using such an applicator 1, the tip of the felt 4 is brought into contact with one bonding object as shown in FIG. Then, the adhesive material B, that is, the (micro) capsule X1 and the dispersion medium X4 are discharged from the storage chamber 2s. Thereafter, the other object to be bonded is polymerized with the object to be bonded to which the adhesive material is applied, and the application portion is pressed by the pressing surface 5a of the spatula 5 as shown in FIG. Then, a strong external force equal to or greater than the predetermined threshold value N1 acts on the (micro) capsule X1, the outer wall B2 is destroyed, the adhesive X3 is released, and the two adhesive objects are bonded by the adhesive X3.

以上に述べたように、本実施形態に係る塗布具1の構成によれば、塗布作業を行った直後は粘着剤X3を(マイクロ)カプセルX1内に内蔵させたままにしておいて塗布面をさらさらの状態に保ちつつ、この塗布具1のへら5を利用して(マイクロ)カプセルX1を破壊する操作を行うことにより粘着剤X3を(マイクロ)カプセルX1外に放出させることができる。すなわち、塗布具1以外に特別な用具を用いることなく、所望のタイミングで(マイクロ)カプセルX1を破壊して(マイクロ)カプセルX1から粘着剤X3を取り出すことができる。   As described above, according to the configuration of the applicator 1 according to the present embodiment, immediately after the application operation is performed, the adhesive surface X3 is kept in the (micro) capsule X1 and the application surface is kept. The pressure-sensitive adhesive X3 can be released to the outside of the (micro) capsule X1 by performing an operation of destroying the (micro) capsule X1 using the spatula 5 of the applicator 1 while maintaining the smooth state. That is, without using a special tool other than the applicator 1, the (micro) capsule X1 can be broken at a desired timing and the adhesive X3 can be taken out from the (micro) capsule X1.

また、本体2の基端側に形成したへら5に押圧面5aを形成しているので、押圧面5aの位置がわかりやすく、この塗布具1を接着材料Xの塗布を行う際と逆向きに保持するだけでカプセルX1を破壊して接着を行う操作を行うことができる。   Further, since the pressing surface 5a is formed on the spatula 5 formed on the base end side of the main body 2, the position of the pressing surface 5a is easy to understand, and the applicator 1 is applied in the opposite direction to the application of the adhesive material X. The operation of destroying the capsule X1 and adhering can be performed simply by holding it.

さらに、前記本体2の収容室2sに補充するための接着剤Bが充填され、前記本体2に対して着脱可能に設けられるリフィル3を具備するので、収容室2s内に収容した接着材料Xが切れた際には、リフィル3のみを交換すればよく、その他の箇所は廃棄する必要なく引き続き使用することができる。   Further, since the adhesive B for replenishing the storage chamber 2s of the main body 2 is filled and the refill 3 is provided so as to be detachable with respect to the main body 2, the adhesive material X stored in the storage chamber 2s is provided. When it runs out, only the refill 3 needs to be replaced, and the other portions can be used continuously without having to be discarded.

なお、本実施形態では、塗布要素としてフェルト4を用いる態様を説明しているが、フェルト4に代えて先端部にボールを有するペン先、すなわちボールペンのペン先として周知のものと同様の構成を有するペン先を用いる態様を採用してももちろんよい。   In this embodiment, the aspect using the felt 4 as the application element is described. However, a pen tip having a ball at the tip instead of the felt 4, that is, a configuration similar to that known as a pen tip of a ballpoint pen is used. Of course, an embodiment using a pen nib may be adopted.

次いで、本発明の第二実施形態について図面を参照して説明する。   Next, a second embodiment of the present invention will be described with reference to the drawings.

本実施形態に係る塗布具A1は、以下に示すような転写シートST上に塗布した態様の接着材料XXを塗布対象物に転写すべく用いられる。   The applicator A1 according to the present embodiment is used to transfer the adhesive material XX in a form applied on the transfer sheet ST as shown below to an application target.

この接着材料XXは、外力により破壊可能な防水性を有する骨材たる外壁と、この外壁に内包された機能性材料たるph指示薬とを備えた、図6に示すような(マイクロ)カプセルXX1を複数個具備してなるとともに、この(マイクロ)カプセルXX1を、分散媒XX4中に複数個分散させてなる。この分散媒XX4は、粘着剤とアルカリ性物質との混合物である。ここで、前記外壁は、上述した第一実施形態に係る(マイクロ)カプセルX1の外壁X2と同様の構成を有する。また、前記分散媒XX4中の粘着剤としては、ゴム系、アクリル系、ウレタン系、シリコーン系、ビニルエーテル系等の各種粘着剤が好適に用いられる。なお、前記ph指示薬は、アルカリ性領域のうち一定領域のph値において着色し、その一定領域のph値を除くph値、又は中性及び酸性領域のph値においては無色である。   This adhesive material XX includes a (micro) capsule XX1 as shown in FIG. 6, which includes an outer wall that is a waterproof aggregate that can be broken by an external force, and a ph indicator that is a functional material contained in the outer wall. A plurality of (micro) capsules XX1 are dispersed in a dispersion medium XX4. This dispersion medium XX4 is a mixture of an adhesive and an alkaline substance. Here, the outer wall has the same configuration as the outer wall X2 of the (micro) capsule X1 according to the first embodiment described above. In addition, as the adhesive in the dispersion medium XX4, various adhesives such as rubber, acrylic, urethane, silicone, and vinyl ether are preferably used. The ph indicator is colored in the ph value in a certain region of the alkaline region, and is colorless in the ph value excluding the ph value in the certain region, or in the neutral and acidic regions.

この転写シートSTは、図6に示すように、分散媒XX4を、離型基材ST1上に設定したドット状の塗工領域ST2上に塗工した上で、この塗工領域ST2内に(マイクロ)カプセルXX1を複数個分散させてなるものである。なお、この場合、(マイクロ)カプセルXX1の外径は、2μm以上300μm未満、より望ましくは5μm以上100μm未満である必要がある。これは、分散媒XX4の塗工厚さが300μm以下、より望ましくは100μm以下であり、(マイクロ)カプセルXX1を分散媒XX4中に分散させるためには、(マイクロ)カプセルXX1の外径をそれ以下にする必要があるからである。   As shown in FIG. 6, the transfer sheet ST is coated with the dispersion medium XX4 on the dot-shaped coating region ST2 set on the release substrate ST1, and then within the coating region ST2 ( A plurality of (micro) capsules XX1 are dispersed. In this case, the outer diameter of the (micro) capsule XX1 needs to be 2 μm or more and less than 300 μm, more desirably 5 μm or more and less than 100 μm. This is because the coating thickness of the dispersion medium XX4 is 300 μm or less, more desirably 100 μm or less. In order to disperse the (micro) capsule XX1 in the dispersion medium XX4, the outer diameter of the (micro) capsule XX1 is This is because it is necessary to make the following.

一方、本実施形態に係る塗布具A1は、図5に示すように、前記転写シートSTを内蔵する本体A2と、この本体A2の先端部に設けられる破壊促進要素たる破壊ローラA5とを具備する。   On the other hand, as shown in FIG. 5, the applicator A1 according to the present embodiment includes a main body A2 that houses the transfer sheet ST, and a breaking roller A5 that is a breakage promoting element provided at the tip of the main body A2. .

前記本体A2は、転写具として周知のものと略同様の構成を有する。すなわち、転写シートSTを支軸周りに回転可能な供給リールA31から塗布要素たる転写ヘッドローラA41を経て巻取リールA32に巻き回してなるものであって、少なくとも前記供給リールA31及び巻取リールA32を保持してなるボディA3と、このボディA3の先端部に設けてなり前記転写ヘッドローラA41を保持してなるヘッドA4とを具備する。   The main body A2 has substantially the same configuration as that known as a transfer tool. That is, the transfer sheet ST is wound around a take-up reel A32 from a supply reel A31 that can rotate around a support shaft through a transfer head roller A41 that is a coating element, and at least the supply reel A31 and the take-up reel A32. And a head A4 provided at the tip of the body A3 and holding the transfer head roller A41.

一方、前記破壊ローラA5は、本実施形態では、前記ヘッドA4に保持させてなり、転写ヘッドローラA41に隣接する位置に配している。この破壊ローラA5は、前記転写ローラヘッドA4を介して塗布対象物Sに塗布された(マイクロ)カプセルXX1に圧着することにより該(マイクロ)カプセルXX1を破壊し、(マイクロ)カプセルXX1に内包させたph指示薬3を取り出す機能を発揮する。   On the other hand, in the present embodiment, the breaking roller A5 is held by the head A4, and is disposed at a position adjacent to the transfer head roller A41. The breaking roller A5 breaks the (micro) capsule XX1 by pressure bonding to the (micro) capsule XX1 applied to the application object S via the transfer roller head A4, and encloses the (micro) capsule XX1. The function of taking out the ph indicator 3 is demonstrated.

ここで、この塗布具A1を用いて接着作業を行う際の作業の流れ及び各部の作用を以下に示す。まず、図5に示すように、まず転写シートSTを接着対象物Sに当接させるとともに転写ローラヘッドA41を転写シートSTに軽く圧着させる。次いで、この塗布具A1を図5の矢印方向に移動させる。その際、接着材料XXが転写シートSTから塗布対象物Sに転写される。そして、引き続き塗布具A1を図5の矢印方向に移動させると、破壊ローラA5が(マイクロ)カプセルXX1に圧着し、マイクロカプセルXX1が破壊されてph指示薬が分散媒XX4中のアルカリ性物質と反応して着色する。そして、着色された領域を他方の接着対象物に当接させると、粘着剤により接着対象物同士が接着される。一方、接着材料XXを塗布した状態で他方の接着対象物に当接させることなく放置すると、分散媒XX4中のアルカリ性物質が空気中の水分及び二酸化炭素と反応して中和され、ph指示薬が無色となる。   Here, the work flow and the operation of each part when performing the bonding work using the applicator A1 are shown below. First, as shown in FIG. 5, first, the transfer sheet ST is brought into contact with the bonding object S and the transfer roller head A41 is lightly pressed against the transfer sheet ST. Next, the applicator A1 is moved in the direction of the arrow in FIG. At that time, the adhesive material XX is transferred from the transfer sheet ST to the application object S. When the applicator A1 is subsequently moved in the direction of the arrow in FIG. 5, the breaking roller A5 is pressure-bonded to the (micro) capsule XX1, the microcapsule XX1 is broken, and the ph indicator reacts with the alkaline substance in the dispersion medium XX4. To color. Then, when the colored region is brought into contact with the other bonding object, the bonding objects are bonded to each other by the adhesive. On the other hand, when the adhesive material XX is applied and left without contact with the other object to be bonded, the alkaline substance in the dispersion medium XX4 reacts with water and carbon dioxide in the air to be neutralized, and the ph indicator It becomes colorless.

以上に述べたように、本実施形態に係る塗布具A1の構成であれば、前記破壊ローラA5を転写ヘッドローラA41に隣接する位置に配しているので、一連の操作により、転写ローラヘッドA4を介して接着材料XXを転写シートSTから塗布対象物Sに転写させ、破壊ローラA5により(マイクロ)カプセルXX1を破壊し、ph指示薬を分散媒XX4中のアルカリ性物質と反応させるようにできる。すなわち、塗布具A1以外に特別な用具を用いることなく、アルカリ性物質を混入した粘着剤、及びph指示薬の塗布作業を容易に行うことができるとともに、所望のタイミングで(マイクロ)カプセルXX1を破壊して(マイクロ)カプセルXX1からph指示薬を取り出すことができる。ここで、アルカリ性物質のアルカリ性を維持させるためには、ph指示薬を内包する(マイクロ)カプセルXX1とともにアルカリ性物質を内包する(マイクロ)カプセルを分散媒XX4中に分散させ、これらの(マイクロ)カプセルを破壊ローラA5により同時に破壊させるようにすることが望ましい。なお、(マイクロ)カプセルXX1内に機能性材料としてアルカリ性物質のみを内包させるとともに、分散媒XX4を粘着剤とph指示薬との混合物とする態様でも全く同様の効果が得られる。また、ph指示薬及びアルカリ性物質を同時に内包する(マイクロ)カプセルXX1を分散媒XX4中に分散させるようにする態様も望ましい。(マイクロ)カプセルXX1にph指示薬及びアルカリ性物質を同時に内包させる場合、ph指示薬は初期状態で発色しているので、転写と同時に(マイクロ)カプセルXX1を破壊する必然性はなく、例えば接着操作を行う際に(マイクロ)カプセルXX1を破壊するようにしてもよい。さらに、機能性材料としてロイコ染料及び顕色剤を(マイクロ)カプセルXX1に内包させるとともに消色材を分散媒XX4中に混合する態様、あるいは機能性材料として消色材を(マイクロ)カプセルXX1に内包させるとともにロイコ染料及び顕色剤を分散媒XX4中に混合する態様であっても、破壊促進要素、破壊ローラA5を介して(マイクロ)カプセルXX1を破壊した際にはじめてロイコ染料、顕色剤、及び消色材を反応させる消色反応を開始するようにできるので、上述したph指示薬及びアルカリ性物質を用いる態様と全く同様の効果が得られる。   As described above, in the configuration of the applicator A1 according to the present embodiment, the breaking roller A5 is disposed at a position adjacent to the transfer head roller A41. Therefore, the transfer roller head A4 is operated by a series of operations. Then, the adhesive material XX can be transferred from the transfer sheet ST to the application object S via (1), the (micro) capsule XX1 can be broken by the breaking roller A5, and the ph indicator can be reacted with the alkaline substance in the dispersion medium XX4. That is, without using a special tool other than the applicator A1, it is possible to easily apply the adhesive mixed with an alkaline substance and the ph indicator, and destroy the (micro) capsule XX1 at a desired timing. (Micro) capsule XX1 can remove the ph indicator. Here, in order to maintain the alkalinity of the alkaline substance, the (micro) capsule XX1 containing the ph indicator and the (micro) capsule containing the alkaline substance are dispersed in the dispersion medium XX4. It is desirable to cause the breaker roller A5 to break at the same time. In addition, the same effect can be obtained in an embodiment in which only an alkaline substance is included as a functional material in the (micro) capsule XX1 and the dispersion medium XX4 is a mixture of an adhesive and a ph indicator. It is also desirable to disperse the (micro) capsule XX1 containing the ph indicator and the alkaline substance simultaneously in the dispersion medium XX4. When the (micro) capsule XX1 is simultaneously encapsulated with the ph indicator and the alkaline substance, the ph indicator is colored in the initial state, so there is no necessity to destroy the (micro) capsule XX1 at the same time as the transfer. In addition, the (micro) capsule XX1 may be destroyed. Further, an embodiment in which a leuco dye and a developer are encapsulated in a (micro) capsule XX1 as a functional material and a decoloring material is mixed in the dispersion medium XX4, or a decoloring material is incorporated in the (micro) capsule XX1 as a functional material. Even when the leuco dye and the developer are mixed in the dispersion medium XX4, the leuco dye and the developer are not included when the (micro) capsule XX1 is broken through the breakage promoting element, the breaker roller A5. In addition, since the decoloring reaction in which the decoloring material is reacted can be started, the same effect as in the above-described embodiment using the ph indicator and the alkaline substance can be obtained.

さらに、(マイクロ)カプセルXX1に内包させる機能性材料は、ph指示薬とアルカリ性物質との混合物であってもよく、分散媒を粘着剤としてもよい。この場合、転写シートSTの転写ローラヘッドA41近傍の部位のみ塗布面に圧着させ、破壊ローラA5近傍の部位は塗布面から離すようにして先に接着材料XXの塗布のみを行い、次いで接着材料XXに破壊ローラA5を圧着させる操作、又は接着対象物間に接着材料XXを位置付けるようにして塗布面又は一方の接着対象物に破壊ローラA5を圧着させる操作によりマイクロカプセルXX1を破壊し中のph指示薬を取り出すようにしてもよい。このような構成であれば、接着材料XXを(マイクロ)カプセルXX1内のph指示薬が着色した状態で塗布して接着材料XXを塗布した箇所をわかりやすく視認できるようにし、その後塗布面又は一方の接着対象物に破壊ローラA5を圧着させて消色を行うことができる。   Furthermore, the functional material included in the (micro) capsule XX1 may be a mixture of a ph indicator and an alkaline substance, and a dispersion medium may be used as an adhesive. In this case, only the part of the transfer sheet ST near the transfer roller head A41 is pressure-bonded to the application surface, the part near the breaking roller A5 is separated from the application surface, and only the adhesive material XX is applied first, and then the adhesive material XX. The ph indicator that breaks the microcapsule XX1 by the operation of pressing the breaking roller A5 onto the surface or the operation of pressing the breaking roller A5 on the application surface or one of the bonding objects so that the adhesive material XX is positioned between the bonding objects. You may make it take out. With such a configuration, the adhesive material XX is applied in a state in which the ph indicator in the (micro) capsule XX1 is colored so that the place where the adhesive material XX is applied can be easily seen, and then the application surface or one of the surfaces is applied. The decoloring can be performed by pressing the breaking roller A5 on the object to be bonded.

さらに、本発明の第三実施形態について図面を参照して説明する。   Furthermore, a third embodiment of the present invention will be described with reference to the drawings.

本実施形態に係る塗布具B1は、以下に示すような接着材料Yの塗布に用いられる。この接着材料Yは、外力により破壊可能な防水性を有する骨材たる外壁Y2と、この外壁Y2に内包された機能性材料たる湿気硬化型接着剤Y3と、前記外壁Y2の外表面に形成した粘着剤層膜Y4とを備えた、図7に断面を示すようなカプセル又はマイクロカプセル(以下、(マイクロ)カプセルY1と称する)を複数個具備してなる。そして、この接着材料Yは、一方の接着対象物S上に配し、この接着材料上に他方の接着対象物をさらに配した状態で、接着対象物同士を圧着させることにより前記外壁Y2を破壊されることにより、前記湿気硬化型接着剤Y3を放出させて接着対象物同士を接着する機能を発揮する。   The applicator B1 according to the present embodiment is used for applying the adhesive material Y as shown below. This adhesive material Y was formed on the outer surface of the outer wall Y2, the outer wall Y2 as a waterproof aggregate that can be broken by an external force, the moisture curable adhesive Y3 as a functional material contained in the outer wall Y2, and the outer wall Y2. A plurality of capsules or microcapsules (hereinafter referred to as (micro) capsules Y1) having a cross section shown in FIG. Then, the adhesive material Y is disposed on one adhesion target S, and the outer wall Y2 is destroyed by crimping the adhesion targets in a state where the other adhesion target is further disposed on the adhesive material. As a result, the moisture-curing adhesive Y3 is released to exert a function of bonding the objects to be bonded together.

より具体的には、前記(マイクロ)カプセルY1は、界面重合法等の各種マイクロカプセル調製法により外壁Y2に湿気硬化型接着剤Y3を内包させ、粘着剤又は接着剤を前記外壁2の外表面に噴霧などの方法で塗工して粘着剤層膜Y4を形成することにより調製される。ここで、外壁Y2に湿気硬化型接着剤Y3を内包させる工程としては、液中乾燥法、界面重合法、in situ重合法、相分離法等の周知の方法が挙げられる。   More specifically, the (micro) capsule Y1 includes a moisture curable adhesive Y3 encapsulated in the outer wall Y2 by various microcapsule preparation methods such as an interfacial polymerization method, and an adhesive or adhesive is applied to the outer surface of the outer wall 2. It is prepared by coating with a method such as spraying to form an adhesive layer film Y4. Here, examples of the step of encapsulating the moisture curable adhesive Y3 in the outer wall Y2 include known methods such as a submerged drying method, an interfacial polymerization method, an in situ polymerization method, and a phase separation method.

前記外壁Y2の材質としては、水分子を通さず、湿気硬化型接着剤Y3と混じり合わず、湿気硬化型接着剤Y3と化学反応を起こさない材質である必要がある。例えば、疎水性の天然及び合成高分子ワックス類に代表される有機化合物や無機化合物等が考えられる。さらに、この外壁Y2を形成する材質としては、膜を形成した際に細孔が形成されない、あるいは水分子よりも小さな細孔のみが形成されるような材質が望ましい。この外壁2の厚さ寸法は、所定の本止め閾値N1以上の外圧が加えられた際には破壊されるように設定しているとともに、所定の仮止め閾値N2以下の外力ではいずれの(マイクロ)カプセルY1も破壊されないように設定している。具体的には、前述した第一実施形態に係る(マイクロ)カプセルX1の外壁X2と同様の値に設定している。   The material of the outer wall Y2 needs to be a material that does not pass water molecules, does not mix with the moisture curable adhesive Y3, and does not cause a chemical reaction with the moisture curable adhesive Y3. For example, organic compounds and inorganic compounds represented by hydrophobic natural and synthetic polymer waxes can be considered. Further, the material for forming the outer wall Y2 is preferably a material in which no pores are formed when a film is formed or only pores smaller than water molecules are formed. The thickness dimension of the outer wall 2 is set so as to be destroyed when an external pressure equal to or higher than a predetermined permanent fixing threshold N1 is applied, and any external force equal to or lower than the predetermined temporary fixing threshold N2 (micrometer). ) The capsule Y1 is also set so as not to be destroyed. Specifically, it is set to the same value as the outer wall X2 of the (micro) capsule X1 according to the first embodiment described above.

前記湿気硬化型接着剤Y3としては、本実施形態では、瞬間接着剤として周知のシアノアクリレート系接着剤を採用している。   As the moisture curable adhesive Y3, in this embodiment, a well-known cyanoacrylate adhesive is used as an instantaneous adhesive.

また、粘着剤層膜Y4としては、例えば、ゴム系粘着剤、アクリル系粘着剤、ウレタン系粘着剤、シリコーン系粘着剤、ビニルエーテル系粘着剤等の材料が好適に用いられる。なお、湿気硬化型接着剤Y3としては、一液性ポリウレタン樹脂接着剤、一液性シリコーン樹脂接着剤、シリコーン変成エポキシ接着剤等として周知のものを用いてもよい。特に、モノマーあるいはプレポリマー分子中に炭素原子同士又は炭素原子と他の原子との不飽和結合を含み空気中の水分(湿気)を触媒としてこの不飽和結合部分が重合する分子構造を有するものを用いるとよい。   In addition, as the adhesive layer film Y4, for example, a rubber adhesive, an acrylic adhesive, a urethane adhesive, a silicone adhesive, a vinyl ether adhesive, or the like is preferably used. As the moisture curable adhesive Y3, a known one-component polyurethane resin adhesive, one-component silicone resin adhesive, silicone modified epoxy adhesive, or the like may be used. In particular, a monomer or prepolymer molecule having an unsaturated bond between carbon atoms or carbon atoms and other atoms, and having a molecular structure in which this unsaturated bond portion is polymerized using moisture (humidity) in the air as a catalyst. Use it.

さらに、この(マイクロ)カプセルY1の外径は、前述した第一実施形態に係る(マイクロ)カプセルX1と同様の値に設定している。具体的には、2μm以上3000μm未満、より好ましくは5μm以上1000μm未満となるように設定している。   Further, the outer diameter of the (micro) capsule Y1 is set to the same value as that of the (micro) capsule X1 according to the first embodiment described above. Specifically, it is set to be 2 μm or more and less than 3000 μm, more preferably 5 μm or more and less than 1000 μm.

しかして、本実施形態に係る塗布具B1は、図8に全体斜視図、図9に分解斜視図をそれぞれ示すように、本体B2と、本体B2に対して着脱可能であるとともに基端部に押圧面B52aを有する破壊促進要素たるピンセットB5とを具備する。   Thus, the applicator B1 according to the present embodiment can be attached to and detached from the main body B2 and the main body B2 as shown in the entire perspective view in FIG. 8 and the exploded perspective view in FIG. And tweezers B5 as a breakage promoting element having the pressing surface B52a.

前記本体B2は、本実施形態では内部に接着材料Yを収容する収容室B2sを備えた筒状としている。また、本体B2の基部にはリフィルB3を着脱可能に取り付けてなるとともに、本体B2の先端部には塗布要素たるノズルB4を着脱可能に取り付けてなる。そして、長手方向中間部には前記リフィルB3に設けた雄ネジ部B31と螺合可能な雌ネジ部B21、先端側に前記ノズルB4に設けた雄ネジ部B41と螺合可能な雌ネジ部B22をそれぞれ設けている。   In the present embodiment, the main body B2 has a cylindrical shape including a storage chamber B2s for storing the adhesive material Y therein. A refill B3 is detachably attached to the base of the main body B2, and a nozzle B4 as an application element is detachably attached to the tip of the main body B2. In the middle in the longitudinal direction, a female screw part B21 that can be screwed with a male screw part B31 provided on the refill B3, and a female screw part B22 that can be screwed with a male screw part B41 provided on the nozzle B4 on the tip side. Are provided.

前記リフィルB3は、本実施形態では有底筒状をなし、内部に接着材料Yを収容してなる収容室B3sを備えている。また、先端部に前記本体B2の長手方向中間部の雌ネジ部B21と螺合可能な雄ネジ部B31を設けていて、先端側を前記本体B2の内部に収納可能にしている。そして、このリフィルB3を本体B2に装着した際に、このリフィルB3の収容室B3sと本体B2の収容室B2sとが連通するようにしている。   In the present embodiment, the refill B3 has a bottomed cylindrical shape, and includes a storage chamber B3s in which the adhesive material Y is stored. Further, a male screw portion B31 that can be screwed with a female screw portion B21 at the middle in the longitudinal direction of the main body B2 is provided at the front end portion, and the front end side can be accommodated in the main body B2. When the refill B3 is attached to the main body B2, the storage chamber B3s of the refill B3 communicates with the storage chamber B2s of the main body B2.

前記ノズルB4は、本実施形態では先端に向かうにつれ断面積が小さくなる略円錐状をなし、先端に接着材料Yを塗出させるべく開口させて設けた接着材料吐出口B4aを有する。なお、このノズルB4は、非使用時にはキャップB6により被覆するようにしている。   In the present embodiment, the nozzle B4 has a substantially conical shape in which the cross-sectional area decreases toward the tip, and has an adhesive material discharge port B4a provided to be opened so that the adhesive material Y is applied to the tip. The nozzle B4 is covered with a cap B6 when not in use.

そして、前記ピンセットB5は、1対のつまみ要素B51を基端部で互いに接続させて形成したつまみ部と、このつまみ部の基端側を被覆し押圧面B52aを有する押圧部B52とを有する。また、このピンセットB5は、つまみ部の各つまみ要素B51に、前記本体B2の外側面と係合可能な着脱片B511を有する。そして、この着脱片B511を本体B2の外側面と係合させ、前記押圧部B52の押圧面B52aと反対側を、リフィルB3の基端側に当接させるかないしはリフィルB3の基端側を被覆させる姿勢で、このピンセットB5を本体B2に装着可能である。   The tweezers B5 includes a knob portion formed by connecting a pair of knob elements B51 to each other at the base end portion, and a pressing portion B52 that covers the base end side of the knob portion and has a pressing surface B52a. The tweezers B5 has a detachable piece B511 that can be engaged with the outer surface of the main body B2 at each knob element B51 of the knob portion. Then, the detachable piece B511 is engaged with the outer side surface of the main body B2, and the side opposite to the pressing surface B52a of the pressing portion B52 is brought into contact with the base end side of the refill B3 or the base end side of the refill B3 is set. The tweezers B5 can be attached to the main body B2 in a covering posture.

この塗布具B1を使用して接着対象物Sに接着材料Yを塗布する際には、図10に示すように、前記ノズルB4の先端の接着材料吐出口B4aを一方の接着対象物に接近させ、本体B2を押圧する。すると、前記収容室B2s内から接着材料Y、すなわち(マイクロ)カプセルY1が吐出される。その際、前述したように、また、前記図7に示すように、(マイクロ)カプセルY1の最外層には上述したように粘着剤層膜Y4を形成しているので、この(マイクロ)カプセルY1の一方の接着対象物Sに対する位置がそのまま仮決めされる。また、このとき(マイクロ)カプセルY1が受ける外力は、本実施形態では20N/cm2未満であり、(マイクロ)カプセルY1のほとんどを破壊するのに必要な外力の所定の閾値N1より小さい。その後、接着対象物のいずれかがピンセットY5のつまみ部により把持可能な程度小さい場合には、ピンセットY5を本体Y2から取り外してつまみ部でいずれかの接着対象物を把持して他方の接着対象物に向け押圧する。また、接着対象物がいずれもピンセットY5で把持可能な程度小さいものでない場合には、一方の接着対象物と他方の接着対象物との間に接着材料Yが位置するようにし、その後、ピンセットY5の押圧面Y52aを一方の接着対象物に当接させてそのまま他方の接着対象物に向けて押圧する。すると、(マイクロ)カプセルY1に前記所定の閾値N1以上の強い外力が作用して外壁Y2が破壊され、湿気硬化型接着剤Y3が放出される。数分経過すると、空気中の水分(湿気)を触媒として湿気硬化型接着剤Y3が硬化し、2つの接着対象物が接着される。 When applying the adhesive material Y to the bonding object S using the applicator B1, as shown in FIG. 10, the adhesive material discharge port B4a at the tip of the nozzle B4 is brought close to one bonding object. Then, the main body B2 is pressed. Then, the adhesive material Y, that is, the (micro) capsule Y1 is discharged from the storage chamber B2s. At this time, as described above and as shown in FIG. 7, since the adhesive layer film Y4 is formed on the outermost layer of the (micro) capsule Y1, as described above, the (micro) capsule Y1 The position with respect to one of the bonding objects S is temporarily determined as it is. Further, the external force received by the (micro) capsule Y1 at this time is less than 20 N / cm 2 in this embodiment, and is smaller than the predetermined threshold value N1 of the external force necessary to destroy most of the (micro) capsule Y1. Thereafter, if any of the objects to be bonded is small enough to be gripped by the knob portion of the tweezers Y5, the tweezers Y5 is detached from the main body Y2, and one of the objects to be bonded is gripped by the knob portion and the other object to be bonded Press toward. If none of the objects to be bonded is small enough to be gripped by the tweezers Y5, the adhesive material Y is positioned between one object to be bonded and the other object to be bonded, and then the tweezers Y5 The pressing surface Y52a is brought into contact with one bonding target object and is pressed as it is toward the other bonding target object. Then, a strong external force equal to or greater than the predetermined threshold value N1 acts on the (micro) capsule Y1, the outer wall Y2 is destroyed, and the moisture curable adhesive Y3 is released. After a few minutes, the moisture curable adhesive Y3 is cured using moisture (humidity) in the air as a catalyst, and the two objects to be bonded are bonded.

以上に述べたように、本実施形態に係る塗布具B1の構成によれば、塗布作業を行った直後は湿気硬化型接着剤Y3を(マイクロ)カプセルY1内に内蔵させたままにしておき、その後前記ピンセットB5のつまみ部B51を用いて把持した他方の接着対象物を圧着させる操作、又は前記押圧面B52aを他方の接着対象物に圧着させる操作により、他方の接着対象物を塗布面にさらに圧着させて(マイクロ)カプセルY1を破壊するようにすることで、湿気硬化型接着剤Y3を(マイクロ)カプセルY1外に放出させることができる。すなわち、本実施形態に係る塗布具B1においても、塗布具B1以外に特別な用具を用いることなく、所望のタイミングで(マイクロ)カプセルY1を破壊して(マイクロ)カプセルY1から湿気硬化型接着剤Y3を取り出すようにして、接着作業を容易に行うことができる。   As described above, according to the configuration of the applicator B1 according to the present embodiment, the moisture-curable adhesive Y3 is left in the (micro) capsule Y1 immediately after the application work is performed, Thereafter, the other adhesion target object is further applied to the application surface by an operation of crimping the other adhesion target object gripped using the knob portion B51 of the tweezers B5 or an operation of crimping the pressing surface B52a to the other adhesion target object. By pressure bonding and destroying the (micro) capsule Y1, the moisture-curable adhesive Y3 can be released out of the (micro) capsule Y1. That is, also in the applicator B1 according to the present embodiment, the (micro) capsule Y1 is broken at a desired timing without using a special tool other than the applicator B1, and the moisture-curable adhesive is removed from the (micro) capsule Y1. As Y3 is taken out, the bonding operation can be easily performed.

また、ピンセットB5を本体B2に装着させた際に押圧面B52aが本体B2の基端側に位置するので、押圧面B52aの位置がわかりやすく、この塗布具B1を接着材料Yの塗布を行う際と逆向きに保持するだけで(マイクロ)カプセルY1を破壊して接着を行う操作に移ることができる。   Further, when the tweezers B5 is attached to the main body B2, the pressing surface B52a is located on the proximal end side of the main body B2, so that the position of the pressing surface B52a is easy to understand, and when the applicator B1 is applied with the adhesive material Y It is possible to proceed to the operation of destroying the (micro) capsule Y1 and adhering only by holding it in the opposite direction.

さらに、前記本体B2の収容室B2sに補充するための接着材料Yが充填され、前記本体B2に対して着脱可能に設けられるリフィルB3を具備するので、収容室B2s内に収容した接着材料Yを使い切った際には、リフィルB3のみを交換すればよく、その他の箇所は廃棄する必要なく引き続き使用することができる。   Further, since the adhesive material Y for replenishing the storage chamber B2s of the main body B2 is filled and the refill B3 is provided so as to be detachable from the main body B2, the adhesive material Y stored in the storage chamber B2s is provided. When it is used up, it is only necessary to replace the refill B3, and the other parts can be used without being discarded.

以下に、本発明の第四実施形態について図面を参照して説明する。   The fourth embodiment of the present invention will be described below with reference to the drawings.

本実施形態に係る塗布具C1は、主に上述した第三実施形態において説明したような接着材料Yの塗布に用いられる。この塗布具C1は、図11に全体斜視図、図12に分解斜視図をそれぞれ示すように、本体C2と、本体C2の基端側に設けられ破壊促進要素たる押圧面C5aを有する後蓋C5とを具備する。また、全体としての外径及び長手寸法は、広く市販されている筆記用ペン類と略同様にしている。   The applicator C1 according to the present embodiment is mainly used for applying the adhesive material Y as described in the third embodiment. As shown in FIG. 11 as a whole perspective view and FIG. 12 as an exploded perspective view, this applicator C1 has a main body C2 and a rear lid C5 having a pressing surface C5a provided on the base end side of the main body C2 and serving as a breakage promoting element. It comprises. Moreover, the outer diameter and longitudinal dimension as a whole are made substantially the same as writing pens widely marketed.

前記本体C2は、前述した第三実施形態に係る塗布具B1の本体B2とほぼ同様の構成を有する。すなわち、内部に接着材料Yを収容する収容室C2sを備えた筒状としている。また、本体C2の基部にはリフィルC3を着脱可能に取り付けてなるとともに、本体C2の先端部には塗布要素たるノズルC4を着脱可能に取り付けてなる。そして、長手方向中間部には前記リフィルC3に設けた雄ネジ部C31と螺合可能な雌ネジ部C21、先端側に前記ノズルC4に設けた雄ネジ部C41と螺合可能な雌ネジ部C22をそれぞれ設けている。   The main body C2 has substantially the same configuration as the main body B2 of the applicator B1 according to the third embodiment described above. That is, it has a cylindrical shape provided with a storage chamber C2s for storing the adhesive material Y therein. A refill C3 is detachably attached to the base of the main body C2, and a nozzle C4 as an application element is detachably attached to the distal end of the main body C2. In the middle in the longitudinal direction, a female screw part C21 that can be screwed with a male screw part C31 provided in the refill C3, and a female screw part C22 that can be screwed with a male screw part C41 provided in the nozzle C4 on the tip side. Are provided.

前記リフィルC3は、前述した第三実施形態における塗布具B1のリフィルB3とほぼ同様の構成を有する。すなわち、有底筒状をなし、内部に接着材料Yを収容してなる収容室C3sを備えている。   The refill C3 has substantially the same configuration as the refill B3 of the applicator B1 in the third embodiment described above. That is, it has a bottomed cylindrical shape, and is provided with a storage chamber C3s in which the adhesive material Y is stored.

前記ノズルC4も、上述した第三実施形態における塗布具B1におけるノズルB4とほぼ同様の構成を有する。すなわち、本実施形態でも、先端に向かうにつれ断面積が小さくなる略円錐状をなし、先端に接着材料Yを塗出させるべく開口させて設けた接着材料吐出口C4aを有する。但し、本実施形態では、この接着材料吐出口C4a近傍に前記導出制限ローラC6を支持させている。   The nozzle C4 also has substantially the same configuration as the nozzle B4 in the applicator B1 in the third embodiment described above. That is, this embodiment also has a substantially conical shape with a cross-sectional area that decreases as it goes to the tip, and has an adhesive material discharge port C4a that is provided open at the tip to spread the adhesive material Y. However, in the present embodiment, the derivation limiting roller C6 is supported in the vicinity of the adhesive material discharge port C4a.

前記導出制限ローラC6は、上述したように前記ノズルC4の接着材料吐出口C4a近傍に設けられ、歯車状をなす部材である。そして、前記本体C2側に位置する歯間に(マイクロ)カプセルY1を充填させてなるとともに、回動に伴い接着材料Yを充填している部位が接着対象物S側を向いた際に、(マイクロ)カプセルY1を接着対象物Sに向けて放出するよう構成している。なお、この導出制限ローラC6及び前記ノズルC4は、非使用時にはキャップC7により被覆するようにしている。   The derivation limiting roller C6 is a gear-shaped member provided near the adhesive material discharge port C4a of the nozzle C4 as described above. Then, the (micro) capsule Y1 is filled between the teeth located on the main body C2 side, and when the part filled with the adhesive material Y with the rotation faces the bonding object S side, The micro) capsule Y1 is discharged toward the bonding object S. The derivation limiting roller C6 and the nozzle C4 are covered with a cap C7 when not in use.

そして、前記後蓋C5は、前述したように本体C2の基端側に設けられ、破壊促進要素たる押圧部を本体に向かう側と反対側の端部に形成している。この押圧部は、その端面を押圧面C5aとしてなる。   The rear lid C5 is provided on the base end side of the main body C2 as described above, and a pressing portion as a breakage promoting element is formed on the end opposite to the side facing the main body. The pressing portion has an end surface as a pressing surface C5a.

この第2の接着材料塗布具C1を使用して接着対象物に接着材料を塗布する際には、図13に示すように、前記導出制限ローラC6を一方の接着対象物Sに接近させ、導出制限ローラC6を回転させる。すると、導出制限ローラC6の回転に伴い、前記収容室C2s内から接着材料Y、すなわち(マイクロ)カプセルY1が吐出される。その際、(マイクロ)カプセルY1の最外層には上述したように、また、前記図1に示すように、粘着剤層膜Y4を形成しているので、この(マイクロ)カプセルY1の一方の接着対象物Sに対する位置がそのまま仮決めされる。その後は、一方の接着対象物と他方の接着対象物との間に接着材料Yが位置するようにし、その後、後蓋C5の押圧面C5aを一方の接着対象物に当接させてそのまま他方の接着対象物に向けて押圧する。すると、(マイクロ)カプセルY1に前記所定の閾値N1以上の強い外力が作用して外壁2が破壊され、湿気硬化型接着剤3が放出される。数分経過すると、空気中の水分(湿気)を触媒として湿気硬化型接着剤3が硬化し、2つの接着対象物が接着される。なお、先に塗布面に後蓋C5の押圧面C5aを当接させて(マイクロ)カプセルY1を破壊し、その後塗布面に他方の接着対象物を当接させて接着対象物同士を圧着させるようにしてもよい。   When applying an adhesive material to an object to be bonded using the second adhesive material applicator C1, as shown in FIG. 13, the derivation limiting roller C6 is brought close to one of the objects to be bonded S, and the derivation is performed. The limiting roller C6 is rotated. Then, the adhesive material Y, that is, the (micro) capsule Y1 is discharged from the storage chamber C2s along with the rotation of the derivation limiting roller C6. At this time, since the pressure-sensitive adhesive layer film Y4 is formed on the outermost layer of the (micro) capsule Y1 as described above and as shown in FIG. 1, one adhesion of the (micro) capsule Y1 is formed. The position with respect to the object S is provisionally determined as it is. Thereafter, the adhesive material Y is positioned between the one adhesion target object and the other adhesion target object, and then the pressing surface C5a of the rear lid C5 is brought into contact with the one adhesion target object, and the other one is left as it is. Press toward the object to be bonded. Then, a strong external force greater than or equal to the predetermined threshold value N1 acts on the (micro) capsule Y1, the outer wall 2 is destroyed, and the moisture curable adhesive 3 is released. After a few minutes, the moisture curable adhesive 3 is cured using moisture (humidity) in the air as a catalyst, and the two objects to be bonded are bonded. It should be noted that the pressing surface C5a of the rear lid C5 is first brought into contact with the application surface to destroy the (micro) capsule Y1, and then the other adhesion object is brought into contact with the application surface so that the adhesion objects are pressed together. It may be.

以上に述べたように、本実施形態に係る塗布具C1の構成によれば、塗布作業を行った直後は湿気硬化型接着剤Y3を(マイクロ)カプセルY1内に内蔵させたままにしておき、その後前記押圧面C5aを塗布面に圧着させて(マイクロ)カプセルY1を破壊する操作、又は前記押圧面C5aを他方の接着対象物に圧着させつつ他方の接着対象物を塗布面にさらに圧着させて(マイクロ)カプセルY1を破壊する操作により、湿気硬化型接着剤Y3を(マイクロ)カプセルY1外に放出させることができる。すなわち、本実施形態に係る塗布具C1においても、塗布具C1以外に特別な用具を用いることなく、所望のタイミングで(マイクロ)カプセルY1を破壊して(マイクロ)カプセルY1から湿気硬化型接着剤Y3を取り出すようにして、接着作業を容易に行うことができる。   As described above, according to the configuration of the applicator C1 according to the present embodiment, the moisture-curable adhesive Y3 is left in the (micro) capsule Y1 immediately after the application work is performed, Thereafter, the pressing surface C5a is pressure-bonded to the application surface to destroy the (micro) capsule Y1, or the other bonding object is further pressure-bonded to the application surface while the pressing surface C5a is pressure-bonded to the other bonding object. By the operation of destroying the (micro) capsule Y1, the moisture curable adhesive Y3 can be released out of the (micro) capsule Y1. That is, also in the applicator C1 according to the present embodiment, the (micro) capsule Y1 is broken at a desired timing from the (micro) capsule Y1 without using any special tool other than the applicator C1. As Y3 is taken out, the bonding operation can be easily performed.

また、前記押圧面C5aが本体C2の基端側に位置するので、押圧面C5aの位置がわかりやすく、この塗布具C1を接着材料Yの塗布を行う際と逆向きに保持するだけで(マイクロ)カプセルY1を破壊して接着を行う操作に移ることができる。   Further, since the pressing surface C5a is located on the base end side of the main body C2, the position of the pressing surface C5a is easily understood, and the applicator C1 is simply held in a direction opposite to that when the adhesive material Y is applied (micro) ) It is possible to proceed to the operation of destroying the capsule Y1 and performing adhesion.

さらに、前記本体C2の収容室C2sに補充するための接着材料Yが充填され、前記本体C2に対して着脱可能に設けられるリフィルC3を具備するので、収容室C2s内に収容した接着材料Yを使い切った際には、リフィルC3のみを交換すればよく、その他の箇所は廃棄する必要なく引き続き使用することができる。   Further, since the adhesive material Y for replenishing the storage chamber C2s of the main body C2 is filled and the refill C3 is provided so as to be detachable from the main body C2, the adhesive material Y stored in the storage chamber C2s is provided. When it is used up, it is only necessary to replace the refill C3, and other parts can be used continuously without having to be discarded.

さらに、本発明の第五実施形態について図面を参照して説明する。   Furthermore, a fifth embodiment of the present invention will be described with reference to the drawings.

本実施形態に係る転写具は、主に以下に示すような接着材料Zの塗布に用いられる。この接着材料Zは、断面図を図14に示すように、外力により破壊可能な防水性を有する骨材たる外壁Z2と、この外壁Z2に内包された機能性材料たる湿気硬化型接着剤Z3とを備えた(マイクロ)カプセルZ1を複数個具備してなるとともに、この(マイクロ)カプセルZ1を、粘着剤Z4中に複数個分散させてなる。そして、この接着材料Zも、第一実施形態におけるものと同様に、一方の接着対象物S上に配し、この接着材料上に他方の接着対象物をさらに配した状態で、接着対象物同士を圧着させることにより前記外壁を破壊されることにより、前記湿気硬化型接着剤Z3を放出させて接着対象物同士を接着する機能を発揮する。   The transfer tool according to this embodiment is mainly used for application of the adhesive material Z as described below. As shown in FIG. 14, a cross-sectional view of the adhesive material Z includes an outer wall Z2 that is a waterproof aggregate that can be broken by an external force, and a moisture-curing adhesive Z3 that is a functional material contained in the outer wall Z2. And a plurality of (micro) capsules Z1 are dispersed in the adhesive Z4. And, as in the first embodiment, this adhesive material Z is also arranged on one adhesion object S, and the other adhesion object is further arranged on this adhesive material, and the adhesion objects When the outer wall is destroyed by pressure bonding, the moisture-curing adhesive Z3 is released to exert a function of bonding the objects to be bonded together.

より具体的には、前記(マイクロ)カプセルZ1は、界面重合法等の各種マイクロカプセル調製法により外壁Z2に湿気硬化型接着剤Z3を内包させることにより調製される。ここで、外壁Z2に湿気硬化型接着剤Z3に内包させる工程としては、液中乾燥法、界面重合法、in situ重合法等が挙げられる。   More specifically, the (micro) capsule Z1 is prepared by encapsulating the moisture curable adhesive Z3 in the outer wall Z2 by various microcapsule preparation methods such as an interfacial polymerization method. Here, examples of the step of encapsulating the outer wall Z2 in the moisture curable adhesive Z3 include a submerged drying method, an interfacial polymerization method, an in situ polymerization method, and the like.

前記外壁Z2の材質としては、水分子を通さず、湿気硬化型接着剤Z3と混じり合わず、湿気硬化型接着剤Z3と化学反応を起こさない材質である必要がある。例えば、疎水性の天然及び合成高分子ワックス類や無機化合物等が考えられる。さらに、この外壁Z2を形成する材質としては、膜を形成した際に細孔が形成されない、あるいは水分子よりも小さな細孔のみが形成されるような材質が望ましい。この外壁Z2の厚さ寸法は、所定の本止め閾値N1以上の外圧が加えられた際には破壊されるように設定しているとともに、所定の仮止め閾値N2以下の外力ではいずれの(マイクロ)カプセルY1も破壊されないように設定している。具体的には、前述した第一実施形態に係る(マイクロ)カプセルX1の外壁X2と同様の値に設定している。   The material of the outer wall Z2 needs to be a material that does not pass water molecules, does not mix with the moisture curable adhesive Z3, and does not cause a chemical reaction with the moisture curable adhesive Z3. For example, hydrophobic natural and synthetic polymer waxes and inorganic compounds can be considered. Further, the material for forming the outer wall Z2 is preferably a material in which pores are not formed when a film is formed, or only pores smaller than water molecules are formed. The thickness dimension of the outer wall Z2 is set so as to be destroyed when an external pressure equal to or higher than a predetermined permanent fixing threshold N1 is applied, and any external force equal to or lower than the predetermined temporary fixing threshold N2 (micrometer). ) The capsule Y1 is also set so as not to be destroyed. Specifically, it is set to the same value as the outer wall X2 of the (micro) capsule X1 according to the first embodiment described above.

前記湿気硬化型接着剤Z3としては、瞬間接着剤として周知のシアノアクリレート系接着剤等が挙げられる。   Examples of the moisture curable adhesive Z3 include cyanoacrylate adhesives known as instant adhesives.

一方、この(マイクロ)カプセルZ1を分散させてなる粘着剤Z4としては、例えば、ゴム系粘着剤、アクリル系粘着剤、ウレタン系粘着剤、シリコーン系粘着剤、ビニルエーテル系粘着剤等の材料が好適に用いられる。なお、粘着剤Z4に代えて、化学反応型接着剤、合成ゴム系接着剤、エタノール等の水溶性有機溶剤を用いてもよく、これらと粘着剤とを混合させてももちろんよい。   On the other hand, as the adhesive Z4 obtained by dispersing the (micro) capsule Z1, for example, a rubber adhesive, an acrylic adhesive, a urethane adhesive, a silicone adhesive, a vinyl ether adhesive, or the like is preferable. Used for. In place of the pressure-sensitive adhesive Z4, a water-soluble organic solvent such as a chemically reactive adhesive, a synthetic rubber-based adhesive, or ethanol may be used, and these may be mixed with a pressure-sensitive adhesive.

さらに、この(マイクロ)カプセルZ1の外径は、前述した第一実施形態に係る(マイクロ)カプセルX1と同様の値に設定している。具体的には、2μm以上3000μm未満、より好ましくは5μm以上1000μm未満となるように設定している。   Further, the outer diameter of the (micro) capsule Z1 is set to the same value as that of the (micro) capsule X1 according to the first embodiment described above. Specifically, it is set to be 2 μm or more and less than 3000 μm, more preferably 5 μm or more and less than 1000 μm.

しかして本実施形態に係る塗布具D1は、図15に全体斜視図、図16に分解斜視図をそれぞれ示すように、本体D2と、本体D2に対して着脱可能であるとともに基端部に押圧面D52aを有する破壊促進要素たるピンセットD5とを具備する。   Accordingly, the applicator D1 according to the present embodiment is detachable from the main body D2 and the main body D2 and is pressed against the base end as shown in FIG. And tweezers D5 as a fracture promoting element having a surface D52a.

前記本体D2は、本実施形態では内部に接着材料Zを収容する接着材料収容室Z2sを備えた筒状としている。また、本体Z2の基部にはリフィルD3を着脱可能に取り付けてなるとともに、本体D2の先端部にはノズルD4を着脱可能に取り付けてなる。加えて、長手方向中間部には前記リフィルD3に設けた雄ネジ部D31と螺合可能な雌ネジ部D21、先端側に前記ノズルD4に設けた雄ネジ部D41と螺合可能な雌ネジ部D4をそれぞれ設けている。   In the present embodiment, the main body D2 has a cylindrical shape including an adhesive material accommodating chamber Z2s for accommodating the adhesive material Z therein. The refill D3 is detachably attached to the base of the main body Z2, and the nozzle D4 is detachably attached to the tip of the main body D2. In addition, a female screw portion D21 that can be screwed with a male screw portion D31 provided in the refill D3 is provided in the middle portion in the longitudinal direction, and a female screw portion that can be screwed with a male screw portion D41 provided in the nozzle D4 on the tip side. D4 is provided.

前記リフィルD3は、本実施形態では有底筒状をなし、内部に(マイクロ)カプセルZ1を収容してなるマイクロカプセル収容室D3sと、内部に粘着剤Z4を収容してなる粘着液収容室D3tとを備えている。また、先端部に前記本体D2の雌ネジ部D21と螺合可能な雄ネジ部D31を設けている。そして、このリフィルD3を本体D2に装着した際に、このリフィルD3の先端側が本体D2内部に収容され、このリフィルD3のマイクロカプセル収容室D3s及び粘着液収容室D3tと本体D2の接着材料収容室D2sとが連通し、接着材料収容室D2s内で(マイクロ)カプセルZ1と粘着剤Z4とが混じり合い、接着材料Zとなるようにしている。   In the present embodiment, the refill D3 has a bottomed cylindrical shape, and a microcapsule storage chamber D3s in which a (micro) capsule Z1 is stored, and an adhesive liquid storage chamber D3t in which an adhesive Z4 is stored. And. Moreover, the external thread part D31 which can be screwed together with the internal thread part D21 of the said main body D2 is provided in the front-end | tip part. When the refill D3 is attached to the main body D2, the tip side of the refill D3 is accommodated inside the main body D2, and the microcapsule accommodation chamber D3s, the adhesive liquid accommodation chamber D3t, and the adhesive material accommodation chamber of the main body D2 of the refill D3. D2s communicates, and the (micro) capsule Z1 and the pressure-sensitive adhesive Z4 are mixed in the adhesive material accommodation chamber D2s to become the adhesive material Z.

前記ノズルD4は、本実施形態では先端に向かうにつれ断面積が小さくなる略円錐状をなし、先端に接着材料Zを塗出させるべく開口させて設けた接着材料吐出口Z4aを有する。なお、このノズルD4は、非使用時にはキャップD6により被覆するようにしている。   In the present embodiment, the nozzle D4 has a substantially conical shape in which the cross-sectional area decreases toward the tip, and has an adhesive material discharge port Z4a provided to be opened at the tip so that the adhesive material Z is applied. The nozzle D4 is covered with a cap D6 when not in use.

そして、前記ピンセットD5は、上述した第三実施形態に係る塗布具B1のピンセットB5と同様の構成を有する。すなわち、1対のつまみ要素D51を基端部で互いに接続させて形成したつまみ部と、このつまみ部の基端側を被覆し押圧面D52aを有する押圧部D52とを有する。また、このピンセットD5は、つまみ部の各つまみ要素D51に、前記本体D2の外側面と係合可能な着脱片D511を有する。そして、この着脱片D511を本体B2の外側面と係合させ、前記押圧部D52の押圧面D52aと反対側を、リフィルD3の基端側に当接させるかないしはリフィルD3の基端側を被覆させる姿勢で、このピンセットD5を本体D2に装着可能である。   And the said tweezers D5 has the structure similar to the tweezers B5 of the applicator B1 which concerns on 3rd embodiment mentioned above. That is, it has a knob part formed by connecting a pair of knob elements D51 to each other at the base end part, and a pressing part D52 covering the base end side of the knob part and having a pressing surface D52a. The tweezers D5 has a detachable piece D511 that can be engaged with the outer surface of the main body D2 in each knob element D51 of the knob portion. Then, this detachable piece D511 is engaged with the outer side surface of the main body B2, and the side opposite to the pressing surface D52a of the pressing part D52 is brought into contact with the base end side of the refill D3 or the base end side of the refill D3 is set. The tweezers D5 can be mounted on the main body D2 in a covering posture.

この塗布具D1を使用して接着対象物Sに接着材料Zを塗布する際には、図17に示すように、前記ノズルD4の先端の接着材料吐出口D4aを一方の接着対象物Sに接近させ、本体D2を押圧する。すると、前記収容室D2s内から、(マイクロ)カプセルZ1と粘着剤Z4とが混じり合った状態で接着材料Zが吐出される。その際、前記粘着剤Z4により、この(マイクロ)カプセルZ1の一方の接着対象物Sに対する位置がそのまま仮決めされる。その後、一方の接着対象物Sと他方の接着対象物Sとの間に接着材料Zが位置するようにし、その後、ピンセットD5の押圧面D5aを一方の接着対象物Sに当接させてそのまま他方の接着対象物Sに向けて押圧する。この際、(マイクロ)カプセルZ1に前記所定の閾値N1以上の強い外力が作用して外壁Z2が破壊され、湿気硬化型接着剤Z3が放出される。数分経過すると、空気中の水分(湿気)を触媒として湿気硬化型接着剤Z3が硬化し、2つの接着対象物Sが接着される。   When applying the adhesive material Z to the bonding object S using the applicator D1, the adhesive material discharge port D4a at the tip of the nozzle D4 approaches the one bonding object S as shown in FIG. And press the main body D2. Then, the adhesive material Z is discharged from the accommodation chamber D2s in a state where the (micro) capsule Z1 and the adhesive Z4 are mixed. At that time, the position of the (micro) capsule Z1 with respect to one of the bonding objects S is provisionally determined by the pressure-sensitive adhesive Z4. Thereafter, the adhesive material Z is positioned between the one bonding object S and the other bonding object S, and then the pressing surface D5a of the tweezers D5 is brought into contact with the one bonding object S, and the other is left as it is. Press toward the bonding object S. At this time, a strong external force equal to or greater than the predetermined threshold value N1 acts on the (micro) capsule Z1, the outer wall Z2 is destroyed, and the moisture curable adhesive Z3 is released. After a few minutes, the moisture curable adhesive Z3 is cured using moisture (humidity) in the air as a catalyst, and the two bonding objects S are bonded.

以上に述べたように、本実施形態に係る塗布具D1の構成によれば、塗布作業を行った直後は湿気硬化型接着剤Z3を(マイクロ)カプセルZ1内に内蔵させたままにしておき、その後前記ピンセットD5のつまみ部D51を用いて把持した他方の接着対象物を圧着させる操作、又は前記押圧面D52aを他方の接着対象物に圧着させつつ他方の接着対象物を塗布面にさらに圧着させる操作により、(マイクロ)カプセルZ1を破壊するようにすることで、湿気硬化型接着剤Z3を(マイクロ)カプセルZ1外に放出させることができる。すなわち、本実施形態に係る塗布具D1においても、塗布具D1以外に特別な用具を用いることなく、所望のタイミングで(マイクロ)カプセルZ1を破壊して(マイクロ)カプセルZ1から湿気硬化型接着剤Z3を取り出すようにして、接着作業を容易に行うことができる。   As described above, according to the configuration of the applicator D1 according to the present embodiment, the moisture-curable adhesive Z3 is left in the (micro) capsule Z1 immediately after the application work is performed, Thereafter, an operation of crimping the other object to be bonded held by using the knob portion D51 of the tweezers D5, or further pressing the other bonding object to the application surface while pressing the pressing surface D52a to the other bonding object. By destroying the (micro) capsule Z1 by the operation, the moisture curable adhesive Z3 can be released out of the (micro) capsule Z1. That is, also in the applicator D1 according to the present embodiment, the (micro) capsule Z1 is broken at a desired timing without using any special tool other than the applicator D1, and the moisture curable adhesive is removed from the (micro) capsule Z1. Z3 can be taken out and the bonding operation can be easily performed.

また、ピンセットD5を本体D2に装着させた際に押圧面D52aが本体D2の基端側に位置するので、押圧面D52aの位置がわかりやすく、この塗布具D1を接着材料Zの塗布を行う際と逆向きに保持するだけで(マイクロ)カプセルZ1を破壊して接着を行う操作に移ることができる。   Further, when the tweezers D5 is attached to the main body D2, the pressing surface D52a is positioned on the proximal end side of the main body D2, so that the position of the pressing surface D52a is easy to understand, and when the application tool D1 is applied with the adhesive material Z It is possible to proceed to the operation of destroying the (micro) capsule Z1 and adhering only by holding it in the opposite direction.

さらに、前記本体D2の収容室D2sに補充するための接着材料Yが充填され、前記本体D2に対して着脱可能に設けられるリフィルD3を具備するので、収容室D2s内に収容した接着材料Zを使い切った際には、リフィルD3のみを交換すればよく、その他の箇所は廃棄する必要なく引き続き使用することができる。   Further, since the housing material D2s of the main body D2 is filled with the adhesive material Y for replenishment and the refill D3 is provided so as to be detachable from the main body D2, the adhesive material Z housed in the housing chamber D2s is provided. When it is used up, it is only necessary to replace the refill D3, and the other parts can be used without being discarded.

さらに、本発明の第六実施形態について以下に述べる。   Further, a sixth embodiment of the present invention will be described below.

本実施形態に係る塗布具E1は、主として前述した第五実施形態において述べたような接着材料Zの塗布に用いられる。この塗布具は、図18に全体斜視図、図19に分解斜視図をそれぞれ示すように、内部にリフィルE3を収納可能であるとともに先端部に塗布要素たるノズルE4を固定して設けてなる本体E2と、本体E2の基端側に設けられ、破壊促進要素たる押圧面E5aを本体に向かう側と反対側の端部に形成している後蓋E5とを具備する。この塗布具E1全体としての外径及び長手寸法は、広く市販されている筆記用ペン類と略同様にしている。   The applicator E1 according to the present embodiment is mainly used for applying the adhesive material Z as described in the fifth embodiment. As shown in FIG. 18 and a disassembled perspective view, FIG. 18 shows an overall perspective view, and FIG. 19 shows an exploded perspective view of the applicator. A refill E3 can be housed inside, and a nozzle E4 as an application element is fixed at the tip. E2 and a rear lid E5 provided on the base end side of the main body E2 and having a pressing surface E5a as a breakage promoting element formed at the end opposite to the side facing the main body. The outer diameter and longitudinal dimension of the applicator E1 as a whole are substantially the same as those of writing pens that are widely marketed.

前記本体E2は、本実施形態では内部にリフィルE3を収容可能なリフィル収容室E2sを備えた筒状としている。また、内面の先端近傍部には前記リフィルE3に設けた雄ネジ部E31と螺合可能な雌ネジ部E21を設けている。一方、外面の先端部には、前記ノズルE4に設けた雄ネジ部E41と螺合可能な雌ネジ部E22を設けている。   In the present embodiment, the main body E2 has a cylindrical shape including a refill housing chamber E2s capable of housing the refill E3. Also, a female screw portion E21 that can be screwed with a male screw portion E31 provided in the refill E3 is provided in the vicinity of the tip of the inner surface. On the other hand, a female screw portion E22 that can be screwed with a male screw portion E41 provided in the nozzle E4 is provided at the tip of the outer surface.

前記リフィルE3は、本実施形態では有底筒状をなし、内部に(マイクロ)カプセルZ1を収容してなるマイクロカプセル収容室E3sと、内部に粘着剤Z4を収容してなる粘着液収容室E3tとを備えている。また、先端部に前記本体E2の雌ネジ部E21と螺合可能な雄ネジ部E31を設けている。さらに、前記本体E2に装着した際に略全体が前記本体E2のリフィル収容室E2s内に収容されるようにしている。   In the present embodiment, the refill E3 has a bottomed cylindrical shape, and a microcapsule storage chamber E3s in which a (micro) capsule Z1 is stored inside, and an adhesive liquid storage chamber E3t in which an adhesive Z4 is stored inside. And. Further, a male screw portion E31 that can be screwed with the female screw portion E21 of the main body E2 is provided at the tip portion. Further, substantially the whole is accommodated in the refill accommodation chamber E2s of the main body E2 when mounted on the main body E2.

前記ノズルE4は、本実施形態では先端に向かうにつれ断面積が小さくなる略円錐状をなし、先端に接着材料Zを塗出させるべく開口させて設けた接着材料吐出口E4aを有する。また、このノズルE4の内部は、前記リフィルE3のマイクロカプセル収容室E3sと連通するマイクロカプセル吐出部E4s及び前記リフィルE3の粘着液収容室E3tと連通する粘着液吐出部E4tとに隔壁を介して分割されていて、(マイクロ)カプセルZ1と粘着剤Z4とが接着材料吐出口E4aにおいて混じり合うようにしている。なお、このノズルE4は、非使用時にはキャップE6により被覆するようにしている。   In the present embodiment, the nozzle E4 has a substantially conical shape with a cross-sectional area that decreases toward the tip, and has an adhesive material discharge port E4a that is provided open at the tip so that the adhesive material Z is applied. Further, the inside of the nozzle E4 is connected to a microcapsule discharge section E4s communicating with the microcapsule storage chamber E3s of the refill E3 and an adhesive liquid discharge section E4t communicating with the adhesive liquid storage chamber E3t of the refill E3 via a partition wall. The (micro) capsule Z1 and the pressure-sensitive adhesive Z4 are mixed at the adhesive material discharge port E4a. The nozzle E4 is covered with a cap E6 when not in use.

そして、前記後蓋E5は、前述したように本体E2の基端側に設けられ、破壊促進要素たる押圧部を本体に向かう側と反対側の端部に形成している。この押圧部は、その端面を押圧面E5aとしてなる。   The rear lid E5 is provided on the base end side of the main body E2 as described above, and a pressing portion as a breakage promoting element is formed on the end opposite to the side facing the main body. The pressing portion has an end surface as a pressing surface E5a.

この塗布具E1を使用して接着対象物に接着材料を塗布する際には、図20に示すように、前記ノズルE4を一方の接着対象物Sに接近させ、本体E2を押圧する。すると、マイクロカプセル吐出部E4sから(マイクロ)カプセルZ1、粘着液吐出部E4tから粘着液Z4がそれぞれ吐出され、これらが混ざり合って接着材料Zとなる。その際、(マイクロ)カプセルZ1は粘着液Z4中に分散するので、一方の接着対象物Sに対する位置がそのまま仮決めされる。その後は、一方の接着対象物と他方の接着対象物との間に接着材料Zが位置するようにし、その後、後蓋E5の押圧面E5aを一方の接着対象物に当接させてそのまま他方の接着対象物に向けて押圧する。すると、(マイクロ)カプセルZ1に前記所定の閾値N1以上の強い外力が作用して外壁Z2が破壊され、湿気硬化型接着剤Z3が放出される。数分経過すると、空気中の水分(湿気)を触媒として湿気硬化型接着剤Z3が硬化し、2つの接着対象物が接着される。なお、先に塗布面に後蓋E5の押圧面E5aを当接させて(マイクロ)カプセルZ1を破壊し、その後塗布面に他方の接着対象物を当接させて接着対象物同士を圧着させるようにしてもよい。   When applying an adhesive material to an object to be bonded using the applicator E1, the nozzle E4 is brought close to one object to be bonded S and the main body E2 is pressed as shown in FIG. Then, the (micro) capsule Z1 is ejected from the microcapsule ejection part E4s, and the adhesive liquid Z4 is ejected from the adhesive liquid ejection part E4t, and these are mixed to form the adhesive material Z. At that time, since the (micro) capsule Z1 is dispersed in the adhesive liquid Z4, the position with respect to one of the bonding objects S is provisionally determined. After that, the adhesive material Z is positioned between the one bonding object and the other bonding object, and then the pressing surface E5a of the rear lid E5 is brought into contact with the one bonding object so that the other bonding object is left as it is. Press toward the object to be bonded. Then, a strong external force equal to or greater than the predetermined threshold value N1 acts on the (micro) capsule Z1, the outer wall Z2 is destroyed, and the moisture curable adhesive Z3 is released. After a few minutes, the moisture curable adhesive Z3 is cured using moisture (humidity) in the air as a catalyst, and the two objects to be bonded are bonded. It should be noted that the pressing surface E5a of the rear lid E5 is first brought into contact with the application surface to destroy the (micro) capsule Z1, and then the other adhesion object is brought into contact with the application surface so that the adhesion objects are pressure-bonded. It may be.

以上に述べたように、本実施形態に係る塗布具E1の構成によれば、塗布作業を行った直後は湿気硬化型接着剤Z3を(マイクロ)カプセルZ1内に内蔵させたままにしておき、その後前記押圧面E5aを塗布面に圧着させて(マイクロ)カプセルZ1を破壊する操作、又は前記押圧面E5aを他方の接着対象物に圧着させつつ他方の接着対象物を塗布面にさらに圧着させて(マイクロ)カプセルZ1を破壊する操作により、湿気硬化型接着剤Z3を(マイクロ)カプセルZ1外に放出させることができる。すなわち、本実施形態に係る塗布具E1においても、塗布具E1以外に特別な用具を用いることなく、所望のタイミングで(マイクロ)カプセルZ1を破壊して(マイクロ)カプセルZ1から湿気硬化型接着剤Z3を取り出すようにして、接着作業を容易に行うことができる。   As described above, according to the configuration of the applicator E1 according to the present embodiment, the moisture-curable adhesive Z3 is left in the (micro) capsule Z1 immediately after the application work is performed, Thereafter, the pressing surface E5a is pressure-bonded to the application surface to destroy the (micro) capsule Z1, or the other bonding object is further pressure-bonded to the application surface while the pressing surface E5a is pressure-bonded to the other bonding object. By the operation of destroying the (micro) capsule Z1, the moisture curable adhesive Z3 can be released out of the (micro) capsule Z1. That is, also in the applicator E1 according to the present embodiment, the (micro) capsule Z1 is broken at a desired timing without using a special tool other than the applicator E1, and the moisture curable adhesive is removed from the (micro) capsule Z1. Z3 can be taken out and the bonding operation can be easily performed.

また、前記押圧面E5aが本体E2の基端側に位置するので、押圧面E5aの位置がわかりやすく、この塗布具E1を接着材料Zの塗布を行う際と逆向きに保持するだけで(マイクロ)カプセルZ1を破壊して接着を行う操作に移ることができる。   Further, since the pressing surface E5a is located on the base end side of the main body E2, the position of the pressing surface E5a is easy to understand, and the applicator E1 is simply held in a direction opposite to that when the adhesive material Z is applied (micro) ) It is possible to proceed to the operation of destroying the capsule Z1 and performing adhesion.

さらに、前記本体E2の収容室E2sに補充するための接着材料Zが充填され、前記本体E2に対して着脱可能に設けられるリフィルE3を具備するので、収容室E2s内に収容した接着材料Zを使い切った際には、リフィルE3のみを交換すればよく、その他の箇所は廃棄する必要なく引き続き使用することができる。   Furthermore, since the housing material E2s of the main body E2 is filled with an adhesive material Z for replenishment and is provided with a refill E3 that is detachably attached to the main body E2, the adhesive material Z housed in the housing chamber E2s is provided. When it is used up, it is only necessary to replace the refill E3, and other parts can be used continuously without having to be discarded.

なお、本発明は以上に述べた実施態様に限られない。   The present invention is not limited to the embodiment described above.

例えば、前記第一実施形態に係る塗布具1を利用して前記第五又は第六実施形態に係る接着材料Zを塗布してもよく、逆に、前記第五又は第六実施形態に係る塗布具D1、E1を利用して前記第一実施形態に係る接着材料Xを塗布してもよい。   For example, the adhesive material Z according to the fifth or sixth embodiment may be applied using the applicator 1 according to the first embodiment, and conversely, the application according to the fifth or sixth embodiment. The adhesive material X according to the first embodiment may be applied using the tools D1 and E1.

また、前記第一実施形態に係る接着材料Xにおいて、分散媒X4は上述したエタノールに限らず、メタノールやアセトン等他の水溶性有機溶剤であってもよい。また、水溶性有機溶剤でなく、液状の樹脂や、剪断減粘性付与剤等、他の物質を利用してもよい。   In the adhesive material X according to the first embodiment, the dispersion medium X4 is not limited to the above-described ethanol, but may be other water-soluble organic solvents such as methanol and acetone. In addition to the water-soluble organic solvent, other substances such as a liquid resin and a shear thinning agent may be used.

また、上述した各実施形態における接着材料X、Y、Zにおいて、(マイクロ)カプセルX1、Y1、Z1の外壁X2、Y2、Z2に細孔が形成されないようにする、あるいは水分子よりも小さな細孔のみが形成させるようにする代わりに、前記外壁X2、Y2、Z2の細孔の存在の有無に関わらず以下のように構成してもよい。すなわち、例えば第一又は第二実施形態における接着材料Xにおいて、図21に断面を示すように、外壁X2と粘着剤X3との間に、水分子を通さない、防水性のあるコーティング層X5を設けてもよい。また、第三ないし第六実施形態に係る接着材料Y、Zについても、外壁Y2、Z2と湿気硬化型接着剤Y3、Z3との間に、水分子を通さない、防水性のあるコーティング層を設けてもよい。   Further, in the adhesive materials X, Y, and Z in the above-described embodiments, pores are not formed on the outer walls X2, Y2, and Z2 of the (micro) capsules X1, Y1, and Z1, or smaller than water molecules. Instead of forming only the pores, the following configuration may be adopted regardless of the presence or absence of pores in the outer walls X2, Y2, and Z2. That is, for example, in the adhesive material X in the first or second embodiment, as shown in a cross section in FIG. 21, a waterproof coating layer X5 that does not allow water molecules to pass between the outer wall X2 and the adhesive X3. It may be provided. Also, for the adhesive materials Y and Z according to the third to sixth embodiments, a waterproof coating layer that does not allow water molecules to pass between the outer walls Y2 and Z2 and the moisture-curing adhesives Y3 and Z3. It may be provided.

このように、前記外壁X2、Y2、Z2と機能性材料すなわち粘着剤X3又は湿気硬化型接着剤Y3、Z3との間に防水性のあるコーティング層を設けたものであれば、破壊しやすいが水分子が通過可能な細孔が存在することが多い通常の外壁2を形成したものであっても、コーティング層によりその内側の気密性を高めることにより機能性材料に空気中の水分(湿気)や二酸化炭素等が到達することを防ぐことができ、機能性材料をより長期間保存することができる。   As described above, if a waterproof coating layer is provided between the outer walls X2, Y2, and Z2 and the functional material, that is, the pressure-sensitive adhesive X3 or the moisture-curing adhesive Y3 and Z3, they are easily broken. Even in the case of forming the normal outer wall 2 in which there are many pores through which water molecules can pass, moisture in the air (humidity) is added to the functional material by enhancing the airtightness inside the coating layer. And carbon dioxide can be prevented from reaching, and the functional material can be stored for a longer period of time.

また、このようなコーティング層は、前記外壁X2、Y2、Z2の外側に設けてもよい。   Such a coating layer may be provided outside the outer walls X2, Y2, and Z2.

加えて、前記外壁X2、Y2、Z2に機能性材料の注入及び抽出が可能な大きさの細孔を設けるとともに、この細孔近傍の部位のみをコーティング層により被覆してもよい。このような構成であっても、最低限前記細孔から外壁X2、Y2、Z2の内側に空気中の水分(湿気)が到達することを防ぐことを外壁X2、Y2、Z2やコーティング層により防ぐ効果は得られる。また、このような構成であれば、(マイクロ)カプセルに外力を与えた際に、外壁より強度が低いコーティング層が破壊され、細孔が露出するので、外壁を破壊しなくても湿気硬化型接着剤を(マイクロ)カプセル外に出すことができる。   In addition, the outer walls X2, Y2, and Z2 may be provided with pores having a size capable of injecting and extracting the functional material, and only the portions near the pores may be covered with the coating layer. Even in such a configuration, the outer walls X2, Y2, Z2 and the coating layer prevent the moisture (humidity) from reaching the inside of the outer walls X2, Y2, Z2 from the pores at the minimum. The effect is obtained. Also, with such a configuration, when an external force is applied to the (micro) capsule, the coating layer having a lower strength than the outer wall is destroyed and the pores are exposed, so that the moisture-curing type can be achieved without destroying the outer wall. The adhesive can be taken out of the (micro) capsule.

さらに、前述した各実施形態に係る接着材料X、Y、Zを以下のように構成してもよい。すなわち、例えば第一又は第二実施形態における接着材料Xにおいて、図22に断面を示すように、外壁X2に、粘着剤X3に隣接する内外壁層X21と、この内外壁層X21の外側に隣接する外外壁層X22とを有する二層に構成した二重カプセル構造を採用してもよい。もちろん、第三ないし第六実施形態に係る接着材料Y、Zについても、外壁Y2、Z2にこのような二重カプセル構造を採用してもよい。   Furthermore, the adhesive materials X, Y, and Z according to the above-described embodiments may be configured as follows. That is, for example, in the adhesive material X in the first or second embodiment, as shown in a cross section in FIG. 22, the outer wall X2, the inner and outer wall layers X21 adjacent to the adhesive X3, and the outer side of the inner and outer wall layers X21 are adjacent. You may employ | adopt the double capsule structure comprised in the two layers which have the outer outer wall layer X22 to do. Needless to say, such double capsule structures may be adopted for the outer walls Y2 and Z2 for the adhesive materials Y and Z according to the third to sixth embodiments.

このように、外壁X2、Y2、Z2に上述したような二重カプセル構造を採用すれば、内外壁層及び外外壁層に細孔を有する有機化合物又は無機化合物による皮膜を採用しても、これら内外壁層X21及び外外壁層X22の細孔同士が重合しない限り、この外壁X2、Y2、Z2の内側の機能性材料すなわち粘着剤X3又は湿気硬化型接着剤Y3、Z3に空気中の水分(湿気)や二酸化炭素が到達することがなく、従ってより気密性を高め、機能性材料をより長期間保存することができる。もちろん、外壁X2、Y2、Z2を三層以上に構成した多層カプセル構造を採用しても、このような効果は同様に得られる。   Thus, if the double capsule structure as described above is adopted for the outer walls X2, Y2, and Z2, even if a film made of an organic compound or an inorganic compound having pores in the inner and outer wall layers and the outer and outer wall layers is adopted, these Unless the pores of the inner / outer wall layer X21 and the outer / outer wall layer X22 are polymerized, the functional material inside the outer walls X2, Y2, and Z2, that is, the adhesive X3 or the moisture curable adhesives Y3 and Z3 has moisture in the air ( Moisture) and carbon dioxide do not reach, and therefore the airtightness can be improved and the functional material can be stored for a longer period of time. Of course, even if a multilayer capsule structure in which the outer walls X2, Y2, and Z2 are formed of three or more layers is employed, such an effect can be obtained in the same manner.

加えて、第三ないし第六実施形態に係る(マイクロ)カプセルY1、Z1において、粘着性を有する材質により外壁Y2、Z2を構成し、マイクロカプセルY1、Z1自体の接着対象物に対する位置決めを行わせるようにしてもよい。また、直径300〜3000μm程度の比較的大径の(マイクロ)カプセルY1、Z1内に湿気硬化型接着剤Y3、Z3を内包させ、ピンセット等の把持手段を利用してこの(マイクロ)カプセルを接着対象物の接着部位に配してもよい。また、前述した第三ないし第六実施形態において、粘着剤でなく接着剤を使用し、(マイクロ)カプセルと接着剤とを接着対象物に塗布する際に混合し、接着剤中に(マイクロ)カプセルを分散させてもよい。このような接着剤としては、化学反応型接着剤、合成ゴム系接着剤等が好適に用いられる。   In addition, in the (micro) capsules Y1 and Z1 according to the third to sixth embodiments, the outer walls Y2 and Z2 are made of an adhesive material, and the microcapsules Y1 and Z1 themselves are positioned with respect to the object to be bonded. You may do it. Moreover, moisture curing type adhesives Y3 and Z3 are encapsulated in relatively large diameter (micro) capsules Y1 and Z1 having a diameter of about 300 to 3000 μm, and the (micro) capsules are adhered using gripping means such as tweezers. You may arrange | position to the adhesion site | part of a target object. Further, in the third to sixth embodiments described above, an adhesive is used instead of a pressure-sensitive adhesive, and the (micro) capsule and the adhesive are mixed when applied to the object to be bonded. Capsules may be dispersed. As such an adhesive, a chemically reactive adhesive, a synthetic rubber adhesive, or the like is preferably used.

さらに、機械等を用いて強い力で接着対象物同士を押圧して初めて外壁が破壊されるようにすべく、(マイクロ)カプセルX1、Y1、Z1の寸法を小さくする態様や、外壁X2、Y2、Z2の剛性を高くすべく厚さ寸法を大きくする態様や、剛性の高い材質により外壁X2、Y2、Z2を構成する態様を採用してもよい。   Further, in order to destroy the outer wall only after the objects to be bonded are pressed against each other with a strong force using a machine or the like, an aspect in which the dimensions of the (micro) capsules X1, Y1, Z1 are reduced, or the outer walls X2, Y2 A mode in which the thickness dimension is increased to increase the rigidity of Z2 or a mode in which the outer walls X2, Y2, and Z2 are formed of a material having high rigidity may be employed.

加えて、図23の(a)に示すように、骨材たる多孔質粒子W2と、この多孔質粒子W2の空洞中に含有させた機能性材料W3と、前記多孔質粒子W2の表面の細孔部を覆うコーティング層W5とを備えた(マイクロ)カプセルW1を複数個具備してなるとともに、この(マイクロ)カプセルW1を、粘着剤W4中に複数個分散させてなる塗布物Wの塗布に上述した各実施態様に係る塗布具1、A1、B1、C1、D1、E1を用いてもよい。ここで、多孔質粒子W2の空洞中に機能性材料W3を含有させて(マイクロ)カプセルW1を製造する工程としては、例えば、真空雰囲気中において多孔質粒子W2中に機能性材料W3を含有させ、その後真空雰囲気中において多孔質粒子W2の外側にコーティング層W5を形成する方法等が考えられる。   In addition, as shown in FIG. 23 (a), the porous particles W2 as an aggregate, the functional material W3 contained in the cavity of the porous particles W2, and the surface of the porous particles W2 are fine. A plurality of (micro) capsules W1 having a coating layer W5 covering the hole are provided, and a plurality of (micro) capsules W1 are dispersed in an adhesive W4 to apply a coating W. You may use the applicator 1, A1, B1, C1, D1, E1 which concerns on each embodiment mentioned above. Here, as a step of manufacturing the (micro) capsule W1 by including the functional material W3 in the cavity of the porous particle W2, for example, the functional material W3 is included in the porous particle W2 in a vacuum atmosphere. Then, a method of forming the coating layer W5 on the outside of the porous particle W2 in a vacuum atmosphere can be considered.

前記多孔質粒子W2の材質としては、水分子を通さず、機能性材料W3と混じり合わず、機能性材料W3と化学反応を起こさない材質である必要がある。例えば、無機化合物が好適に用いられ得る。より具体的には、この多孔質粒子W2として、無機多孔質シリカ(商品名:ゴッドボール)を用いることが好ましい。また、この多孔質粒子W2は、それ以外にも、アルカリ土類金属の炭酸塩、珪酸塩、燐酸塩、硫酸塩や金属酸化物、金属水酸化物、その他の金属珪酸塩、あるいはその他の金属炭酸塩等を用いて形成したものであってもよく、有機高分子化合物を利用してもよい。なお、前記図23では多孔質粒子Z2の孔は規則的に配置されているが、実際には孔は不規則に配されていて、また、表面近傍だけでなく中心部に至るまで全域にわたって孔と孔でない部分とが混在している。   The material of the porous particles W2 needs to be a material that does not pass water molecules, does not mix with the functional material W3, and does not cause a chemical reaction with the functional material W3. For example, an inorganic compound can be suitably used. More specifically, it is preferable to use inorganic porous silica (trade name: God Ball) as the porous particles W2. In addition, the porous particles W2 include carbonates, silicates, phosphates, sulfates, metal oxides, metal hydroxides, other metal silicates, or other metals of alkaline earth metals. It may be formed using a carbonate or the like, and an organic polymer compound may be used. In FIG. 23, the pores of the porous particles Z2 are regularly arranged, but actually the pores are irregularly arranged, and not only in the vicinity of the surface but also in the whole area. And non-hole parts are mixed.

また、図23の(b)に示すように、多孔質粒子V2と、この多孔質粒子V2の空洞中に含有させた機能性材料V3と、前記多孔質粒子V2の表面の細孔部を覆うコーティング層V5とを具備し、これら多孔質粒子V2、機能性材料V3、及びコーティング層V5が上述したような接着材料Wにおけるものと同様の構成を有する(マイクロ)カプセルV1を主材とするとともに、この(マイクロ)カプセルV1が前記コーティング層V5のさらに外側の外表面部に粘着剤層膜V4を具備する塗布物Vの塗布に上述した各実施態様に係る塗布具1、A1、B1、C1、D1、E1を用いてもよい。   Further, as shown in FIG. 23B, the porous particles V2, the functional material V3 contained in the cavities of the porous particles V2, and the pores on the surface of the porous particles V2 are covered. The coating layer V5 is provided, and the porous particles V2, the functional material V3, and the coating layer V5 have (micro) capsule V1 having the same configuration as that of the adhesive material W as described above as a main material. The applicator 1, A1, B1, C1 according to each of the embodiments described above for applying the coating material V in which the (micro) capsule V1 includes the adhesive layer film V4 on the outer surface of the coating layer V5. , D1 and E1 may be used.

さらに、図24に示すように、前記(マイクロ)カプセルX1が、機能性材料X3の他に磁性体微粒子X6を外壁X2内に内包してなる塗布物たる接着材料Xを塗布するものであって、破壊促進要素が、前記磁性体微粒子X6を吸引することによりカプセルの破壊を促進する磁石C58である態様も考えられる。   Furthermore, as shown in FIG. 24, the (micro) capsule X1 applies an adhesive material X, which is an applied product formed by encapsulating magnetic fine particles X6 in the outer wall X2 in addition to the functional material X3. A mode in which the breakage promoting element is a magnet C58 that promotes breakage of the capsule by attracting the magnetic fine particles X6 is also conceivable.

例えば、前述した第四実施形態に係る塗布具C1の後蓋C5内に、前記磁石C58を埋設する態様が考えられる。一方、この態様では、この磁石C58による磁力を遮蔽すべく、リフィルC3の底部すなわち本体C2に取り付けた状態で前記後蓋C5に対向する部位に、磁石C58と離間させるようにして遮蔽体C59を設けている。この遮蔽体C59は鉄等の磁性体、又はアルミニウム等の反磁性体により構成している。   For example, the aspect which embeds the said magnet C58 in the back cover C5 of the applicator C1 which concerns on 4th embodiment mentioned above can be considered. On the other hand, in this embodiment, in order to shield the magnetic force from the magnet C58, the shield C59 is separated from the magnet C58 at the bottom of the refill C3, that is, the portion facing the rear lid C5 in a state attached to the main body C2. Provided. The shield C59 is made of a magnetic material such as iron or a diamagnetic material such as aluminum.

この態様における塗布具C1を使用して接着対象物Sに接着材料Xを塗布する際には、図26に示すように、前記ノズルC4を一方の接着対象物Sに接近させ、ボールC60を回転させる。すると、ボールC60の回転に伴い、前記収容室C2s内から接着材料Xが吐出される。なお、前記ノズルC4の先端部には前記ボールC60を収納するボール収納孔C4xを設けているとともに、前記(マイクロ)カプセルX1を排出可能にすべく、ボール収納孔C4xの複数箇所を径方向外側に拡開させてカプセル排出溝C4yを設けている。その後、前記磁石C58を(マイクロ)カプセルX1に近づけると、(マイクロ)カプセルX1中の磁性体粒子X6が磁石C58に引き寄せられ、該磁性体粒子X6が外壁X2を突き破り、外壁X2を破壊したり、外壁X2の破壊を支援したりする。このとき、機能性材料X3が放出される。   When applying the adhesive material X to the bonding object S using the applicator C1 in this aspect, as shown in FIG. 26, the nozzle C4 is brought close to one bonding object S and the ball C60 is rotated. Let Then, with the rotation of the ball C60, the adhesive material X is discharged from the inside of the storage chamber C2s. The tip of the nozzle C4 is provided with a ball storage hole C4x for storing the ball C60, and a plurality of locations of the ball storage hole C4x are arranged radially outward so that the (micro) capsule X1 can be discharged. The capsule discharge groove C4y is provided. Thereafter, when the magnet C58 is brought close to the (micro) capsule X1, the magnetic particles X6 in the (micro) capsule X1 are attracted to the magnet C58, and the magnetic particles X6 break through the outer wall X2 to destroy the outer wall X2. Assist the destruction of the outer wall X2. At this time, the functional material X3 is released.

このように構成したものであれば、磁力により磁性体微粒子を吸引させ、この磁性体粒子の移動に伴い(マイクロ)カプセルX1を破壊させることができるので、(マイクロ)カプセルX1の破壊に要する押圧に伴う操作力をより少なくできる。   With such a configuration, the magnetic microparticles can be attracted by a magnetic force, and the (micro) capsule X1 can be destroyed along with the movement of the magnetic particles, so that the pressure required to destroy the (micro) capsule X1 The operating force associated with can be reduced.

なお、(マイクロ)カプセル中に磁性体微粒子を混入させてなるとともに、分散媒中に(マイクロ)カプセルを分散させてなる塗布物を塗布する場合、塗布要素たるノズルC4から分散媒のみが排出されてしまう不具合の発生を防ぐべく、ボールC60を磁石により形成し、このボールC60に磁性体微粒子を混入させてなる(マイクロ)カプセルを吸引させるようにしてもよい。   In addition, when applying a coating material in which (micro) capsules are mixed in a (micro) capsule and (micro) capsules are dispersed in a dispersion medium, only the dispersion medium is discharged from the nozzle C4 as an application element. In order to prevent the occurrence of a malfunction, the ball C60 may be formed of a magnet, and a (micro) capsule formed by mixing magnetic fine particles into the ball C60 may be attracted.

また、上述した第一実施形態に係る塗布具1のフェルト4に代えて、上述したような前記ボールC60を収納するボール収納孔C4x及びカプセル排出溝C4yを先端部に有するノズルC4を設けてもよい。さらに、前記第三ないし第六実施形態に係る塗布具B1、C1、D1、E1のノズルB4、C4,D4、E4の先端部に、上述したような前記ボールC60を収納するボール収納孔C4x及びカプセル排出溝C4yを設けてもよい。   Moreover, it replaces with the felt 4 of the applicator 1 which concerns on 1st embodiment mentioned above, and may provide the nozzle C4 which has the ball storage hole C4x and the capsule discharge groove C4y which store the said balls C60 as mentioned above in the front-end | tip part. Good. Furthermore, a ball storage hole C4x for storing the ball C60 as described above at the tip of the nozzles B4, C4, D4, E4 of the applicators B1, C1, D1, E1 according to the third to sixth embodiments; A capsule discharge groove C4y may be provided.

そして、破壊促進要素が、本体の基端側に形成した押圧面と、本体を回転させて塗布物を塗布した塗布対象物との間に摩擦熱を発生させるための回転具の基端側に形成した回転促進部とである態様も考えられる。   And the destruction promoting element is on the base end side of the rotating tool for generating frictional heat between the pressing surface formed on the base end side of the main body and the object to be coated by rotating the main body. An embodiment in which the rotation promotion part is formed is also conceivable.

さらに、図27の(a)及び同図の(b)に示すように、本体D2の基端部に設けた後蓋D50に、塗布物X、Y、Zに圧接することにより塗布物X、Y、Zの外壁X2、Y2、Z2ないしコーティング部を突き破り破壊することが可能な破壊促進要素たる突起D50aを設ける態様や、同図の(c)に示すように、本体D2の基端部に設けた後蓋D500に、塗布物X、Y、Zを塗布した面に面的に圧接させることにより塗布物X、Y、Zの外壁X2、Y2、Z2ないしコーティング部を押しつぶすことが可能な破壊促進要素たるへらD500aを設ける態様が考えられる。   Furthermore, as shown in FIG. 27A and FIG. 27B, the application X, Y, and Z are pressed against the application X, Y, and Z on the rear lid D50 provided at the base end of the main body D2. As shown in (c) of the figure, the base end of the main body D2 is provided with a projection D50a that is a fracture promoting element capable of breaking through and breaking the outer walls X2, Y2, Z2 of the Y and Z or the coating portion. Destruction that can crush the outer walls X2, Y2, Z2 or the coating part of the coated product X, Y, Z by surface-contacting the provided lid D500 with the surface coated with the coated product X, Y, Z A mode in which the spatula D500a as the promoting element is provided is conceivable.

また、前述したような磁気吸引による磁性体粒子の移動に伴い磁性体粒子に外壁またはコーティング層を突き破らせて破壊する態様や、押圧による外壁またはコーティング層に対する機械的作用の付加により外壁またはコーティング層を破壊する態様だけでなく、外壁またはコーティング層を加熱融解させる態様も考えられる。   In addition, as described above, with the movement of the magnetic particles by magnetic attraction, the outer surface or coating layer is broken by causing the magnetic particles to break through the outer wall or the coating layer, or the outer wall or coating is applied by adding mechanical action to the outer wall or coating layer by pressing. In addition to the mode of destroying the layer, a mode of heating and melting the outer wall or the coating layer is also conceivable.

例えば、塗布具を塗布面に当てた状態で塗布具を回転又は平行移動させて摩擦熱を発生させ、この摩擦熱で外壁またはコーティング層を融解させるべく、塗布具に破壊促進要素として押圧部及び摩擦促進部を設ける態様が考えられる。   For example, the applicator is rotated or translated while the applicator is in contact with the application surface to generate frictional heat, and the frictional heat melts the outer wall or the coating layer. An aspect in which a friction promoting portion is provided is conceivable.

この場合、機能性材料としてホットメルト粘着剤を用いたものであれば、摩擦熱によりカプセルの外壁ないしコーティング層を融解させると同時に、この摩擦熱によりホットメルト接着剤を同時に加熱して接着作業を行うようにできる。   In this case, if a hot melt adhesive is used as the functional material, the outer wall or coating layer of the capsule is melted by frictional heat, and at the same time, the hotmelt adhesive is simultaneously heated by this frictional heat to perform the bonding operation. Can be done.

また、前述した第二実施形態に係る塗布具において、破壊ローラは、転写ヘッドローラに隣接する位置でなく、本体の他の部位、例えばヘッドを設けた側と反対側の端部等に設けてもよい。さらに、破壊ローラに代えて、例えば本体のヘッドを設けた側と反対側の端部等の側面に形成した押圧面等を破壊促進要素としてもよい。   In the applicator according to the second embodiment described above, the breaking roller is not provided at a position adjacent to the transfer head roller, but is provided at another part of the main body, for example, at an end opposite to the side where the head is provided. Also good. Further, instead of the breaking roller, for example, a pressing surface formed on a side surface such as an end opposite to the side on which the head of the main body is provided may be used as the breakage promoting element.

加えて、前述した第三ないし第六実施形態に係る機能性材料は、湿気硬化型接着剤だけでなく、例えば、ゴム系粘着剤、アクリル系粘着剤、ウレタン系粘着剤、シリコーン系粘着剤、ビニルエーテル系粘着剤、化学反応型接着剤、合成ゴム系接着剤等であってもよい。   In addition, the functional materials according to the third to sixth embodiments described above are not only moisture curable adhesives, but also rubber adhesives, acrylic adhesives, urethane adhesives, silicone adhesives, It may be a vinyl ether adhesive, a chemical reaction adhesive, a synthetic rubber adhesive, or the like.

そして、破壊促進要素は、塗布要素と別部位に設けたものであれば、以上に述べた以外のものであってもよい。   The destruction promoting element may be other than those described above as long as it is provided in a different part from the application element.

その他、本発明の趣旨を逸脱しない範囲で種々変形が可能である。   In addition, various modifications can be made without departing from the spirit of the present invention.

本発明の第一実施形態に係る塗布具及びリフィルを示す図。The figure which shows the applicator and refill which concern on 1st embodiment of this invention. 同実施形態に係る接着材料を示す断面図。Sectional drawing which shows the adhesive material which concerns on the same embodiment. 同実施形態に係る塗布具の使用態様を示す図。The figure which shows the usage condition of the applicator which concerns on the same embodiment. 同実施形態に係る塗布具の使用態様を示す図。The figure which shows the usage condition of the applicator which concerns on the same embodiment. 本発明の第二実施形態に係る塗布具を示す図。The figure which shows the applicator which concerns on 2nd embodiment of this invention. 同実施形態に係る転写シートを示す平面図。The top view which shows the transfer sheet which concerns on the same embodiment. 本発明の第三実施形態に係る接着材料を示す断面図。Sectional drawing which shows the adhesive material which concerns on 3rd embodiment of this invention. 同実施形態に係る塗布具を示す全体斜視図。The whole perspective view which shows the applicator which concerns on the same embodiment. 同実施形態に係る塗布具を示す分解斜視図。The disassembled perspective view which shows the applicator which concerns on the same embodiment. 同実施形態に係る塗布具の使用態様を示す図。The figure which shows the usage condition of the applicator which concerns on the same embodiment. 本発明の第四実施形態に係る塗布具を示す全体斜視図。The whole perspective view which shows the applicator which concerns on 4th embodiment of this invention. 同実施形態に係る塗布具を示す分解斜視図。The disassembled perspective view which shows the applicator which concerns on the same embodiment. 同実施形態に係る塗布具の使用態様を示す図。The figure which shows the usage condition of the applicator which concerns on the same embodiment. 本発明の第五実施形態に係る接着材料を示す断面図。Sectional drawing which shows the adhesive material which concerns on 5th embodiment of this invention. 同実施形態に係る塗布具を示す全体斜視図。The whole perspective view which shows the applicator which concerns on the same embodiment. 同実施形態に係る塗布具を示す分解斜視図。The disassembled perspective view which shows the applicator which concerns on the same embodiment. 同実施形態に係る塗布具の使用態様を示す図。The figure which shows the usage condition of the applicator which concerns on the same embodiment. 本発明の第六実施形態に係る塗布具を示す全体斜視図。The whole perspective view which shows the applicator which concerns on 6th embodiment of this invention. 同実施形態に係る塗布具を示す分解斜視図。The disassembled perspective view which shows the applicator which concerns on the same embodiment. 同実施形態に係る塗布具の使用態様を示す図。The figure which shows the usage condition of the applicator which concerns on the same embodiment. 本発明の他の実施態様に係る接着材料を示す断面図。Sectional drawing which shows the adhesive material which concerns on the other embodiment of this invention. 本発明の他の実施態様に係る接着材料を示す断面図。Sectional drawing which shows the adhesive material which concerns on the other embodiment of this invention. 本発明の他の実施態様に係る接着材料を示す断面図。Sectional drawing which shows the adhesive material which concerns on the other embodiment of this invention. 本発明の他の実施態様に係る接着材料を示す断面図。Sectional drawing which shows the adhesive material which concerns on the other embodiment of this invention. 本発明の他の実施態様に係る塗布具を示す全体斜視図。The whole perspective view which shows the applicator which concerns on the other embodiment of this invention. 本発明の他の実施態様に係る塗布具の使用態様を示す図。The figure which shows the usage condition of the applicator which concerns on the other embodiment of this invention. 本発明の他の実施態様に係る塗布具を示す全体斜視図。The whole perspective view which shows the applicator which concerns on the other embodiment of this invention.

符号の説明Explanation of symbols

1、A1、B1、C1、D1、E1…塗布具
2、A2、B2、C2、D2、E2…本体
4…フェルト(塗布要素)
A4…転写ヘッドローラ(塗布要素)
B4、C4、D4、E4…ノズル(塗布要素)
5a、C5a、E5a…押圧面(破壊促進要素)
A5…破壊ローラ(破壊促進要素)
B5、D5…ピンセット(破壊促進要素)
C58…磁石(破壊促進要素)
D50a…突起(破壊促進要素)
D500a…へら(破壊促進要素)
C9…回転発生具(破壊促進要素)
X、XX、Y、Z…接着材料(塗布物)
DESCRIPTION OF SYMBOLS 1, A1, B1, C1, D1, E1 ... Applicator 2, A2, B2, C2, D2, E2 ... Main body 4 ... Felt (application element)
A4: Transfer head roller (application element)
B4, C4, D4, E4 ... Nozzle (application element)
5a, C5a, E5a: Press surface (destructive element)
A5 ... Destruction roller (destructive element)
B5, D5 ... tweezers (destructive elements)
C58 ... Magnet (destructive element)
D50a ... Protrusion (destructive element)
D500a ... Spatula (destruction promoting element)
C9 ... Rotation generator (destructive element)
X, XX, Y, Z ... Adhesive material (application)

Claims (7)

機能性材料を内包してなるカプセルを主材とする塗布物を塗布するものであって、塗布物を収容する塗布物収容室及びこの塗布物収容室から供給される塗布物を塗布対象物に塗布するための塗布要素と、この塗布要素と別部位に設けられ該塗布要素により塗布した塗布物中の前記カプセルの破壊を促進する破壊促進要素とを具備してなることを特徴とする塗布具。 A coating material containing a capsule containing a functional material as a main material is applied, and a coating material storage chamber for storing the coating material and a coating material supplied from the coating material storage chamber are applied to the coating object. An applicator comprising: an applicator element for application; and a breakage promoting element that is provided at a site different from the applicator element and promotes the destruction of the capsule in the coating applied by the applicator element. . 前記破壊促進要素が、本体の基端側に形成した押圧部であることを特徴とする請求項1記載の接着材料塗布具。 The adhesive material applicator according to claim 1, wherein the breakage promoting element is a pressing portion formed on a base end side of the main body. 前記押圧部に、前記カプセルに優先的に当接する凸部を複数設けていることを特徴とする請求項2記載の接着材料塗布具。 The adhesive material applicator according to claim 2, wherein the pressing portion is provided with a plurality of convex portions that preferentially contact the capsule. 前記破壊促進要素が、本体の基端側に形成した押圧部と、本体を回転ないし平行移動させて塗布物を塗布した塗布対象物との間に摩擦熱を発生させるための摩擦促進部とであることを特徴とする請求項1記載の接着材料塗布具。 A friction promoting portion for generating frictional heat between the pressing portion formed on the base end side of the main body and the object to be coated by rotating or translating the main body to apply the coating material. The adhesive material applicator according to claim 1, wherein the adhesive material applicator is provided. 前記破壊促進要素が、前記本体の塗布要素近傍に設けたローラであることを特徴とする請求項1記載の接着材料塗布具。 The adhesive material applicator according to claim 1, wherein the breakage promoting element is a roller provided in the vicinity of the application element of the main body. 前記カプセルが機能性材料の他に磁性体微粒子を内包してなる塗布物を塗布するものであって、前記破壊促進要素が、前記磁性体微粒子を吸引することによりカプセルの破壊を促進する磁石であることを特徴とする請求項1記載の接着材料塗布具。 The capsule is applied with a coating containing magnetic fine particles in addition to a functional material, and the breakage promoting element is a magnet that promotes breakage of the capsule by attracting the magnetic fine particles. The adhesive material applicator according to claim 1, wherein the adhesive material applicator is provided. 前記塗布物収容室に補充するための塗布物が充填され、前記本体に対して着脱可能に設けられるリフィルを具備してなることを特徴とする請求項1、2、3、4、5又は6記載の塗布具。 The coating material for replenishing said coating material storage chamber is filled, and the refill provided so that attachment or detachment is possible with respect to the said main body is comprised, The 1, 2, 3, 4, 5 or 6 characterized by the above-mentioned. The applicator described.
JP2007340193A 2007-12-28 2007-12-28 Coating implement Pending JP2009160763A (en)

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