JP3159151B2 - Sealing material construction method and electric discharge treatment device - Google Patents
Sealing material construction method and electric discharge treatment deviceInfo
- Publication number
- JP3159151B2 JP3159151B2 JP35513797A JP35513797A JP3159151B2 JP 3159151 B2 JP3159151 B2 JP 3159151B2 JP 35513797 A JP35513797 A JP 35513797A JP 35513797 A JP35513797 A JP 35513797A JP 3159151 B2 JP3159151 B2 JP 3159151B2
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- Prior art keywords
- sealing material
- discharge
- discharge treatment
- base
- applying
- Prior art date
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Description
【0001】[0001]
【発明の属する技術分野】本発明は、シーリング(シー
ル)材を被施工面に高接着強度を持って施工することが
できるシーリング材の施工方法に関し、詳しくは、建築
用の各種パネル、アルミサッシ等にシーリング材を施工
する場合に好適であり、被施工面がフッ素樹脂等の難接
着面であっても、高い接着強度でシーリング材を接着で
きるシーリング材の施工方法に関する。また、本発明は
この施工方法に用いられる放電処理装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of applying a sealing material capable of applying a sealing (seal) material to a surface to be processed with high adhesive strength, and more particularly, to various types of building panels and aluminum sashes. The present invention relates to a method of applying a sealing material, which is suitable for applying a sealing material to a sealing material or the like, and is capable of bonding the sealing material with high adhesive strength even when the surface to be applied is a hardly adhered surface such as a fluororesin. Further, the present invention relates to an electric discharge treatment apparatus used in this construction method.
【0002】[0002]
【従来の技術】従来より、建築物などに水密性、気密性
を与えるため、シーリング材を施工することは広く行わ
れている。シーリング材を被施工面に施工する方法とし
ては、被施工面を洗浄脱脂後、プライマーを塗布し、乾
燥後、シーリング材を施工する方法が採用されている。
また、被施工面がフッ素樹脂塗装面等の難接着面である
場合には、シーリング材及びプライマーが被施工面に強
固に接着することが困難となり、剥がれ易いために、予
め被施工面をブラスティングにより粗面化した後、上記
のようにしてシーリング材を施工することが行われてい
る。2. Description of the Related Art Conventionally, sealing materials have been widely used to provide watertightness and airtightness to buildings and the like. As a method of applying the sealing material to the surface to be processed, a method of applying a primer after cleaning and degreasing the surface to be processed, drying the surface, and then applying the sealing material is adopted.
In addition, when the surface to be processed is a hard-to-bond surface such as a surface coated with a fluororesin, it is difficult for the sealing material and the primer to adhere firmly to the surface to be processed, and it is easy to peel off. After roughening by sting, a sealing material is applied as described above.
【0003】しかしながら、上記ブラスティング処理
は、非常に手間がかかる上に、ブラスティング処理の程
度によっては、被施工面への接着力は十分なものではな
く、やや強い力がかかるとシーリング材が剥がれてしま
うという問題があった。[0003] However, the blasting process is very time-consuming and, depending on the degree of the blasting process, the adhesive force to the work surface is not sufficient. There was a problem of peeling.
【0004】従って、被施工面がフッ素樹脂塗装面等の
難接着面であっても、シーリング材を被施工面に能率よ
く、高い接着強度で接着し得るシーリング材の施工方法
の開発が望まれていた。[0004] Therefore, it is desired to develop a method of applying a sealing material capable of efficiently bonding a sealing material to a surface to be processed with a high adhesive strength even if the surface to be processed is a hardly bonded surface such as a fluororesin-coated surface. I was
【0005】特開平4−146131号公報には、樹脂
積層金属の端縁を折り曲げてフランジを形成し、このフ
ランジの外面にコロナ放電処理を施した後シーリング材
を介在させるシーリング方法が記載されている。Japanese Patent Application Laid-Open No. 4-146131 discloses a sealing method in which a flange is formed by bending an edge of a resin laminated metal, a corona discharge treatment is applied to the outer surface of the flange, and a sealing material is interposed. I have.
【0006】[0006]
【発明が解決しようとする課題】特開平4−14613
1号公報には、建築物に施工された建材同士の間の間隙
部や隅部にシーリングを行う場合、このシーリング材を
強固に形成させる点についての技術的開示がなされてい
ない。Problems to be Solved by the Invention
No. 1 does not disclose a technique for firmly forming a sealing material when sealing a gap or a corner between building materials constructed in a building.
【0007】本発明は、上記事情に鑑みなされたもの
で、シーリング材を建築物の間隙部に施工した場合に、
高い接着強度を発揮でき、特に、被施工面がフッ素樹脂
等の難接着面であっても、手間をかけずに強固に接着す
ることが可能なシーリング材の施工方法とそのための放
電処理装置を提供することを目的とする。The present invention has been made in view of the above circumstances, and when a sealing material is applied to a gap in a building,
A method of applying a sealing material and a discharge treatment device that can exhibit a high adhesive strength and that can be firmly bonded without any trouble even when the surface to be processed is a difficult-to-bond surface such as a fluororesin. The purpose is to provide.
【0008】[0008]
【課題を解決するための手段】本発明のシーリング材の
施工方法は、建築物の間隙部又は隅部にシーリング材を
施工する方法において、該間隙部又は隅部に臨む被施工
面に対して予め放電処理を施した後、シーリング材を施
工する方法であって、基部と、該基部に連なっており該
被施工面に接近するように形成された放電処理部とを有
した放電処理装置を用いて該放電処理を行うことを特徴
とするものである。SUMMARY OF THE INVENTION A method of applying a sealing material according to the present invention is a method of applying a sealing material to a gap or a corner of a building. A method for applying a sealing material after applying a discharge treatment in advance, comprising a base and a discharge treatment device having a discharge treatment unit connected to the base and formed to approach the surface to be treated. The discharge process is performed by using this method.
【0009】シーリング材を被施工体の被施工面に施工
する場合において、予め、被施工面にコロナ処理、プラ
ズマ処理、コロナ放電又はアーク放電をガス流により吹
き出させる処理、プラズマトーチ処理などの放電処理を
施すことにより、被施工面の濡れ性や反応性(接着性)
を著しく向上させることが可能となり、飛躍的に接着強
度を向上させ得ることができる。When the sealing material is applied to the work surface of the work, a discharge such as a corona treatment, a plasma treatment, a treatment for blowing corona discharge or arc discharge by a gas flow, a plasma torch treatment, etc., is performed on the work surface in advance. By applying treatment, wettability and reactivity (adhesion) of the work surface
Can be remarkably improved, and the adhesive strength can be dramatically improved.
【0010】そして、従来から懸案であった被施工面が
フッ素樹脂等の難接着面からなる場合でも、ブラスティ
ング処理などの手間のかかる処理を全く必要とせず、能
率よく、確実に被施工面にシーリング材を接着でき、こ
の方法で施工された建築用の各種パネル、アルミサッシ
等の建材同士の間の間隙部は優れた水密性、気密性を有
する高性能、高品質なシーリング材で封じられたものと
なる。[0010] Even when the surface to be processed, which has conventionally been a problem, is made of a difficult-to-adhere surface such as a fluororesin, a complicated process such as blasting is not required at all, and the surface to be processed is efficiently and reliably. The gap between building materials such as various building panels and aluminum sashes constructed by this method is sealed with high-performance, high-quality sealing material with excellent water-tightness and air-tightness. It was done.
【0011】本発明のシーリング材の施工方法は、パネ
ルの施工前に該パネルのフランジに放電処理を施すもの
ではなく、建築物に組み込まれた建材同士の間隙部や隅
部、複数個の建材を組み合わせて一体化させた複合部材
の建材同士の間隙部や隅部にシーリング材を施工するに
際し、この間隙部又は隅部に臨む被施工面を放電処理す
るものであり、新築の場合だけでなく既存建築物にシー
リング材を施工する場合にも適用できる。The method for applying a sealing material according to the present invention does not apply a discharge treatment to a flange of the panel before constructing the panel. Instead, a gap or a corner between building materials incorporated in a building, a plurality of building materials, etc. When applying a sealing material to the gaps and corners between the building materials of the composite member integrated by combining the above, the surface to be worked facing this gap or corner is subjected to electric discharge treatment, only in the case of new construction It is also applicable to the case where a sealing material is applied to an existing building.
【0012】本発明のシーリング材の施工方法では、放
電処理装置として基部と、該基部に連なっており被施工
面に接近するように形成された放電処理部とを有する装
置を用いるため、既に建築物に組み込まれたり、あるい
は複合部材とされた建材同士の間の間隙部又は隅部の被
施工面に対し放電処理部を近接させて該被施工面を短時
間で十分に放電処理することができる。In the method for applying a sealing material according to the present invention, since an apparatus having a base and an electric discharge treatment part connected to the base and formed so as to approach the surface to be processed is used as the electric discharge treatment apparatus, the building is already constructed. It is possible to bring a discharge treatment part close to a work surface in a gap or a corner between building materials incorporated in a product or a composite member, and to discharge the work surface sufficiently in a short time. it can.
【0013】本発明では、被施工体の被施工面に予め放
電処理を施した後、プライマーを処理面に付着してか
ら、シーリング材を施工しても良く、プライマー処理す
ることなく直にシーリング材を施工しても良い。In the present invention, after the surface to be processed of the body to be processed is subjected to discharge treatment in advance, a primer may be attached to the surface to be processed, and then a sealing material may be applied. Materials may be applied.
【0014】本発明において、建築物の間隙部を挟んで
並存する建材としては、特に制限されず、建築用の各種
樹脂塗装パネル、塗装されたアルミサッシ等、或いは表
面に樹脂を塗工した建築用木材、金属、セラミックスボ
ード、コンクリートパネル等が例示される。この場合、
被施工面がフッ素樹脂等の難接着面を有する樹脂塗装面
であっても、手間のかかるブラスティング処理を施すこ
となく、能率的に且つきわめて強固に付着するようにシ
ーリング材を施工できるものである。In the present invention, there is no particular limitation on the building materials that coexist across the gap of the building, and various types of resin-painted panels for building, painted aluminum sashes, and the like, or buildings coated with resin on the surface. Wood, metal, ceramics board, concrete panel, etc. are exemplified. in this case,
Even if the surface to be applied is a resin-coated surface with a difficult-to-bond surface such as fluororesin, the sealing material can be applied efficiently and very firmly without the need for complicated blasting. is there.
【0015】シーリング材は、この間隙部分に充填され
て水密性、気密性などの機能を発揮させる材料であり、
例えばポリサルファイド系シーリング材、変性シリコー
ン系シーリング材、ウレタン系シーリング材、シリコー
ン系シーリング材等を用いることができるが、特に制限
はされない。[0015] The sealing material is a material that is filled in the gap to exhibit functions such as watertightness and airtightness.
For example, a polysulfide-based sealing material, a modified silicone-based sealing material, a urethane-based sealing material, a silicone-based sealing material, and the like can be used, but there is no particular limitation.
【0016】本発明の放電処理としては、コロナ処理、
プラズマ処理、コロナ放電又はアーク放電をガス流によ
り吹き出させる処理、及びプラズマトーチ処理が好適で
あり、これらのいずれの放電処理を施しても本発明の優
れた作用効果を発揮させることができるものである。な
お、処理の簡便性、装置の携帯性などの点から、コロナ
処理又はコロナ放電をガス流により吹き出させる処理が
より好適である。As the discharge treatment of the present invention, corona treatment,
Plasma treatment, treatment for blowing out corona discharge or arc discharge by a gas flow, and plasma torch treatment are preferable, and any of these discharge treatments can exert the excellent effects of the present invention. is there. From the viewpoints of simplicity of processing, portability of the apparatus, and the like, corona treatment or treatment of blowing corona discharge by a gas flow is more preferable.
【0017】ここで、コロナ処理としては、高周波の高
電圧により電極と対面電極に放電を生じさせ、その放電
空間に被施工体を通過させることにより放電処理を行う
方法を採用し得る。また、被施工体が金属等の導電体の
場合には、被施工体自体を対面電極として、電極と被施
工体の間で放電を生じさせることにより被施工面を改質
させることができる。この場合、放電条件は、通常、電
流は10〜1000W、処理時間は0.1〜30sec
程度である。Here, as the corona treatment, a method in which a discharge is generated between the electrode and the facing electrode by a high frequency high voltage and the discharge treatment is performed by passing the object through the discharge space. Further, when the object to be processed is a conductor such as a metal, the surface to be processed can be modified by causing discharge between the electrode and the object to be processed by using the object to be processed as a facing electrode. In this case, the discharge conditions are usually a current of 10 to 1000 W and a processing time of 0.1 to 30 sec.
It is about.
【0018】プラズマ処理は、プラズマ中のイオン、電
子、ラジカル、光、原子、分子などを利用して被施工体
の表面改質を行うものであり、所定の圧力(低圧又は大
気圧)のガスに対し、直流又は交流電界により放電を発
生せしめ、その放電中又は放電よりガス流の下流に被施
工体を設置して放電処理を行う方法を採用し得るもので
ある。この場合、放電条件は、通常、圧力は0.001
〜1000Torr、プラズマ励起電界周波数は、直
流,50Hz等の定周波交流,1〜100kHz程度の
交流,13.56MHz等のラジオ波,2.45GHz
等のマイクロ波等が利用できる。気体としてはアルゴン
(Ar)ガス,酸素ガス,空気,窒素,ヘリウム,CF
4等が用いられる。In the plasma treatment, the surface of an object to be processed is modified using ions, electrons, radicals, light, atoms, molecules, etc. in the plasma, and a gas of a predetermined pressure (low pressure or atmospheric pressure) is applied. On the other hand, a method in which a discharge is generated by a DC or AC electric field, and a discharge treatment is performed by installing an object to be processed during the discharge or downstream of the gas flow from the discharge. In this case, the discharge condition is usually such that the pressure is 0.001.
-1000 Torr, plasma excitation electric field frequency: DC, constant frequency AC such as 50 Hz, AC of about 1-100 kHz, radio wave such as 13.56 MHz, 2.45 GHz
And other microwaves can be used. As the gas, argon (Ar) gas, oxygen gas, air, nitrogen, helium, CF
4 etc. are used.
【0019】コロナ放電又はアーク放電をガス流により
吹き出させる処理としては、電極間でコロナ放電又はア
ーク放電を生じさせ、空気等のガス流を吹き付けて、下
流側に吹き出した放電に被処理体を当てて放電処理する
方法が採用される。この場合、放電条件は、通常、放電
吹出口と被施工面とを1〜100mm離間し、処理時間
は1〜30sec程度であることが好ましい。As a treatment for blowing corona discharge or arc discharge by a gas flow, a corona discharge or arc discharge is generated between the electrodes, and a gas flow such as air is blown to discharge the object to be discharged to the downstream side. A method of applying a discharge treatment is adopted. In this case, it is preferable that the discharge conditions are usually such that the discharge outlet and the work surface are separated from each other by 1 to 100 mm, and the processing time is about 1 to 30 sec.
【0020】プラズマトーチ処理としては、大気圧等で
プラズマ放電を生じさせ、ガスを吹き付け、下流側に吹
き出した放電に被施工体を当てて放電処理を行う方法が
採用できる。この場合、放電条件は、通常、ガスとして
はヘリウム(He)ガス、アルゴン等を用い、圧力は5
00〜2000Torr、周波数は50Hz〜100M
Hz、処理時間は1〜30sec程度である。As the plasma torch treatment, a method in which a plasma discharge is generated at atmospheric pressure or the like, a gas is blown, and an object to be processed is applied to the discharge blown to the downstream side to perform a discharge treatment. In this case, the discharge conditions are usually helium (He) gas, argon or the like as the gas, and the pressure is 5.
00 to 2000 Torr, frequency is 50 Hz to 100 M
Hz and the processing time are about 1 to 30 sec.
【0021】プライマーは、被施工体とシーリング材と
の接着性を向上させるために、予め被施工面に塗付する
下地処理材料である。本発明においては前記の通りこの
プライマーは必要において採用される。このプライマー
としては、例えばシランカップリング剤、ポリイソシア
ネート、エポキシ樹脂、合成ゴム、アクリル樹脂などを
適当に配合した合成ゴム系、アクリル系、ウレタン系、
エポキシ系、シラン系のプライマー等の各種のものを用
いることができる。本発明においては、上記放電処理を
施すことにより、被施工面とプライマーとの接着性をも
向上させることができるので、更に被施工体とシーリン
グ材とが強固に接着することができるものである。The primer is a base material which is applied in advance to the surface to be processed in order to improve the adhesion between the member to be processed and the sealing material. In the present invention, as described above, this primer is employed as necessary. As the primer, for example, a silane coupling agent, a polyisocyanate, an epoxy resin, a synthetic rubber, a synthetic rubber appropriately mixed with an acrylic resin, an acrylic, a urethane,
Various primers such as epoxy-based and silane-based primers can be used. In the present invention, by performing the discharge treatment, the adhesion between the work surface and the primer can also be improved, so that the work body and the sealing material can be firmly bonded. .
【0022】[0022]
【発明の実施の形態】以下、図面を参照して実施の形態
について説明する。Embodiments of the present invention will be described below with reference to the drawings.
【0023】本発明のシーリング材の施工方法は、図1
(a)のように建材1同士の間の間隙部や隅部(図1で
は間隙部)に臨む被施工面1aに放電処理を施し、次い
で必要に応じプライマー処理した後、図1(b)のよう
にシーリング材2を打つようにしたものであり、この放
電処理によりシーリング材2が被施工面1aに強固に接
着するようになる。The method for applying the sealing material of the present invention is shown in FIG.
As shown in FIG. 1 (a), a discharge treatment is applied to the work surface 1a facing a gap or a corner (a gap in FIG. 1) between the building materials 1 and then, if necessary, a primer treatment. In this manner, the sealing material 2 is firmly adhered to the work surface 1a by the discharge treatment.
【0024】この放電処理を行うための放電処理装置
は、作業員が掴む本体部3と、この本体部3から前方に
突設された基部4と、この基部4に連なり被施工面1a
に接近するように形成された放電処理部5〜8とを有し
てなる。An electric discharge treatment apparatus for performing the electric discharge treatment includes a main body 3 gripped by an operator, a base 4 protruding forward from the main body 3, and a work surface 1a connected to the base 4 and connected thereto.
And the discharge processing units 5 to 8 formed so as to approach each other.
【0025】この放電処理部としては、例えば図1
(c)〜(f)に示すものが用いられる。As the discharge processing unit, for example, FIG.
Those shown in (c) to (f) are used.
【0026】図1(c),(d)の放電処理部5,6
は、略平行な被施工面1a,1aにそれぞれ対峙する1
対の対峙部5a,5a,6a,6aを有しており、相対
峙する被施工面1a,1aを一度に放電処理することが
できる。The discharge processing units 5 and 6 shown in FIGS.
Are opposed to substantially parallel work surfaces 1a, 1a, respectively.
It has a pair of opposing portions 5a, 5a, 6a, 6a, and can discharge the opposing work surfaces 1a, 1a at a time.
【0027】図1(e)の放電処理部7は、基部4の外
周を取り巻く環状体よりなる。この環状体の外径(直
径)は、被施工面1a,1a間の間隔よりも若干小さな
ものとなっている。この環状の放電処理部7を被施工面
1a,1a間に挿入して放電処理することにより被施工
面1a,1aの双方を一度に放電処理することができ
る。The discharge processing section 7 shown in FIG. 1E is formed of an annular body surrounding the outer periphery of the base 4. The outer diameter (diameter) of this annular body is slightly smaller than the interval between the work surfaces 1a, 1a. By inserting the annular discharge processing section 7 between the work surfaces 1a, 1a and performing discharge processing, both of the work surfaces 1a, 1a can be subjected to discharge processing at one time.
【0028】図1(f)の放電処理部8は、基部4から
一方の被施工面1aにのみ接近するように曲成されてい
る。この放電処理部8は狭い間隙部に差し込んだり隅部
に接近させて被施工面を放電処理するのに好適である。The discharge processing section 8 shown in FIG. 1 (f) is bent so as to approach only one work surface 1a from the base 4. The discharge processing section 8 is suitable for inserting in a narrow gap or approaching a corner to perform discharge processing on a work surface.
【0029】上記の放電処理部5〜8は本発明の一例で
あり、これら以外の形態の放電処理を用いても良いこと
は明らかである。The above-described discharge processing units 5 to 8 are examples of the present invention, and it is apparent that other forms of discharge processing may be used.
【0030】図示はしないが、本発明では被施工面と放
電処理部との間隔を保つためのガイドを放電処理装置に
設けても良い。また、建築物が導電性であるときには、
この建築物に接するアース端子を設けても良い。Although not shown, in the present invention, a guide for keeping the gap between the surface to be processed and the discharge processing section may be provided in the discharge processing apparatus. Also, when the building is conductive,
A ground terminal in contact with this building may be provided.
【0031】本発明では、シーリング材を充填するに先
立ってバックアップ材を間隙部に充填しておいても良
い。In the present invention, the gap may be filled with a backup material before the sealing material is filled.
【0032】[0032]
【発明の効果】本発明のシーリング材の施工方法及び放
電処理装置によると、シーリング材を被施工体の被施工
面に強固に接着させるように施工することができる。特
に、被施工面がフッ素樹脂等の難接着面を有する場合で
も、容易にかつ短時間でシーリング材を強固に接着させ
るように施工することができる。According to the method for applying a sealing material and the electric discharge treatment apparatus of the present invention, the sealing material can be applied so as to be firmly adhered to the surface of the object to be processed. In particular, even when the surface to be processed has a difficult-to-bond surface such as a fluororesin, it is possible to easily and quickly perform the bonding so that the sealing material is firmly bonded.
【図1】本発明の実施の形態を示す説明図であり、
(a)図は間隙部を示す断面図、(b)図は間隙部に充
填されたシーリング材を示す断面図、(c)図、(d)
図、(e)図及び(f)図はそれぞれ放電処理部の形状
の説明図である。FIG. 1 is an explanatory diagram showing an embodiment of the present invention;
(A) is a sectional view showing a gap, (b) is a sectional view showing a sealing material filled in the gap, (c) is a diagram, (d)
Figures, (e) and (f) are illustrations of the shape of the discharge processing unit.
1 建材 1a 被施工面 2 シーリング材 3 放電処理装置の本体部 4 基部 5,6,7,8 放電処理部 DESCRIPTION OF SYMBOLS 1 Building material 1a Worked surface 2 Sealing material 3 Main part of electric discharge treatment device 4 Base 5, 6, 7, 8 Discharge treatment part
フロントページの続き (56)参考文献 特開 平8−311224(JP,A) 特開 平9−260027(JP,A) 特開 平11−60759(JP,A) 特開 昭55−77566(JP,A) 特開 平1−158164(JP,A) 特開 平10−61038(JP,A) 特開 平8−49311(JP,A) (58)調査した分野(Int.Cl.7,DB名) E04B 1/682 C08J 7/00 303 Continuation of front page (56) References JP-A-8-311224 (JP, A) JP-A-9-260027 (JP, A) JP-A-11-60759 (JP, A) JP-A-55-77566 (JP) JP-A-1-158164 (JP, A) JP-A-10-61038 (JP, A) JP-A-8-49311 (JP, A) (58) Fields studied (Int. Cl. 7 , DB Name) E04B 1/682 C08J 7/00 303
Claims (9)
を施工する方法において、該間隙部又は隅部に臨む被施
工面に対して予め放電処理を施した後、シーリング材を
施工する方法であって、 基部と、該基部に連なっており該被施工面に接近するよ
うに形成された放電処理部とを有した放電処理装置を用
いて該放電処理を行うことを特徴とするシーリング材の
施工方法。1. A method of applying a sealing material to a gap or a corner of a building, wherein the surface to be worked facing the gap or the corner is subjected to a discharge treatment in advance, and then the sealing material is applied. A sealing material, wherein the discharge treatment is performed by using a discharge treatment device having a base and a discharge treatment part connected to the base and formed so as to approach the work surface. Construction method.
載のシーリング材の施工方法。2. The method according to claim 1, wherein the surface to be applied is a resin-coated surface.
マ処理装置、コロナ放電又はアーク放電をガス流により
吹き出させる処理装置、及びプラズマ放電をガス流によ
り吹き出させるプラズマトーチ処理装置のいずれかであ
る請求項1又は2に記載のシーリング材の施工方法。3. The discharge treatment device is any one of a corona treatment device, a plasma treatment device, a treatment device for blowing a corona discharge or an arc discharge by a gas flow, and a plasma torch treatment device for blowing a plasma discharge by a gas flow. Item 3. The method for applying a sealing material according to Item 1 or 2.
連なっており、1対の前記被施工面にそれぞれ対峙する
前記放電処理部とを有していることを特徴とする請求項
1乃至3のいずれか1項に記載のシーリング材の施工方
法。4. The electric discharge treatment device according to claim 1, wherein the electric discharge treatment device has the base and the electric discharge treatment part connected to the base and facing the pair of work surfaces. The method for applying a sealing material according to any one of claims 1 to 3.
連なっており、一方の前記被施工面に対峙する前記放電
処理部とを有していることを特徴とする請求項1乃至3
のいずれか1項に記載のシーリング材の施工方法。5. The discharge processing apparatus according to claim 1, wherein the discharge processing device includes the base and the discharge processing unit connected to the base and facing one of the surfaces to be processed.
The method for applying a sealing material according to any one of the above.
連なっており、且つ外周面が前記1対の被施工面に対峙
するように該基部を取り巻いている環状の前記放電処理
部とを有していることを特徴とする請求項1乃至3のい
ずれか1項に記載のシーリング材の施工方法。6. An electric discharge treatment device, comprising: the base; and an annular discharge treatment unit connected to the base and surrounding the base such that an outer peripheral surface faces the pair of work surfaces. The method for applying a sealing material according to any one of claims 1 to 3, wherein the sealing material has:
を処理面に付着させ、その後シーリング材を施工するこ
とを特徴とする請求項1乃至6のいずれか1項に記載の
シーリング材の施工方法。7. The installation of a sealing material according to claim 1, wherein after the surface to be processed is subjected to an electric discharge treatment, a primer is attached to the surface to be processed, and then a sealing material is applied. Method.
理面に直接にシーリング材を施工することを特徴とする
請求項1乃至6のいずれか1項に記載のシーリング材の
施工方法。8. The method for applying a sealing material according to claim 1, wherein after the surface to be processed is subjected to electric discharge treatment, the sealing material is applied directly to the electric discharge treated surface.
リング材の施工方法に使用される放電処理装置であっ
て、基部と、該基部に連なっており被施工面に接近する
ように形成された放電処理部とを有してなる放電処理装
置。9. An electric discharge treatment apparatus used in the method of applying a sealing material according to claim 1, wherein the electric discharge treatment apparatus is formed so as to be close to a surface to be processed which is connected to the base and is connected to the base. And a discharge processing unit.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP35513797A JP3159151B2 (en) | 1997-12-24 | 1997-12-24 | Sealing material construction method and electric discharge treatment device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP35513797A JP3159151B2 (en) | 1997-12-24 | 1997-12-24 | Sealing material construction method and electric discharge treatment device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH11181898A JPH11181898A (en) | 1999-07-06 |
| JP3159151B2 true JP3159151B2 (en) | 2001-04-23 |
Family
ID=18442162
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP35513797A Expired - Fee Related JP3159151B2 (en) | 1997-12-24 | 1997-12-24 | Sealing material construction method and electric discharge treatment device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3159151B2 (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| KR101783169B1 (en) * | 2017-02-08 | 2017-09-28 | 이지현 | folding package capable of storage card |
-
1997
- 1997-12-24 JP JP35513797A patent/JP3159151B2/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| KR101783169B1 (en) * | 2017-02-08 | 2017-09-28 | 이지현 | folding package capable of storage card |
Also Published As
| Publication number | Publication date |
|---|---|
| JPH11181898A (en) | 1999-07-06 |
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