JPS61243882A - Electrically conductive gasket - Google Patents
Electrically conductive gasketInfo
- Publication number
- JPS61243882A JPS61243882A JP8669585A JP8669585A JPS61243882A JP S61243882 A JPS61243882 A JP S61243882A JP 8669585 A JP8669585 A JP 8669585A JP 8669585 A JP8669585 A JP 8669585A JP S61243882 A JPS61243882 A JP S61243882A
- Authority
- JP
- Japan
- Prior art keywords
- electrically conductive
- conductive
- gasket
- conductive gasket
- cork
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Gasket Seals (AREA)
- Sealing Material Composition (AREA)
- Conductive Materials (AREA)
Abstract
Description
【発明の詳細な説明】
〔産業上の利用分骨〕
本発明は密封性にすぐれ電磁波を遮蔽し静電気の帯電を
防止する筐体等のガスナツトに関し、さらに具体的には
弾性体でありながら充分な導電性を有しかつ圧縮率の高
い密封性の良好な導電性ガスナツトに関する。[Detailed Description of the Invention] [Industrial Application] The present invention relates to a gas nut such as a casing that has excellent sealing properties, shields electromagnetic waves, and prevents static electricity from being charged. The present invention relates to a conductive gas nut that has good conductivity, high compressibility, and good sealing properties.
(従来の技術〕
電子機器は極めて精密なため外部より侵入する放射性電
磁波ノイズ(以下゛電磁波という)によって誤作動パ破
壊などの重大障害を簡単に引起すものであり、これを防
ぐためにノイズフィルターを設けたり、筐体に電磁波シ
ールド性の−強い鋼板などの金属材料を用いて電磁障害
を防いでいる。(Prior Art) Electronic equipment is extremely precise, and radioactive electromagnetic noise (hereinafter referred to as "electromagnetic waves") that enters from the outside can easily cause serious problems such as malfunction and destruction. To prevent this, noise filters are used. Electromagnetic interference is prevented by using metal materials such as steel plates with strong electromagnetic shielding properties for the housing.
また、同様な障害を起す静電気に対しては筐体あるいは
その周辺部材に導電性を付与する複合材や導電性塗料の
塗布またはアース接地等の方法で帯電を防止していた。In addition, static electricity that causes similar problems has been prevented by applying a composite material or conductive paint that imparts conductivity to the housing or surrounding parts, or by grounding the housing or its surroundings.
ここで用いbnでいる筐体等の接合面には導電性のある
弾性体ガスケットが用いられており、その材質の多くは
合成ゴムに導電性のある充填材を配合混合してガスケッ
トを形成していた。Conductive elastic gaskets are used on the joint surfaces of the casings used here, and most of the materials are made by mixing synthetic rubber with conductive fillers to form gaskets. was.
しかし、前記の様に合成ゴムと導電性充填材等とからな
るガスケットは、導電性には優れるが合成ゴム自体が非
圧縮性のため装着締付けを行うと過多の変形及び横流れ
を起し十分な密封を果さないばかりか材質老化が早期に
発生し長期間の使用に耐えない重大な欠点があった。However, as mentioned above, gaskets made of synthetic rubber and conductive fillers have excellent conductivity, but because the synthetic rubber itself is incompressible, excessive deformation and lateral flow occur when it is installed and tightened, resulting in insufficient electrical conductivity. Not only does it fail to seal, but the material also ages prematurely, making it unusable for a long period of time, which is a serious drawback.
この欠点を回避するために発泡などさせたガスケットが
開発されているが、この種のガスケットでも圧縮永久歪
は大きくかつ圧縮回復性に乏しく満足できる耐久性が得
られていない。 ゛本発明はかかる欠点を解消し導
電性及び圧縮性に優れる導電性ガスケットの組成物を提
供するものである。In order to avoid this drawback, foamed gaskets have been developed, but even this type of gasket has large compression set and poor compression recovery, so that satisfactory durability has not been achieved. The present invention solves these drawbacks and provides a conductive gasket composition that has excellent conductivity and compressibility.
C問題点を解決するための手段〕
本発明は、電子機器を内装する篩体あるいは管体等の接
合面の密封ななす導電性ガスナツトであって;合成ゴム
に金属粉・金属繊維・金属フレーク・カーボンブラック
・グラファイト・カーボン繊維等の導電性に優れる充填
材を所望量混合すると共に、適度の粒度に精製したコル
ク粒を5〜50%重量比配合したことを特徴としており
、体積固有抵抗を10−2〜109Ω・1の範囲で得る
ものが望ましい。Means for Solving Problem C] The present invention is a conductive gas nut that seals the joint surface of a sieve or a pipe body, etc. that is used to house an electronic device;・It is characterized by mixing the desired amount of fillers with excellent conductivity such as carbon black, graphite, and carbon fiber, as well as 5-50% weight ratio of cork grains refined to an appropriate particle size. It is desirable to obtain a resistance in the range of 10-2 to 109 Ω·1.
この構成をさらに進め、前記の導電性充填材とコルク粒
とを種々調整して混合することにより、体積固有抵抗と
圧縮率の異なる導電性ガスケットを少なくとも2種以上
合成し、これを一体化せしめ複合した導電性ガスケット
を構成する。By further advancing this configuration and mixing variously adjusted conductive fillers and cork grains, at least two types of conductive gaskets with different volume resistivity and compressibility are synthesized, and these are integrated. A composite conductive gasket is constructed.
(作用〕
ここで用いられるコルクとは天然コルク樹皮であって、
その特性は内部全体が独立した細胞からなり十分な圧縮
性と強い圧縮回復性を有している0このコルク樹皮を所
望する粒度に粉砕してコルク粒を形成し、該コルク粒及
び導電性充填材を合成ゴムに配合した組成物で導電性ガ
スケットを形成する。(Function) The cork used here is natural cork bark,
Its characteristics are that the entire interior is composed of independent cells and has sufficient compressibility and strong compression recovery properties.This cork bark is crushed to the desired particle size to form cork grains, and the cork grains and conductive filling A conductive gasket is formed from a composition in which the material is blended with synthetic rubber.
この導電性ガスケットを密封箇所に装着して締付けると
き、非圧締性のゴムは圧縮に対し変形圧力を内含するコ
ルク粒へと移す。該コルク粒はその細胞容積の50%以
上を空気で占めており高い圧縮性を持ってはいても横流
れ性をほとんど有さず強い反発復元力を発生させる。従
って圧縮性の極端に悪い粉状・繊維状・フレーク状等の
金属あるいはカーボン・グラファイトなどの導電性充填
材を多量に混合せしめても、前記コルク粒が十分な圧縮
回復性を働かせてガスケット全体の圧縮性を高め優れた
密封効果を発揮させる。勿論、該導電性ガスケットは内
含する導電性充填材によって密封する筐体等に所望する
導電をなさしめるものであり、その作用をもって電磁波
あるいは静゛電気の遮断をなす。When this electrically conductive gasket is installed and tightened in a sealed location, the non-compressible rubber transfers deformation pressure to the cork grains containing the compression pressure. The cork grains occupy more than 50% of their cell volume with air, and although they have high compressibility, they have almost no lateral flow properties and generate a strong repulsive restoring force. Therefore, even if a large amount of powdered, fibrous, or flaky metals with extremely poor compressibility or conductive fillers such as carbon or graphite are mixed, the cork grains will exert sufficient compression recovery properties and the entire gasket will be compressed. Improves compressibility and exhibits excellent sealing effect. Of course, the conductive gasket provides the desired electrical conductivity to the sealed casing or the like by means of the conductive filler contained therein, and has the effect of blocking electromagnetic waves or static electricity.
すなわち、静電気の帯電防止を°なすためには前記導電
性を付与する充填材及びコルク粒の配合量を調整してそ
の体積固有抵抗を10 〜10防止するためには前記調
整によってそあ体積固有抵抗を101〜10’Ω・1に
設定すると求められる条件に1合った好ましい電磁波遮
蔽効果が得られる。That is, in order to prevent static electricity from being charged, the amount of the filler and cork grains that impart conductivity is adjusted, and in order to prevent the volume resistivity from 10 to 10, the volume specific resistance is When the resistance is set to 101 to 10'Ω·1, a preferable electromagnetic wave shielding effect that satisfies the required conditions can be obtained.
(実施例〕
次に示す実施例は静電気の帯電防止のために配合した導
電性ガスケット組成物である。(Example) The following example is a conductive gasket composition formulated to prevent static electricity.
配合
NBRポリマー 1oooIIステアリ
ン酸 1of/アエンカ
50f耐熱老化防止剤
20に次老化防止剤 1ofIア
セチレンブラツク 200gDOP
150g硫黄
5g促進剤
35gコルク粒(0,5〜2.0 %直径) 、1
000F上記の配合組成物でガスケット形状に形成し、
物性
体積固有抵抗 7X102Ω・1
硬度 700:rxs
引張強さ 120#/d
伸び 150%
圧縮率 29%
回復率 85%
この様に前記実施例では密封するに最適な圧縮性及び回
復性を持ちながら十分な静電気の帯電防止作用をなす導
電性ガスケットを示したが、本発明は静電気帯電防止の
ためだけに限らず、混合する導電性充填材とコルク粒と
を調整することによって体積固有抵抗を下げて導電性を
高め強力な電磁波遮蔽効果をなすガスケットに形成する
ことも簡単に変更可能である。Blended NBR polymer 1oooII stearic acid 1of/Aenca
50f heat resistant anti-aging agent
Anti-aging agent 1 of I Acetylene Black 200gDOP
150g sulfur
5g accelerator
35g cork grains (0.5-2.0% diameter), 1
000F Formed into a gasket shape with the above blended composition,
Physical propertiesVolume resistivity 7X102Ω・1 Hardness 700:rxs Tensile strength 120#/d Elongation 150% Compressibility 29% Recovery rate 85% In this way, the above example has the optimum compressibility and recovery properties for sealing, and is sufficient. Although the present invention is not limited to preventing static electricity, the present invention is also applicable to lowering the volume resistivity by adjusting the conductive filler and cork grains to be mixed. It can also be easily modified to form a gasket that increases conductivity and has a strong electromagnetic wave shielding effect.
本発明はこの体積固有抵抗を変更できる特性を用いて、
合成ゴムに導電性充填材とコルク粒とをそれぞれ調整配
合して、該体積固有抵抗及び圧縮率のそれぞれ異なる導
電性ガスケットを合成し1これらを成形一体化あるいは
成、形後にその各々を貼着・するなどして複合する導電
性ガスケットを形成する。The present invention utilizes the characteristic that this volume resistivity can be changed,
Conductive fillers and cork particles are adjusted and blended into synthetic rubber to synthesize conductive gaskets with different specific volume resistivities and compressibility.1 These are molded into one piece or formed, and each is pasted after the molding.・To form a composite conductive gasket.
この様にして形成された該導電性複合ガスケットは前述
した良好な圧縮特性を持って、一般にシールドが難しい
とされている低周波側での磁界波の反射を効果的になさ
しめるなど複雑な導電性要求状況に対しても充分な対処
を可能とし広い適応性を持ち得るシールド材を提供する
ことが出来る0(発明の効果〕
以上の説明の様に本発明は導電性に優れると共に相反す
る作用である良好な圧縮性をも有したガスケットであり
、電磁波の完壁な遮蔽あるいは静電気の帯電防止と強い
密封とを同時に長期間なし得ることのできる理想的な導
電性ガスケットであるOThe conductive composite gasket formed in this way has the aforementioned good compression properties and is capable of complex conductive properties such as effectively reflecting magnetic field waves on the low frequency side, which is generally difficult to shield. (Effects of the Invention) As explained above, the present invention has excellent conductivity and has contradictory effects. O
Claims (2)
の密封をなす導電性ガスケットであって;合成ゴムに金
属粉・金属繊維・金属フレーク・カーボンブラック・グ
ラファイト・カーボン繊維等の導電性充填材を混合する
と共に、適度の粒度を有すコルク粒を5〜50%重量比
配合混合して形成したことを特徴とする導電性ガスケッ
ト。(1) A conductive gasket that seals the joint surface of a housing or tube body that houses an electronic device; conductive gasket made of synthetic rubber, metal powder, metal fiber, metal flake, carbon black, graphite, carbon fiber, etc. 1. A conductive gasket characterized in that it is formed by mixing a conductive filler and cork grains having an appropriate particle size at a weight ratio of 5 to 50%.
ガスケットであって;複数の合成ゴムに導電性充填材と
コルク粒とをそれぞれ調整配合して導電性体積固有抵抗
及び圧縮率の異なる導電性ガスケットを形成し、これら
を複合一体化せしめたことを特徴とする導電性ガスケッ
ト。(2) A conductive gasket that seals the joint surface of a casing or a pipe body; conductive filler and cork grains are individually mixed into a plurality of synthetic rubbers to achieve conductive volume resistivity and compressibility. A conductive gasket characterized by forming conductive gaskets of different types and integrating them into a composite body.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP8669585A JPS61243882A (en) | 1985-04-22 | 1985-04-22 | Electrically conductive gasket |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP8669585A JPS61243882A (en) | 1985-04-22 | 1985-04-22 | Electrically conductive gasket |
Publications (1)
Publication Number | Publication Date |
---|---|
JPS61243882A true JPS61243882A (en) | 1986-10-30 |
Family
ID=13894091
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP8669585A Pending JPS61243882A (en) | 1985-04-22 | 1985-04-22 | Electrically conductive gasket |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS61243882A (en) |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS63199786A (en) * | 1987-01-13 | 1988-08-18 | レイケム・コーポレイション | Electromagnetic jamming shield gasket and its use |
JPH01266182A (en) * | 1987-12-18 | 1989-10-24 | Nok Corp | Water-absorptive, conductive rubber composition, humidity sensor and laminate |
JPH03149465A (en) * | 1989-11-07 | 1991-06-26 | Nichias Corp | Material for rubber coated gasket |
JPH06287542A (en) * | 1992-02-24 | 1994-10-11 | Nichias Corp | Joint sheet |
JP2001263497A (en) * | 2000-03-21 | 2001-09-26 | Uchiyama Mfg Corp | Conductive gasket |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS55145781A (en) * | 1979-04-28 | 1980-11-13 | Shin Etsu Polymer Co Ltd | Sealed gasket and production thereof |
JPS5735556B2 (en) * | 1980-04-15 | 1982-07-29 |
-
1985
- 1985-04-22 JP JP8669585A patent/JPS61243882A/en active Pending
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS55145781A (en) * | 1979-04-28 | 1980-11-13 | Shin Etsu Polymer Co Ltd | Sealed gasket and production thereof |
JPS5735556B2 (en) * | 1980-04-15 | 1982-07-29 |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS63199786A (en) * | 1987-01-13 | 1988-08-18 | レイケム・コーポレイション | Electromagnetic jamming shield gasket and its use |
JPH01266182A (en) * | 1987-12-18 | 1989-10-24 | Nok Corp | Water-absorptive, conductive rubber composition, humidity sensor and laminate |
JPH03149465A (en) * | 1989-11-07 | 1991-06-26 | Nichias Corp | Material for rubber coated gasket |
JPH0565742B2 (en) * | 1989-11-07 | 1993-09-20 | Nichias Corp | |
JPH06287542A (en) * | 1992-02-24 | 1994-10-11 | Nichias Corp | Joint sheet |
JP2001263497A (en) * | 2000-03-21 | 2001-09-26 | Uchiyama Mfg Corp | Conductive gasket |
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