JPH0615790U - Electrolytic sterilization electrode - Google Patents

Abstract

(57)【要約】 【目的】 電解殺菌用電極における多数の通水孔を有す
るカーボン電極材と金属電極との密着を維持するため、
これらを一体に結着して、カーボン電極材の崩壊を防止
する。 【構成】 多数の通水孔を有するカーボン電極材を多数
の通水孔を有する２つの金属電極で密着挟持する如く一
体に絶縁体で結着した電解殺菌用電極。上記カーボン電
極材を金属電極で挟持した電極カセットを複数セットだ
け、互いの間に絶縁体を介して、全体を絶縁体又は、絶
縁体を介して結着した電解殺菌用電極。 (57) [Abstract] [Purpose] In order to maintain the adhesion between the carbon electrode material having many water holes and the metal electrode in the electrode for electrolytic sterilization,
These are bound together to prevent the carbon electrode material from collapsing. An electrode for electrolytic sterilization in which a carbon electrode material having a large number of water passage holes is tightly sandwiched between two metal electrodes having a large number of water passage holes so as to be bonded together by an insulator. An electrode for electrolytic sterilization, in which only a plurality of sets of electrode cassettes in which the above-mentioned carbon electrode material is sandwiched by metal electrodes are bound to each other via an insulator, and the whole is bound by an insulator or via an insulator.

Description

【考案の詳細な説明】[Detailed description of the device]

【０００１】[0001]

【産業上の利用分野】[Industrial applications]

この考案は、菌類が含まれる水を電解殺菌処理する電極構造に関する。 The present invention relates to an electrode structure for electrolytically sterilizing water containing fungi.

【０００２】[0002]

【従来の技術】[Prior art]

菌類が含まれる被処理水を電解殺菌する場合に、電極に対する菌類の接触機会 を増大するため、電極をほぼ多孔質に形成し、該電極の中を被処理水が通過する 方式が採用されている。 When electrolytically sterilizing water to be treated containing fungi, in order to increase the chances of contact of fungi with the electrode, a method is adopted in which the electrode is made almost porous and the water to be treated passes through the electrode. There is.

【０００３】 しかし、効果的に電解殺菌が行なわれるのは、該電極の表層又は表層に近いと ころであるため、より効果を上げるためには、電極を複数段にわたって設け、各 段について、電解殺菌を行なわせるのが好ましい。However, since electrolytic sterilization is effectively performed only at or near the surface layer of the electrode, in order to further enhance the effect, the electrode is provided in a plurality of stages, and the electrolytic sterilization is performed at each stage. It is preferable to perform sterilization.

【０００４】 電極ユニットとして、多孔質のカーボン電極材を金属網電極で挟持し、絶縁体 のスペーサで間隔を保って複数段設け、最外側に更に間隙を保って通電用電極を 対向して設けることによって、これら複数段の電極を設けた空間の周囲を壁で包 囲し、上記対向した通電用電極の一方から他方に向けて被処理水を通水し、該通 電用電極に通電することにより、各カーボン電極材に分極現象を生ぜしめ、上記 被処理水が各段の電極を通過するにつれて、複数回電解処理され、被処理水中に 含まれる菌類が残さず殺菌される構成としたものが開発され、被処理水の殺菌処 理用に実用化されつつある。As an electrode unit, a porous carbon electrode material is sandwiched between metal mesh electrodes, a plurality of steps are provided with insulating spacers at intervals, and energizing electrodes are provided facing each other with an additional gap on the outermost side. By surrounding the space in which these electrodes are provided with a wall, the water to be treated is passed from one of the facing current-carrying electrodes to the other, and the current-carrying electrodes are energized. As a result, a polarization phenomenon is caused in each carbon electrode material, and as the above-mentioned treated water passes through the electrodes of each stage, it is electrolyzed multiple times and the fungi contained in the treated water are sterilized without remaining. One has been developed and is being put to practical use for the sterilization treatment of the water to be treated.

【０００５】 しかし、被処理水の通過という流れの圧力により、上記カーボン電極材と金属 網電極との間の接触が保てない場合に、金属網電極に直面したカーボン電極材の 崩壊が早まり、処理済みの水にカーボン粒子が混入したり、カーボン電極自体が カーボン粒子で目づまりして、通水不能になるなどの不具合が発生することがわ かった。However, when the contact between the carbon electrode material and the metal mesh electrode cannot be maintained due to the pressure of the flow of the water to be treated, the carbon electrode material facing the metal mesh electrode accelerates its collapse, It has been found that carbon particles are mixed into the treated water, and the carbon electrode itself becomes clogged with carbon particles, resulting in impossibility of water flow.

【０００６】[0006]

【考案が解決しようとする課題】[Problems to be solved by the device]

この考案は、上記のような問題点に鑑み、多孔質の通水用カーボン電極材の崩 壊を防止し、長期にわたって使用可能の電解殺菌用電極を提供することを課題目 的とするものである。 In view of the above-mentioned problems, the present invention aims to provide an electrode for electrolytic sterilization that prevents the porous carbon electrode material for water flow from collapsing and can be used for a long period of time. is there.

【０００７】[0007]

【課題が解決しようとする手段】[Means to be solved]

上記目的を達成するこの考案による電解殺菌用電極は、被処理水を水流として 通過させる多数の通水孔を有する電界殺菌用電極であって、水流の広がりを規制 する筒状体内部に、該水流に交叉した２面を有し多数の通水孔を有するカーボン 電極材を、上記２面のそれぞれに多数の通水孔を有する金属を接触させ、押圧状 態を保つ如く電気絶縁体で結着して、設けたことを特徴とするものである。 The electrode for electrolytic sterilization according to the present invention which achieves the above-mentioned object is an electrode for electric field sterilization having a large number of water passage holes for passing water to be treated as a water stream, and the electrode for sterilizing the inside of a cylindrical body which restricts the spread of the water stream. A carbon electrode material having a large number of water passage holes having two surfaces intersecting with the water flow is brought into contact with a metal having a large number of water passage holes on each of the above two surfaces, and is connected with an electric insulator so as to maintain a pressing state. It is characterized by being worn and provided.

【０００８】 また、この考案による電解殺菌用電極は、 被処理水を水流として通過させる 多数の通水孔を有する電解殺菌用電極であって、水流の広がりを規制する筒状体 内部に、該水流に交叉した２面を有するカーボン電極材と、該カーボン電極材の 両面にそれぞれ密着して設けた金属網電極とを１セットとした複数セットの電極 を互いの間に絶縁体のスペーサを挟んで重ねて、更に複数セットの最外側の両側 に絶縁体スペーサを挟んで最外側の金属網電極及び該最外側の金属網電極に連結 した通電用金属電極とを設け、電極ユニットとして、個々の電極間隔が変化しな いように、電極ユニット全体を絶縁体または、絶縁体を介して結着したことを特 徴とするもである。Further, the electrode for electrolytic sterilization according to the present invention is an electrode for electrolytic sterilization having a large number of water passage holes through which water to be treated is passed as a water flow, and the electrode for sterilization is provided inside a tubular body that restricts the spread of the water flow. A plurality of sets of electrodes, each including a carbon electrode material having two surfaces intersecting with the water flow and a metal mesh electrode provided in close contact with both surfaces of the carbon electrode material, are sandwiched between insulating electrode spacers. And a plurality of sets of outermost metal net electrodes and conducting metal electrodes connected to the outermost metal net electrodes with insulating spacers sandwiched between the outermost metal net electrodes. It is also a feature that the entire electrode unit is an insulator or is bound via an insulator so that the electrode interval does not change.

【０００９】[0009]

【作用】[Action]

この考案において、電解殺菌用電極は、被処理水が確実に通過するように被処 理水の流路断面一杯に展延し設けるものとし、該処理水の流路は、水流の広がり を規制する筒状体内部構造として、該筒状体の一方から他方へと被処理水を通水 するものである。 In this invention, the electrode for electrolytic sterilization is provided so as to spread over the entire cross section of the flow path of the treated water so that the treated water can pass through surely, and the flow path of the treated water regulates the spread of the water flow. As the internal structure of the tubular body, the water to be treated is passed from one of the tubular bodies to the other.

【００１０】 カーボン電極材の２面にそれぞれ接触する金属は、該カーボン電極材を保護す るために設ける電極であって、該カーボン電極材と同様に被処理水が通過可能に 板材に多数の通水孔を明けたものでもよく、また、金属網でもよい。そして、カ ーボン電極材と金属電極の接触は、全面にわたって密着していることが必要であ って、かつ、両面の金属同志が短絡してはならないから、この考案では、上記密 着を押圧状態で得る如く、電気絶縁体で結着することとした。結着は絶縁体で形 成した糸をもって結ぶこと、及び樹脂部品を貫通して両端を溶着する方法を含む 。The metal that comes into contact with the two surfaces of the carbon electrode material is an electrode provided to protect the carbon electrode material. It may have a water-permeable hole or a metal net. Further, the contact between the carbon electrode material and the metal electrode needs to be in intimate contact over the entire surface, and the metal members on both sides must not be short-circuited. It was decided to bind with an electric insulator so that it could be obtained in the state. Bonding includes tying with a thread formed of an insulator, and a method of penetrating a resin part and welding both ends.

【００１１】 カーボン電極材に金属網を通水可能に密着したのは、該金属網の複数箇所に接 着剤を塗布し、該カーボン電極材の面に接着するものであって、上記の如く水流 の圧力で該カーボン電極材が押されて移動するときに、該接着した金属網も一緒 に移動するので、該金属網がカーボン電極材から離れることはなく、従って金属 網の対面するカーボン電極材の崩壊を防止することが出来る。The reason why the metal mesh is adhered to the carbon electrode material so that water can pass through is that the adhesive is applied to a plurality of places of the metal mesh and adhered to the surface of the carbon electrode material. When the carbon electrode material is pushed and moved by the pressure of the water stream, the bonded metal mesh also moves together, so that the metal mesh does not separate from the carbon electrode material and therefore the carbon electrode facing the metal mesh. It is possible to prevent the material from collapsing.

【００１２】 一対の平行な面を有し、該面に垂直方向に多数の通水孔を有するカーボン電極 材の両面にそれぞれ接触する金属網は、その大きさが該カーボン電極材の面にほ ぼ等しく、金属網周辺を絶縁体で固定するのは、両金属網が電気的に短絡して同 電位となることを防止しながら、該網が該カーボン電極材の面に押圧、密着する 如く固定し、カーボン電極材の崩壊を防止することを意味し、例えば絶縁体樹脂 を曲げ込んで弾圧してもよく、または、ゴム等の絶縁性弾性体を介在させてもよ い。金属網周辺を絶縁体で固定するのは必ずしも連続することはなくて、複数箇 所に分割してもよく、そして形状はクランプ状であってもよい。全体を結着した のは、水流の圧力で各電極間の間隔がたとえ１箇所でも変わることがあると、各 電極の電位が変化し、結果として各カーボン電極材に生じる分極の程度が変化し て電解殺菌の効率が低下したり、カーボン電極材の崩壊を生じるので、好ましく ないからであって、上記全体を１つに結着することによって、どの電極も互いの 間隔が変ることがない。なお、最外側にある通電用電極は水流の圧力で電極が移 動するにつれて追従する如く変位可能に設ける如くした。A metal mesh that has a pair of parallel surfaces and has a large number of water passage holes in the direction perpendicular to the surfaces is in contact with both surfaces of the metal mesh. In the same way, fixing the periphery of the metal mesh with an insulator is to prevent both metal meshes from being electrically short-circuited and having the same potential, while the mesh presses and adheres to the surface of the carbon electrode material. This means fixing and preventing the carbon electrode material from collapsing. For example, an insulating resin may be bent and elastically pressed, or an insulating elastic body such as rubber may be interposed. The fixing of the periphery of the metal mesh with the insulator is not necessarily continuous, it may be divided into a plurality of places, and the shape may be a clamp shape. The whole binding is that the pressure of the water flow may change the distance between the electrodes even at one place, and the potential of each electrode changes, resulting in a change in the degree of polarization occurring in each carbon electrode material. This is not preferable because the efficiency of electrolytic sterilization is reduced and the carbon electrode material is collapsed. Therefore, by binding all the above into one, the distance between the electrodes does not change. The outermost energizing electrode was arranged so that it could be displaced so as to follow the movement of the electrode due to the pressure of the water flow.

【００１３】[0013]

【実施例】【Example】

以下、本考案を添付図面に基づいて説明する。 Hereinafter, the present invention will be described with reference to the accompanying drawings.

【００１４】 図１，図２，図３（Ａ）は本考案による電解殺菌用電極の斜視図、図３（Ｂ） は該電極の断面図である。1, 2 and 3A are perspective views of an electrode for electrolytic sterilization according to the present invention, and FIG. 3B is a sectional view of the electrode.

【００１５】 これらの図において、電解殺菌用電極は、カーボン電極材２を、金属網電極３ Ａ，３Ｂで挟持して、絶縁体の結着部材11で、該金属網電極３Ａ，３Ｂと、カー ボン電極材２の面とが密着するように結着した電極セットの状態を示す。上記結 着部材11としては、図１に示す複数の絶縁体の糸を金属網電極の外側から保持し たもの（11ａ）、図２に示す絶縁体の接着材で金属網電極の内方で外周寄りの部 分で接着したもの（11ｂ）、図３に示す金属網電極の外周を絶縁体樹脂枠体で保 持したもの（11ｃ）などの各種構成がある。In these figures, the electrode for electrolytic sterilization is such that the carbon electrode material 2 is sandwiched between the metal net electrodes 3 A and 3 B, and an insulating binding member 11 is used to connect the metal net electrodes 3 A and 3 B to the metal net electrodes 3 A and 3 B. The state of the electrode set bonded so as to be in close contact with the surface of the carbon electrode material 2 is shown. As the above-mentioned binding member 11, a plurality of insulator threads shown in FIG. 1 are held from the outside of the metal mesh electrode (11a), and an insulating adhesive shown in FIG. There are various configurations such as one bonded at a portion near the outer periphery (11b) and one having an outer periphery of the metal mesh electrode shown in FIG. 3 held by an insulating resin frame (11c).

【００１６】 この構成において、被処理水の水流は、電極面の周辺部よりも中央寄りを主に 通過するから、図示の如く電極面の周辺部を結着用に利用することが出来る。In this configuration, the water flow of the water to be treated mainly passes through the central portion rather than the peripheral portion of the electrode surface, so that the peripheral portion of the electrode surface can be used for binding as shown in the figure.

【００１７】 図４は、複数の電極を電極ユニット30として１体に結着した電解殺菌用電極の 実施例を示す断面図である。カーボン電極材２の両面を金属網電極３Ａ，３Ｂで 挟持した状態を１セットとして、複数セットを互いの間に絶縁体のスペーサ12を 挟んで重ね、更に最外側に金属網電極10Ａ，10Ｂ及び、該最外側の金属網電極10 Ａ，10Ｂに連結した通電用電極５Ａ，５Ｂを設け、電極ユニット30として、個々 の電極間隔が変化しないように電極ユニット全体を絶縁体の結着部材11で固く結 着してあり、水流の圧力でゆるむことがない。FIG. 4 is a cross-sectional view showing an embodiment of an electrode for electrolytic sterilization in which a plurality of electrodes are bonded together as an electrode unit 30. A state in which both sides of the carbon electrode material 2 are sandwiched by the metal net electrodes 3A, 3B is set as one set, and a plurality of sets are stacked with an insulating spacer 12 sandwiched between them, and further the metal net electrodes 10A, 10B and , The energizing electrodes 5A, 5B connected to the outermost metal net electrodes 10A, 10B are provided, and the electrode unit 30 is made of an insulating binding member 11 so that the individual electrode intervals do not change. It is tightly bound and does not loosen under the pressure of the water stream.

【００１８】 図４において、電極ユニット30は被処理水が介在するときに、端子６Ａ，６Ｂ に直流電源から通電用電極５Ａ，５Ｂに通電することにより、各カーボン電極材 ２には、それぞれプラスの通電用電極５に近い部分に負の電荷が、マイナスの通 電用電極５に近い部分に正の電荷が分極される。なお、金属網電極３は、カーボ ン電極材２の崩壊を防止する為にカーボン電極材２に密着して設けた。In FIG. 4, when the water to be treated is present, the electrode unit 30 supplies positive current to the carbon electrode materials 2 by energizing the energizing electrodes 5A, 5B from the DC power source to the terminals 6A, 6B. Negative charges are polarized near the current-carrying electrode 5, and positive charges are polarized near the negative current-carrying electrode 5. The metal net electrode 3 was provided in close contact with the carbon electrode material 2 in order to prevent the carbon electrode material 2 from collapsing.

【００１９】 図５は筒状体１の内部に電極ユニット30を設け、通水用開口部８，９の一方か ら被処理水を注入し他方へと流す電解殺菌槽の実施例の断面図である。電極ユニ ット30の１体としての結着は各電極を貫通する孔を通して絶縁体の棒20を設け、 棒20の端部大径部22に係合し弾性を有する弾性部材23と、ネジ21の締めこみで行 なう如くした実施例である。FIG. 5 is a cross-sectional view of an embodiment of an electrolytic sterilization tank in which the electrode unit 30 is provided inside the tubular body 1 and the water to be treated is injected from one of the water passage openings 8 and 9 and flowed to the other. Is. To bind the electrode unit 30 as one body, an insulating rod 20 is provided through a hole penetrating each electrode, and an elastic member 23 that engages with the large-diameter portion 22 of the end of the rod 20 and has elasticity and a screw. This is an example in which 21 tightening is performed.

【００２０】 次に、電解殺菌のプロセスを図５を用いて説明する。Next, the process of electrolytic sterilization will be described with reference to FIG.

【００２１】 筒状体１は電極ユニット30を収納してのち、両端部に蓋40，50を固定し、蓋40 の開口部８はまたは蓋50の開口部９から被処理水を注入し、他方へと流出させる 。そして、端子６に直流電源を接続して通電すると、導体７を通って通電用電極 ５に通電され、電極ユニット30の両端の金属網電極10Ａ，10Ｂ間に電圧がかかり 、各電極セットのカーボン電極材２には分極により、片側に正の電荷が他方に負 の電荷がそれぞれ誘起される。After the cylindrical body 1 houses the electrode unit 30, the lids 40 and 50 are fixed to both ends, and the water to be treated is injected into the opening 8 of the lid 40 or the opening 9 of the lid 50. Spill to the other. When a direct current power source is connected to the terminal 6 to energize, the energizing electrode 5 is energized through the conductor 7 and a voltage is applied between the metal mesh electrodes 10A and 10B at both ends of the electrode unit 30, and carbon of each electrode set is applied. Due to polarization, positive charges are induced in one side of the electrode material 2 and negative charges are induced in the other side.

【００２２】 注入された被処理水は、例えば上方の開口部８から入り、筒状体１の中を流れ として下方の開口部９に向い、流出してゆく。この被処理水の流れが連続する間 に、該処理水に含まれていた菌類は多数の貫通孔を有するカーボン電極の中を通 りながら上記分極した正の電荷によって組織が破壊されて死滅する。The injected water to be treated enters, for example, from the upper opening 8, flows through the tubular body 1 toward the lower opening 9, and then flows out. While the flow of the water to be treated is continuous, the fungi contained in the water to be treated pass through the carbon electrode having a large number of through holes, and the polarized positive charge destroys the tissue to kill it. .

【００２３】 上記被処理水の流れは電極ユニット30の中を通過するときに細孔であるため流 れに対する抵抗が大きく、電極ユニット又は各電極セットを流れの方向へ押す力 を発生する。そして押されて各電極セット間隔が変化しても、また両端の金属網 電極10Ａ，10Ｂと電極セットとの間隔が変化しても所望の電位分布が各電極セッ トに生じなくなり、従って各電極セットに所望の分極が生じないから、電解殺菌 能力が低下し、好ましくない。Since the flow of the water to be treated has pores when passing through the electrode unit 30, it has a large resistance to the flow and generates a force for pushing the electrode unit or each electrode set in the flow direction. Even if the electrode set spacing is changed by being pushed, or if the spacing between the metal net electrodes 10A, 10B at both ends and the electrode set is changed, the desired potential distribution does not occur in each electrode set, so that each electrode set Since the desired polarization does not occur in the set, the electrolytic sterilization ability decreases, which is not preferable.

【００２４】 しかし、筒状体１内に、電極ユニット30は上下方向移動可能に支持する場合は 、上記の如く電極ユニット30は全体を結着してあるから、流れの圧力で移動する が、その移動に追従して通電用電極５Ａ，５Ｂもまた移動することによって、電 極間の間隔は変らず所望の分極が得られる。However, when the electrode unit 30 is supported in the cylindrical body 1 so as to be movable in the vertical direction, since the electrode unit 30 is wholly bound as described above, it moves by the pressure of the flow. By following the movement, the energizing electrodes 5A and 5B also move, so that a desired polarization can be obtained without changing the distance between the electrodes.

【００２５】 通電用電極５Ａ，５Ｂが追従するための構造として、導体７と、端子６Ａ，６ Ｂとの連結部にバネ材を使用して電極ユニット30の移動に合わせて、導体７が変 位可能とする方法や、端子６Ａ，６Ｂを弾性変形可能の薄板で形成する方法もあ る。As a structure for the energizing electrodes 5A and 5B to follow, a spring material is used for the connecting portion between the conductor 7 and the terminals 6A and 6B so that the conductor 7 changes according to the movement of the electrode unit 30. There is also a method of making the terminals 6A and 6B movable and a method of forming the terminals 6A and 6B by elastically deformable thin plates.

【００２６】[0026]

【考案の効果】[Effect of device]

この考案は、このように構成したものであるからカーボン電極材と金属網電極 との間隔が水流によって変動することがないからカーボン電極材の崩壊を生じる ことがなく、長期にわたって使用可能である。 Since the present invention is configured in this way, the distance between the carbon electrode material and the metal mesh electrode does not change due to the water flow, so that the carbon electrode material does not collapse and can be used for a long period of time.

【００２７】 また、電極ユニット全体を一体に結着したから、各電極間隔が変動しないので 、各カーボン電極材に所望の分極を維持することが出来るから、殺菌能力を安定 化することが出来る。Further, since the entire electrode unit is integrally bonded, the distance between the electrodes does not change, and the desired polarization can be maintained for each carbon electrode material, so that the sterilization ability can be stabilized.

【図面の簡単な説明】[Brief description of drawings]

【図１】本考案に係る電極セットの斜視図。FIG. 1 is a perspective view of an electrode set according to the present invention.

【図２】上記電極セットの他の実施例を示す斜視図。FIG. 2 is a perspective view showing another embodiment of the electrode set.

【図３】上記電極セットのさらに他の実施例を示す斜視
図および断面図。FIG. 3 is a perspective view and a sectional view showing still another embodiment of the electrode set.

【図４】電極ユニットの断面図。FIG. 4 is a sectional view of an electrode unit.

【図５】電解殺菌槽の断面図。FIG. 5 is a sectional view of an electrolytic sterilization tank.

【符号の説明】[Explanation of symbols]

１ 筒状体 ２ カーボン電極材 ３Ａ，３Ｂ 金属網電極 ５Ａ，５Ｂ 通電用電極 ６Ａ，６Ｂ 端子 ７ 導体 ８，９ 開口部 10 金属網電極 11，11ａ，11ｂ，11ｃ 結着部材 12 スペーサ 20 棒 21 ネジ 23 弾性部材 30 電極ユニット 40，50 蓋 1 tubular body 2 carbon electrode material 3A, 3B metal mesh electrode 5A, 5B energizing electrode 6A, 6B terminal 7 conductor 8, 9 opening 10 metal mesh electrode 11, 11a, 11b, 11c binding member 12 spacer 20 rod 21 Screw 23 Elastic member 30 Electrode unit 40, 50 Lid

Claims (5)

【実用新案登録請求の範囲】[Scope of utility model registration request] 【請求項１】 被処理水を水流として通過させる多数の
通水孔を有する電界殺菌用電極であって、水流の広がり
を規制する筒状体内部に、該水流に交叉した２面を有し
多数の通水孔を有するカーボン電極材を、上記２面のそ
れぞれに多数の通水孔を有する金属を接触させ、押圧状
態を保つ如く電気絶縁体で結着して、設けたことを特徴
とする電解殺菌用電極。1. An electrode for electric field sterilization having a large number of water passage holes for allowing water to be treated to pass therethrough, which has two surfaces intersecting with the water flow inside a cylindrical body that restricts the spread of the water flow. A carbon electrode material having a large number of water passage holes is provided by bringing a metal having a large number of water passage holes into contact with each of the two surfaces and binding them with an electric insulator so as to maintain a pressed state. Electrolytic sterilization electrode. 【請求項２】 前記カーボン電極材を２枚の金属網で挟
持し、該２枚の金属網を絶縁体で結着したことを特徴と
する請求項１に記載の電解殺菌用電極。2. The electrode for electrolytic sterilization according to claim 1, wherein the carbon electrode material is sandwiched between two metal nets, and the two metal nets are bound by an insulator. 【請求項３】 １対の平行な面を有し、該面に垂直方向
に多数の通水孔を有するカーボン電極材の該面それぞれ
に金属網を通水可能に接着したことを特徴とする請求項
１または２に記載の電解殺菌用電極。3. A carbon net material having a pair of parallel surfaces and having a large number of water passage holes in a direction perpendicular to the surfaces, a metal mesh being bonded to each of the surfaces so as to allow water to pass therethrough. The electrode for electrolytic sterilization according to claim 1. 【請求項４】 １対の平行な面を有し、該面に垂直方向
に多数の通水孔を有するカーボン電極材の該面それぞれ
に金属網を接触し、該金属網の周辺を絶縁体で、該金属
網が該カーボン電極材の該面を押圧する如く固定したこ
とを特徴とする請求項１ないし３の何れか１項に記載の
電解殺菌用電極。4. A metal net is brought into contact with each of the faces of a carbon electrode material having a pair of parallel faces and having a large number of water passage holes in a direction perpendicular to the faces, and the periphery of the metal net is an insulator. 4. The electrode for electrolytic sterilization according to any one of claims 1 to 3, wherein the metal net is fixed so as to press the surface of the carbon electrode material. 【請求項５】 被処理水を水流として通過させる多数の
通水孔を有する電極であって、水流の広がりを規制する
筒状体内部に、該水流に交叉した２面を有するカーボン
電極材と、該カーボン電極材の両面にそれぞれ密着して
設けた金属網電極とを１セットとした複数セットの電極
を互いの間に絶縁体のスペーサを挟んで重ねて、更に複
数セットの最外側の両側に絶縁体スペーサを挟んで最外
側の金属網電極及び該最外側の金属網電極に連結した通
電用金属電極とを設け、電極ユニットとして、個々の電
極間隔が変化しないように、電極ユニット全体を絶縁体
または、絶縁体を介して結着したことを特徴とする電解
殺菌用電極。5. An electrode having a large number of water passage holes through which water to be treated is passed as a water stream, wherein a carbon electrode material having two surfaces intersecting with the water stream is provided inside a cylindrical body for restricting the spread of the water stream. , A plurality of sets of electrodes, one set of which is a metal mesh electrode provided on both sides of the carbon electrode material, respectively, are stacked on top of each other with an insulating spacer interposed therebetween, and the outermost sides of the plurality of sets are further stacked. An outermost metal mesh electrode and an energizing metal electrode connected to the outermost metal mesh electrode are provided on both sides of the insulating spacer, and the entire electrode unit is used as an electrode unit so that individual electrode intervals do not change. An electrode for electrolytic sterilization, characterized by being bound by an insulator or an insulator.