JPH01218682A - Method for regulating electrolytic water and apparatus thereof - Google Patents

Abstract

PURPOSE:To improve persistency of ion activity and to obtain electrolytic water useful for improving health, by applying electrons or electrons and magnetism to ionic water produced by electrolysis. CONSTITUTION:Water is supplied through a feed water member 7 to an electrolytic cell 2, wherein the space between both the electrodes 3, 4, disposed facing each other, is separated into a pair of electrode chamber 6a, 6b by means of a diaphragm for electrolysis 5, and DC voltage for electrolysis is applied between the electrodes 3, 4 to electrolyze the water in the cell 2 into alkali ionic water and acid ionic water. Thereafter, electrons or electrons and magnetism is applied to said electrolytically treated water, by providing, for example, an electron induction device 10, or an electrode portion 12 of the electron induction device 10 and a magnetism supply device, in an electrolytic water discharge passage 8a provided on the alkali side of a pair of electrolytic water discharge passages 8a, 8b which are provided for discharging separately the alkali ionic water and acid ionic water.

Description

【発明の詳細な説明】 〔発明の利用分野〕 本発明は電解により生成したイオン水に電子または電子
と磁気を作用させることを特徴とする電解イオン水調整
方法及び装置に関する。DETAILED DESCRIPTION OF THE INVENTION [Field of Application of the Invention] The present invention relates to a method and apparatus for preparing electrolyzed ionized water, characterized in that electrons or electrons and magnetism are applied to ionized water produced by electrolysis.

〔従来技術〕[Prior art]

対向配設した陽電極と陰電極間を電解用の隔膜（イオン
交換膜）によって陽極室と陰極室に仕切り、画電極に電
解用の直流電圧を印加１７て電解槽内の水をアルカリイ
オン水と酸性イオン水に電気分解する電解イオン水生成
装置が知られている。A diaphragm for electrolysis (ion exchange membrane) is used to divide the space between the anode and cathode, which are arranged opposite each other, into an anode chamber and a cathode chamber, and a direct current voltage for electrolysis is applied to the picture electrode (17) to convert the water in the electrolytic cell into alkaline ionized water. Electrolyzed ionized water generators that electrolyze acidic ionized water into acidic ionized water are known.

〔発明が解決しようとする問題点〕[Problem that the invention seeks to solve]

この種の水の電解装置には通水式とバッチ式があるが、
いずれの場合もイオン活性の持続性をより高めることが
課題の一つになっている。There are two types of water electrolyzers: water flow type and batch type.
In either case, one of the challenges is to further increase the sustainability of ionic activity.

本発明の主たる目的は電解生成したイオン水に電子を供
給することによりイオン活性の持続性を向上させるとと
もに、健康を増進させ医療効果を上げるのに一層有利な
電解水を得ることにある。The main purpose of the present invention is to improve the sustainability of ionic activity by supplying electrons to electrolytically generated ionic water, and to obtain electrolyzed water that is more advantageous for promoting health and increasing medical effects.

本発明の他の目的は電解生成したイオン水に電子と磁気
を作用させることにより生理活性化を一層高めたイオン
水を得ることにある。Another object of the present invention is to obtain ionized water with even higher physiological activation by applying electrons and magnetism to electrolytically generated ionized water.

〔問題を解決するための手段〕[Means to solve the problem]

本発明の前記主たる目的は、水を電解してアルカリイオ
ン水と酸性水に生成した後、この電解水に電子を誘導さ
せる電解水調整方法によって達成することができる。　
また、かかる整水処理方法は、対向配設した陰電極と陽
電極間を電解用隔膜によって一対の電極室に区画した電
解槽と、電解槽の各電極室に各別に連通ずる一対の電解
水排出路と、一方または双方の電解水排出路に設けられ
、該排出路内の水に電子を供給する電子誘導装置とを具
備する電解イオン水調整装置によって実施することがで
きる。The main object of the present invention can be achieved by a method for preparing electrolyzed water in which water is electrolyzed to produce alkaline ionized water and acidic water, and then electrons are induced in the electrolyzed water.
In addition, this water conditioning treatment method includes an electrolytic cell in which a negative electrode and a positive electrode that are arranged opposite to each other are divided into a pair of electrode chambers by an electrolytic diaphragm, and a pair of electrolyzed water that is separately communicated with each electrode chamber of the electrolytic cell. This can be carried out by an electrolyzed ionized water conditioning device that includes a discharge path and an electron induction device that is provided in one or both of the electrolyzed water discharge paths and supplies electrons to the water in the discharge path.

また、本発明の前記他の目的は、水をアルカリイオン水
と酸性水に電解した後、この電解生成水に電子と磁気を
作用させる電解水調整方法によって達成することができ
る。　かかる整水処理方法は、対向配設した陰電極と陽
電極間を電解用隔膜によって一対の電極室に区画した電
解槽と、電解槽の各電極室に各別に連通ずる一対の電解
水排出路と、一方または双方の電解水排出路に設けられ
該排出路内の水に電子を供給する電子誘導装置と、該電
子誘導装置を設置した側の排出路に設けられ、該排出路
内の水に磁気を作用させる磁気発生装置とを具備する電
解イオン水調整装置によって達成することができる。Further, the other object of the present invention can be achieved by an electrolyzed water preparation method in which water is electrolyzed into alkaline ionized water and acidic water, and then electrons and magnetism are applied to the electrolytically produced water. This water purification treatment method consists of an electrolytic cell in which a negative electrode and a positive electrode arranged opposite to each other are divided into a pair of electrode chambers by an electrolytic diaphragm, and a pair of electrolyzed water discharge channels that communicate with each electrode chamber of the electrolytic cell separately. , an electron induction device provided in one or both of the electrolyzed water discharge channels to supply electrons to the water in the discharge channel, and an electron induction device provided in the discharge channel on the side where the electron induction device is installed to supply electrons to the water in the discharge channel. This can be achieved by an electrolytic ionized water conditioning device that is equipped with a magnetism generating device that applies magnetism to the water.

〔発明の作用〕[Action of the invention]

電解装置に導入された原水は電解槽においてアルカリ水
と酸性水に電解されるとともに、電解水排出路を通る過
程で電子が誘導され、電子を多く含んだ電解水になる。The raw water introduced into the electrolyzer is electrolyzed into alkaline water and acidic water in the electrolyzer, and electrons are induced in the process of passing through the electrolyzed water discharge path, resulting in electrolyzed water containing many electrons.

電解水排出路に電子誘導装置と磁気供給装置を併設した
場合は、排出路を通過する過程で電解生成水に電子と磁
気が作用し、電子を多く含んだ磁化電解水が得られる。When an electron induction device and a magnetic supply device are installed in the electrolyzed water discharge channel, electrons and magnetism act on the electrolyzed water as it passes through the discharge channel, and magnetized electrolyzed water containing many electrons is obtained.

〔発明の実施例〕[Embodiments of the invention]

本発明は陰電極と陽電極を対向配設し、両電極間を電解
隔膜によって一対の電極室に仕切った電解槽に水を供給
し、両電極間に電解用直流電圧を印加して槽内の水をア
ルカリイオン水と酸性水に電気分解した後、この電解処
理水に電子または電子と磁気を作用させることを特徴と
するもので、以下に本発明の実施例を図面に基づいて説
明する。In the present invention, water is supplied to an electrolytic tank in which a negative electrode and a positive electrode are arranged facing each other, and the space between the two electrodes is partitioned into a pair of electrode chambers by an electrolytic diaphragm, and a DC voltage for electrolysis is applied between both electrodes. This method is characterized by electrolyzing water into alkaline ionized water and acidic water, and then applying electrons or electrons and magnetism to the electrolyzed water.Examples of the present invention will be described below based on the drawings. .

１は井戸水、水道水などの原水を電気分解してアルカリ
イオン水と酸性イオン水に生成する水の電解装置であり
、第１図実施例の電解装置は電解槽２に陰電極３と陽電
極４を対向配設するとともに画電極３，４間を電解用隔
膜５によって仕切り、これにより電解槽２内に陰極室６
ａと陽極室６ｂか形成されている。1 is a water electrolyzer that electrolyzes raw water such as well water or tap water to produce alkaline ionized water and acidic ionized water. 4 are arranged facing each other, and the picture electrodes 3 and 4 are partitioned by an electrolytic diaphragm 5, thereby creating a cathode chamber 6 in the electrolytic cell 2.
A and an anode chamber 6b are formed.

電解槽２の一側（図では下側）には内部の前記電極室５
ａ、５ｂに原水及び必要によりミネラル等の添加薬剤を
供給する給水部材７が設けられているとともに、他側に
は前記陰極室６ａに連通ずるアルカリ電解水排出路８ａ
と陽極室６ｂに連通ずる酸性電解水排出路８ｂが各別に
設けられている。On one side (lower side in the figure) of the electrolytic cell 2 is the internal electrode chamber 5.
A and 5b are provided with a water supply member 7 for supplying raw water and additives such as minerals if necessary, and an alkaline electrolyzed water discharge channel 8a communicating with the cathode chamber 6a is provided on the other side.
An acidic electrolyzed water discharge path 8b communicating with the anode chamber 6b is provided separately.

尚、給水部材７には一対の電極室６ａ、６ｂの双方に連
通ずる共用の給水路を設けてもよいが、好ましくは図の
ように陰極室６ａに通ずる給水路７ａと陽極室６ｂに通
ずる給水路７ｂを独立に設ける。　このように構成する
と添加薬剤を予め各々の給水路の原水に混合して補給で
きるので薬液供給路を別に設ける必要がなくなる。Note that the water supply member 7 may be provided with a common water supply channel that communicates with both the pair of electrode chambers 6a and 6b, but preferably a water supply channel 7a that communicates with the cathode chamber 6a and a water supply channel 7a that communicates with the anode chamber 6b as shown in the figure. A water supply channel 7b is provided independently. With this configuration, the additive chemicals can be mixed in advance with the raw water of each water supply channel and supplied, so there is no need to provide a separate chemical supply channel.

電解槽２内の異極性の電極３と４には直流電圧を印加す
るための電気回路９が結線されており、か（して、ポン
プなどの送水手段により給水部材７側から電解槽２に導
入した原水を一対の電極室３．４を通水させるとともに
、画電極３，４間に電解用の直流電圧を印加して電解槽
２内を通る水を連続的に電気分解し、生成されたアルカ
リイオン水と酸性イオン水を一対の電解水排出路８ａ。An electric circuit 9 for applying a DC voltage is connected to the electrodes 3 and 4 of different polarity in the electrolytic cell 2, and the water is supplied from the water supply member 7 side to the electrolytic cell 2 by a water supply means such as a pump. The introduced raw water is passed through the pair of electrode chambers 3.4, and a direct current voltage for electrolysis is applied between the picture electrodes 3 and 4 to continuously electrolyze the water passing through the electrolytic cell 2. A pair of electrolyzed water discharge channels 8a discharge alkaline ionized water and acidic ionized water.

８ｂから別々に排出するようになっている。　そして、
アルカリイオン水は主に飲料水として、また酸性水は洗
顔、風呂あるいは、めん類をゆで」二げる際の水として
使用される。It is designed to be discharged separately from 8b. and,
Alkaline ionized water is mainly used as drinking water, and acidic water is used for washing the face, bathing, and boiling noodles.

本発明は上記のようにして生成された電解水に電子また
は電子と磁気を作用させることを特徴とするもので、第
１図はアルカリ側の電解水排出路に電子誘導装置１０を
設けた実施例である。The present invention is characterized by causing electrons or electrons and magnetism to act on the electrolyzed water generated as described above. FIG. This is an example.

すなわち、電子誘導装置１０は一方の極の出力側端子１
１ａを絶縁し、他方の極の出力側端子１１ｂから高電圧
を印加するようにした高電圧供給装置１１と、この高電
圧供給装置１１の非絶縁端子１１ｂからの電圧を印加す
る電極部１２からなり、該電極部１２は前記電解水排出
路８ａに接続されるステンレススチールなどの金属筒体
１２ａ内に炭素棒、フェライトなどの耐陽極性材質の電
極部材１２ｂを絶縁物１２Ｃを介して取付けたもので、
電極部材１２ｂは前記高電圧供給装置１１の非絶縁端子
１１ｂと電気的に接続されている。That is, the electron induction device 10 has one pole output terminal 1
1a is insulated and a high voltage is applied from the output side terminal 11b of the other pole, and from an electrode part 12 that applies a voltage from the non-insulated terminal 11b of this high voltage supply device 11. The electrode part 12 has an electrode member 12b made of an anode-resistant material such as a carbon rod or ferrite attached through an insulator 12C in a metal cylinder 12a made of stainless steel or the like connected to the electrolyzed water discharge channel 8a. Something,
The electrode member 12b is electrically connected to the non-insulated terminal 11b of the high voltage supply device 11.

高電圧供給装置１１は直流、交流いずれを使用すること
もできるか、図のようにトランス１３の二次側に整流器
１４を設けて直流を使用する場合は出力側の−（マイナ
ス）端子１１ａを絶縁し、＋（プラス）端子１１ｂを前
記電極部１２の電極部材１２ｂに接続する。Can the high voltage supply device 11 use either direct current or alternating current? If a rectifier 14 is provided on the secondary side of the transformer 13 as shown in the figure and direct current is used, the - (minus) terminal 11a on the output side is connected to the high voltage supply device 11. It is insulated and the + (plus) terminal 11b is connected to the electrode member 12b of the electrode section 12.

尚、交流の場合は二次側出力端子のいずれか一方を絶縁
し他方を前記電極部１２の電極１２ｂに接続する。In the case of alternating current, one of the secondary output terminals is insulated and the other is connected to the electrode 12b of the electrode section 12.

かくして、一方の極の端子１１ａを絶縁した高電圧供給
装置１１の非絶縁側端子１１ｂから電解水排出路８ａに
連通ずる電極部１２の電極部材１２ｂに高電圧を印加す
ると電極１２Ｇには電流は流れないが電極１２ｂの周り
に電子ｇが誘導され、そこを通る電解水は電子ｅ−を多
く含んだ水になる。Thus, when a high voltage is applied to the electrode member 12b of the electrode section 12 communicating with the electrolyzed water discharge path 8a from the non-insulated side terminal 11b of the high voltage supply device 11 with the terminal 11a of one pole insulated, no current flows to the electrode 12G. Although it does not flow, electrons g are induced around the electrode 12b, and the electrolyzed water that passes there becomes water containing many electrons e-.

第２ａ図乃至第２図は電子誘導装置１０の電極部１２を
配設した電解水排出路８ａにさらに磁気供給装置１５を
設けたもので、第２　図は磁気供給装置１５として電極
部１２を構成する筒体１２ａの外側にコイル１５ａを巻
き、このコイルに電流を流すことによって磁界を発生さ
せ、筒体１２ａ内を通る水を磁化するようにしたもので
ある。2a and 2 show a case in which a magnetic supply device 15 is further provided in the electrolyzed water discharge channel 8a in which the electrode portion 12 of the electron induction device 10 is disposed, and in FIG. A coil 15a is wound around the outside of the cylindrical body 12a, and a magnetic field is generated by passing a current through the coil, thereby magnetizing the water passing through the cylindrical body 12a.

磁気供給装置１５は第２　図のようなフィル磁石に限ら
ず、例えば第３ｃＬ図のようにコイル磁石に代えて永久
磁石１５ｂを配設する構造でもよい。The magnetic supply device 15 is not limited to the fill magnet shown in FIG. 2, but may have a structure in which a permanent magnet 15b is provided in place of the coil magnet, for example, as shown in FIG. 3cL.

また永久磁石１５ｂは筒体１２ａの外側に設けるものに
限らず、第３ｉ）図のように筒体１２ａの内部に設置し
てもよい。　要は排出路８ａ内を通る水に磁力が作用す
る構造であればよい。Furthermore, the permanent magnet 15b is not limited to being provided outside the cylindrical body 12a, but may be installed inside the cylindrical body 12a as shown in FIG. 3i). In short, any structure may be used as long as the magnetic force acts on the water passing through the discharge path 8a.

尚、図ではアルカリ側の電解水を利用する実施例として
、電解装置１のアルカリイオン水排出路８ａに電子誘導
装置１０あるいは磁気供給装置１５を設置する場合を例
示したが、酸性側の電解水を利用する場合は酸性水排出
路８ｂに設ける。もちろん必要ならば両方の電解水排出
路３ａ、　　８ｂにこれらの装置１０．１５を設けても
よい。In addition, in the figure, as an example of using electrolyzed water on the alkaline side, a case is illustrated in which the electron induction device 10 or the magnetic supply device 15 is installed in the alkaline ionized water discharge path 8a of the electrolyzer 1, but the electrolyzed water on the acidic side If used, it is provided in the acidic water discharge path 8b. Of course, if necessary, these devices 10.15 may be provided in both electrolyzed water discharge channels 3a, 8b.

次に本発明の詳細な説明する。Next, the present invention will be explained in detail.

電解装置１の給水路から電解槽２に導入された原水は電
極３，４への電圧印加によってアルカリイオン水と酸性
水に電解され、それぞれの電解水排出路８ａ、　　８ｂ
から送り出される。Raw water introduced into the electrolytic cell 2 from the water supply channel of the electrolyzer 1 is electrolyzed into alkaline ionized water and acidic water by applying voltage to the electrodes 3 and 4, and the electrolyzed water discharge channels 8a and 8b, respectively.
sent from.

これらの電解水は排出路８ａの途中に設けた電子誘導装
置１０の電極部１２を通る過程で電子が供給され、電子
を多く含んだ電解水になる。　また、磁気供給装置１５
を併用した場合にはこれらの電子含有電解水はさらに磁
気の作用を受け、電子を多く含んだ磁化電解水に改質さ
れる。These electrolyzed waters are supplied with electrons in the process of passing through the electrode section 12 of the electron induction device 10 provided in the middle of the discharge path 8a, and become electrolyzed water containing many electrons. In addition, the magnetic supply device 15
When used together, these electron-containing electrolyzed waters are further subjected to magnetic action and reformed into magnetized electrolyzed water containing many electrons.

〔発明の効果〕〔Effect of the invention〕

以上のように本発明は電解生成したイオン水に電子を誘
導するの電子を多く含んだ電解水が得られる。　これは
健康に一層有益であり、また、電解水のイオン活性の持
続性が向」ニする。As described above, the present invention induces electrons into electrolytically generated ionized water, thereby obtaining electrolyzed water containing a large amount of electrons. This is more beneficial for health and also improves the sustainability of the ionic activity of the electrolyzed water.

磁気供給装置を併用した場合は電子を多く含んだ磁化電
解水が得られるが、特に電子を多く含んだ水に磁力が作
用するので磁気がかかり易くなり、磁化水を効率良く生
成することかできる。When used in conjunction with a magnetic supply device, magnetized electrolyzed water containing many electrons can be obtained, but since magnetic force acts on water that contains many electrons, magnetization is more likely to occur, making it possible to generate magnetized water efficiently. .

【図面の簡単な説明】[Brief explanation of the drawing]

第１図は本発明装置の実施例を示す概略的な縦２・・電
解槽、　３，４・・電極、　７　・給水部、８ａ、８ｂ
・・・電解水排出路、　　１０・電子誘導装置、　１１
・・高電圧供給装置、　ｌｌａ・・絶縁端子、　　Ｉｌ
ｂ・・非絶縁端子、　　１２・・電極部、１２ａ・・・
金属筒体、　　１２ｂ・・・電極部材、　　１５・・磁
気供給装置、　　１５ａ・・・コイル磁石、　　１５ｂ
・永久磁石。 特許出願人　　　　岡　崎　龍　夫 代理人　　弁理士　佐　藤　直　義 第３ｄ図 第３ｂ図FIG. 1 schematically shows an embodiment of the device of the present invention, with vertical lines 2...electrolytic cell, 3, 4...electrodes, 7. water supply section, 8a, 8b
・・・Electrolyzed water discharge channel, 10・Electronic induction device, 11
...High voltage supply device, lla...Insulated terminal, Il
b...Non-insulated terminal, 12...Electrode part, 12a...
Metal cylindrical body, 12b... Electrode member, 15... Magnetic supply device, 15a... Coil magnet, 15b
·permanent magnet. Patent applicant Tatsuo Okazaki Representative Patent attorney Naoyoshi Sato Figure 3d Figure 3b

Claims (5)

【特許請求の範囲】[Claims] （１）水を電解してアルカリイオン水と酸性イオン水に
生成した後、この生成処理水に電子を誘導させることを
特徴とする水の調整方法。(1) A method for preparing water, which comprises electrolyzing water to generate alkaline ionized water and acidic ionized water, and then inducing electrons into the generated treated water. （２）水を電解してアルカリイオン水と酸性イオン水に
生成した後、この生成処理水に電子を誘導するとともに
磁気を作用させることを特徴とする水の調整方法。(2) A method for preparing water, which comprises electrolyzing water to generate alkaline ionized water and acidic ionized water, and then inducing electrons and applying magnetism to the generated treated water. （３）対向配設した陰電極と陽電極間を電解用隔膜によ
って一対の電極室に区画した電解槽と、電解槽の各電極
室に各別に連通する一対の電解水排出路と、一方または
双方の電解水排出路に設けられ該排出路内の水に電子を
供給する電子誘導装置とを具備する電解イオン水調整装
置。(3) An electrolytic cell in which a negative electrode and a positive electrode arranged opposite to each other are divided into a pair of electrode chambers by an electrolytic diaphragm, a pair of electrolyzed water discharge channels that communicate with each electrode chamber of the electrolytic cell separately, and one or An electrolyzed ionized water adjusting device comprising an electron induction device provided in both electrolyzed water discharge channels and supplying electrons to the water in the discharge channels. （４）対向配設した陰電極と陽電極間を電解用隔膜によ
って一対の電極室に区画した電解槽と、電解槽の各電極
室に各別に連通する一対の電解水排出路と、一方または
双方の電解水排出路に設けられ、該排出路内の水に電子
を供給する電子誘導装置と、該電子誘導装置を設置した
側の排出路に設けられ、該排出路内の水に磁気を作用さ
せる磁気供給装置とを具備する電解イオン水調整装置。(4) An electrolytic cell in which a negative electrode and a positive electrode arranged opposite to each other are divided into a pair of electrode chambers by an electrolytic diaphragm, and a pair of electrolyzed water discharge channels that communicate with each electrode chamber of the electrolytic cell separately, and one or An electron induction device is provided in both electrolyzed water discharge channels and supplies electrons to the water in the discharge channel, and an electron induction device is provided in the discharge channel on the side where the electron induction device is installed to apply magnetism to the water in the discharge channel. An electrolyzed ionized water conditioning device comprising a magnetic supply device to act on the electrolytic ionized water. （５）電子誘導装置が、一方の出力端子を絶縁した直流
または交流の高電圧発生装置からなり、他方の非絶縁側
出力端子を前記一方または双方の電解水排出路に臨ませ
てなる請求項（３）または（４）記載の電解イオン水調
整装置。(5) A claim in which the electron induction device comprises a DC or AC high voltage generator with one output terminal insulated, and the other non-insulated output terminal faces one or both of the electrolyzed water discharge channels. (3) or (4) the electrolyzed ionic water conditioning device.