Deprecated: The each() function is deprecated. This message will be suppressed on further calls in /home/zhenxiangba/zhenxiangba.com/public_html/phproxy-improved-master/index.php on line 456
JP3594112B2 - Disinfection water generator - Google Patents
[go: Go Back, main page]

JP3594112B2 - Disinfection water generator - Google Patents

Disinfection water generator Download PDF

Info

Publication number
JP3594112B2
JP3594112B2 JP18320298A JP18320298A JP3594112B2 JP 3594112 B2 JP3594112 B2 JP 3594112B2 JP 18320298 A JP18320298 A JP 18320298A JP 18320298 A JP18320298 A JP 18320298A JP 3594112 B2 JP3594112 B2 JP 3594112B2
Authority
JP
Japan
Prior art keywords
water
cartridge container
electrolyzed
electrolytic solution
receiving portion
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.)
Expired - Fee Related
Application number
JP18320298A
Other languages
Japanese (ja)
Other versions
JP2000015261A (en
Inventor
正則 土屋
彰宏 池田
Original Assignee
テクノエクセル株式会社
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by テクノエクセル株式会社 filed Critical テクノエクセル株式会社
Priority to JP18320298A priority Critical patent/JP3594112B2/en
Publication of JP2000015261A publication Critical patent/JP2000015261A/en
Application granted granted Critical
Publication of JP3594112B2 publication Critical patent/JP3594112B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Images

Landscapes

  • Treatment Of Water By Oxidation Or Reduction (AREA)
  • Water Treatment By Electricity Or Magnetism (AREA)
  • Apparatus For Disinfection Or Sterilisation (AREA)

Description

【0001】
【発明の属する技術分野】
本発明は、入手性及び安全性を重視し、食塩と日本薬局方(以下、日局という。)オキシドールとを用いて生成される除菌水とその生成装置に係るものであり、詳しくは食塩と日局オキシドールとを規定量混入させた被電解液を無隔膜電解槽で電解させて電解液に改変させ、該電解液の規定量を水道水等の原水に混入させることにより得られる、除菌能力と、pH値抑制作用と、肌荒れ防止作用とが期待できる除菌水と、その除菌水を有効に生成する除菌水生成装置に関する。
【0002】
【従来の技術】
従来は、例えば、特開平7−313982号公報、特開平7−313983号公報等で開示されているように、水に食塩と、酢酸等の食品添加用有機酸と、ミョウバンと、塩酸と、を混合して電解添加剤とし、該電解添加剤を水道水と共に無隔膜電解槽で電解することにより得られる、除菌能力と、pH値抑制作用と、肌荒れ防止作用と、が期待できる電解除菌水は知られている。
【0003】
【発明が解決しようとする課題】
しかしながら、前記電解添加剤は高価であり、又ミョウバンや塩酸等は一般的に入手困難で、取扱上も化学知識等を必要とするため、一般家庭用の水電解器の電解添加剤とするには、入手性及び安全性に問題点がある。
【0004】
本発明は、従来の技術の有するこのような問題点を鑑みてなされたものであり、その目的とするところは、入手性及び安全性を重視し、除菌能力と、pH値抑制作用と、肌荒れ防止作用と、が期待できる除菌水及び除菌水生成装置を提供しようとするものである。
【0005】
【課題を解決するための手段】
上記目的を達成するために、本発明の除菌水生成装置は、少なくとも、カートリッジ容器Aと、カートリッジ容器A受部と、ポンプAと、配管材と、被電解液を電解する無隔膜電解槽と、吐水パイプと、電源装置と、電気制御基板と、電磁式給水弁と、減圧弁と、原水流水検出手段と、からなり、カートリッジ容器Aに規定量の水を入れ、そこに食塩と日局オキシドールとを各々規定量混入させて被電解液とし、該被電解液入りカートリッジ容器Aを除菌水生成装置に取付け、手指等の洗浄時等必要な時に該被電解液を無隔膜電解槽で電解させて電解液に改変させ、該電解液の規定量を除菌水生成装置内に流れる原水に混入させて生成する除菌水の除菌水生成装置であることを特徴とする。
【0006】
本発明の除菌水生成装置は、少なくとも、カートリッジ容器Aと、カートリッジ容器A受部と、ポンプAと、配管材と、被電解液を電解する無隔膜電解槽と、吐水パイプと、電源装置と、電気制御基板と、電磁式給水弁と、減圧弁と、原水流水検出手段と、からなり、カートリッジ容器Aに規定量の水を入れ、そこに食塩を規定量混入させて被電解液とし、又カートリッジ容器Bに規定量の水を入れ、そこに日局オキシドールを規定量混入させて除菌補助液とし、該被電解液入りカートリッジ容器Aと、該除菌補助液入りカートリッジ容器Bと、を除菌水生成装置に取付け、手指等の洗浄時等必要な時に該被電解液を無隔膜電解槽で電解させて電解液に改変させ、該電解液の規定量と、該除菌補助液の規定量と、を除菌水生成装置内に流れる原水に混入させて生成する除菌水の除菌水生成装置であることを特徴とする。
【0009】
詳細においては、コンパクトにするために、カートリッジ容器A受部に、カートリッジ容器Aの蓋に内蔵される逆止弁を押し上げるノック棒にスプリングと磁石とを設けて磁気検出手段と組み合わせた着脱状態検知手段と、その付近の電解補助剤の有無及び電解補助剤濃度を検出するために、水切りを良くするためにテフロン(登録商標)チューブを被せた電極と、を埋設させたことを特徴とする。
【0010】
【発明の実施の形態】
発明の実施の形態について図面を参照して説明する。
本発明の一実施例について説明する。図1は本発明の一実施例の除菌水生成装置10の斜視図である。又、図2はその構成図である。
樹脂成形部材(例えば、ポリプロピレン樹脂)のカートリッジ容器A20(本実施例では500cc容器)には、例えば、水(例えば、水道水、井戸水、蒸留水、精製水、浄水、弱アルカリ性水、弱酸性水、ミネラルウォーター等)1000ccに、食塩3g(茶さじに、すりきり1杯)、入手性の良い日局オキシドール(過酸化水素2.5〜3.5W/V%含有水)2cc(スポイトで計量するとよい。)の割合で、規定量(水500cc、食塩1.5g、日局オキシドール1cc)を混入させて被電解液をつくり、蓋21を閉めたカートリッジ容器A20を逆さまにして除菌水生成装置10に取付け、カートリッジ容器A固定蓋12を閉める。
【0011】
除菌水生成装置10は、カートリッジ容器A固定蓋12と、カートリッジ容器A20と、カートリッジ容器A受部22と、ポンプA40と、配管材44と、被電解液を電解する無隔膜電解槽43(例えば、電解槽電極への通電毎に、該電極に印加する電圧の極性を反転させて、スケール等の付着を防止させてもよい。)と、吐水パイプ14と、ケース11と、スイッチ類15(ケースに取り付けたものばかりでなく、例えば、足踏みスイッチや人体検出センサ等含む。)及び点灯表示部品類16(例えば、LEDランプ、豆電球、パイロットランプ、ネオンランプ)と、電源装置50(例えば、AC100Vと、AC100VをDC5V及びDC24V等に変換した電源と、を負荷に電力供給できるもの。又は交流、直流、全波整流、パルス等の電力を制御して負荷に電力供給できるもの。)と、電気制御基板51(例えば、制御マイコン、抵抗、コンデンサ、コイル、トラジスタ、FET、電源整流ダイオード、サイリスタ、トライアック、三端子レギュレータ、IC、リレー、ヒューズ、コネクタ、放熱板、ハトメ、ネジ等の電子・電気部品等が実装される印刷配線基板ユニットをいう。印刷配線基板とは一般的にプリント配線板と呼ばれるもので、概要として銅張積層板の銅箔においては電気回路に必要な配線パターンだけをエッチング処理で残し、実装する部品等のリード足形状等に合わせて穿孔し、ソルダーレジスト処理及びシルク文字印刷等を施して完成されるものをいう。製造工程及び手順はメーカにより異なる場合がある。)と、電磁式給水弁60(例えば、AC100Vで駆動する常閉型パイロット式給水弁が扱い易い。)及び減圧弁61(例えば、規定量毎分2L一定の流水になるように自動調整できるもの。)と、フロースイッチや流量センサ等の原水流水検出手段62と、からなる。
【0012】
本発明においての配管材44とは、水道蛇口に取り付ける分岐栓(例えば、減圧弁に高水圧がかからないように安全弁を設けてもよい。)、該分岐栓と除菌水生成装置下部にある(電磁式給水弁60の)流入口63とを接続する原水給水ホース類、カートリッジ容器A受部22とポンプA40とを接続するホース類(塩ビホースやビニールチューブの他に、例えば、ポリプロピレン樹脂等の樹脂成形部材でパイプの通路等を形成させてもよい。)、ポンプA40と無隔膜電解槽43入口とを接続するホース類、無隔膜電解槽43出口と原水流水検出手段出口64と吐水パイプ14を結合するホース類等をまとめていうものとする。又、カートリッジ容器B30を搭載するものにおいては、カートリッジ容器B受部32とポンプB41とを接続するホース類、ポンプB41と無隔膜電解槽43出口と原水流水検出手段出口64と吐水パイプ14を結合するホース類等も含むものとする。
【0013】
スイッチ類15の入力信号があると、自動的に電磁式給水弁60が作動して原水(例えば、水道水、井戸水)が吐水パイプ14より吐水される。原水流水検出手段62からの入力信号があると、例えば、毎分25ccのポンプA40を作動させて、カートリッジ容器A20内の被電解液を無隔膜電解槽43に送り、無隔膜電解を開始し、水道水に生成された電解液を規定量(毎分25cc)混入させる。点灯表示部品類16が点灯したら、吐水パイプ14からの吐水されている除菌水の使用を開始する。
【0014】
入手性のよい食塩と日局オキシドールとを用いて、本発明の一実施例で生成された除菌水は、手指等の洗浄に適し肌荒れが起こりにくいpH値8〜9の弱アルカリ性水で、安全性があり除菌効果が期待できる遊離残留塩素濃度5〜15ppm、溶存酸素濃度15〜20ppm、ORP(酸化還元電位)600〜800mVの水に抑制されている。
約10秒後に点灯表示部品類16が消灯し、ポンプA40が停止し、電磁式給水弁60が閉塞して吐水パイプ14からの吐水されている除菌水が止水する。
【0015】本発明の他実施例について説明する。図3は本発明の他実施例の除菌水生成装置70の斜視図である。又、図4はその構成図である。
カートリッジ容器A20には、水500ccの規定量に、食塩1.5gの規定量を混入させて被電解液をつくり、蓋21を閉めたカートリッジ容器A20を逆さまにして除菌水生成装置70に取付け、カートリッジ容器A固定蓋12を閉める。
カートリッジ容器B30には、水500ccの規定量に、入手性の良い日局オキシドール1ccの規定量を混入させて除菌補助液をつくり、蓋31を閉めたカートリッジ容器B30を逆さまにして除菌水生成装置70に取付け、カートリッジ容器B固定蓋13を閉める。
【0016】
除菌水生成装置70は、カートリッジ容器A固定蓋12と、カートリッジ容器A20と、カートリッジ容器A受部22と、ポンプA40と、配管材44と、被電解液を電解する無隔膜電解槽43と、カートリッジ容器B固定蓋13と、カートリッジ容器B30と、カートリッジ容器B受部32と、ポンプB41と、吐水パイプ14と、ケース71と、スイッチ類15及び点灯表示部品類16と、電源装置50と、電気制御基板51と、電磁式給水弁60及び減圧弁61と、原水流水検出手段62と、からなる。
【0017】
スイッチ類15の入力信号があると、自動的に電磁式給水弁60が作動して原水が吐水パイプ14より吐水される。原水流水検出手段62からの入力信号があると、例えば、毎分25ccのポンプA40を作動させて、カートリッジ容器A20内の被電解液を無隔膜電解槽43に送り、無隔膜電解を開始し電解液を生成する。そして、例えば、毎分25ccのポンプB41を作動させて、カートリッジ容器B30内の除菌補助液と共に、該電解液を水道水に混入させる。点灯表示部品類16が点灯したら、吐水パイプ14からの吐水されている除菌水の使用を開始する。
【0018】
入手性のよい食塩と日局オキシドールとを用いて、本発明の他実施例で生成された除菌水は、手指等の洗浄に適し肌荒れが起こりにくいpH値8〜9の弱アルカリ性水で、安全性があり除菌効果が期待できる遊離残留塩素濃度5〜15ppm、溶存酸素濃度15〜20ppm、ORP600〜800mVの水(結果として、本発明の一実施例の除菌水と同質の水が得られた。)に抑制されている。
約10秒後に点灯表示部品類16が消灯し、ポンプA40及びポンプB41が停止し、電磁式給水弁60が閉塞して吐水パイプ14からの吐水されている除菌水が止水する。
【0019】
本発明の実施例の細部について説明する。図6は本発明のカートリッジ容器A受部22の要部断面図である。
従来は、被電解液の有無を検出するフロースイッチ部品と、被電解液濃度を検出する電極部品と、を個々に配管材に配設していたが、本発明においては、コンパクトにするために、カートリッジ容器A受部22に、カートリッジ容器A20の蓋21に内蔵される逆止弁23を押し上げるノック棒24にスプリング25と磁石26とを設けて磁気検出手段27(例えば、リードスイッチ、ホールIC、コイル)と組み合わせた着脱状態検知手段(例えば、除菌水生成装置にカートリッジ容器Aが取り付けられていなければ、電磁式給水弁がONしない等の安全対策を講じることができる。)と、その付近の被電解液の有無(例えば、電解の自動停止、被電解液供給ランプ点灯等の処置を講じることができる。)及び被電解液濃度を検出(例えば、可変速モータ内蔵のポンプにて、1分間に送出できる被電解液の量を微調整する等の処置を講じることができる。)するために、水切りを良くする(水密性も向上する)ためにテフロン(登録商標)チューブ28を被せた電極(過酸化水素の触媒とならない材質のものがよい。)29と、を埋設させた。
【0020】
図5は電気制御基板51に採用されている電気回路の一部であり、本発明のカートリッジ容器A受部22に内蔵された電極29から被電解液濃度を検出するための一実施例の部分電気回路図である。
【0021】
以上、本発明の好適な実施の形態について種々の組合せ等を述べてきたが、本発明は上述する実施の形態に限定されるものでなく、発明の精神を逸脱しない範囲で多くの組合せ、改変等を施し得るのはもちろんである。
又、本発明の実施例で紹介した食塩と日局オキシドールの各々規定量を変化させると、遊離残留塩素濃度、溶存酸素濃度、ORP共に変化するので、他の用途に使用する場合は、その用途にあわせて前記混入量の適量を実験等にて発見するとよい。
【0022】
【発明の効果】
入手性のよい食塩と日局オキシドールとを用いて、本発明の実施例で生成された除菌水は、手指等の洗浄に適し肌荒れが起こりにくいpH値8〜9の弱アルカリ性水で、又遊離残留塩素濃度5〜15ppm、溶存酸素濃度15〜20ppm、ORP600〜800mVに抑制された水で、安全性があり除菌効果が期待できるという効果を奏する。
本発明の除菌水生成装置は、入手性のよい食塩と日局オキシドールとを各々規定量混入させた被電解液をカートリッジに入れておくだけで、手指等の洗浄時等必要な時に該被電解液を無隔膜電解槽で電解させて電解液に改変させ、該電解液の規定量を水道水等の原水に混入させて安全性のある上記除菌水が生成できるという効果を奏する。
【図面の簡単な説明】
【図1】本発明の一実施例の除菌水生成装置の斜視図である。
【図2】本発明の一実施例の除菌水生成装置の構成図である。
【図3】本発明の他実施例の除菌水生成装置の斜視図である。
【図4】本発明の他実施例の除菌水生成装置の構成図である。
【図5】本発明のカートリッジ容器A受部に内蔵された電極から被電解液濃度を検出するための一実施例の部分電気回路図である。
【図6】本発明のカートリッジ容器A受部の要部断面図である。
【符号の説明】
10…一実施例の除菌水生成装置、11…一実施例のケース、12…カートリッジ容器A固定蓋、13…カートリッジ容器B固定蓋、14…吐水パイプ、15…スイッチ類、16…点灯表示部品類、20…カートリッジ容器A、21…容器Aの蓋、22…カートリッジ容器A受部、23…逆止弁、24…ノック棒、25…スプリング、26…磁石、27…磁気検出手段、28…テフロン(登録商標)チューブ、29…電極、30…カートリッジ容器B、31…容器Bの蓋、32…カートリッジ容器B受部、40…ポンプA、41…ポンプB、43…無隔膜電解槽、44…配管材、50…電源装置、51…電気制御基板、60…電磁式給水弁、61…減圧弁、62…原水流水検出手段、63…電磁式給水弁の流入口、64…原水流水検出手段出口、70…他実施例の除菌水生成装置、71…他実施例のケース
[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention places importance on availability and safety, and relates to a sterilized water produced using salt and Japanese Pharmacopoeia (hereinafter referred to as JP) oxidol, and an apparatus for producing the same. The electrolyte obtained by mixing a specified amount of oxidol with the Japanese Pharmacopoeia and subjecting it to electrolysis in a non-diaphragm electrolytic cell to convert it to an electrolytic solution, and mixing the specified amount of the electrolytic solution into raw water such as tap water. The present invention relates to sterilized water that can be expected to have a bactericidal ability, a pH value suppressing action, and a skin roughness preventing action, and a sterilized water generating apparatus that effectively generates the sterilized water.
[0002]
[Prior art]
Conventionally, for example, as disclosed in JP-A-7-313982, JP-A-7-313983, etc., salt in water, an organic acid for food addition such as acetic acid, alum, hydrochloric acid, To obtain an electrolytic additive, which is obtained by electrolyzing the electrolytic additive together with tap water in a non-diaphragm electrolytic cell. The anti-bacterial ability, the pH value suppressing action, and the roughening preventing action can be expected. Bacterial water is known.
[0003]
[Problems to be solved by the invention]
However, the electrolytic additive is expensive, and alum and hydrochloric acid are generally difficult to obtain and require chemical knowledge in handling. Have problems in availability and safety.
[0004]
The present invention has been made in view of such problems of the prior art, the purpose of which is to place importance on availability and safety, sterilization ability, and pH value suppressing action, It is an object of the present invention to provide a disinfecting water and a disinfecting water generating device that can be expected to have a rough skin preventing action.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, the apparatus for generating sterilized water according to the present invention comprises at least a cartridge container A, a cartridge container A receiving portion, a pump A, a piping material, and a diaphragm-free electrolytic cell for electrolyzing a liquid to be electrolyzed. , A water discharge pipe, a power supply device, an electric control board, an electromagnetic water supply valve, a pressure reducing valve, and a raw water flowing water detecting means. And a specified amount of oxydol, respectively, to obtain an electrolyzed solution. The cartridge container A containing the electrolyzed solution is attached to a sterilizing water generator, and the electrolyzed solution is supplied to a non-diaphragm electrolytic cell when necessary, such as when washing a finger or the like. The apparatus is characterized in that the apparatus is a disinfecting water generating apparatus in which a specified amount of the electrolytic solution is mixed with raw water flowing in the disinfecting water generating apparatus to generate the disinfecting water .
[0006]
The apparatus for generating sterilized water according to the present invention includes at least a cartridge container A, a cartridge container A receiving portion, a pump A, a piping material, a non-diaphragm electrolytic cell for electrolyzing a liquid to be electrolyzed, a water discharge pipe, and a power supply. A device, an electric control board, an electromagnetic water supply valve, a pressure reducing valve, and a raw water flowing water detecting means. A predetermined amount of water is put into the cartridge container A, and a predetermined amount of salt is mixed therein, and the electrolytic solution is In addition, a specified amount of water is put into a cartridge container B, and a specified amount of oxidol is mixed therein with a specified amount of oxidol to form a sterilization auxiliary liquid. The cartridge container A containing the electrolytic solution and the cartridge container B containing the sterilization auxiliary liquid Is attached to a disinfecting water generating apparatus, and when necessary, for example, when washing a finger or the like, the electrolyte is electrolyzed in a non-diaphragm electrolytic cell to be converted into an electrolyte, and a specified amount of the electrolyte and the disinfection Flow the specified amount of auxiliary liquid into the sterilization water generator. Characterized in that it is a sterilization water producing device sterilization water produced by mixing the raw water.
[0009]
In detail, in order to make the cartridge container A compact, a spring and a magnet are provided on a knock bar that pushes up a check valve built in a lid of the cartridge container A in a receiving portion of the cartridge container A, and a detachment state detection combined with magnetic detection means is provided. In order to detect the presence or absence of the electrolytic auxiliary agent and the concentration of the electrolytic auxiliary agent in the vicinity thereof, an electrode covered with a Teflon (registered trademark) tube for improving drainage is embedded.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments of the present invention will be described with reference to the drawings.
An embodiment of the present invention will be described. FIG. 1 is a perspective view of an apparatus for generating sterilized water 10 according to one embodiment of the present invention. FIG. 2 is a configuration diagram thereof.
For example, water (for example, tap water, well water, distilled water, purified water, purified water, weakly alkaline water, or weakly acidic water) is placed in a cartridge container A20 (500 cc container in this embodiment) of a resin molded member (for example, polypropylene resin). , Mineral water, etc.) 1000cc, 3g of salt (1 teaspoon, 1 cup of scooped), 2cc of oxidol (water containing hydrogen peroxide 2.5-3.5W / V%) with good availability At a ratio of 500 cc, water (500 cc, salt 1.5 g, Japan Pharmacopoeia oxidol 1 cc) to prepare an electrolytic solution, and turn the cartridge container A20 with the lid 21 closed upside down to remove the sterilized water. 10, and the cartridge container A fixing lid 12 is closed.
[0011]
The sterilizing water generator 10 includes a cartridge container A fixing lid 12, a cartridge container A20, a cartridge container A receiving portion 22, a pump A40, a pipe member 44, and a non-diaphragm electrolytic cell 43 ( For example, the polarity of the voltage applied to the electrode of the electrolytic cell may be inverted every time the electrode is supplied to the electrode to prevent adhesion of scale or the like.), The water discharge pipe 14, the case 11, the switches 15 (In addition to the one attached to the case, for example, a foot switch, a human body detection sensor, and the like.), Lighting display components 16 (for example, an LED lamp, a miniature lamp, a pilot lamp, a neon lamp), and a power supply device 50 (for example, , AC100V, and a power supply obtained by converting AC100V to DC5V, DC24V, etc., to a load, or AC, DC, full-wave rectification, pulse And an electric control board 51 (for example, a control microcomputer, a resistor, a capacitor, a coil, a transistor, an FET, a power rectifier diode, a thyristor, a triac, a three-terminal regulator, an IC, A printed wiring board unit on which electronic and electrical components such as relays, fuses, connectors, heat sinks, eyelets, screws, etc. are mounted, etc. A printed wiring board is generally called a printed wiring board, and is generally copper-clad. The copper foil of the laminate is completed by leaving only the wiring pattern necessary for the electric circuit by etching, drilling according to the lead foot shape of the parts to be mounted, etc., and performing solder resist processing and silk character printing etc. The manufacturing process and procedure may differ depending on the manufacturer.) And the electromagnetic water supply valve 60 (for example, AC A normally closed pilot-type water supply valve driven at 00 V is easy to handle.) And a pressure reducing valve 61 (for example, one that can automatically adjust to a constant flow rate of 2 L per minute) and a flow switch and a flow sensor. Raw water flowing water detecting means 62.
[0012]
The pipe member 44 in the present invention is a branch tap attached to a water tap (for example, a safety valve may be provided so as to prevent high water pressure from being applied to the pressure reducing valve), the branch tap and the lower part of the sterilizing water generating device ( Raw water supply hoses connecting the inflow port 63 of the electromagnetic water supply valve 60, hoses connecting the cartridge container A receiving portion 22 and the pump A40 (such as a PVC hose and a vinyl tube, and a polypropylene resin, for example) A pipe passage or the like may be formed by a resin molded member.), Hoses for connecting the pump A40 to the inlet of the diaphragm-free electrolytic cell 43, an outlet of the diaphragm-free electrolytic tank 43, a raw water flowing water detecting means outlet 64, and the water discharge pipe 14 Hoses and the like that are connected together. In the case where the cartridge container B30 is mounted, hoses for connecting the cartridge container B receiving portion 32 and the pump B41, the pump B41, the outlet of the non-diaphragm electrolytic cell 43, the raw water flowing water detecting means outlet 64, and the water discharge pipe 14 are connected. Hoses and the like.
[0013]
When there is an input signal from the switches 15, the electromagnetic water supply valve 60 is automatically activated, and raw water (for example, tap water or well water) is discharged from the water discharge pipe 14. When there is an input signal from the raw water flowing water detecting means 62, for example, the pump A40 of 25 cc per minute is operated, the liquid to be electrolyzed in the cartridge container A20 is sent to the non-diaphragm electrolysis tank 43, and non-diaphragm electrolysis is started. A specified amount of electrolyte (25 cc / min) is mixed into the tap water. When the lighting display components 16 are turned on, the use of the sterilized water discharged from the water discharge pipe 14 is started.
[0014]
The sterilized water produced in one embodiment of the present invention using readily available salt and JP Oxitol is a weakly alkaline water having a pH value of 8 to 9 which is suitable for washing hands and the like and is unlikely to cause rough skin. It is controlled to water having a free residual chlorine concentration of 5 to 15 ppm, a dissolved oxygen concentration of 15 to 20 ppm, and an ORP (oxidation-reduction potential) of 600 to 800 mV, which are safe and can be expected to have a disinfecting effect.
After about 10 seconds, the lighting display components 16 are turned off, the pump A 40 is stopped, the electromagnetic water supply valve 60 is closed, and the sterilized water discharged from the water discharge pipe 14 stops.
Another embodiment of the present invention will be described. FIG. 3 is a perspective view of an apparatus for generating sterilized water 70 according to another embodiment of the present invention. FIG. 4 is a configuration diagram thereof.
In the cartridge container A20, a prescribed amount of sodium chloride is mixed with a prescribed amount of 500 cc of water to prepare an electrolytic solution, and the cartridge container A20 with the lid 21 closed is turned upside down to pass through the sterilizing water generator 70. Attach and close the cartridge container A fixing lid 12.
Into the cartridge container B30, a specified amount of 1 cc of oxidol, which is easily available, is mixed with a specified amount of 500 cc of water to make a sterilization auxiliary liquid, and the cartridge container B30 with the lid 31 closed is turned upside down to remove bacteria. Attached to the water generating device 70, and the cartridge container B fixing lid 13 is closed.
[0016]
The sterilizing water generator 70 includes a cartridge container A fixing lid 12, a cartridge container A20, a cartridge container A receiving portion 22, a pump A40, a pipe member 44, and a diaphragm-free electrolytic cell 43 for electrolyzing a liquid to be electrolyzed. , A cartridge container B fixing cover 13, a cartridge container B30, a cartridge container B receiving portion 32, a pump B41, a water discharge pipe 14, a case 71, switches 15 and lighting display components 16, a power supply device 50, , An electric control board 51, an electromagnetic water supply valve 60 and a pressure reducing valve 61, and a raw water flow detecting means 62.
[0017]
When there is an input signal from the switches 15, the electromagnetic water supply valve 60 is automatically operated, and the raw water is discharged from the water discharge pipe 14. When there is an input signal from the raw water flowing water detecting means 62, for example, the pump A40 of 25 cc / min is operated to send the liquid to be electrolyzed in the cartridge container A20 to the non-diaphragm electrolysis tank 43 to start electrolysis without diaphragm. Generate a liquid. Then, for example, the pump B41 of 25 cc per minute is operated to mix the electrolytic solution with tap water together with the sterilization auxiliary liquid in the cartridge container B30. When the lighting display components 16 are turned on, the use of the sterilized water discharged from the water discharge pipe 14 is started.
[0018]
The sterilized water produced in the other embodiment of the present invention using readily available salt and JP oxidol is a weakly alkaline water having a pH value of 8 to 9 which is suitable for washing hands and the like and is hardly roughened. Water having a free residual chlorine concentration of 5 to 15 ppm, a dissolved oxygen concentration of 15 to 20 ppm, and an ORP of 600 to 800 mV, which is safe and can be expected to have a disinfecting effect (as a result, water of the same quality as the disinfecting water of one embodiment of the present invention is obtained). Was suppressed.)
After about 10 seconds, the lighting display parts 16 are turned off, the pump A40 and the pump B41 are stopped, the electromagnetic water supply valve 60 is closed, and the sterilized water discharged from the water discharge pipe 14 is stopped.
[0019]
The details of the embodiment of the present invention will be described. FIG. 6 is a sectional view of a main part of the cartridge container A receiving portion 22 of the present invention.
Conventionally, the flow switch component for detecting the presence or absence of the electrolyte and the electrode component for detecting the concentration of the electrolyte are individually disposed on the piping material. In the cartridge container A receiving portion 22, a spring 25 and a magnet 26 are provided on a knock bar 24 for pushing up a check valve 23 built in the lid 21 of the cartridge container A20, and a magnetic detecting means 27 (for example, a reed switch, a Hall IC, etc.) is provided. , Coils) (for example, if the cartridge container A is not attached to the sterilizing water generator, safety measures such as the electromagnetic water supply valve not being turned on can be taken). The presence or absence of the electrolyte to be detected in the vicinity (for example, measures such as automatic stop of electrolysis and lighting of the electrolyte supply lamp can be taken) and the concentration of the electrolyte to be detected (for example, The pump with a built-in variable speed motor can take measures such as fine adjustment of the amount of the electrolyte to be delivered per minute.) To improve drainage (to improve water tightness) An electrode 29 (preferably made of a material that does not serve as a catalyst for hydrogen peroxide) 29 covered with a Teflon (registered trademark) tube 28 was embedded.
[0020]
FIG. 5 shows a part of an electric circuit employed in the electric control board 51, which is a part of an embodiment for detecting the concentration of the electrolyte from the electrode 29 built in the cartridge container A receiving portion 22 of the present invention. It is an electric circuit diagram.
[0021]
As described above, various combinations and the like have been described for the preferred embodiments of the present invention. However, the present invention is not limited to the above-described embodiments, and many combinations and modifications are possible without departing from the spirit of the invention. It goes without saying that it is possible to perform such operations.
Also, if the specified amounts of salt and oxidol of JP introduced in the examples of the present invention are changed, the free residual chlorine concentration, the dissolved oxygen concentration, and the ORP change. In accordance with the above, an appropriate amount of the mixed amount may be found through experiments or the like.
[0022]
【The invention's effect】
The sterilized water produced in the embodiment of the present invention using readily available salt and oxidol of Japan Pharmaceutical Co., Ltd. is a weakly alkaline water having a pH value of 8 to 9 which is suitable for washing hands and the like and hardly causes rough skin. The water is controlled to have a free residual chlorine concentration of 5 to 15 ppm, a dissolved oxygen concentration of 15 to 20 ppm, and an ORP of 600 to 800 mV.
The sanitized water generating apparatus of the present invention can be used for washing hands and the like when necessary, such as when washing a finger or the like, by simply placing an electrolytic solution in which a well-available salt and Japanese Pharmacopoeia oxidol are mixed in specified amounts, respectively, in a cartridge. The electrolytic solution is electrolyzed in a non-diaphragm electrolytic cell to convert the electrolytic solution into an electrolytic solution, and a specified amount of the electrolytic solution is mixed with raw water such as tap water to produce the above-mentioned safe sterilized water.
[Brief description of the drawings]
FIG. 1 is a perspective view of an apparatus for producing sterilized water according to one embodiment of the present invention.
FIG. 2 is a configuration diagram of an apparatus for generating sterilized water according to one embodiment of the present invention.
FIG. 3 is a perspective view of an apparatus for generating sterilized water according to another embodiment of the present invention.
FIG. 4 is a configuration diagram of an apparatus for producing sterilized water according to another embodiment of the present invention.
FIG. 5 is a partial electric circuit diagram of an embodiment for detecting the concentration of an electrolyte from an electrode built in a cartridge container A receiving portion of the present invention.
FIG. 6 is a sectional view of a main part of a cartridge container A receiving portion of the present invention.
[Explanation of symbols]
10: Bactericidal water generator of one embodiment, 11: Case of one embodiment, 12: Fixed lid of cartridge container A, 13: Fixed lid of cartridge container B, 14: Water discharge pipe, 15: Switches, 16: Lighting display Parts: 20: cartridge container A, 21: lid of container A, 22: cartridge container A receiving part, 23: check valve, 24: knock bar, 25: spring, 26: magnet, 27: magnetic detection means, 28 ... Teflon (registered trademark) tube, 29 ... electrode, 30 ... cartridge container B, 31 ... lid of container B, 32 ... cartridge container B receiving part, 40 ... pump A, 41 ... pump B, 43 ... diaphragm-free electrolytic cell, 44: piping material, 50: power supply device, 51: electric control board, 60: electromagnetic water supply valve, 61: pressure reducing valve, 62: raw water flowing water detecting means, 63: inlet of electromagnetic water supplying valve, 64: raw water flowing water detection Means , 70 ... sterilization water generation apparatus of another embodiment, 71 ... case of another embodiment

Claims (2)

少なくとも、カートリッジ容器Aと、カートリッジ容器A受部と、ポンプAと、配管材と、被電解液を電解する無隔膜電解槽と、吐水パイプと、電源装置と、電気制御基板と、電磁式給水弁と、減圧弁と、原水流水検出手段と、からなり、カートリッジ容器Aに規定量の水を入れ、そこに食塩と日本薬局方オキシドールとを各々規定量混入させて被電解液とし、該被電解液入りカートリッジ容器Aを除菌水生成装置に取付け、手指等の洗浄時等必要な時に該被電解液を無隔膜電解槽で電解させて電解液に改変させ、該電解液の規定量を除菌水生成装置内に流れる原水に混入させて生成する除菌水の除菌水生成装置において、コンパクトにするために、カートリッジ容器A受部に、カートリッジ容器Aの蓋に内蔵される逆止弁を押し上げるノック棒にスプリングと磁石とを設けて磁気検出手段と組み合わせた着脱状態検知手段と、その付近の被電解液の有無及び被電解液濃度を検出するために、水切りを良くするためにテフロン(登録商標)チューブを被せた電極と、を埋設させたことを特徴とする除菌水生成装置。At least a cartridge container A, a cartridge container A receiving portion, a pump A, a piping material, a non-diaphragm electrolytic cell for electrolyzing a liquid to be electrolyzed, a water discharge pipe, a power supply device, an electric control board, and an electromagnetic water supply. A valve, a pressure reducing valve, and a raw water running water detecting means. A predetermined amount of water is charged into a cartridge container A, and a specified amount of salt and oxidol of Japanese Pharmacopoeia are mixed therein to form an electrolyzed solution. The electrolytic solution-containing cartridge container A is attached to the sterilizing water generator, and when necessary, such as when washing a finger or the like, the electrolytic solution is electrolyzed in a non-diaphragm electrolytic cell to convert the electrolytic solution into an electrolytic solution, and the specified amount of the electrolytic solution is reduced. In the sanitized water generating apparatus, which is produced by mixing the raw water flowing in the sanitized water generating apparatus, in order to make the sanitized water generating apparatus compact, the cartridge container A receiving portion is provided with a non-return valve built in the lid of the cartridge container A. Knock up valve An attachment / detachment state detecting means provided with a spring and a magnet on a rod and combined with a magnetic detecting means, and a Teflon (registered trademark) A sterilizing water generating apparatus, wherein an electrode covered with a tube is embedded. 少なくとも、カートリッジ容器Aと、カートリッジ容器A受部と、ポンプAと、配管材と、被電解液を電解する無隔膜電解槽と、カートリッジ容器Bと、カートリッジ容器B受部と、ポンプBと、吐水パイプと、電源装置と、電気制御基板と、電磁式給水弁と、減圧弁と、原水流水検出手段と、からなり、カートリッジ容器Aに規定量の水を入れ、そこに食塩を規定量混入させて被電解液とし、又カートリッジ容器Bに規定量の水を入れ、そこに日本薬局方オキシドールを規定量混入させて除菌補助液とし、該被電解液入りカートリッジ容器Aと、該除菌補助液入りカートリッジ容器Bと、を除菌水生成装置に取付け、手指等の洗浄時等必要な時に該被電解液を無隔膜電解槽で電解させて電解液に改変させ、該電解液の規定量と、該除菌補助液の規定量と、を除菌水生成装置内に流れる原水に混入させて生成する除菌水の除菌水生成装置において、コンパクトにするために、カートリッジ容器A受部に、カートリッジ容器Aの蓋に内蔵される逆止弁を押し上げるノック棒にスプリングと磁石とを設けて磁気検出手段と組み合わせた着脱状態検知手段と、その付近の被電解液の有無及び被電解液濃度を検出するために、水切りを良くするためにテフロン(登録商標)チューブを被せた電極と、を埋設させたことを特徴とする除菌水生成装置。At least, a cartridge container A, a cartridge container A receiving portion, a pump A, a piping material, a non-diaphragm electrolytic cell for electrolyzing a liquid to be electrolyzed, a cartridge container B, a cartridge container B receiving portion, a pump B, It consists of a water discharge pipe, a power supply device, an electric control board, an electromagnetic water supply valve, a pressure reducing valve, and a raw water flowing water detecting means. A prescribed amount of water is put into the cartridge container A, and a prescribed amount of salt is mixed therein. Then, a specified amount of water is put into a cartridge container B, and a specified amount of oxidol of the Japanese Pharmacopoeia is mixed therein to form a sterilization auxiliary liquid. The auxiliary liquid-containing cartridge container B is attached to a sterilizing water generator, and when necessary, such as when washing a finger or the like, the liquid to be electrolyzed is electrolyzed in a non-diaphragm electrolytic cell to be converted into an electrolytic solution. Amount and the eradication aid In the sterilized water generating apparatus, which is produced by mixing the specified amount of the sterilized water with the raw water flowing in the sterilized water generating apparatus, the cartridge container A receiving portion is provided with a lid of the cartridge container A in order to make the apparatus compact. In order to detect the presence / absence of the electrolyte and the concentration of the electrolyte in the vicinity of the attachment / detachment state detection means in which a spring and a magnet are provided on a knock bar that pushes up a check valve built in to combine with the magnetic detection means, An apparatus for generating sterilized water, wherein an electrode covered with a Teflon (registered trademark) tube for improving drainage is embedded.
JP18320298A 1998-06-30 1998-06-30 Disinfection water generator Expired - Fee Related JP3594112B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP18320298A JP3594112B2 (en) 1998-06-30 1998-06-30 Disinfection water generator

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP18320298A JP3594112B2 (en) 1998-06-30 1998-06-30 Disinfection water generator

Publications (2)

Publication Number Publication Date
JP2000015261A JP2000015261A (en) 2000-01-18
JP3594112B2 true JP3594112B2 (en) 2004-11-24

Family

ID=16131569

Family Applications (1)

Application Number Title Priority Date Filing Date
JP18320298A Expired - Fee Related JP3594112B2 (en) 1998-06-30 1998-06-30 Disinfection water generator

Country Status (1)

Country Link
JP (1) JP3594112B2 (en)

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH08323364A (en) * 1995-06-05 1996-12-10 Tatsuo Okazaki Sterilized water producing device
JP3728018B2 (en) * 1996-05-10 2005-12-21 ホシザキ電機株式会社 Weakly acidic chlorinated water, method and apparatus for producing the same
JP3219698B2 (en) * 1996-09-06 2001-10-15 クリーンケミカル株式会社 Manufacturing method of disinfectant solution

Also Published As

Publication number Publication date
JP2000015261A (en) 2000-01-18

Similar Documents

Publication Publication Date Title
JP3768160B2 (en) Water treatment equipment
JPS61283391A (en) Method for sterilizing drinking water of beverage feeder
JP2002210340A (en) Ozone water producer
JP2005052447A (en) Lime softening type hard water washing machine equipped with detergent tank
CN215924479U (en) Novel water softener
JP3594112B2 (en) Disinfection water generator
JP2003220389A (en) Reduced water former
JPH1110159A (en) Apparatus for producing electrolytic solution
KR101564594B1 (en) Water ionizer
JP3605653B2 (en) Continuous electrolyzed water generator
KR20050012935A (en) disinfecting device for a bidet
JP2573143B2 (en) Sterile water production equipment
JP2002086148A (en) Continuous electrolytic water generating device
JPH09234238A (en) Electrolytic disinfection equipment
KR20070088410A (en) Medical device and medical device sterilizer
CN210020471U (en) Disinfection vehicle
JP3942412B2 (en) Portable electrolyzed water generator
KR19980083403A (en) Sterilization washing system for vegetables and tableware
JPH02174819A (en) Ozonized water hand washing apparatus
KR100787956B1 (en) Water Tank Sterilizer
CN205634998U (en) Electrolytic water generating device
JP7626990B2 (en) Mouthwash
JP2000051328A (en) Hand washing method and hand washing equipment
JP2001225073A (en) Electrolytic water making apparatus
JP2528154Y2 (en) Water purification equipment

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20040405

A871 Explanation of circumstances concerning accelerated examination

Free format text: JAPANESE INTERMEDIATE CODE: A871

Effective date: 20040413

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20040602

A521 Written amendment

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20040602

A975 Report on accelerated examination

Free format text: JAPANESE INTERMEDIATE CODE: A971005

Effective date: 20040723

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20040817

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20040825

R150 Certificate of patent or registration of utility model

Free format text: JAPANESE INTERMEDIATE CODE: R150

LAPS Cancellation because of no payment of annual fees