JP2004082025A - Method of activating flowing water in conduit and appliance for activating flowing water in conduit - Google Patents
Method of activating flowing water in conduit and appliance for activating flowing water in conduit Download PDFInfo
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Abstract
Description
【0001】
【発明の属する技術分野】
本発明は、導管内流水活性化器具に関し、さらに詳しくは、遠赤外線の放射と磁気斥力を組み合わせて利用した流水活性化器具に関する。
【0002】
【従来の技術】
我々の住む地球の中では、特に文明国において水資源の枯濁が心配され、一方でまた、河川の水、雨水共に汚染が進んでいる現状があり、それらの水を集めて多くの人に供給する安全な水道水をつくるためには、殺菌剤や不純物吸着剤、PH調整剤等の化学薬剤を相当量使用しなければならない。
【0003】
また、工場の装置や職場環境の清掃等に使用する中水や農業、漁業などで使われる間近にある淡水や海水も注意を払わないと使用してかえってマイナスの結果を生むことがある。
【0004】
これらのことから、飲料水だけでもより安全なものにしたり、また、おいしく感じるものにしたいという要求が高まり、飲用時にカルシウムイオンを投入して殺菌後の塩素イオンを除去したり、逆浸透膜を用いて、雑菌の通過を阻止したり、あるいはまた活性炭によって混有不純物を吸着させたりすることが各方面で行われている。
【0005】
一方、水に直接接触せずに、水を改質させる方法として古くから給水管や蛇口に一個または複数個の永久磁石を取り付けて、磁場内で水分子に電荷を持たせることを目論んだり、磁力と遠赤外線放射物質とを組み合わせて、その現象を助長させようとする装置が考えだされたりして来ている。
【0006】
【発明が解決しようとする課題】
しかしながら、前述した各種の化学的処理方法では、処理材料の性能劣化があり、その都度調整、補充する手間があって、その目安を見ることが難しく、かつ、煩わしい。また、磁力や遠赤外線を利用する物理的処理方法では、目に見えた効果を得るためには、流水中にも磁場をつくる必要から、かなり強い磁力を有する永久磁石を使用しなければならないので、装置の取り付けに留意しなければならず、しかも、取り付け後も装置全体の強い残留磁束密度が周辺のIC関連精密機器類の正常作動を妨げる心配があるなどの問題点があった。
【0007】
さらには、公知の永久磁石の組み合わせ及びそれに加えて遠赤外線放射物質を付属させた磁気水活性化装置では、水に作用する磁力範囲が狭く、したがって、水を変質させる効率が悪いために、管内の清浄化のためには都合良いが、装置部分を通過して出た流水の性質は短時間で原水と変わらないものになってしまうという難点があった。
【0008】
【課題を解決するための手段】
本発明者らは、上記課題を解決する目的で、簡便な取り付け操作でかつ、長期に亘る性能安定性が得られ、しかも人、環境に対して悪影響を与える心配のない導管内流水活性化器具をつくり出す研究を鋭意行った結果、限定された極の表面に固有の低温条件下遠赤外線放射物質を付与させた永久磁石を相対させて給水管及び/若しくは蛇口に固定させた後に、水を流すと化学的処理を一切付滞させることなしに、効率良く水が活性化され、しかも、その状態が長時間持続するという知見を得て、本発明に到達した。
【0009】
すなわち、本発明の第1は、給水管及び/若しくは蛇口に取り付けた永久磁石のN極同士を相対させて、前記給水管及び/若しくは蛇口の内部に斥力磁場を誘導したところに、前記永久磁石表面に近接させたゲルマニウム内在黒雲母から放射される遠赤外線を作用させることを特徴とする導管内流水活性化方法である。
【0010】
本発明の第2は、前記ゲルマニウム内在黒雲母は、粉末として永久磁石表面に塗装付着させ、又は強磁性体板に塗装付着させて永久磁石に吸着させて用いるか、又は粉末若しくは顆粒として永久磁石表面と可動的に接触させて用いるか、あるいは強磁性体粉末と共存させて加工し、着磁させたボンド磁石成型物として用いることを特徴とする請求項1記載の導管内流水活性化方法である。
【0011】
本発明の第3は、ゲルマニウム内在黒雲母を付着させた永久磁石1を略U字状型の保持材4内面に設置して保持助材3で該磁石上面端部を押着してなることを特徴とする導管内流水活性化器具である。
【0012】
本発明の第4は、前記永久磁石は、ゲルマニウム内在黒雲母粉末と樹脂系塗料とを焼き付け処理し、次いで塗膜を付着させたものを磁力で吸着させた磁性体板からなる永久磁石であることを特徴とする請求項3記載の導管内流水活性化器具である。
【0013】
本発明の第5は、ゲルマニウム内在黒雲母顆粒と永久磁石とを箱形保持材11内に接触充填させたことを特徴とする導管内流水活性化器具である。
【0014】
本発明の第6は、ゲルマニウム内在黒雲母粉末と強磁性体粉末とを共存させて加工し、着磁させたボンド磁石成型物からなる角状帯からなることを特徴とする導管内流水活性化器具である。
【0015】
【本発明の実施の形態】
本発明においては、永久磁石の種類は特に選ばず、フェライト磁石でも希土類磁石でもいずれでも良い。さらには、それらの永久磁石粉末とプラスチック若しくはゴムとからなるボンド磁石でも良い。
【0016】
本発明においては、低温条件下遠赤外線放射物質として層間にゲルマニウムを確実に内存させた黒雲母であることを要する。
【0017】
本発明においては、相対させる極をN極同士とし、その間に働く斥力を流水に作用させることを要する。この場合、流水の種類は限定せず、天然水でも、水道水でも、また、飲用でない中水でも、海水でも良く、さらに、その中に洗浄剤、防腐剤、防錆剤等を混有するものでも良い。
【0018】
本発明においては、ゲルマニウム内在黒雲母粉末を塗装付着させるための強磁性体板の材質は特に限定せず、例えば、鉄、コバルト、ニッケル等を含むものが使用される。
【0019】
本発明においては、N極同士の斥力を確実に導管内流水に作用させるために、永久磁石を保持材に固定した部材を最少限2個用意し、かつ、導管の外側でその二つが相対した状態を形成させることが必要であるが、その場合の相対状態の確保の仕方は、部材間のネジ止めでも、針金巻きでも、クランプによる方法でもテープ止めでも良く、また、予め一体成型した固定枠の中に永久磁石のN極同士を相対させるように保持させる方法でも良い。
【0020】
【実施例】
次に、本発明を実施例、応用実施例及びパネルテスト例によって説明するが、本発明の導管内流水活性化器具の技術と有用性は以下の具体例だけに限定されるものではない。
【0021】
【実施例1】
18mm×50mm×43mmの角型に加工した表面磁力4800ガウスのサマリウム鉄窒素磁石の全面に対して、平均粒径5μmのゲルマニウム内在黒雲母粉末(但し、韓国、株式会社曙峰社製品)65%を含有するエポキシコートを厚さ50μmで施した後、SUS316LステンレススチールとABS樹脂とからなる保持材にN極を上にして固定した部材を図1に示すように作成した。
【0022】
次いで、家庭用ステンレススチール製水道蛇口(但し、外径16mmのもの)を挟んで図1の部材を2個相対させ、図2のように両端を銅製針金で結んで、本発明の導管内流水活性化器具を製造した。
【0023】
【実施例2】
18mm×50mm×43mmの角型に加工した表面磁力4350ガウスのネオジウム鉄ボロン磁石を実施例1と同様にN極を上にしてSUS316LステンレススチールとABS樹脂とからなる保持材に固定した後、厚さ0.6mmの鉄板(但し、13mm×25mmのもの)に平均粒径5μmのゲルマニウム内在黒雲母粉末(但し、韓国、株式会社曙峰社製品)60%と油性1液型アクリル樹脂系塗料40%との混合物で焼き付け処理をして、厚さ60μmの塗膜を付着させたものを磁力で吸着させた部材を図3に示すように作成した。
【0024】
次いで、家庭用ステンレススチール製水道蛇口(但し外径16mmのもの)を挟んで、図3の部材を2個相対させ、図4ように2箇所をネジ止めして、本発明の導管内流水活性化器具を製造した。
【0025】
【比較例1】
実施例1と同様のサマリウム鉄窒素磁石をゲルマニウム内在黒雲母を塗装付着させずに、SUS316LステンレススチールとABS樹脂とからなる保持材にN極を上にして固定した部材を2個作成し、実施例1と同様にして家庭用水道蛇口に相対させて針金で結び付けた。
【0026】
【比較例2】
実施例2と同様のネオジウム鉄ボロン磁石をN極を上にしてSUS316LステンレススチールとABS樹脂とからなる保持材に固定した後、厚さ0.6mmの鉄板(但し、13mm×25mmのもの)に平均粒径5μmの黒雲母粉末(但し、ペグマタイトから採取した硬度2.7、比重3.0のもの)60%と油性1液型アクリル樹脂系塗料40%との混合物で焼き付け処理して、厚さ60μmの塗膜を付着させたものを磁力で吸着させた部材を2個作成し、実施例2と同様にして家庭用水道蛇口に相対させてネジ止めした。
【0027】
【比較例3】
実施例2と同様のネオジウム鉄ボロン磁石をN極を上にしてSUS316LステンレススチールとABS樹脂とからなる保持材に固定した後、厚さ0.6mmの鉄板(但し、13mm×25mmのもの)に平均粒径5μmの鉄酸化物及びジルコニウム酸化物を含むシリカーアルミナセラミックス遠赤外線放射体粉末60%と油性1液型アクリル樹脂系塗料40%との混合物で焼き付け処理して、厚さ60μmの塗膜を付着させたものを磁力で吸着させた部材を2個作成し、実施例2と同様にして家庭用水道蛇口に相対させてネジ止めした。
【0028】
【比較例4】
実施例2と同様のネオジウム鉄ボロン磁石をS極を上にしてSUS316LステンレススチールとABS樹脂とからなる保持材に固定した後、厚さ0.6mmの鉄板(但し、13mm×25mmのもの)に平均粒径5μmのゲルマニウム内在黒雲母粉末(但し、韓国、株式会社曙峰社製品)60%と油性1液型アクリル樹脂系塗料40%との混合物で焼き付け処理して、厚さ60μmの塗膜を付着させたものを磁力で吸着させた部材を2個作成し、実施例2と同様にして家庭用水道蛇口に相対させてネジ止めした。
【0029】
【実施例3】
25mm×60mm×50mmの角型に加工した表面磁力7500ガウスのフェライト磁石と平均粒径1mmのゲルマニウム内在黒雲母顆粒(但し、韓国、株式会社曙峰社製品)2gとをSUS316Lステンレススチールの箱型保持材に充填し、N極を表面にして、密閉固定した部材を図5に示すように作成した。次いで、業務用塩化ビニール製水道元導管(但し、外径20mmのもの)を挟んで、図5の部材を2個相対させ、図6のようにクランプで締め付け固定して、本発明の導管内流水活性化器具を製造した。
【0030】
【比較例5】
実施例3と同様のフェライト磁石を2個用意し、それぞれについてN極面及びS極面が表面になるように選択して、ゲルマニウム内在黒雲母顆粒(但し、韓国、株式会社曙峰社製品)2gと共にSUS316Lステンレススチールの箱型保持材に密閉固定した後、図7のように、業務用塩化ビニール製水道元導管(但し、外径20mmのもの)に磁気引力でそのまま固定した。
【0031】
【実施例4】
平均重合度800,引張強さ(MPa)47.7、軟化温度64℃のエチレン−塩化ビニル樹脂18重量部、平均粒径5μmのゲルマニウム内在黒雲母粉末(但し、韓国、株式会社曙峰社製品)4重量部及び、平均粒径1μmのサマリウム鉄窒素粉末78重量部とをブラベンダーに仕込んで混合した後、160〜170℃、15秒の混練条件でカレンダー押出し成型により幅7mm、厚さ4mmの角状帯を作成し、広い面の裏表がそれぞれN及びSとなるように、表面磁力1400ガウスに着磁させた部材に作成した。
【0032】
次いで業務用ステンレススチール製水道元導管(但し外径20mmのもの)に対して、N極を内側にして15cmにわたって巻き付けた後、図8のように両端を布製ガムテープで固定して、本発明の導管内流水活性化器具を製造した。
【0033】
【応用実施例1】
本発明実施例1〜4の導管内流水活性化器具及び比較例1〜5の磁気器具をそれぞれ別々に家庭用若しくは業務用水道装置(但し、水道水原水は全て東京都新宿区内使用のもの)に取り付けた後、10分間流水させた後の水検体を1リットル型ビーカーに1kgづつ採取した。しかる後、各水検体に対して、魚毒性試験用ヒメダカをそれぞれ10匹づつ入れて、ビーカー上部をポリエチレンラップで封じ23℃、50%RH恒温恒湿条件のところに静置し、経日的なヒメダカの死亡数を観察した結果を表1に示した。
【0034】
【表1】
表1から明らかなように、本発明の導管内流水活性化器具の取り付け箇所を一度通過した流水は、その後も活性化された状態が長く保持され、動物の生理活性に対して良い方向に作用することが確認された。
【0036】
【応用実施例2】
本発明実施例1〜4の導管内流水活性化器具及び比較例1〜5の磁気器具を
れぞれ別々に家庭用若しくは業務用水道装置(但し、水道水原水は全て千葉県八千代市内使用のもの)に取り付け、流水直後の水検体を各々20gづつ1日に2回、腐葉土を10%配合しているポット用栽培土400gの中にキンギョソウを植えている土の部分にそれぞれ別々に散布した。しかる後、経日的な観察を行い、花の開いた日を調べた結果を表2に示した。
【0037】
【表2】
表2から明らかなように、本発明の導管内流水活性化器具の使用は、植物の生理活性に対しても良い方向に作用する水をつくることが確認された。
【0039】
【応用実施例3】
本発明実施例1〜4の導管内流水活性化器具及び比較例1〜5の磁気機器を
それぞれ別々に家庭用若しくは業務用水道装置(但し、水道水原水は全て千葉県千葉市内使用のもの)に取り付けた後、流水直後の水検体を1リットル型ビーカーに500gづつ採取した。しかる後、水温を20℃に調整した状態で各水検体にそれぞれプチトマトを5個づつ投入し、30分間浸漬させたものを切断して、抽出した液の糖度をアタゴ手持屈折計で調べ、平均値を算出した結果を表3に示した。
【0040】
【表3】
表3から明らかなように、本発明の導管内流水活性化器具の使用は、集荷後の野菜に対しても商品価値を高める作用が一段と勝れていることが確認された。
【0042】
【パネルテスト例】
以下にパネルテストを行った結果を示す。
【0043】
【パネルテスト例1】
家庭若しくは職場で炊飯及び食事をしている20〜70才の男女100名を無作為に選んで対象者とし、水道水原水(但し千葉県千葉市内使用のもの)と本発明実施例1〜4の導管内流水活性化器具及び比較例1〜5の磁気器具をそれぞれ別々に取り付けた水道装置から流水させた水検体を1種について10個の電気釜に各々1.5リットルづつ5回注入して、白米(但し、ちばコシヒカリ)300gを研ぎ、直ちに炊飯してもらった。しかる後1種の炊飯米について各々10人に試食してもらい、食前の炊飯米の外観と食感について回答してもらった結果を、以下に示す判定基準にしたがって表4に示した。
【0044】
(1)炊飯米の外観
次の判定基準とした。
A・・・10人の試食者全員が、真白い炊き上がり状態であると判定したもの。
B・・・10人の試食者中7〜9人が、真白い炊き上がり状態であると判定したもの。
C・・・10人の試食者中5〜6人が、真白い炊き上がり状態であると判断したもの。
D・・・10人の試食者中6人以上が、黄ばんだ状態で炊き上がっていると判断したもの。
【0045】
(2)食感
次の判定基準とした。
A・・・10人の試食者全員が、ごはんが特においしいと感じたもの。
B・・・10人の試食者中7〜9人が、ごはんが特においしいと感じたもの。
C・・・10人の試食者中5〜6人が、ごはんが特においしいと感じたもの。
D・・・10人の試食者中、ごはんが特においしいと感じた人が4人以下のもの。
【0046】
【表4】
表4からわかるように、本発明の導管内流水活性化器具を通過してなる流水は、食品の製造において極めて益する効果を生むことが確認された。
【0048】
【パネルテスト例2】
16〜75才の男女100名を無作為に選んで対象者とし、水道水原水(但し茨城県日立市内使用のもの)と本発明実施例1〜4の導管内流水活性化器具及び比較例1〜5の磁気器具をそれぞれ別々に取り付けた水道装置から流水させた水検体を1種について10個の家庭用浴槽に各々150リットルづつ注入した後、加熱して、内温を40℃とした。しかる後、1種の加熱水検体について各々10人に入浴してもらい、入浴時の雰囲気及び入浴後の自然冷却10時間後の排水浴槽の状況について回答してもらった結果を、以下に示す判断基準にしたがって表5に示した。
【0049】
(1)入浴時の雰囲気
次の判定基準とした。
A・・・10人の入浴者全員が、お湯が柔らかく感じて、気持ちが良いと判断したもの。
B・・・10人の入浴者中7〜9人が、お湯が柔らかく感じて、気持ちが良いと判断したもの。
C・・・10人の入浴者中5〜6人が、お湯が柔らかく感じて、気持ちが良いと判断したもの。
D・・・10人の入浴者中、お湯が柔らかく感じて、気持ちが良いと判断した人が4人以下のもの。
【0050】
(2)自然冷却10時間後の排水浴槽の状況
次の判定基準とした。
◎・・・10人の入浴者全員が、浴槽内壁に汚れが全く付いていないと判断したもの。
○・・・10人の入浴者中7〜9人が、浴槽内壁に汚れが付いていないと判断したもの。
△・・・10人の入浴者中5〜6人が、浴槽内壁に汚れが付いていないと判断したもの。
×・・・10人の入浴者中、浴槽内壁に汚れが付いていないと判断した人が4人以下のもの。
【0051】
【表5】
表5からわかるように、本発明の導管内流水活性化器具を通過してなる流水は、人の健康生活にとって欠かせない入浴及びその後の浴槽掃除作業において極めて良い状態になっていることが確認された。
【0053】
【発明の効果】
本発明の導管内流水活性化方法における導管内流水活性化器具は、磁力のうちのN極同士の斥力を利用し、その磁界内に、人の健康に益するといわれる有用元素のゲルマニウムを内在させた低温条件下遠赤外線放射型黒雲母を置いてエネルギー伝搬させることよりなる物理作用応用器具であり、本発明器具を単に導管の外側に取り付けるだけで、他に水に対して一切の化学物質を添加せず、また、消費材を共存させる必要もなく、半永久的に使用できるものである。
【0054】
よって、本発明を実施することにより、簡便にかつ低コストで、安心感をもって、生理活性の高い、良い水を常時再現性良く製造し得るので、飲用をはじめとする家庭用生活水はもとより工業用洗浄水、農業向け栽培用水、漁業向け養殖用水等の改質に大いに役立つ。
【図面の簡単な説明】
【図1】本発明実施例1の導管内流水活性化器具部材の斜視図である。
【図2】実施例1において本発明の流水活性化器具をステンレススチール製水道蛇口に取り付けた断面図である。
【図3】本発明実施例2の導管内流水活性化器具部材の斜視図である。
【図4】実施例2において本発明の流水活性化器具をステンレススチール製水道蛇口に取り付けた断面図である。
【図5】本発明実施例3の導管内流水活性化器具部材の斜視図である。
【図6】実施例3において本発明の流水活性化器具を塩化ビニール製元導管に取り付けた断面図である。
【図7】比較例5の磁気器具を塩化ビニール製元導管に取り付けた断面図である。
【図8】実施例4において本発明の流水活性化器具をステンレススチール製元導管に取り付けた斜視断面図である。
【符号の説明】
1・・・永久磁石
2・・・ゲルマニウム内在黒雲母
3・・・保持助材
4・・・保持材
5・・・器具取り付け固定用針金
6・・・導管
7・・・鉄板
8・・・器具取り付け固定用ネジ
9・・・器具取り付け固定用クランプ
10・・器具取り付け固定用接着テープ[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a device for activating water flowing in a conduit, and more particularly to a device for activating water flowing using a combination of radiation of far infrared rays and magnetic repulsion.
[0002]
[Prior art]
On the earth where we live, there is concern that water resources will be depleted, especially in civilized countries, and at the same time, river water and rainwater are being increasingly polluted. In order to produce safe tap water to be supplied, a considerable amount of chemical agents such as disinfectants, impurity adsorbents, and pH adjusters must be used.
[0003]
In addition, fresh water and seawater, which are used for cleaning of factory equipment and workplace environment, and used for agriculture, fisheries, and the like used for cleaning, etc., may have negative results if used without care.
[0004]
For these reasons, there is a growing demand to make drinking water safer and more delicious, and to add calcium ions at the time of drinking to remove chlorine ions after sterilization and to use reverse osmosis membranes. It is used in various ways to prevent the passage of various bacteria or to adsorb mixed impurities by activated carbon.
[0005]
On the other hand, as a method of reforming water without direct contact with water, one or more permanent magnets are attached to a water supply pipe or faucet for a long time, and it is planned to give water molecules electric charges in a magnetic field, Devices have been devised that combine magnetic force with far-infrared radiating materials to promote the phenomenon.
[0006]
[Problems to be solved by the invention]
However, in the above-mentioned various chemical treatment methods, the performance of the treatment material is deteriorated, and it is necessary to adjust and replenish the treatment material each time, and it is difficult and troublesome to see the standard. In addition, in the physical treatment method using magnetic force or far-infrared rays, a permanent magnet having a considerably strong magnetic force must be used in order to obtain a visible effect, since a magnetic field must be created even in flowing water. In addition, attention must be paid to the installation of the device, and even after the installation, there is a problem that the strong residual magnetic flux density of the entire device may hinder the normal operation of peripheral IC-related precision devices.
[0007]
Furthermore, in a known combination of a permanent magnet and a magnetic water activation device to which a far-infrared radiating substance is attached in addition, a magnetic force range acting on water is narrow, and therefore, the efficiency of transforming water is low, so that the inside of the tube is poor. Although it is convenient for the purification of water, there is a drawback that the properties of the flowing water that has passed through the apparatus part are not different from the raw water in a short time.
[0008]
[Means for Solving the Problems]
Means for Solving the Problems In order to solve the above-mentioned problems, the present inventors have obtained a simple installation operation and a long-term performance stability, and have no fear of adversely affecting people and the environment. As a result of our intensive research, we created a permanent magnet with a far-infrared radiating substance applied to the surface of the limited pole and fixed it to a water supply pipe and / or faucet, and then flowed water The present inventors have found that water can be efficiently activated without any chemical treatment being suspended, and that the state can be maintained for a long time.
[0009]
That is, the first aspect of the present invention is that when the N poles of the permanent magnets attached to the water supply pipe and / or the faucet are opposed to each other to induce a repulsive magnetic field inside the water supply pipe and / or the faucet, A method for activating flowing water in a conduit, characterized by applying far-infrared rays emitted from biotite contained in germanium close to the surface.
[0010]
A second aspect of the present invention is that the biotite contained in germanium is applied as a powder on the surface of a permanent magnet, or applied on a ferromagnetic plate and adsorbed on a permanent magnet, or used as a powder or granules. The method for activating flowing water in a conduit according to
[0011]
A third aspect of the present invention is that the
[0012]
A fourth aspect of the present invention is a permanent magnet comprising a magnetic plate obtained by baking a biotite powder containing germanium and a resin-based paint, and then adhering a coating film with a magnetic force. The device for activating flowing water in a conduit according to
[0013]
A fifth aspect of the present invention is a device for activating flowing water in a conduit, wherein the biotite granules contained in germanium and the permanent magnet are contact-filled in the box-
[0014]
A sixth aspect of the present invention is a method for activating flowing water in a conduit, comprising a rectangular band formed of a bonded magnet molded product that is processed and coexisted with germanium intrinsic biotite powder and ferromagnetic powder. It is a device.
[0015]
[Embodiment of the present invention]
In the present invention, the type of the permanent magnet is not particularly limited, and may be either a ferrite magnet or a rare earth magnet. Further, a bonded magnet made of those permanent magnet powders and plastic or rubber may be used.
[0016]
In the present invention, it is necessary that the biotite contains germanium between layers as a far-infrared radiating substance under low temperature conditions.
[0017]
In the present invention, it is necessary that the poles to be opposed be N poles and that a repulsive force acting between the poles acts on flowing water. In this case, the type of running water is not limited, and natural water, tap water, non-potable middle water, seawater may be used, and further, a detergent, a preservative, a rust inhibitor, etc. are mixed therein. But it's fine.
[0018]
In the present invention, the material of the ferromagnetic plate for coating and adhering the biotite powder intrinsic to germanium is not particularly limited, and for example, a material containing iron, cobalt, nickel or the like is used.
[0019]
In the present invention, in order to ensure that the repulsive force between the N poles acts on the flowing water in the conduit, a minimum of two members each having a permanent magnet fixed to the holding material are prepared, and the two members are opposed to each other outside the conduit. It is necessary to form the state, but in this case, the way of securing the relative state may be screwing between members, wire winding, clamping method or tape fixing, or a fixed frame previously molded integrally A method may be used in which the N poles of the permanent magnets are held so as to be opposed to each other.
[0020]
【Example】
Next, the present invention will be described with reference to examples, applied examples, and panel test examples. However, the technology and utility of the apparatus for activating water flowing in a conduit of the present invention are not limited to the following specific examples.
[0021]
18% x 50mm x 43mm squared samarium iron-nitrogen magnet with a surface magnetic force of 4800 gauss and a total of 65% germanium intrinsic biotite powder (product of Akebono Co., Ltd., Korea) with an average particle size of 5m After applying an epoxy coat having a thickness of 50 μm, a member fixed to a holding member made of SUS316L stainless steel and ABS resin with the N pole facing up was formed as shown in FIG.
[0022]
Next, two members of FIG. 1 are opposed to each other with a household stainless steel water tap (having an outer diameter of 16 mm) therebetween, and both ends are tied with copper wires as shown in FIG. An activation device was manufactured.
[0023]
A 18 mm × 50 mm × 43 mm square processed neodymium iron boron magnet having a surface magnetic force of 4350 gauss was fixed to a holding material made of SUS316L stainless steel and ABS resin with the N-pole up as in Example 1, and then the thickness was increased. A 60% germanium intrinsic biotite powder (provided by Akebono Co., Ltd., Korea) having an average particle size of 5 μm on an iron plate (having a size of 13 mm × 25 mm) having a thickness of 0.6 mm and an oil-based one-component acrylic resin paint 40 % By baking treatment with a mixture of the mixture and a magnetic film to which a coating film having a thickness of 60 μm was adhered was prepared as shown in FIG.
[0024]
Next, two members of FIG. 3 are opposed to each other with a household stainless steel water tap (having an outer diameter of 16 mm) interposed therebetween and screwed at two places as shown in FIG. Chemical appliances were manufactured.
[0025]
[Comparative Example 1]
The same samarium-iron-nitrogen magnet as in Example 1 was fixed to a holding material made of SUS316L stainless steel and ABS resin with the N pole facing up without coating and attaching the biotite contained in germanium. In the same manner as in Example 1, it was tied with a wire facing the household water tap.
[0026]
[Comparative Example 2]
After fixing the same neodymium iron boron magnet as in Example 2 with the N pole facing up to a holding member made of SUS316L stainless steel and ABS resin, a 0.6 mm-thick iron plate (13 mm x 25 mm) was used. Baking treatment with a mixture of 60% biotite powder having an average particle size of 5 μm (with a hardness of 2.7 and specific gravity of 3.0 collected from pegmatite) and 40% of an oil-based one-pack type acrylic resin-based paint, Two members having a 60 μm-thick coated film adhered thereto by magnetic force were prepared, and screwed to face a household water tap in the same manner as in Example 2.
[0027]
[Comparative Example 3]
After fixing the same neodymium iron boron magnet as in Example 2 with the N pole facing up to a holding member made of SUS316L stainless steel and ABS resin, a 0.6 mm-thick iron plate (13 mm x 25 mm) was used. Baking treatment with a mixture of 60% of a silica-alumina ceramic far-infrared radiator powder containing iron oxide and zirconium oxide having an average particle size of 5 μm and 40% of an oil-based one-pack type acrylic resin-based coating material gives a coating having a thickness of 60 μm. Two members in which the film was adhered were magnetically attracted, and two members were prepared. The members were screwed to the household water tap in the same manner as in Example 2.
[0028]
[Comparative Example 4]
The same neodymium iron boron magnet as in Example 2 was fixed to a holding member made of SUS316L stainless steel and ABS resin with the S pole facing up, and then fixed on a 0.6 mm-thick iron plate (13 mm x 25 mm). Baking treatment with a mixture of 60% of germanium intrinsic biotite powder having an average particle size of 5 μm (manufactured by Akebono Co., Ltd., Korea) and 40% of an oil-based one-component acrylic resin paint, to give a 60 μm thick coating film Two members were prepared by magnetically adsorbing the adhered material, and screwed against a household water tap in the same manner as in Example 2.
[0029]
A 25 mm x 60 mm x 50 mm square ferrite magnet with a surface magnetic force of 7,500 gauss and 2 g of germanium-incorporated biotite granules (average particle size: 1 mm, manufactured by Akebono Co., Ltd., Korea) made of SUS316L stainless steel box A member which was filled in the holding material, and was hermetically fixed with the N-pole facing the surface was prepared as shown in FIG. Next, two members shown in FIG. 5 are opposed to each other with a commercial PVC water supply pipe (having an outer diameter of 20 mm) and tightened and fixed with a clamp as shown in FIG. A running water activation device was manufactured.
[0030]
[Comparative Example 5]
Two ferrite magnets similar to those in Example 3 were prepared, and each was selected so that the N-pole surface and the S-pole surface were the surfaces, and germanium-incorporated biotite granules (provided by Akebono Co., Ltd., Korea) After being hermetically fixed to a SUS316L stainless steel box-shaped holding material together with 2 g, as shown in FIG. 7, it was directly fixed to a commercial PVC water supply pipe (having an outer diameter of 20 mm) by magnetic attraction.
[0031]
An average degree of polymerization of 800, tensile strength (MPa) of 47.7, 18 parts by weight of ethylene-vinyl chloride resin having a softening temperature of 64 ° C., and germanium intrinsic biotite powder having an average particle diameter of 5 μm (provided by Akebono Co., Ltd., Korea) ) 4 parts by weight and 78 parts by weight of samarium iron nitrogen powder having an average particle size of 1 µm were charged into a Brabender and mixed, and then kneaded at 160 to 170 ° C for 15 seconds by calender extrusion molding to have a width of 7 mm and a thickness of 4 mm. Was formed on a member magnetized to a surface magnetic force of 1400 gauss such that the front and back of the wide surface were N and S, respectively.
[0032]
Next, after winding around a commercial stainless steel water supply pipe (having an outer diameter of 20 mm) for 15 cm with the N-pole inside, the both ends were fixed with cloth gum tape as shown in FIG. An in-conduit flow water activation device was manufactured.
[0033]
[Application Example 1]
The water flow activating device in the conduits of Examples 1 to 4 of the present invention and the magnetic device of Comparative Examples 1 to 5 were separately used for domestic or commercial water supply devices (however, all tap water raw water is used in Shinjuku-ku, Tokyo) ), Water samples were allowed to flow for 10 minutes, and 1 kg of each water sample was collected in a 1-liter beaker. Thereafter, for each water sample, 10 fish killifish for fish toxicity test were put, and the upper part of the beaker was sealed with polyethylene wrap, and the beaker was allowed to stand at 23 ° C., 50% RH, and constant temperature and humidity. Table 1 shows the results of observing the number of dead medaka fish.
[0034]
[Table 1]
As is clear from Table 1, the running water that once passed through the installation location of the in-conduit running water activating device of the present invention is kept in an activated state for a long time, and has a favorable effect on the physiological activity of animals. It was confirmed that.
[0036]
[Application example 2]
The water flow activating device in the conduits of Examples 1 to 4 of the present invention and the magnetic device of Comparative Examples 1 to 5 were separately used for domestic or commercial water supply devices (however, all tap water raw water is used in Yachiyo City, Chiba Prefecture). And 20 g each of water samples immediately after running water are sprayed twice a day separately on the soil portion where snapdragons are planted in 400 g of pot cultivation soil containing 10% humus. did. Thereafter, daily observation was performed, and the result of examining the day when the flower opened was shown in Table 2.
[0037]
[Table 2]
As is clear from Table 2, it was confirmed that the use of the apparatus for activating water flowing in the conduit of the present invention produced water which had a positive effect on the physiological activity of plants.
[0039]
[Application example 3]
The water flow activation device in the conduits of Examples 1 to 4 of the present invention and the magnetic device of Comparative Examples 1 to 5 were separately used for domestic or commercial water supply devices (however, all tap water raw water is used in Chiba City, Chiba Prefecture). ), 500 g of a water sample immediately after flowing water was collected in a 1-liter beaker. After that, while the water temperature was adjusted to 20 ° C., each of the water samples was charged with 5 petit tomatoes each, and the one immersed for 30 minutes was cut, and the sugar content of the extracted liquid was examined with an Atago handheld refractometer, and the average was measured. Table 3 shows the results of calculating the values.
[0040]
[Table 3]
As is evident from Table 3, it was confirmed that the use of the apparatus for activating flowing water in a conduit of the present invention was more effective in increasing the commercial value of vegetables after collection.
[0042]
[Example of panel test]
The results of the panel test are shown below.
[0043]
[Panel test example 1]
Randomly selected 100 male and female 20-70-year-olds who cook and dine at home or in the office were treated as tap water raw water (provided that they are used in Chiba City, Chiba Prefecture) and Examples 1 to 5 of the present invention. The water sample which was made to flow from a water supply device to which the flowing water activation device in the conduit of No. 4 and the magnetic devices of Comparative Examples 1 to 5 were separately attached was injected five times, 1.5 liters each, into 10 electric kettles for each type. Then, 300 g of white rice (but Chiba Koshihikari) was sharpened and immediately cooked. After that, ten kinds of cooked rice were tasted by one person, and the results of the appearance and texture of the cooked rice before the meal were shown in Table 4 according to the following criteria.
[0044]
(1) Appearance of cooked rice The following criteria were used.
A: All of the 10 tasters determined to be in a completely white cooked state.
B: 7 to 9 out of 10 tasters determined to be in a white cooked state.
C: Five or six out of the ten tasters judged that the rice was completely cooked.
D: 6 or more of the 10 tasters judged that the food was cooked in a yellowed state.
[0045]
(2) Texture The following criteria were used.
A: All 10 tasters felt that rice was particularly delicious.
B: 7 to 9 out of 10 samplers felt that rice was particularly delicious.
C: Five or six out of ten tasters felt that rice was particularly delicious.
D: Out of 10 tasters, 4 or less people felt that rice was particularly delicious.
[0046]
[Table 4]
As can be seen from Table 4, it was confirmed that flowing water passing through the in-conduit flowing water activating device of the present invention produced an extremely advantageous effect in food production.
[0048]
[Panel test example 2]
100 males and females aged 16 to 75 years were randomly selected as subjects, and the tap water raw water (used in Hitachi City, Ibaraki Prefecture) and the apparatus for activating water flowing in the conduits of Examples 1 to 4 of the present invention and Comparative Examples After injecting 150 liters of a water sample from a water supply device to which each of the
[0049]
(1) Atmosphere at the time of bathing The following criteria were used.
A: All 10 bathers judged that the hot water felt soft and comfortable.
B: 7 to 9 out of 10 bathers judged that the hot water felt soft and comfortable.
C: Five or six out of ten bathers judged that the hot water felt soft and comfortable.
D: Out of 10 bathers, the hot water feels soft, and 4 or less are judged to be comfortable.
[0050]
(2) Situation of
◎: All ten bathers judged that the inner wall of the bathtub had no stain.
・ ・ ・: 7 to 9 out of 10 bathers judged that the bathtub inner wall was not stained.
Δ: 5 to 6 out of 10 bathers judged that the bathtub inner wall was not stained.
×: Out of 10 bathers, 4 or less who judged that the inner wall of the bathtub was not stained.
[0051]
[Table 5]
As can be seen from Table 5, it was confirmed that the running water flowing through the in-conduit running water activating device of the present invention was in an extremely good condition in bathing and subsequent bathtub cleaning work which is indispensable for human healthy life. Was done.
[0053]
【The invention's effect】
The device for activating water flowing in a conduit in the method for activating water flowing in a conduit according to the present invention utilizes a repulsive force of N poles among magnetic forces, and contains, in its magnetic field, germanium, a useful element which is said to be beneficial to human health. A physics-applied instrument consisting of placing the far-infrared radiation biotite under low-temperature conditions and transmitting energy, and simply attaching the instrument of the present invention to the outside of the conduit, as well as any other chemical substances against water. Can be used semi-permanently without adding any consumables.
[0054]
Therefore, by carrying out the present invention, it is possible to produce good water with high physiological activity and good reproducibility at a simple and low cost, with a sense of security, and with good reproducibility at all times. It is very useful for improving washing water, cultivation water for agriculture, aquaculture water for fisheries, etc.
[Brief description of the drawings]
FIG. 1 is a perspective view of a member for activating water flowing in a conduit according to
FIG. 2 is a cross-sectional view of Example 1 in which the running water activating device of the present invention is attached to a stainless steel water tap.
FIG. 3 is a perspective view of a member for activating water flowing in a conduit according to
FIG. 4 is a cross-sectional view of Example 2 in which the running water activating device of the present invention is attached to a stainless steel water tap.
FIG. 5 is a perspective view of a member for activating flowing water in a conduit according to
FIG. 6 is a cross-sectional view of Example 3 in which the running water activating device of the present invention is attached to a vinyl chloride main conduit.
FIG. 7 is a sectional view in which the magnetic device of Comparative Example 5 is attached to a vinyl chloride main conduit.
FIG. 8 is a perspective cross-sectional view of Example 4 in which the running water activating device of the present invention is attached to a stainless steel main conduit.
[Explanation of symbols]
DESCRIPTION OF
Claims (6)
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2002248424A JP4152151B2 (en) | 2002-08-28 | 2002-08-28 | In-conduit water activation method and in-conduit water activation device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2002248424A JP4152151B2 (en) | 2002-08-28 | 2002-08-28 | In-conduit water activation method and in-conduit water activation device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JP2004082025A true JP2004082025A (en) | 2004-03-18 |
| JP4152151B2 JP4152151B2 (en) | 2008-09-17 |
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| Application Number | Title | Priority Date | Filing Date |
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| JP2002248424A Expired - Fee Related JP4152151B2 (en) | 2002-08-28 | 2002-08-28 | In-conduit water activation method and in-conduit water activation device |
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| Country | Link |
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| JP (1) | JP4152151B2 (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US7229561B1 (en) * | 2004-02-27 | 2007-06-12 | Hiroyoshi Hamanaka | Method of in-pipe activation of running water and in-pipe activator for running water as well as method of maintaining body temperature by way of promoting blood flow |
-
2002
- 2002-08-28 JP JP2002248424A patent/JP4152151B2/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US7229561B1 (en) * | 2004-02-27 | 2007-06-12 | Hiroyoshi Hamanaka | Method of in-pipe activation of running water and in-pipe activator for running water as well as method of maintaining body temperature by way of promoting blood flow |
Also Published As
| Publication number | Publication date |
|---|---|
| JP4152151B2 (en) | 2008-09-17 |
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