JP4884686B2 - Dissolved water of ultrafine gold particles and its use - Google Patents
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Description
本発明は、金の超微粒子の溶解した水に関するもので、金の超微粒子の溶解水を応用した飲料水に関するものである。 The present invention relates to water in which gold ultrafine particles are dissolved, and relates to drinking water to which gold ultrafine particle dissolved water is applied.
金は、古来から、最も貴重な貴金属として重用され、主として装飾品や財宝の形態で使用されてきたが、近年には人体の健康増進への効能も認識され、純金健康ブレスレットや金箔入り日本酒などとして利用されていた。しかし、これらの健康製品は、高価な純金を含んでいるという高級感は卓越していても、健康面への効能は十分には認知されなかった。最近においては、健康志向の社会的風潮に応じて、金の健康機能も再び注目され始め、金の金属単体や金箔よりも金イオンや金微粒子などの形態での使用が、健康増進機能が顕著であると知られるに至った。 Gold has long been used as the most valuable precious metal and has been used mainly in the form of ornaments and treasures, but in recent years it has also been recognized for its effects on promoting the health of the human body, such as pure gold health bracelets and sake with gold leaf. It was used as. However, even though these health products have a high-class feeling that they contain expensive pure gold, their health benefits have not been fully recognized. In recent years, the health function of gold has begun to attract attention in response to the health-oriented social trend, and the use of gold ions and gold fine particles in the form of gold ions and gold fine particles is more prominent than gold metal alone or gold leaf. It became known that.
金イオンや金微粒子の健康増進機能や病気治癒効果の可能性は注目度が高く、金の健康面への寄与の大きいことも知られており(高田富風著「『金の水』がサジを投げられた難病を治す」)、今後の技術開発が期待されるところであるが、特に応用面では金イオンや金の微粒子の水溶液や水分散液の利用であるが、これらの実用化においていくつかの解決されるべき問題点がある。
上述するように金の微粒子を含む水も公知である(同上本、第64頁)が、水に金箔か金粉を単に分散させるのがほとんどで、金イオンや金微粒子を水に溶け込ますのはきわめて難しく、今までは王水もしくは金の電解液による方法しかなかった。
これらの従来法では、生産コストや経済性を満たしておらず、しかも健康増進機能において十分な効果が奏されないなどの技術的な問題が残っていた。
The health promotion function and disease healing effect of gold ions and gold fine particles are attracting attention, and it is also known that gold contributes significantly to the health aspect ("Future of gold" The future development of technology is expected, but especially in terms of applications, it is the use of aqueous solutions and aqueous dispersions of gold ions and gold fine particles. There is a problem to be solved.
As mentioned above, water containing fine gold particles is also known (same as above, page 64), but most of the gold foil or gold powder is simply dispersed in water, and gold ions or gold fine particles are dissolved in water. It was extremely difficult, and until now there was only a method using aqua regia or gold electrolyte.
These conventional methods still have technical problems such as not satisfying the production cost and economical efficiency and not being effective enough for the health promotion function.
これらの従来の問題点の解決を図り、金イオンや金微粒子の健康増進機能や病気治癒効果の可能性を実現すべく、この技術分野において技術開発が進められているものと考えられる。しかしながら、技術開発の進展を反映するといわれる特許公開公報には、この分野の技術は僅かしか開示されておらず、依然としてこの分野の技術開発の可能性の高いことがわかる。
開示されたわずかの公開技術をみてみると、実用新案登録第3046284号公報に、ポリエチレン製などの飲料用タンクの肉厚から浸透する雑菌に対応でき、飲料水の風味を損なわず溶解される薬品による悪影響を防止できる抗菌性飲料タンクを提供するために、抗菌性の金イオンなどをゼオライトのイオン交換基に固定した無機抗菌剤をポリオレフィン系成形樹脂に混入する技術、特開平9−20580号公報に、生体に有用な金イオンなどのミネラルを含有するミネラル水の供給のために、ミネラル保持体を水中に保持し、酸添加や電気分解などのミネラル放出刺激手段にて刺激を与えてミネラルを水中に放出させる技術、特開平9−10772号公報に、安価で殺菌効果の優れた殺菌防腐水の製造のために、電解浄水器で製出したpH2.6〜4.5の酸性イオン水若しくはpH2.7以下の酸化電位水に金などの重金属を溶解させる技術、特開平5−280841号公報に、金箔などの異物を氷塊中に均一に分布させた健康氷を製造するために、破砕した粒状氷に金箔を均一に撹拌混入し、異物を混入した粒状氷を製氷罐に詰め込み水を製氷罐の底部から徐々に注入して結氷させる技術などがある。
It is considered that technological development is underway in this technical field in order to solve these conventional problems and realize the health promotion function and the disease healing effect of gold ions and gold fine particles. However, in the patent publications that are said to reflect the progress of technological development, only a few technologies in this field are disclosed, and it is understood that there is still a high possibility of technology development in this field.
Looking at the few disclosed technologies disclosed in the Utility Model Registration No. 3046284, it is possible to cope with various germs penetrating from the thickness of beverage tanks such as polyethylene, and is dissolved without impairing the flavor of drinking water In order to provide an antibacterial beverage tank capable of preventing adverse effects caused by the above, a technique for mixing an inorganic antibacterial agent in which antibacterial gold ions or the like are fixed to an ion exchange group of a zeolite into a polyolefin-based molded resin, Japanese Patent Application Laid-Open No. 9-20580 In addition, in order to supply mineral water containing minerals such as gold ions useful for living bodies, the mineral holder is held in water, and the mineral is stimulated by means of stimulating mineral release such as acid addition or electrolysis. In the technique of releasing into water, Japanese Patent Application Laid-Open No. 9-10772, p produced by an electrolytic water purifier for the production of sterilized antiseptic water with low cost and excellent sterilizing effect A technology for dissolving heavy metals such as gold in acidic ion water of 2.6 to 4.5 or oxidation potential water of pH 2.7 or lower, Japanese Patent Application Laid-Open No. 5-280841, uniformly distributes foreign matters such as gold foil in ice blocks In order to produce healthy health ice, a technology that uniformly stirs and mixes gold foil into crushed granular ice, stuffs granular ice mixed with foreign substances into an ice maker, and gradually injects water from the bottom of the ice maker to freeze it. There is.
しかし、これらの従来技術のなかで、生体に有用な金イオンなどのミネラルを含有するミネラル水の供給のために、ミネラル保持体を水中に保持し、酸添加や電気分解などのミネラル放出刺激手段にて刺激を与えてミネラルを水中に放出させる技術(特開平9−10772号公報)は注目されるものの、いずれの開示技術も、上記の問題点の解決からは程遠く、基本的に解決できるものではない。
金イオンや金微粒子の活性を応用した生理活性材料や健康食品材料あるいは医薬品などへの用途は、日常生活に直接関連する技術開発として重要で利用頻度も高くなると予想され、今後の発展が非常に期待されるところである。
そこで、本発明者らは、この金イオンや金微粒子を含む水を飲用に供することによりきわめて簡単に健康の向上を図ることが可能となって、様々な症状の改善が可能になるとの予測の下に、金超微粒子を含む健康水の作成を鋭意検討し、本発明に至った。
However, among these conventional techniques, in order to supply mineral water containing minerals such as gold ions useful for living bodies, the mineral holding body is held in water, and means for stimulating mineral release such as acid addition and electrolysis are provided. Although the technology for releasing the minerals into the water by stimulating the water (Japanese Patent Laid-Open No. 9-10772) attracts attention, any of the disclosed technologies is far from solving the above problems and can be basically solved is not.
Applications to bioactive materials, health food materials, and pharmaceuticals that apply the activity of gold ions and gold fine particles are important as technological development directly related to daily life, and are expected to increase in frequency of use. This is what is expected.
Therefore, the present inventors predict that it will be possible to improve health very easily by providing water containing gold ions or gold fine particles for drinking, and various symptoms will be improved. Below, the creation of health water containing ultrafine gold particles was intensively studied to arrive at the present invention.
上述するように金イオンや金微粒子の健康増進機能や病気治癒効果の可能性は高く、今後の技術開発が期待されており、その応用態様の基本としては、金イオンや金微粒子の水溶液か水分散液が考えられるが、これらの実用化においていくつかの解決されるべき問題点がある。例えば、金イオンや金微粒子を水に溶け込ませるのが困難で、今までは、水に金箔か金粉を混入させるか金の電解液による方法しかなく、これらの従来方法では、生産コストが経済性を満たさず、健康増進機能において十分な効果が奏されず、あるいは、化学電解液の使用による生体への安全性が確認されていないなどの、技術的な問題が残っている。
このように、金イオンや金微粒子の生理活性材料や健康食品材料あるいは医薬品などの分野への応用は非常に発展が期待されているが、具体的な技術開発は未だ満足できるものではない。
そこで、本発明は、これらの問題の解決を目指し、金イオンや金微粒子の溶解水を作り、得られた水を健康増進分野に生かすことを、解決すべき課題とするものである。
As mentioned above, gold ion and gold fine particles have high health promotion and disease healing effects, and future technological development is expected. Although dispersions are conceivable, there are several problems to be solved in their practical application. For example, it is difficult to dissolve gold ions or gold fine particles in water, and until now, only gold foil or gold powder is mixed in water or gold electrolytic solution, and these conventional methods are economical in terms of production cost. However, the technical problem remains such that the health promotion function is not sufficiently effective or the safety to the living body due to the use of the chemical electrolyte has not been confirmed.
As described above, the application of gold ions and gold fine particles to fields such as physiologically active materials, health food materials, and pharmaceuticals is expected to be greatly developed, but specific technical development is still unsatisfactory.
Therefore, the present invention aims to solve these problems, and makes it a problem to be solved to make dissolved water of gold ions and gold fine particles and to use the obtained water in the health promotion field.
本発明は、上記の課題の一端を解決し、金イオンや金微粒子の有用性について技術開発と応用面での展開に寄与せんとするもので、金の微粒子の溶解水の新規な製造方法とその装置及び金の微粒子の溶解水を利用した飲料水を開発したものである。
本発明は、基本的には金箔片を浮遊させた高圧水中で酸素と水素の混合ガスを燃焼させ、その燃焼ガスで金箔片を加熱、溶融することにより、金の超微粒子の溶解水を製造し、それを飲料水とする点にあり、実際に本発明で得られた水をモニターテストしたところ、体調改善や疲労回復などにおいて顕著な効果が確認された。
本発明において金の超微粒子の溶解水とは、金粉又は金箔が単に水に浮遊した状態のものでなく、非常に微細の金の超微粒子が見かけ上、溶解した状態になった水のことを意味する。
The present invention solves one end of the above problems and contributes to the development of technical development and application of the usefulness of gold ions and gold fine particles. The device and drinking water using the dissolved water of gold fine particles were developed.
The present invention basically produces dissolved water of gold ultrafine particles by burning a mixed gas of oxygen and hydrogen in high-pressure water in which a gold foil piece is suspended, and heating and melting the gold foil piece with the combustion gas. However, when the water actually obtained by the present invention was subjected to a monitor test, it was confirmed that the effect was remarkable in improving physical condition and recovering from fatigue.
In the present invention, gold ultrafine particle dissolved water is not a state in which gold powder or gold foil is simply suspended in water, but water in which very fine gold ultrafine particles are apparently dissolved. means.
本発明は、基本的には次の(1)〜(7)の構成を有する。
(1)金箔片を浮遊させた高圧水中で酸素と水素の混合ガスを燃焼させ、その燃焼ガスで金箔片を加熱することにより得られた金の超微粒子の溶解水。
(2)金箔片を浮遊させた高圧水中で酸素と水素の混合ガスを燃焼させ、その燃焼ガスで金箔片を加熱することにより、金の超微粒子の溶解水を製造する方法。
(3)高圧水収容タンク、酸素と水素の混合ガス噴射ノズル、点火装置及び燃焼室を備えた、耐圧容器より構成される、金の超微粒子の溶解水を製造する装置。
(4)さらに、酸素と水素の混合ガスを製造するための、水電気分解装置を付設した上記(3)に記載の金の超微粒子の溶解水を製造する装置。
(5)さらに、残余の金箔片及び金微粒子を除去するための、ろ過装置を付設した上記(3)又は(4)に記載の金の超微粒子の溶解水を製造する装置。
(6)ろ過装置の逆洗によりろ過装置に残存した金の微粒子残査を洗浄、回収することを特徴とする上記(3)〜(5)の記載の金の超微粒子の溶解水を製造する装置。
(7)金の超微粒子の溶解水からなる飲料水。
The present invention basically has the following configurations (1) to (7).
(1) Dissolved water of ultrafine gold particles obtained by burning a mixed gas of oxygen and hydrogen in high-pressure water in which a gold foil piece is suspended and heating the gold foil piece with the combustion gas.
(2) A method for producing dissolved gold ultrafine particles by burning a mixed gas of oxygen and hydrogen in high-pressure water in which a gold foil piece is suspended and heating the gold foil piece with the combustion gas.
(3) An apparatus for producing dissolved gold ultrafine particles, comprising a pressure vessel, comprising a high-pressure water storage tank, a mixed gas injection nozzle of oxygen and hydrogen, an ignition device, and a combustion chamber.
(4) The apparatus for producing gold ultrafine particle dissolved water according to (3), further comprising a water electrolysis apparatus for producing a mixed gas of oxygen and hydrogen.
(5) Furthermore, the apparatus which manufactures the melt | dissolution water of the gold | metal | money ultrafine particle as described in said (3) or (4) which attached the filtration apparatus for removing the remaining gold foil piece and gold fine particles.
(6) The gold ultrafine particle dissolved water described in the above (3) to (5) is produced by washing and collecting the gold fine particle residue remaining in the filtration device by backwashing the filtration device. apparatus.
(7) Drinking water comprising dissolved gold ultrafine particles.
上述するように、本発明は、新規な金の超微粒子の溶解水及び新規な金の超微粒子の溶解水を利用した飲料水を提供するもので、金の超微粒子の溶解水を簡易に安価に得ることを可能とし、また、金の超微粒子の溶解水を飲料水とすることにより、金の超微粒子の生理活性作用を活用して、体調向上や食欲増進などの健康機能の改善に寄与できるという顕著な効果を奏するものである。 As described above, the present invention provides drinking water using novel gold ultrafine particle dissolved water and novel gold ultrafine particle dissolved water. In addition, by using the dissolved water of gold ultrafine particles as drinking water, the physiological activity of gold ultrafine particles can be used to contribute to improving health functions such as improving physical condition and appetite. There is a remarkable effect of being able to.
従来、金イオン水溶液の製造は、金メッキに使われることで知られる電気分解液が主として使用されているが、イオンの発生効率が悪く、生体への危険性も大きく用途も限定されていた。一方、金の粒子は、水に溶解せず、金の微粒子を水に分散させても、混入させた金の重量の割りには表面積が少なく、コスト効率が悪く、いずれの方法も技術的に満足されるものではない。
本発明者らは、このような従来技術の改良を鋭意に検討し、金の微粒子よりさらに微小の金の超微粒子を溶解させれば上記の諸欠点を改良できるものと考え、金の超微粒子の溶解水の製造を研究した。数々の試行錯誤の結果、高圧水の中で酸素と水素の混合ガスを燃焼させ、その燃焼ガスで金箔片を加熱する新規な製造技術を完成し、本発明に至った。
本発明の特徴は、上述するように金の通常の微粒子の粒径からさらに細分化したミクロンオーダーで、1〜2桁程度の微細な金の超微粒子が溶解した水の製造とその利用を実現したもので、単に金箔又は金の微粒子が浮遊した水に比して健康増進などの高機能面で、格段と優れるものであり、物性的には通常の水と同様に生体への安全性も確保し得る。
Conventionally, in the production of an aqueous solution of gold ions, an electrolysis solution known to be used for gold plating has been mainly used. However, the generation efficiency of ions is poor, the danger to the living body is great, and the use is limited. On the other hand, gold particles do not dissolve in water, and even if gold fine particles are dispersed in water, the surface area is small for the weight of the mixed gold and the cost efficiency is low. Not satisfied.
The present inventors have intensively studied the improvement of such a conventional technique, and believe that the above-mentioned drawbacks can be improved by dissolving fine gold ultrafine particles further than gold fine particles. The production of dissolved water was studied. As a result of many trials and errors, a novel manufacturing technique for burning a mixed gas of oxygen and hydrogen in high-pressure water and heating a gold foil piece with the combustion gas was completed, and the present invention was achieved.
The feature of the present invention is the production and use of water in which fine gold ultrafine particles of about 1 to 2 digits are dissolved in the micron order further subdivided from the particle size of normal gold fine particles as described above. Compared to water in which gold foil or gold microparticles are suspended, it is much superior in terms of health, such as health promotion, and in terms of physical properties, it is as safe as living water. It can be secured.
本発明における第1の特徴は、金箔片を浮遊させた高圧水中で酸素と水素の混合ガスを燃焼させ、その燃焼ガスで金箔片を加熱することにより、金の超微粒子の溶解水を製造する方法で、その工程の概要は図1に示される。
また、本発明では、水中に金の超微粒子が溶解する溶解水を製造する方法を実施する装置も開発し、図2に製造装置として図示されている。
本発明の基本的製造法は、加圧タンク内に水を注入し、金箔片を浮遊状態で混入し、撹拌した後に、高圧下に加圧し、ノズルから水素と酸素の混合ガスとして噴射して、混合ガスを完全に燃焼し、完全な超高温の水蒸気ガス燃焼状態とし、その燃焼ガス中で金箔片が瞬間的に溶解し水中に分散する。このときにミクロンスケールの非常に細かい金の超微粒子が生成され、分散状態というよりも見かけ上、溶解した状態になる。水中での燃焼は、水素と酸素の混合ガスが最も効率的で安定燃焼でき、その安定燃焼のために高圧が必要となる。
なお、高圧水中の燃焼ガス中で金箔片が瞬間的に溶解し、超微粒子となる物理的あるいは化学的な理由は未だ不明である。
The first feature of the present invention is to produce gold-dissolved water by burning a mixed gas of oxygen and hydrogen in high-pressure water in which a gold foil piece is suspended and heating the gold foil piece with the combustion gas. In the method, an overview of the process is shown in FIG.
In the present invention, an apparatus for carrying out a method for producing dissolved water in which ultrafine gold particles are dissolved in water has also been developed, and is shown as a production apparatus in FIG.
The basic production method of the present invention is to inject water into a pressurized tank, mix a piece of gold foil in a floating state, agitate, pressurize under high pressure, and inject as a mixed gas of hydrogen and oxygen from a nozzle. Then, the mixed gas is completely burned to be in a completely superheated steam gas combustion state, and the gold foil pieces are instantaneously dissolved in the combustion gas and dispersed in water. At this time, very fine gold ultrafine particles on the micron scale are generated, and are apparently dissolved rather than dispersed. For combustion in water, a mixed gas of hydrogen and oxygen is the most efficient and stable combustion, and high pressure is required for the stable combustion.
The physical or chemical reason why the gold foil pieces are instantaneously dissolved in the combustion gas in high-pressure water and become ultrafine particles is still unclear.
製造された水は、ろ過することなくそのまま利用することができるし、またその用途によりフィルタ−などでろ過することにより、残余の金箔片や超微粒子より大きめの微量の金微粒子が除去され、超微粒子のみが溶解した溶解水が得られる。フィルターで残渣となるような金箔片や金微粒子は適宜逆洗により回収し、再使用することにより経済性を改善する。
本発明の製造法における水素と酸素ガスの供給は、水素と酸素の比が2対1になるように精密な制御が必要である。反応させる時間と燃焼させる燃料の量の制御も必要で、反応時間が短い場合は製造した水が所望の効果をもたらさず、反応時間が長すぎると飲料水としての味が損なわれる。
The produced water can be used as it is without being filtered, and by filtering with a filter or the like depending on the use, the remaining gold foil pieces and a minute amount of gold fine particles larger than the ultra fine particles are removed, Dissolved water in which only fine particles are dissolved is obtained. Gold foil pieces and gold fine particles that become a residue by a filter are appropriately recovered by backwashing and reused to improve economy.
The supply of hydrogen and oxygen gas in the production method of the present invention requires precise control so that the ratio of hydrogen to oxygen is 2: 1. It is also necessary to control the reaction time and the amount of fuel to be burned. If the reaction time is short, the produced water does not produce the desired effect, and if the reaction time is too long, the taste as drinking water is impaired.
図2の本発明の金の超微粒子が溶解する溶解水の製造装置は、高圧タンク2、酸素と水素の混合ガス噴射ノズル5、及び、燃焼室7を備えた、水中に金の超微粒子が溶解する溶解水を製造する装置1である。付設するものとして、原料の水素と酸素の混合ガスを供給するための水の電気分解装置16及び得られた溶解水のろ過装置14が設置される。
本発明における製造容器は、金属製、好ましくはスチール製の耐圧タンク(高圧タンク)2であり、加圧水3用の水が供給口8より供給され、同時に金箔片4も混入され、電動モーターにより駆動される撹拌機11にて撹拌混合される。水素供給路9と酸素供給路10から供給された水素と酸素の混合ガス6の噴射ノズル5の周囲に燃焼室7が設けられ、混合ガスは点火装置12により点火され、完全に燃焼し、完全な超高温の水蒸気ガス燃焼状態となり、その燃焼ガスにて瞬時に金箔片が溶解して、水中に金の超微粒子が溶解する溶解水が製造される。
The dissolved water production apparatus for dissolving gold ultrafine particles of the present invention shown in FIG. 2 includes a high-pressure tank 2, a mixed gas injection nozzle 5 of oxygen and hydrogen, and a combustion chamber 7. It is the apparatus 1 which manufactures the melt | dissolution water which melt | dissolves. In addition, a water electrolysis device 16 for supplying a mixed gas of raw material hydrogen and oxygen and a filter device 14 for the obtained dissolved water are installed.
The production container according to the present invention is a pressure tank (high pressure tank) 2 made of metal, preferably steel, and water for pressurized water 3 is supplied from a supply port 8, and at the same time, a gold leaf piece 4 is mixed and driven by an electric motor. The agitator 11 is mixed with stirring. A combustion chamber 7 is provided around an injection nozzle 5 for a mixed gas 6 of hydrogen and oxygen supplied from a hydrogen supply path 9 and an oxygen supply path 10, and the mixed gas is ignited by an ignition device 12 and completely burned. In this state, an ultra-high temperature steam gas is combusted, and the gold foil pieces are instantaneously dissolved by the combustion gas, thereby producing dissolved water in which ultrafine gold particles are dissolved in water.
得られた溶解水は、そのまま利用してもよいし、ポンプ13にてフィルターハウジング(ろ過装置)14を通過し、製品15として送出される。フィルターとしては超微粒子のみをろ過させるために、イオン交換膜や逆浸透膜よりも、中空糸膜のミクロンオーダーのものが好適に使用される。
なお、本発明における製造スケ−ルとしては、1トンの溶解水を製造する生産スケールでは、毎秒5L程度の混合ガスの噴射量で2時間程度がよく、またガス圧力もかけ過ぎると、装置の構造が破壊される危険があり、圧力が少ないと、ノズルからガスが吹きあがってしまい加熱された金箔片がそのまゝ気抱に包まれ、水上に発散して金の超微粒子の発生状態が悪くなる。このときの好ましい気圧は、3.5気圧程度である。加圧タンク内の高圧に加圧した水の圧力は、2気圧程度とする。
The obtained dissolved water may be used as it is, or is passed as a product 15 through a filter housing (filtering device) 14 by a pump 13. As the filter, a micron order hollow fiber membrane is preferably used rather than an ion exchange membrane or a reverse osmosis membrane in order to filter only ultrafine particles.
In addition, as a production scale in the present invention, in a production scale for producing 1 ton of dissolved water, an injection amount of a mixed gas of about 5 L per second is good for about 2 hours, and if the gas pressure is excessively applied, There is a risk of damage to the structure, and if the pressure is low, the gas blows out from the nozzle, the heated gold foil pieces are wrapped in the atmosphere, and they diverge on the water and the generation state of gold ultrafine particles Deteriorate. A preferable atmospheric pressure at this time is about 3.5 atmospheric pressure. The pressure of the pressurized water in the pressurized tank is about 2 atmospheres.
また、本発明の装置においては、水電気分解装置16に換えて原料ガス供給ボンベを併設し、水素と酸素を燃料とすることも可能である。しかし水の電気分解により供給される水素と酸素は純粋な原料であり、原料の水素と酸素の供給が容易となる。
水電気分解装置16は、通常の装置を使用し、水18と電極板19、20を収納する容器17からなり、電極は電源20に接続される。
酸性又はアルカリ性原料水を電気分解して、陽極に酸素ガスを陰極に水素ガスを発生させ、燃焼用原料ガスとして供給する。
In the apparatus of the present invention, a raw material gas supply cylinder can be provided in place of the water electrolysis apparatus 16 to use hydrogen and oxygen as fuel. However, hydrogen and oxygen supplied by electrolysis of water are pure raw materials, and the supply of hydrogen and oxygen as raw materials becomes easy.
The water electrolyzer 16 uses a normal device and includes a container 17 that stores water 18 and electrode plates 19 and 20, and the electrodes are connected to a power source 20.
Acidic or alkaline raw water is electrolyzed, oxygen gas is generated at the anode, and hydrogen gas is generated at the cathode, and supplied as a raw material gas for combustion.
さらに、本装置においては、生成した溶解水中の残余の金箔片及び金粒子を除去する必要のあるときには、フィルターハウジング14を付設することが好適である。本装置で製造された水は、その用途別にフィルターなどでろ過すると、残余の金箔片や超微粒子より大きめの微量の金微粒子が除去され、フィルターを通過した超微粒子のみが溶解した溶解水が得られる。フィルターでろ過された金箔片や金微粒子は、逆洗により回収し、再使用して経済性に寄与させる。 Furthermore, in this apparatus, when it is necessary to remove the remaining gold foil pieces and gold particles in the generated dissolved water, it is preferable to attach the filter housing 14. When the water produced by this device is filtered with a filter according to its use, the remaining gold foil pieces and a minute amount of gold fine particles larger than the ultra fine particles are removed, and dissolved water in which only the ultra fine particles that have passed through the filter are dissolved is obtained. It is done. Gold foil pieces and gold fine particles filtered by a filter are collected by backwashing and reused to contribute to economy.
さらにまた、上述の方法及び装置にて製造される、水中に金の超微粒子が溶解する溶解水からなる飲料水であり、精製は上述のように中空糸膜のミクロンオーダーのものを配設したフィルターハウジング14により行なわれ、飲料水としては適宜、残余の金箔片や金の微粒子をろ過すればよい。
ろ過することにより、食品衛生規格にも合致した飲料水を得ることができる。中空糸膜フィルターによるろ過は、一例として、先ず生成液が反応タンクより排出された場所に50ミクロン、次に25ミクロン、3ミクロン、0.5ミクロン、0.1ミクロンの中空糸膜で順次にろ過を行なう。
Furthermore, it is a drinking water made of dissolved water in which gold ultrafine particles are dissolved in water, which is produced by the above-described method and apparatus, and purification is provided with micron-order hollow fiber membranes as described above. What is necessary is just to filter the remaining gold-foil piece and gold | metal fine particles suitably as drinking water performed by the filter housing 14.
By filtering, it is possible to obtain drinking water that meets food hygiene standards. As an example, filtration with a hollow fiber membrane filter is performed by sequentially using a hollow fiber membrane of 50 microns, then 25 microns, 3 microns, 0.5 microns, and 0.1 microns at the place where the product liquid is discharged from the reaction tank. Filter.
本発明で得られた飲料水は、最近の社会の健康志向に応じて、その要望に十分に応えられる画期的な飲料になると確信されるが、水中に金の超微粒子が溶解する溶解水が、何故に健康への効能を有し、また、いかなる生理活性作用を呈するのかは、現在では不明であるけれども、後記のように、サンプルをモニターに試飲させたところ体調改善や疲労回復などに顕著な改善がみられ、実際の効能が確認された。金の超微粒子のイオン放射効果や超微粒子の有する非常に大きな活性表面積によって、あるいは金の単体が固有する貴金属としての特性、さらには金の化学的物理的安定性によって、生体内での安定性や腸吸収性などの生理効果が発揮されるものと推測される。 The drinking water obtained in the present invention is believed to be an epoch-making beverage that can fully meet the demands according to the recent health orientation of society, but the dissolved water in which ultrafine gold particles are dissolved in water However, it is unclear at present why it has health effects and what kind of physiological activity it exhibits, but when the sample was sampled by a monitor as described below, it was used to improve physical condition and recover from fatigue. Significant improvement was observed, confirming actual efficacy. In vivo stability due to the ion radiation effect of ultrafine particles of gold, the extremely large active surface area of ultrafine particles, the characteristics of gold as a precious metal, and the chemical and physical stability of gold It is estimated that physiological effects such as intestinal absorbability and the like are exhibited.
実施例に基づき、図面に沿って、本発明の実施の態様を説明するが、本発明はこれらに限定されるものではない。 Embodiments of the present invention will be described with reference to the drawings based on examples, but the present invention is not limited thereto.
[実施例]
図2の高圧タンク2、水素と酸素の混合ガス噴射ノズル5、及び、混合ガスの燃焼室7を備えた、水中に金の超微粒子が溶解する溶解水を製造する方法を実施する装置1である。
具体的な作用は以下のとおりで、製造容器は金属製の、好ましくはスチール製の耐圧タンク2であり、加圧水3用の水が供給口8より供給され、同時に金箔片4も混入され、電動モ−タ−により駆動される撹拌機11にて撹拌混合される。水素供給路9と酸素供給路10とから供給された水素と酸素との混合ガス6の噴射ノズル5の周囲に燃焼室7が設けられ、混合ガスは点火装置12により点火され、完全に燃焼し、完全な超高温の水蒸気ガス燃焼状態となり、その燃焼ガスにて瞬時に金箔片が溶解して、水中に金の超微粒子が溶解する溶解水が作製される。金溶解水は、適宜、ポンプ13にてフィルターハウジング14を経て、製品15として送出される。
[Example]
An apparatus 1 for carrying out a method for producing dissolved water in which ultrafine particles of gold are dissolved in water, comprising the high-pressure tank 2, the mixed gas injection nozzle 5 of hydrogen and oxygen, and the combustion chamber 7 of the mixed gas in FIG. is there.
The specific operation is as follows, and the production container is a pressure tank 2 made of metal, preferably made of steel, and water for pressurized water 3 is supplied from the supply port 8 and at the same time, the gold foil piece 4 is also mixed. The mixture is stirred and mixed by a stirrer 11 driven by a motor. A combustion chamber 7 is provided around the injection nozzle 5 of the mixed gas 6 of hydrogen and oxygen supplied from the hydrogen supply path 9 and the oxygen supply path 10, and the mixed gas is ignited by the ignition device 12 and completely burned. Then, a completely super high-temperature steam gas combustion state is achieved, and the gold foil pieces are instantaneously dissolved by the combustion gas, and dissolved water in which gold ultrafine particles are dissolved in water is produced. The gold-dissolved water is appropriately sent as a product 15 through a filter housing 14 by a pump 13.
操作条件
加圧水;水1トン
圧力;2kg/m2
混合ガス;5L/sec 3.5気圧
噴射時間;2時間
金箔片供給量;50g
生成溶解水;約1トン
生成した溶解水を、50ミクロン、次に25ミクロン、3ミクロン、0.5ミクロ ン、0.1ミクロンの中空糸膜で順次にろ過を行ない、金の超微粒子を溶解した飲料水を得た。
Operating conditions : Pressurized water; 1 ton pressure of water; 2 kg / m 2
Mixed gas: 5 L / sec 3.5 atmospheric pressure injection time; 2 hours Gold foil piece supply amount: 50 g
Generated dissolved water: about 1 ton The generated dissolved water is filtered through hollow fiber membranes of 50 microns, then 25 microns, 3 microns, 0.5 microns, and 0.1 microns in order to obtain ultrafine gold particles. Dissolved drinking water was obtained.
飲料水の試飲
成人男女10人のモニターにより、金の超微粒子を溶解した飲料水を試飲し、健康増進及び疾病治癒への効能と効果を確認した。
By the monitor of 10 people tasting adult men and women of drinking water, tasting drinking water to dissolve the ultra-fine particles of gold, confirming the efficacy and effectiveness of health promotion and disease healing.
試飲量とその状況
1日の試飲量;コップ1杯位 5名
3杯まで 2名
4杯以上 3名
味 ;美味しい 9名
無味 1名
匂い ;気にならない 9名
気になる 1名
The amount of tasting and the situation tasting amount per day;
Up to 3 cups 2 people
More than 4 cups 3 people; delicious 9 people
Tasteless 1 person smell; 9 people who do not care
One person to be worried about
効能の確認
10名中5名で効果有り:◎
10名中3名で効果有り:○
10名中1名で効果有り:△
10名とも効果なし :×
比較水;従来技術の金箔と金の平均粒径1mmの微粒子の混合物を使用
(金10mg/10cc)=上記モニターと別のグル−プ男女10名で実施
上記基準で、本発明水及び比較例の水のモニタ−した結果を表1に示す。
Confirmation of efficacy Effective in 5 out of 10 people: ◎
Effective in 3 out of 10 people: ○
Effective in 1 out of 10 people: △
10 people have no effect: ×
Comparative water: Using a mixture of gold foil of the prior art and fine particles with an average particle diameter of 1 mm of gold
(Gold 10 mg / 10 cc) = A group of 10 men and women different from the above monitor Table 1 shows the results of monitoring the water of the present invention and the water of the comparative example based on the above criteria.
[表1]
[Table 1]
表1のモニター結果によれば、本発明の飲料が、味と臭いにおいて大部分のモニターが飲み易いと回答されている。また、体調向上や食欲増進などの健康機能の改善において顕著な効果のあることがわかった。 According to the monitor results in Table 1, the beverage of the present invention is answered that most monitors are easy to drink in taste and smell. In addition, it was found that there is a remarkable effect in improving health functions such as improving physical condition and appetite.
1; 金の超微粒子溶解水製造装置
2; 高圧タンク
3; 加圧水
4; 金箔片
5; 噴射ノズル
6; 混合ガス
7; 燃焼室
8; 水供給口
9; 水素供給路
10;酸素供給路
11;撹拌機
12;点火装置
13;ポンプ
14;ろ過装置
15;製品
16;水電気分解装置
17;電解容器
18;水
19;電極板
20;電源
DESCRIPTION OF SYMBOLS 1; Gold ultrafine particle dissolved water production apparatus 2; High pressure tank 3; Pressurized water 4; Gold foil piece 5; Injection nozzle 6; Mixed gas 7; Combustion chamber 8; Stirrer 12; Ignition device 13; Pump 14; Filtration device 15; Product 16; Water electrolysis device 17; Electrolysis vessel 18; Water 19;
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JP2008214755A (en) * | 2001-02-27 | 2008-09-18 | Fuairudo Kk | High-function water containing ultra-fine gold particle |
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