JP2017023664A - Hydrogen gas suction pipe - Google Patents

Hydrogen gas suction pipe Download PDF

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JP2017023664A
JP2017023664A JP2015157671A JP2015157671A JP2017023664A JP 2017023664 A JP2017023664 A JP 2017023664A JP 2015157671 A JP2015157671 A JP 2015157671A JP 2015157671 A JP2015157671 A JP 2015157671A JP 2017023664 A JP2017023664 A JP 2017023664A
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hydrogen
hydrogen gas
intake
suction pipe
sucked
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里香 稲葉
Rika Inaba
里香 稲葉
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Abstract

PROBLEM TO BE SOLVED: To provide a hydrogen intake device for a household, since recently, hydrogen gas has been attracting attention in preventive medicine, a method for dissolving hydrogen gas in drinking water for intake of hydrogen, and a method for sucking hydrogen gas from one's nose, have been employed, but, hydrogen is dissolved only by 1.6 mg in water of 1 L, therefore intake of sufficient hydrogen is impossible by drinking water, and the method for attaching a pressure reduction valve to a hydrogen cylinder and slightly adjusting a hydrogen gas amount, and sucking the hydrogen gas from one's nose requires a complicated device and involves a risk.SOLUTION: The invention is configured so that, hydrogen gas generated by electrolysis so as to allow intake of a large amount of hydrogen gas even at a household safely and inexpensively, is sucked by a cigarette pipe method without using a high pressure cylinder.SELECTED DRAWING: Figure 2

Description

技術の分野Technology field

活性酸素には悪玉と善玉があるが、水素は、善玉活性酸素には反応しないで、健康に有害な悪玉活性酸素を選択的に還元して体内から排除する元素であることを日本医科大学の太田成男教授が、May2007(Nature Medicine)紙上で発表した。それに伴って、予防医療の面に重点を置いた医学が今大きく前進しようとしている。本発明は、この最近注目されている予防医療の分野の技術に関するものである。  There are bad and good reactive oxygen species, but hydrogen does not react with good active oxygen, but it is an element of Nippon Medical University that it selectively reduces harmful active oxygen harmful to health and eliminates it from the body. Prof. Ota made a presentation on May 2007 (Nature Medicine). Along with that, medicine with an emphasis on preventive medicine is now making great strides. The present invention relates to a technique in the field of preventive medicine which has recently been attracting attention.

人口の高齢化がクローズアップされている今日、予防医療に関わる水素元素が注目されるようになって、水素を含んだ水や、水素ガスを人体に取り込む技術が日常使用されるようになってきた。  Now that the aging of the population is close-up, hydrogen elements related to preventive medicine have attracted attention, and water-containing hydrogen and technology that incorporates hydrogen gas into the human body have come to be used every day. It was.

技術は二つの方式に大別される。水素を溶け込ませた飲料水で体内に水素を取り込む方式と、水素ボンベから供給される水素ガスを鼻で吸引して体内に取り込む方式の二つが採用されているが、それぞれには実用の面で問題があり、今ひとつ工夫する必要がある。  Technology is broadly divided into two methods. There are two methods, one is the method of taking hydrogen into the body with drinking water in which hydrogen is dissolved, and the other is the method of sucking the hydrogen gas supplied from the hydrogen cylinder into the body and taking it into the body. There is a problem and it is necessary to devise one more.

先ず水素を溶かした飲料水であるが、水素の水に対する溶解度が小さいので、1l中に1.6mgしか溶けない。水素ガスの体積に換算すると、およそ18cmで1l飲んでも18cmの水素が体内に取り込まれるだけである。従って、多量の飲料水が要求されることになり、量的に問題がある。First, it is drinking water in which hydrogen is dissolved. However, since the solubility of hydrogen in water is small, only 1.6 mg can be dissolved in 1 l. In terms of the volume of hydrogen gas, even if 1 liter is consumed at approximately 18 cm 3 , 18 cm 3 of hydrogen is only taken into the body. Therefore, a large amount of drinking water is required, and there is a problem in quantity.

一方、鼻から吸引する方式は大げさな設備と取り扱いの面で問題がある。水素ボンベに減圧弁を取付けて、流量を微調整するやり方は操作を間違えると爆発の危険も伴うので、業務用としては許されるとしても、一般家庭では使用が許されない。  On the other hand, the method of sucking from the nose has problems in terms of exaggerated equipment and handling. The method of finely adjusting the flow rate by attaching a pressure reducing valve to the hydrogen cylinder involves the danger of explosion if the operation is wrong, so even if it is permitted for business use, it cannot be used in ordinary households.

イメージも良くない。水素ボンベから減圧弁で微調整して鼻へ押し込むというやり方は、予防医療というより病院の設備を用いた患者治療のイメージが強く反映されてしまう。日常、健康に心がけて、社会で活躍し、明るく活きて、輝いた人々のイメージが台無しになってしまう。  The image is not good either. The method of fine adjustment from a hydrogen cylinder with a pressure reducing valve and pushing it into the nose strongly reflects the image of patient treatment using hospital equipment rather than preventive medicine. The image of shining people will be spoiled, taking care of their health every day, playing an active part in society, brightly alive.

やはり、タバコのパイプに限る。そこで、水素ボンベや減圧流量調整弁のようなメカに頼らないで、パイプの吸引力を活かして水素ガスを体内に取り込む、水素ガス吸引パイプを考えた。  After all, it is limited to tobacco pipes. Therefore, we considered a hydrogen gas suction pipe that takes in hydrogen gas into the body using the suction power of the pipe without relying on a mechanism such as a hydrogen cylinder or a pressure reducing flow control valve.

この方式だと、水素ガスを充填したカートリッジをパイプに取り付けて吸引することもできる。  With this method, a cartridge filled with hydrogen gas can be attached to a pipe and sucked.

カートリッジの交換に手間がかかって煩わしいという読書家やデスクワーカーには、直径5mm程度の柔らかいチューブをパイプに取り付けて、チューブの他端は水素発生器に取り付け、水素ガスの吸引が持続できるようにした。  For readers and desk workers who find it troublesome to replace the cartridge, attach a soft tube with a diameter of about 5 mm to the pipe, and attach the other end of the tube to the hydrogen generator so that the suction of hydrogen gas can be continued. did.

例えば、パイプに直径が3cmで高さが7cmの筒状の小さいカートリッジを取り付けて吸引するようにすると、ただそれだけで、水素飲料水3l分の水素量を体内に取り込むことができる。  For example, when a small cylindrical cartridge having a diameter of 3 cm and a height of 7 cm is attached to a pipe and sucked, the amount of hydrogen for 3 liters of hydrogen drinking water can be taken into the body.

また、パイプをくわえて読書しながら、パソコンを操作しながら20分吸引していると、1lの飲料水分の水素を体内に取り込むことができる。この時の電解電流はわずか0.26A程度である。この電流を1Aにするとわずか5分で1lの飲料水分の水素を体内に取り込むことも可能である。  In addition, when reading while holding a pipe and operating a personal computer for 20 minutes, 1 l of hydrogen in drinking water can be taken into the body. The electrolysis current at this time is only about 0.26A. When this current is 1 A, it is possible to take in 1 l of hydrogen of drinking water into the body in just 5 minutes.

図1は、電気分解による水素発生器1の断面図である。水酸化カリウムや、水酸化ナトリウムを希釈した電解液2を隔壁3で二分して、陽極4で発生した酸素は、排出口6から排出され、陰極5で発生した水素ガスは、水素ガス供給ノズル7から流出するようにしてある。  FIG. 1 is a cross-sectional view of a hydrogen generator 1 by electrolysis. The electrolytic solution 2 in which potassium hydroxide or sodium hydroxide is diluted is divided into two by the partition wall 3, the oxygen generated at the anode 4 is discharged from the discharge port 6, and the hydrogen gas generated at the cathode 5 is converted into a hydrogen gas supply nozzle. It flows out of 7.

図2は、断面図で表したカセット8を用いてパイプで水素を吸引するようにしたものである。水素ガス流出口9を水素発生器のノズル7にジョイントして、先ず水素ガスを充填する。そのカセットの流出口9をパイプの受け具10に差し込んでパイプで吸引するとカセット内の水素ガスは吸気口11から吸い込まれた空気と一緒に吸引されるようにしてある。  FIG. 2 shows a case where hydrogen is sucked by a pipe using a cassette 8 shown in a sectional view. The hydrogen gas outlet 9 is jointed with the nozzle 7 of the hydrogen generator, and hydrogen gas is first filled. When the outlet 9 of the cassette is inserted into the pipe holder 10 and sucked by the pipe, the hydrogen gas in the cassette is sucked together with the air sucked from the intake port 11.

図3は、細くて柔らかい連結チューブ12の両端に設けたジョイント13を水素発生器の水素ガス供給ノズル7に差し込み、もう一端は、一部断面図で表した減圧アジャスター14の水素ガス流入口15に差し込んで、水素ガスが吸引できるようにしてある。  In FIG. 3, joints 13 provided at both ends of a thin and soft connecting tube 12 are inserted into the hydrogen gas supply nozzle 7 of the hydrogen generator, and the other end is a hydrogen gas inlet 15 of the decompression adjuster 14 shown in a partial sectional view. So that hydrogen gas can be sucked.

水素ガス流出口9をパイプの受け具10に差し込んで吸引すると、減圧されて、水素発生器の電解液の陰極側の液面が上昇する心配がある。吸気口16はこれを防ぐと同時に外から取り込んだ空気と一緒に水素を引き込むようにしたものである。  When the hydrogen gas outlet 9 is inserted into the pipe holder 10 and sucked, the pressure is reduced and the liquid level on the cathode side of the electrolyte of the hydrogen generator may rise. The intake port 16 prevents this and at the same time draws in hydrogen together with the air taken in from the outside.

悪玉活性酸素が生じるのは、ストレス、ウイルス、放射線、紫外線、タバコ、排ガス、運動、その他食物添加物などによるものであるが、病気の90%はこの悪玉活性酸素が関係していると言われている。  Bad active oxygen is caused by stress, viruses, radiation, ultraviolet rays, tobacco, exhaust gas, exercise, and other food additives, but 90% of illnesses are said to be related to this bad active oxygen. ing.

シミ、シワ、白髪、白内障、糖尿病などにも悪玉活性酸素が関係していると言われている。また、悪玉活性酸素は免疫力の低下にも関係しているとも言われている。怖いのは、悪玉活性酸素による血管・血液のダメージである。動脈硬化、高血圧、心筋梗塞、脳卒中、冷え性、痴呆を誘発していると言われている。  It is said that bad active oxygen is also related to spots, wrinkles, gray hair, cataracts, diabetes and the like. It is also said that bad active oxygen is related to a decrease in immunity. What is scary is the damage of blood vessels and blood caused by bad active oxygen. It is said to induce arteriosclerosis, hypertension, myocardial infarction, stroke, coldness, and dementia.

年金、医療にかかわる高齢者給付費は70兆円を超えて現役世代に重い負担をかけている。世界でも例のない高齢化社会を迎えている今の日本の重要課題は、健康寿命の延長である。この重要課題が水素を効率よく体内に取り入れることで解決されて、老若男女みんなが明るく生きて活動できるようになれば、医療産業に限らず高齢化社会を迎える日本の全産業に及ぼす効果には計り知れないものがある。  Elderly benefit costs related to pensions and medical care exceed 70 trillion yen, placing a heavy burden on the working generation. As Japan faces an aging society unprecedented in the world, an important issue for Japan is the extension of healthy life expectancy. If this important issue is solved by efficiently incorporating hydrogen into the body and all men and women of all ages are able to live brightly and act, the effects on all industries in Japan, not just the medical industry, will be There is something immeasurable.

電気分解を利用した水素発生器である。This is a hydrogen generator using electrolysis. 水素ガスを充填したカセットをパイプに装着して水素ガスを吸引する場合の図である。It is a figure at the time of attaching a cassette filled with hydrogen gas to a pipe and sucking hydrogen gas. 水素吸引パイプと水素発生器をチューブで連結して、水素ガスを吸引する図で、吸引による減圧で電解液の液面が上昇しないように工夫した図である。It is a figure which connects a hydrogen suction pipe and a hydrogen generator with a tube, and sucks hydrogen gas, and is a figure devised so that the liquid level of electrolyte may not rise by decompression by suction.

1 電気分解による水素発生器
2 電解液
3 水素と酸素を分離する隔壁
4 陽極板
5 陰極板
6 酸素排出口
7 水素ガス供給ノズル
8 水素ガス充填カセット
9 水素ガス流出口
10 受け具
11 吸気口
12 連結チューブ
13 ジョイント
14 減圧アジャスター
15 水素ガス流出口
16 減圧防止吸気口
DESCRIPTION OF SYMBOLS 1 Hydrogen generator by electrolysis 2 Electrolyte 3 Partition wall which isolate | separates hydrogen and oxygen 4 Anode plate 5 Cathode plate 6 Oxygen discharge port 7 Hydrogen gas supply nozzle 8 Hydrogen gas filling cassette 9 Hydrogen gas outlet 10 Receptacle 11 Intake port 12 Connecting tube 13 Joint 14 Depressurization adjuster 15 Hydrogen gas outlet 16 Decompression prevention inlet

Claims (3)

カートリッジを交換しながら用いられるようにして、そのカートリッジに含まれる水素ガスを吸引できるようにした水素ガス吸引パイプ。  A hydrogen gas suction pipe that can be used while replacing a cartridge so that the hydrogen gas contained in the cartridge can be sucked. 水素ガス吸引パイプにカートリッジのかわりチューブを取り付け、チューブの他端は水素供給装置に装着することにより、水素が吸引できるようにした持続可能型水素ガス吸引パイプ。  Sustainable hydrogen gas suction pipe in which a hydrogen gas suction pipe is attached instead of a cartridge, and the other end of the tube is attached to a hydrogen supply device so that hydrogen can be sucked. 請求項2の水素供給装置に、電気分解による水素発生器を用いた水素ガス吸引パイプ。  A hydrogen gas suction pipe using a hydrogen generator by electrolysis in the hydrogen supply device of claim 2.
JP2015157671A 2015-07-22 2015-07-22 Hydrogen gas suction pipe Pending JP2017023664A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2018149027A (en) * 2017-03-10 2018-09-27 忠人 瀬戸山 Hydrogen sucking device and sucking method
JP2018202050A (en) * 2017-06-08 2018-12-27 忠人 瀬戸山 Hydrogen suction tool
US11602472B2 (en) 2017-09-29 2023-03-14 Panasonic Intellectual Property Management Co., Ltd. Hydrogen-containing gas supply system and hydrogen house

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2005087257A (en) * 2003-09-12 2005-04-07 Shinwa Kogyo Kk Method of inhalation of hydrogen gas into body and its device
JP2013146373A (en) * 2012-01-19 2013-08-01 Tatsunori Yamaji Hydrogen generator

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2005087257A (en) * 2003-09-12 2005-04-07 Shinwa Kogyo Kk Method of inhalation of hydrogen gas into body and its device
JP2013146373A (en) * 2012-01-19 2013-08-01 Tatsunori Yamaji Hydrogen generator

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2018149027A (en) * 2017-03-10 2018-09-27 忠人 瀬戸山 Hydrogen sucking device and sucking method
JP2018202050A (en) * 2017-06-08 2018-12-27 忠人 瀬戸山 Hydrogen suction tool
US11602472B2 (en) 2017-09-29 2023-03-14 Panasonic Intellectual Property Management Co., Ltd. Hydrogen-containing gas supply system and hydrogen house

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