KR100529006B1 - Hydrogen-rich water producing method and hydrogen-rich water producing device - Google Patents

Abstract

Purification of drinking water prevents water spoilage, while making it simple and reliable to produce hydrogen-rich water without the use of electrolysis devices. Water is contained inside the submersible bag 4 filled with magnesium particles 6 which react with the drinking water 8 to generate hydrogen gas and silver particles 5 having a function of purifying the drinking water 8. A hydrogen rich water generator (2) is formed in the case (1) in which the holes (3) are formed to enter. The hydrogen rich water generator (2) is placed in a bottle (7) containing a beverage (8) at room temperature or cooled, and the beverage (8) reacts with the magnesium particles (6) to generate hydrogen gas to produce a beverage (8). The drinking water is purified by the silver particles 5 at the same time as the hydrogen rich water containing abundant hydrogen.

Description

Hydrogen-rich water producing method and hydrogen-rich water producing device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing hydrogen-rich water effective for the removal of free radicals in the body, and to a generator for hydrogen-rich water (hereinafter referred to as "hydrogen rich water").

 In recent years, the theory that the water containing a large amount of hydrogen is effective for the removal of the active oxygen which is a cause of cancer and other diseases has been published in the medical field, and it attracts attention. As a device for producing a beverage containing abundant hydrogen, electrolysis is conventionally known.

The conventional hydrogen rich aquatic growth value using electrolysis requires a power source and the structure becomes complicated, so that the cost is high and it is impossible to supply hydrogen rich water simply and inexpensively to the consumer.

The present invention aims to solve the above problems.

In order to achieve the above object, the present invention is to produce a hydrogen gas by reacting the beverage and magnesium particles to convert the beverage into hydrogen rich water containing abundant hydrogen.

In addition, the present invention is to react the drinking water with the silver particles with the magnesium particles to purify the hydrogen rich water by the silver particles.

In addition, the present invention is characterized in that the beverage is room temperature or cooling water.

In another aspect, the present invention is a case that can be put into a bottle for drinking water so that water enters therein, and a submersible bag filled with magnesium particles disposed inside the case and filled with magnesium particles that react with the drink to generate hydrogen gas therein. (袋 體) is provided.

In another aspect, the present invention, characterized in that the bag is filled with silver particles for purifying the beverage together with the magnesium particles.

Moreover, this invention makes the said case into the hexagonal thin stick-shaped cylinder of cross-sectional shape, and drills many holes for water in and out on the side wall.

(Example)

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. Conventionally, magnesium is considered as follows. `` Metal magnesium is not immersed in water at room temperature, but when the fine powder is heated in water, it reacts with water to produce magnesium hydroxide and hydrogen gas. '' (New knowledge of element 111) Sakurai Hiroshi Excerpt from page 82 of the Japanese Riverside History), or `` Magnesium (Mg) ... Reacts with High Temperature Water Vapor to Generate Hydrogen ... '' (2002 Education Seminar, Education Television NHK High School Course, Chemistry Japan Broadcasting Association, Japan Broadcast Publishing Association, p. 64).

As is evident from these techniques, it is now known that "metal magnesium reacts with water to generate hydrogen gas when heated" or "magnesium reacts with hot steam to generate hydrogen." It is becoming. However, the present inventors have found that by firing metal magnesium at a predetermined temperature and time, hydrogen can be generated even in water at room temperature. The firing time is preferably 10 minutes ± 1 minute, the firing temperature is 110 ± 2 ℃. Reference numeral 1 is a stick-shaped case of the hydrogen rich water generator (2), the elongated cylindrical shape of the hexagonal cross section. It is made of plastic. Holes 3 are formed in the side wall of the case 1 to allow liquid into and out of the case, and the inside of the case 1 communicates with the outside through the holes 3.

Reference numeral 4 denotes a bag made of a submersible material such as a nonwoven fabric, in which silver particles 5 and magnesium particles 6 are filled. The bag 4 filled with the silver particles 5 and the magnesium particles 6 is housed in the case 1.

In the above-described configuration, as shown in FIG. 3, the beverage 8 in which the hydrogen-rich water generator 2 filled with the silver particles 5 and the magnesium particles 6 in the case 1 is cooled to room temperature or cooled is Put into bottle (7). After 10 minutes of introduction of the hydrogen rich water generator 2, the beverage 8 in the bottle 7 is purified by the silver particles 5. In addition, the beverage 8 reacts with the magnesium particles 6 at the same time to generate hydrogen gas according to the following formula.

As a result, the beverage 8 which is cooled at room temperature or cooled in the bottle 7 becomes purified and rich in hydrogen. This is a comparison table of dissolved hydrogen content at 100% partial pressure according to temperature range. Beverage temperature (℃) 100 80 25 10 5 Hydrogen generation amount when calcined magnesium is added (ppm) 0.00 0.79 1.56 1.76 1.85 Hydrogen generation amount when normal metal magnesium is added (ppm) 0.00 0.79 none none none

When the reaction of the magnesium particles of the above example was examined using a simple hydrogen sensor, magnesium reacts easily with water or cooled water (about 25 degrees Celsius) or cold water (about 5 degrees Celsius). A new fact has been identified that produces magnesium hydroxide and hydrogen gas. This makes it possible to reliably and inexpensively make hydrogen rich water without using an electrolysis device.

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In addition, when implementing this invention, it is not specifically limited to the beverage of normal temperature or cold water, It is applicable also when changing the heated beverage of high temperature to hydrogen rich water.

This invention is comprised as mentioned above, and can change ordinary water into hydrogen-rich water easily.

1 is a cross-sectional view taken along the line A-A showing a preferred embodiment of the present invention.

2 is a side view of the hydrogen rich water generator.

3 is an explanatory diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: Case 2: Hydrogen rich water generator

3: hole 4: bag

5: silver particle 6: magnesium particle

7: bottle 8: drink

Claims (6)

Hydrogen gas is generated by reacting a beverage of 5 ° C. to 25 ° C. with magnesium particles calcined at a temperature of 110 ± 2 ° C. and a time of 10 ± 1 minutes to generate hydrogen gas, thereby converting the beverage into hydrogen-rich water rich in hydrogen. Hydrogen rich water production method characterized in that. The hydrogen rich water production method according to claim 1, wherein the beverage is reacted with the silver particles together with the magnesium particles to purify the hydrogen rich water by the silver particles. delete 110 ± 2 ° C. and 10 ± 10 ° C., which can be placed in a bottle for drinking water and have a beverage inside, and is disposed inside the case and reacts with a beverage of 5 ° C. to 25 ° C. to generate hydrogen gas. A hydrogen rich water generator having a submersible bag filled with magnesium particles calcined at a time of ± 1 minute. The hydrogen rich water generator according to claim 4, wherein the bag body is filled with silver particles for purifying a beverage together with the magnesium particles. The hydrogen rich water generator according to claim 4 or 5, wherein the casing is made of a long, elongated stick cylinder having a hexagonal cross section, and has a plurality of holes formed therein for entering and exiting the beverage.