KR20230016892A - Potable Hydrogen Bubble Generator - Google Patents

Abstract

The present invention relates to an atomic hydrogen generator of a magnetized water device for drinking water which supplies water having high dissolved amounts of an atomic hydrogen because molecular hydrogen is decomposed by fast flow rates by going through a hydrogen amplifier and adsorbed inside minerals, and supplies soft water because atomic hydrogen is generated by going molecular hydrogen generated in an electrolyte tank through a magnetized water device having multiple pores with 5,500 magnet gauss. The present invention generates drinking water beneficial to a human body by: going water introduced through an entrance of a magnetized water device circular case (20) through a micro-hole (1a) of a first hydrogen decomposing amplification unit (1); dispersing the water into all directions through a groove (2a) of a first plastic material (2) and introducing the water into a second hydrogen decomposing amplification unit (3) again; sequentially going through a third hydrogen decomposing amplification unit (5), a fourth hydrogen decomposing amplification unit (7), a fifth hydrogen decomposing amplification unit (9), a sixth hydrogen decomposing amplification unit (11), and a seventh hydrogen decomposing amplification unit (13) to decompose hydrogen through micro-hole which becomes smaller; and converting the same into atomic hydrogen to adsorb the same to minerals.

Description

Atomic hydrogen generator of magnetized water for drinking water {Potable Hydrogen Bubble Generator}

The present invention relates to an atomic hydrogen generator of a magnetized water device for drinking water, and in particular, the hydrogen (molecular hydrogen or gaseous hydrogen) generated in a hydrogen generator (electrolyzer) pushes and pulls the anodes (-, +) of iron with a strength of 5500 Gauss Water particles are subdivided by the force and H2 gaseous hydrogen is decomposed by a fast flow rate while passing through a magnetized water stage in which a large number of fine pores are formed to form atomic hydrogen. Atomic hydrogen is occluded inside the mineral through the mineral pores in the water, resulting in the dissolving rate of hydrogen. is made possible to increase

In general, H2 molecular hydrogen (gas) is aggregated and cannot be absorbed into minerals through mineral pores, and is contained in water or adsorbed to minerals, resulting in a low dissolution rate and insignificant hydrogen entering the body.

Conventionally, due to contamination of the lower part of the carbon filter, the use period of the carbon filter, which is kept relatively clean at the upper part, is relatively short, so water purifier users pay more than necessary due to frequent filter replacement, and the water discharged through the water purifier There was a drawback that water of good quality could not be provided because the amount of polyoxygen was low.

Patent Application No. 10-2008-0095065 Patent Application No. 10-2009-0065112 Utility Model Application No. 20-2011-0009887

The present invention is to solve the above conventional problems, and an object of the present invention is, when hydrogen is generated through electrolysis in an electrolytic cell, in a gaseous hydrogen state, through a plurality of micropores in a magnetized water generator, agglomerated by a fast flow rate Since atomic hydrogen is formed by decomposition of hydrogen, it is absorbed into the inside of the mineral through mineral pores (mineral pores of 0.2 nano or less) to increase the dissolved rate. device is provided.

The present invention for achieving the above object is to finely decompose and magnetize molecular hydrogen (aggregated hydrogen) generated in an electrolytic cell (hydrogen generator) while passing through a plurality of fine pores in the center of a 5500 Gauss magnetizer to form atomic hydrogen. It is characterized in that it comprises an atomic hydrogen amplification unit that is occluded into the mineral by doing so.

The magnetized water is, from the inlet side, 1.3Ø 1st hydrogen cracking amplifier - circular plastic - 1.2Ø 2nd hydrogen cracking amplifier - circular plastic - 1.1Ø 3rd hydrogen cracking amplifier - circular plastic - 1.0Ø 4th hydrogen cracking amplifier Part-Circular plastic-0.9Ø 5th hydrogen cracking amplifier - Circular plastic-0.8Ø 6th hydrogen cracking amplifier - circular plastic-0.7Ø The 7th hydrogen cracking amplifier is installed in order, and it is composed of finer lines going from the inlet side to the outlet side. It is characterized in that the aperture (Ø) of the ball is configured so that it gradually narrows.

As described above, the present invention decomposes the molecular hydrogen generated in the electrolytic cell while passing through the hydrogen decomposition amplifier unit in a state in which fine hydrogen, that is, dissolved atomic hydrogen, is generated by a fast flow rate and vortex, so that the dissolved hydrogen is absorbed into minerals. There is an effect that can provide a lot of atomic hydrogen water to drink as drinking water.

1 is a perspective view of a magnetizer of the present invention
Figure 2 is an exploded perspective view of the magnetized water device of the present invention
3 is a cross-sectional view of the hydrogen decomposition amplifier of the present invention
Figure 4 is a cross-sectional view of the circular plastic of the present invention
5 is a cross-sectional view of the magnetized handset of the present invention in an assembled state.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a magnetized water device of the present invention, FIG. 2 is an exploded perspective view of the magnetized water device of the present invention, FIG. 3 is a cross-sectional view of a hydrogen cracking amplifier of the present invention, FIG. 4 is a cross-sectional view of a circular plastic of the present invention, and FIG. A cross-sectional view of the assembled state of the magnetized water device of the invention. As shown therein, the hydrogen decomposition amplifier (1) (3) (5) (7) (9) (11) (13) and plastic material in the magnetized water circular case (20) (2) (4) (6) (8) (10) (12) (14) are installed alternately.

The first hydrogen decomposition and amplifier unit 1 has a 1.3Ø fine hole 1a formed in the center, and the second hydrogen decomposition and amplifier unit 3 has a 1.2Ø fine hole 2a formed in the center, The third hydrogen decomposition and amplifier unit 5 has a 1.1Ø fine hole 3a formed in the center, and the fourth hydrogen decomposition and amplifier unit 7 has a 1.0Ø fine hole 4a formed in the center, The fifth hydrogen decomposition and amplifier unit 9 has a 0.9Ø fine hole 5a formed in the center, and the sixth hydrogen decomposition and amplifier unit 11 has a 0.8Ø fine hole 6a formed in the center, The seventh hydrogen decomposition and amplification unit 13 is configured with a 0.7Ø fine hole 7a formed in the center.

The plastic material (2) (4) (6) (8) (10) (12) (14) is inserted in the same shape between the hydrogen decomposition and amplification units, and grooves 2a are formed in all directions from the center It is configured so that the water entering the center is dispersed in all directions through these grooves 2a and then collected in the center again. In the drawing, only the plastic material 2a is shown and the rest is omitted.

The operation of the present invention configured as described above will be described.

1 shows that the molecular hydrogen generated in the electrolytic cell of the present invention is passed through various pores of a magnetized water group of 5500 gauss, decomposing the agglomerated molecular hydrogen to create atomic hydrogen and occluding it into the mineral through the mineral pores. It is intended to provide a high number of functions

In the present invention, when water is obtained through the inlet of the magnetized water circular case 20, it passes through the micropores 1a of the first hydrogen decomposition and amplifier unit 1 and then passes through the grooves 2a of the first plastic material 2. The third hydrogen cracking and amplifying unit (5), the fourth hydrogen cracking and amplifying unit (7), and the fifth hydrogen cracking and amplifying unit ( 9), while passing through the sixth hydrogen decomposition and amplification unit 11 and the seventh hydrogen decomposition and amplifier unit 13, hydrogen is decomposed through fine pores, converted into atomic hydrogen, and stored in minerals.

Of course, the plastic material (4) (6) (8) (10) (12) (14) is interposed between each hydrogen decomposition amplifier unit, so that the water obtained is dispersed in all directions and then collected again in the center. .

That is, the molecular hydrogen generated in the electrolytic cell primarily as described above is a hydrogen decomposition amplifier unit (1) (3) (5) (7) (9) (11) (13) with pores of 1.3 to 0.7 Ø formed by a plurality of magnets. As it passes through in turn, it is converted into atomic hydrogen in a magnetized state, and at this time, the generated atomic hydrogen passes through the atomic hydrogen generator magnetization device to generate atomic hydrogen intercalated in minerals.

As described above, in a state in which water is magnetized and hydrogen is separated, that is, in a state in which water is hydrogenated, passes through the hydrogen decomposition amplifier and becomes atomic hydrogen, and is absorbed into the mineral through mineral pores.

That is, a number of apertures of 1.3-0.7Ø are formed in the hydrogen decomposition amplifier unit for generating atomic hydrogen with multiple apertures of 1.3Ø in the first hydrogen decomposition amplifier unit 1, and molecular hydrogen passes through the hydrogen decomposition amplifier unit. are decomposed in turn to form atomic hydrogen.

In particular, as described above, in the present invention, the apertures (Ø) of the first to seventh hydrogen decomposition and amplification units (1) (3) (5) (7) (9) (11) (13) are getting smaller and smaller. A large number of micropores (1a) (3a) (5a) (7a) (9a) (11a) (13a) are formed on the edge, so that the molecular hydrogen is formed into atomic hydrogen, which is absorbed into the mineral, resulting in a high dissolved amount of atomic hydrogen and high magnetization. Through the group, soft atomic hydrogen water is created.

That is, since the first hydrogen decomposition and amplification unit 1 has fine pores 1a of 1.3 Ø, atomic hydrogen is formed while passing through these fine pores 1a at a high flow rate, and many atomic hydrogen having a high dissolved rate It has a physical property that contains numbers.

This means that while passing through the micropores of each hydrogen decomposition amplifier formed by magnets again at a fast flow rate, raw hydrogen containing atomic hydrogen is dissolved and has soft functional properties due to magnetized water. One molecular hydrogen is decomposed while passing through a micropore of 1.3-0.7Ø.

As described above, soft atomic hydrogen drinking water containing fine atomic hydrogen having a high dissolved atomic hydrogen and rich in minerals is produced.

The material of the hydrogen decomposition amplification unit (1) (3) (5) (7) (9) (11) (13) is formed so that the angle of the cut perforated surface of the micropore is as sharp as possible, so that when water passes through It is preferable to use a metal plate to increase resistance.

The present invention is not limited to the above-described embodiments, and it is obvious to those skilled in the art that various technical substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. something to do.

1,3,5,7,9,11,13: Hydrogen decomposition amplification unit
2,4,6,8,10,12,14: plastic material
20: magnetized water circular case

Claims (1)

In the magnetized water device for generating atomic hydrogen for drinking water,
A plurality of hydrogen decomposition amplifiers and circular plastic materials are alternately installed in a circular case of magnetized water so that the water obtained is magnetized and decomposed to discharge water,
The first hydrogen decomposition amplifier unit has a 1.3Ø fine hole formed in the center, the second hydrogen decomposition amplifier unit has a 1.2Ø fine hole formed in the center, the third hydrogen decomposition amplifier unit has a 1.1Ø fine hole formed in the center, and the fourth hydrogen decomposition amplifier unit has a 1.1Ø fine hole formed in the center. A 1.0Ø fine hole is formed in the center of the hydrogen cracking amplifier unit, a 0.9Ø fine hole is formed in the center of the 5th hydrogen cracking amplifier unit, a 0.8Ø fine hole is formed in the center of the 6th hydrogen cracking amplifier unit, and a 7th hydrogen cracking amplifier unit has a fine hole of 0.8Ø formed in the center. The amplification unit is composed of a 0.7Ø fine hole formed in the center,
The plastic material is inserted in the same shape between the hydrogen decomposition amplifier units, and grooves are formed in eight directions from the center so that water entering the center is dispersed in eight directions through the grooves and discharged. Device.

Images