KR102072337B1 - Hydrogen water production device - Google Patents

Abstract

The present invention relates to a hydrogen water production device which can remove active oxygen harmful to human body with hydrogen water. The hydrogen water production device according to the present invention comprises a hydrogen gas filling tank (10) filled with high purity of hydrogen gas under high pressure and a sealed transparent hydrogen dissolution container (20). Purified raw water is supplied to the hydrogen dissolution container (20) through a water pipe, and then hydrogen gas is supplied from the hydrogen gas filling tank (10) to the raw water of the hydrogen dissolution container (20) under high pressure. Therefore, hydrogen gas is dissolved in the raw water to produce hydrogen water.

Description

Hydrogen water production device

The present invention relates to a hydrogen water production apparatus that can remove the active oxygen harmful to the human body with hydrogen water.

Recently, as interest in health has increased, interest in water has increased, and hydrogen water has been in the spotlight as it is known that hydrogen can remove active oxygen harmful to the human body.

Free radicals are highly oxidizing oxygen generated in the metabolic process of the body, and because it provides various diseases and causes of aging, it is necessary to remove the free radicals in the body, the active hydrogen that removes these free radicals in the body has attracted attention. .

Hydrogen exists in a molecular state in which two hydrogen atoms are bonded, but rarely, a molecular bond of hydrogen atoms is broken and a hydrogen atom is present alone. Thus, the hydrogen atom (H) that is present alone is called active hydrogen. These active hydrogens combine with the active oxygen in the body to produce water to remove the active oxygen in the body.

As such, water having a higher concentration of hydrogen atoms is referred to as “hydrogen water,” and hydrogen water is known to have excellent antioxidant ability. Recently, development for producing hydrogen water has been actively performed.

As an example of a conventional hydrogen water production apparatus, a method of electrolyzing water into hydrogen and oxygen by applying electricity to water is common.

However, in the production of hydrogen water by electrolysis, the scale is formed on the surface of the electrode rod or the electrode plate to which the cathode is connected, and the scale rapidly decreases the electrolysis efficiency when used for a long time, and the fine materials contained in the water are electrolyzed. By reducing or oxidizing to a new compound has been pointed out that the problem may be rather harmful to the human body.

For reference, the following prior art document lists five recent prior art documents searched using the keyword "hydrogen number" through the patent information net cypris, and the technical field of the present invention with reference to the following prior art document. And background technology and its development.

Publication / Registration: 1020016610000, 1020117740000, 1019740350000, 1019629290000, 1019365500000.

The present invention was developed in order to solve the conventional problems mentioned in the background, and an object of the present invention is to solve this problem, particularly to make it possible to easily and efficiently produce clean hydrogen water.

The present invention is a means for achieving the above object, comprising a hydrogen gas filling tank filled with high-purity hydrogen gas at high pressure and a sealed hydrogen dissolving tank, after supplying purified water from the water pipe to the hydrogen dissolving tank The present invention proposes a means for producing hydrogen water by dissolving hydrogen gas in raw water by supplying hydrogen gas from a hydrogen gas filling tank to raw water in a hydrogen dissolving tank at high pressure.

According to the means proposed in the present invention, by supplying hydrogen with a relatively low solubility compared to other gases by pressurizing a high pressure there is an effect that it is easy to dissolve the hydrogen in water to prepare a hydrogen column conveniently.

1 is an illustration of the present invention
Figure 2 is an exemplary view to circulate the bet of the hydrogen melting tank in Figure 1
3 is an exemplary diagram for circulating the upper water of the hydrogen dissolving tank in FIG.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. However, the accompanying drawings may be exaggerated, omitted, or schematically illustrated for convenience of description regarding the main parts, and the terms and names used in the description may be implicitly defined by shapes, operations, roles, etc., of the components, rather than the dictionary meanings. The direction description may be determined based on the first direction from the first drawing, and the description about the location may be determined based on the middle of the configuration or the center of the circle. Detailed descriptions of the well-known technology and the conventional technology registered in advance may obscure the gist, and may be omitted or replaced with simple symbols or names. In addition, the detailed structure, shape, shape, arrangement, size, and the like of the configuration identifiable through the drawings, the operation of the configuration can be inferred through the drawings and the effects thereof, etc. can also obscure the subject matter and will not be described in detail. And bolts, welds, holes, etc. applied for coupling between components may obscure the gist and may be omitted in the drawing, and the shape of the plane may be round or square, unless the shape of the configuration is specifically specified. In this case, the floor plan may be omitted.

Hereinafter, the present invention will be described with reference to FIG. 1.

As shown, the present invention includes a hydrogen gas filling tank 10 filled with high purity hydrogen gas at high pressure and a transparent hydrogen dissolving vessel 20 sealed therein, and purified from a water pipe by the hydrogen dissolving tube 20. After supplying the raw water, the hydrogen gas is supplied from the hydrogen gas filling tank 10 to the raw water of the hydrogen dissolving tank 20 at a high pressure to dissolve the hydrogen gas in the raw water.

In this case, by supplying hydrogen with a low solubility in comparison with other gases by pressurizing a high pressure, hydrogen can be easily dissolved in water, thereby producing a hydrogen column conveniently.

The present invention for implementing the above-described configuration is a hydrogen gas filling tank 10 filled with high purity hydrogen at high pressure as shown; Sealed transparent hydrogen dissolving vessel 20; A purified water supply pipe 30 which supplies raw water purified from the water pipe to the hydrogen dissolution tank 20; A hydrogen water discharge pipe 40 for discharging hydrogen water produced from the hydrogen dissolution tank 20; A valve 41, a pressure reducer 42, a water filter 43, a cold water device 44, and a hot water device 45 that are sequentially connected to the hydrogen water discharge pipe 40; A water level sensor 21 for detecting the water level of the hydrogen dissolving vessel 20; A hydrogen concentration detecting sensor 22 for detecting a hydrogen concentration of the hydrogen dissolving vessel 20; A pressure sensor 23 for detecting the pressure of the hydrogen dissolving vessel 20; A hydrogen gas supply pipe 11 connected from the hydrogen gas filling tank 10 to supply hydrogen gas to the hydrogen melting tank 20; It may be composed of; a pressure gauge 12, a pressure reducer 13, a metering feeder 14, a check valve 15 that is sequentially connected to the hydrogen gas supply pipe (11).

The hydrogen melting vessel 20 initially supplies the purified water from the water pipe through the purified water supply pipe 30 according to the detection of the water level sensor 21, and then the pressure sensor 23 and the hydrogen concentration. In accordance with the detection of the sensor 22, the hydrogen gas from the hydrogen gas filling tank 10 through the hydrogen gas supply pipe 11 may be supplied to the hydrogen gas until reaching a high pressure of 1 atm or more to produce hydrogen water.

The pressure, water level, and hydrogen concentration of the hydrogen melting vessel 20 which is lowered when the hydrogen water is discharged through the hydrogen water discharge pipe 40 for drinking of the hydrogen water prepared from the hydrogen melting vessel 20 are each sensor. Hydrogen gas and raw water can be automatically replenished according to the detection of hydrogen to continuously produce hydrogen water.

Although not shown, the purified water supply pipe 30 may automatically supply purified water from a water pipe through a purified water filter via a valve, or may be automatically supplied from a predetermined raw water reservoir through a pump, a purified water filter, and a valve. .

In this way, not only the implementation of the present invention can be realized, but the structure is simple, the operation is smooth, and the production, installation, and use are convenient.

In addition, the hydrogen water discharged through the hydrogen water discharge pipe 40 has the effect of drinking cold or warm according to your preference, can be purified by drinking the purified raw water again can drink the clean hydrogen water It works.

Hereinafter, the present invention will be described with reference to FIG. 2.

As shown, the present invention may include supplying the raw water by circulating the internal gas of the hydrogen dissolving tank 20 while forming bubbles in the raw water, and supplying the internal gas circulating supply line by using an eject method. .

In this way, dissolution of hydrogen ions can be improved by stirring and mixing with bubbles, and the hydrogen ions vaporized from raw water can be recycled and continuously re-supplied to the raw water to dissolve, thereby improving the hydrogen dissolved amount. According to the pressure and hydrogen concentration of the hydrogen dissolving vessel 20, by supplying the hydrogen gas by the supplementary method to reduce the consumption of hydrogen gas, as well as the pressure and dissolved hydrogen concentration of the hydrogen dissolving vessel 20 There is an effect that the adjustment is easy.

The present invention for the implementation of the above-described configuration is an air pump 51 is installed in the internal air circulation supply pipe 50 and the internal air circulation supply pipe 50 for circulating supplying the internal air of the hydrogen melting tank 20; A bubble generator 52 connected to the discharge pipe of the air pump 51 and installed at the bottom of the hydrogen dissolving vessel 20 to circulate and supply bet while forming bubbles in the raw water; It may be composed of; hydrogen gas supply pipe 11 is connected to the bet circulation supply pipe 50 is installed in an eject method.

In this way, not only the implementation of the present invention can be realized, but the structure is simple, the operation is smooth, and the production, installation, and use are convenient.

In addition, the generation of bubbles by the bubble generator 52 has the effect of making the appearance beautiful and mysterious, as well as making the hydrogen water appear clean, and the operation state can be easily identified.

The bubble generator 52 may have a structure in which a space is formed inside as shown in FIG. 4 and a perforation is formed in an upper portion of the space.

Hereinafter, the present invention will be described with reference to FIG. 3.

As shown, the present invention provides a means for circulating and supplying the upper water of the hydrogen dissolving vessel 20, and the bet circulated from the hydrogen dissolving vessel 20 to the upper water circulation supply line by the eject method. It may include.

In this case, since the raw water of the hydrogen dissolving tank 20 is circulated continuously without being stagnated in the cylinder, stirring and mixing with hydrogen are more actively performed, and the circulating object adopts supernatant water to vaporize hydrogen. Since hydrogen can be mixed again before it becomes effective, it is effective to continuously maintain the concentration of dissolved hydrogen solubility, and the upper layer water is mixed with air bubbles because raw water is supplied to the supply line through which raw water is circulated. Since it is supplied while generating bubbles once more to the hydrogen dissolution tank 20 in the above state, there is an effect that the activity of mixing the hydrogen and the raw water is further improved, and the bet is supplied with hydrogen vaporized hydrogen from the hydrogen dissolution tank 20. It is possible to improve the concentration of hydrogen solubility while suppressing the consumption of gas. Since the inside of the supply line is narrow and the instantaneous pressure of the supply line into which the bet is put increases, the higher the pressure, the more the hydrogen solubility is improved by the characteristic of high solubility hydrogen.

The present invention for the implementation of the above-described configuration is the upper layer water circulation supply pipe 60 is connected to lead to the bubble generator 52 from the upper layer water of the hydrogen melting vessel 20; And a pump 61 installed in the middle of the upper water circulation supply pipe 60. It may be configured; a hydrogen gas supply pipe 11 is connected to the discharge pipe of the pump 61 by the eject method.

In this way, not only the above-described configuration can be implemented, but also the structure is simple, the operation is smooth, and the production, installation, and use are convenient.

Although not shown, between the upper water circulation supply pipe 60 and the internal circulation supply pipe 50, the bubble generator 52 and the upper water circulation supply pipe 60, and the rear part of the ejection part of the upper water circulation supply pipe 60 are not shown. A check valve may be installed between the pump 61 and the pump 61 to maintain one-way pressure.

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As described above, the present invention has been completed, and the present invention is intended to help the understanding of the principle and the principle of the configuration to be pursued in the present invention, the drawings and specific components included in the configuration and the drawings As described based on the configuration, the structure and specific components included in the present invention is determined in consideration of the principle to seek structure, form, shape, arrangement, direction, quantity can be changed in various ways as necessary There will be. The configuration and specific components presented in the present invention exemplify what effect is most desirable for those skilled in the art to obtain the present invention and to obtain a better effect from the effect. It is. Accordingly, the present invention is most preferably completed by including the above-described configuration, but can be completed by selecting or excluding some of the above-described configuration according to cost reduction, convenience of manufacturing, environmental conditions or needs It is also possible to separate one or some components separately and merge them with other configurations. Each configuration described above may be applied independently to other technical fields other than the technical field in view of the principle, use, function, role, function, effect, and the like. Based on this, the scope of the present invention has been set forth in order from the claims having broad rights by specifying the claims of the present invention as broadly as possible, as described above. It will be understood that the specific points and claims to be described below can fully understand the gist of the present invention, and the effects on the parts which are not illustrated but can be sufficiently inferred through the drawings. Therefore, those skilled in the art will be able to apply various modifications and changes in the art based on the contents mentioned in the present invention, which may further increase the efficiency of use as well as the development of the art.

Claims (5)

After the high purity hydrogen gas is filled with a hydrogen gas filling tank (10) filled with high pressure and a sealed transparent hydrogen dissolving tank (20), and supplied purified water from the water pipe to the hydrogen dissolving tank (20), And supplying hydrogen gas from the hydrogen gas filling tank 10 to the raw water of the hydrogen dissolving tank 20 at a high pressure to dissolve the hydrogen gas in the raw water to produce hydrogen water.
By circulating the internal air of the hydrogen dissolving vessel 20 to form a bubble in the raw water, and supplying by supplying hydrogen gas to the internal circulation supply line by an eject method,
The apparatus for producing hydrogen water comprising circulating and supplying the upper water of the hydrogen dissolving vessel 20 and supplying the bet circulated from the hydrogen dissolving vessel 20 to the upper water circulation supply line by an eject method. delete delete delete delete

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