KR101587697B1 - Apparatus for manufacturing hydrogen water - Google Patents

Abstract

More particularly, the present invention relates to an apparatus for producing hydrogen water, and more particularly, to an apparatus for producing hydrogen water through electrolysis, in which ozone is not generated, water pressure is not applied in the apparatus, and the amount of hydrogen dissolved in hydrogen water is increased A static pressure holding unit 200 including a hermetically sealed container 230 having an on / off valve 220 operated by a knot 210 and maintaining a predetermined level by receiving purified raw water; And a hydrogen generating chamber 320 supplied with raw water purified by the static pressure holding unit 200 is formed of a closed vessel 340 formed by bifurcating the ion exchange membrane 330 between the oxygen generating chamber 310 supplied with the raw water, An electrolysis unit 300 having a cathode plate 311 in the oxygen generating chamber and an anode plate 321 in the hydrogen generating chamber 320 to perform electrolysis according to power supply; A fluid pump 400 for supplying raw water and hydrogen from the hydrogen generation chamber 320 of the electrolysis unit 300 and feeding the raw water and hydrogen; A filter unit 500 including a filter 510 connected to the fluid pump 400 to receive raw water and hydrogen to remove foreign matter and ozone; A dissolution part 600 having a nozzle 610 to supply raw water and hydrogen from the filter part 500 and inject the raw water into the raw water; The fluid pump 400 is provided in the piping after the dissolved portion 600 so that the fluid pump 400 is driven in accordance with detection of the supply of water. And a sensor 700 for improving the durability of various components and greatly increasing the amount of hydrogen dissolved in hydrogen water and rapidly supplying the generated hydrogen water to maximize the effect of hydrogen peroxide will be.

Description

[0001] Apparatus for manufacturing hydrogen water [

The present invention relates to a hydrogen-producing plant, and more particularly, to an apparatus for producing hydrogen-containing water through electrolysis, in which ozone is not generated, water pressure is not applied to the apparatus, and hydrogen- The present invention relates to an apparatus capable of improving the durability of various components and greatly increasing the amount of dissolved hydrogen in relation to hydrogen water and rapidly supplying the generated hydrogen water to maximize the effect of hydrogen peroxide.

In general, hydrogen water refers to water in which a certain amount of hydrogen molecule (H ₂ ) is incorporated. In May 8, 2007, it was found that hydrogen medicine has a therapeutic effect on cancer, brain disease and arteriosclerosis .

Such drinking water has an effect on prevention of dermatitis such as atopic dermatitis, whitening of skin, prevention of aging through antioxidation, increase of immunity, etc. Especially, when radioactive contaminants are introduced into the human body, it increases active oxygen to cause various diseases such as cancer It is a cause of the recent remarkable effect of removing the active oxygen by drinking the drinking water.

Hydrogen water having various effects is usually produced by electrolysis or chemical reaction using magnesium (Mg). Especially, hydrogen water is required to be consumed within a short time after the production of hydrogen peroxide It is difficult to supply the distribution of the products.

Therefore, a device for directly producing hydrogenated water has recently been developed in various forms.

Korean Patent Laid-Open No. 10-2013-73831 discloses an example of a conventional hydrogen-water producing device using electrolysis.

However, since the conventional hydrogen-water producing apparatus disclosed in Korean Patent Laid-Open Publication No. 10-2013-73831 consumes the hydrogen water produced in the container after the electrolysis in the container having the predetermined volume, It is impossible to manufacture a small number of water, and in particular, there is a fear that the dissolved amount of ozone which is harmful to the human body is increased in the hydrogen water produced through electrolysis.

In addition, Korean Patent Laid-Open Publication No. 10-2013-85815 discloses another example of a conventional hydrogen-water producing device using electrolysis.

In the conventional hydrogen water producing apparatus disclosed in Korean Patent Laid-Open Publication No. 10-2013-85815, there is a high possibility that the dissolved amount of ozone is increased in the produced hydrogen water because the electrolyzed oxygen is not treated separately, There is a problem in the prior art that the pressure of the raw water directly acts on these component parts, so that durability is low and long-term use is difficult.

Korean Patent Laid-Open Publication No. 10-2013-73881 Korean Patent Publication No. 10-2013-85815

In order to solve the above problems, it is an object of the present invention to improve the durability of various constituent parts by preventing the water pressure of the water supply pipe from directly acting in the water producing apparatus, and at the same time, The present invention is to provide a hydrogen water producing apparatus capable of greatly increasing the amount of dissolved hydrogen in the water and rapidly watering the produced hydrogen water to maximize the effect of hydrogen peroxide.

The present invention comprises a static pressure maintaining unit comprising a closed container having an open / close valve operated by a knitting machine and maintaining a predetermined water level by receiving purified raw water; Wherein a positive electrode plate is provided in the oxygen generating chamber and a hydrogen generating chamber is provided in the hydrogen generating chamber so that the hydrogen generating chamber is filled with the raw water purified by the positive pressure holding unit, An electrolytic unit provided with a cathode plate and performing electrolysis according to power supply; A fluid pump for supplying raw water and hydrogen from the hydrogen generation chamber of the electrolysis unit and feeding the raw water and hydrogen; A filter unit connected to the fluid pump to receive raw water and hydrogen, and to filter out foreign matter and ozone; A dissolution part for dissolving hydrogen in the raw water by supplying raw water and hydrogen from the filter part with a nozzle and injecting it; And a flow rate detecting sensor which is provided in the piping after the dissolved portion to drive the fluid pump in accordance with detection of water supply of water and to supply power to the electrolysis section to perform electrolysis.

At this time, the dissolved portion includes a nozzle for spraying raw water and hydrogen toward a vertically downward direction; A container-shaped inner container having a plurality of through holes formed on an outer peripheral surface thereof; And a casing accommodating the inner container, wherein the nozzle is positioned on the upper side and the outlet is formed on the lower side.

As described above, according to the present invention, it is possible to improve the durability of various component parts by preventing the water pressure of the water supply pipe from directly acting in the hydrogen-water producing device, and to increase the hydrogen dissolution amount to hydrogen water through the dissolution of hydrogen and raw water through the nozzle And is an invention capable of maximizing the effect of hydrogen peroxide by rapidly supplying the generated hydrogen peroxide.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a schematic diagram showing a hydrogen-water producing apparatus of the present invention,
2 is a cross-sectional view showing an electrolytic unit in the hydrogen-producing plant of the present invention,
3 is a cross-sectional view showing a dissolved portion in the hydrogen-producing plant of the present invention.

2 is a cross-sectional view showing an electrolytic unit in the hydrogen-water producing apparatus of the present invention, and Fig. 3 is a cross-sectional view of the hydrogen- Sectional view showing the dissolved portion.

As shown in FIGS. 1 to 3, the apparatus for producing hydrogen water according to the present invention comprises a closed container 230 having an open / close valve 220 operated by a knitting machine 210, A static pressure maintaining unit 200 for maintaining the water level; And a hydrogen generating chamber 320 supplied with raw water purified by the static pressure holding unit 200 is formed of a closed vessel 340 formed by bifurcating the ion exchange membrane 330 between the oxygen generating chamber 310 supplied with the raw water, An electrolysis unit 300 having a cathode plate 311 in the oxygen generating chamber and an anode plate 321 in the hydrogen generating chamber 320 to perform electrolysis according to power supply; A fluid pump 400 for supplying raw water and hydrogen from the hydrogen generation chamber 320 of the electrolysis unit 300 and feeding the raw water and hydrogen; A filter unit 500 including a filter 510 connected to the fluid pump 400 to receive raw water and hydrogen to remove foreign matter and ozone; A dissolution part 600 having a nozzle 610 to supply raw water and hydrogen from the filter part 500 and inject the raw water into the raw water; The fluid pump 400 is provided in the piping after the dissolved portion 600 so that the fluid pump 400 is driven in accordance with detection of the supply of water. And a sensor 700 as a basic feature of the technology.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3, the apparatus for producing hydrogen water according to the present invention mainly includes a static pressure holding unit 200, an electrolysis unit 300, a fluid pump 400, a filter unit 500, (600), and a flow rate detection sensor (700).

At this time, it is preferable to provide the preliminary filter unit 100 in order to supply purified water to the hydrogen-producing plant of the present invention.

The preliminary filter unit 100 includes a plurality of filters connected to a pipe, for example, a water pipe, to which raw water of a predetermined water pressure is supplied, and to filter foreign substances.

The filter provided in the preliminary filter unit 100 may include a sediment filter for removing sand, soil, rust and the like according to a required function; A pre-carbon filter to remove chlorine, prohalomethane, odor, and the like; A hollow fiber membrane for removing various heavy metal organic chemicals; A spiral three - section membrane filter; A post-carbon filter for improving the taste of water and removing gas, odor, and the like.

In the embodiment of the present invention, as shown in FIG. 1, four filters, that is, a settling filter 110, a free carbon filter 120, a hollow fiber filter 130 ), And a post-carbon filter 140 are sequentially provided.

Then, some of the filtered raw water passing through the preliminary filter unit 100 is supplied to the static pressure holding unit 200 of the present invention.

The static pressure holding unit 200 includes a sealed container 230 capable of storing predetermined raw water and has a float 210 and an on-off valve 220 therein.

The knot 210 and the on-off valve 220 are positioned substantially above the static pressure holding part 200. When the knot 210 ascends and descends according to the water level of the raw water, The valve 220 is opened and closed.

That is, when the knot 210 rises above a certain height, the on-off valve 220 is closed, and when the knot 210 falls below a predetermined height, the on-off valve 220 is opened.

Here, the opening / closing valve 220 is not limited to the type of the valve, and in the present invention, the needle valve is the most preferable.

As a result, for example, a water pressure acting on a pipe for supplying raw water, such as a water pipe, is maintained in the constant pressure holding portion 200, It is possible to maintain a constant water pressure without acting as it is on the water tank 200.

Next, as shown in FIG. 2, the electrolytic unit 300 includes a hermetically sealed container 340 formed by biping the ion exchange membrane 330 therebetween.

Accordingly, the inside of the electrolysis unit 300 is divided into an oxygen generation chamber 310 and a hydrogen generation chamber 320.

At this time, some of the filtered raw water passing through the preliminary filter unit 100 is supplied to the static pressure holding unit 200 as described above, and the remainder is supplied to the oxygen generating chamber 310 of the electrolysis unit 300 .

In the oxygen generating chamber 310, knitting and opening / closing valves are provided in the same manner as the above-described static pressure holding unit 200, so that the raw water is always maintained at a constant water level.

The raw water of the static pressure holding part 200 is supplied to the hydrogen generation chamber 320.

The anode plate 311 for electrolysis is disposed in the oxygen generating chamber 310 of the electrolysis unit 300 and the anode plate 321 for electrolysis is disposed in the hydrogen generating chamber 320, As the power is supplied to the positive electrode plate 311 and the negative electrode plate 321, water is electrolyzed.

Particularly, the ion exchange membrane 330 separating the oxygen generation chamber 310 and the hydrogen generation chamber 320 from each other in the electrolysis section 300 blocks the movement of water, while the cation is a membrane capable of freely moving. In the embodiment, it is preferable to apply a Nafion membrane manufactured by DuPont.

As a result, when electrolysis is performed in the electrolysis unit 300, oxygen is generated in the oxygen generation chamber 310, and hydrogen is generated in the hydrogen generation chamber 320.

At this time, a separate vent hole 312 is formed in the upper part of the oxygen generating chamber 310 to release the generated oxygen into the atmosphere according to the electrolysis.

The hydrogen generated in the hydrogen generating chamber 320 is partially dissolved in the raw water supplied through the static pressure holding unit 200 to generate hydrogen having a relatively small amount of dissolved hydrogen. 1 < / RTI >

The fluid pump 400 serves to supply and feed hydrogen and raw water and hydrogen from the hydrogen generation chamber 320 of the electrolysis unit 300. Whether or not the fluid pump 400 operates And will be controlled by the flow detection sensor 700 described later.

Hydrogen water, raw water, and hydrogen compressed by the fluid pump (400) are supplied to the filter unit (500).

The filter unit 500 is connected to the fluid pump 400 to receive hydrogen, raw water, and hydrogen having a relatively small amount of hydrogen dissolved therein, and is filtered with a filter to eliminate foreign substances and ozone. In the present invention, The filter provided in the filter unit 500 is preferably, for example, an activated carbon filter 510.

Hydrogen water, raw water, and hydrogen, which have a relatively small hydrogen dissolution amount, are supplied to the dissolved portion 600 after passing through the filter portion 500.

The dissolved portion 600 is configured to dissolve hydrogen in the raw water more by injecting raw water and hydrogen into the predetermined space at a high pressure by the nozzle 610. Hydrophobic water dissolves in the dissolved portion 600 through the dissolved portion 600 The amount is greatly increased.

3, the dissolved part 600 may be applied to various forms including the nozzle 610. Particularly, in the present invention, the dissolved part 600 is formed by vertically downwardly moving raw water and / A nozzle 610 for injecting hydrogen; A container-shaped inner container 620 having a plurality of through holes 621 formed on an outer peripheral surface thereof; And a casing 630 accommodating the inner container 620 and having the nozzle 610 on the upper side and the outlet 631 on the lower side.

That is, the dissolved part 600 includes a cylindrical casing 630 having an inlet formed at an upper portion thereof and an outlet 631 formed at an upper portion thereof. The dissolved gas is supplied from a nozzle 610 located at an inlet, Is injected in the lower direction and collides with the inner container 620 in which the plurality of through holes 621 are formed, so that the hydrogen can be more dissolved in the raw water.

As a result, a relatively large amount of hydrogen is produced in the dissolved portion 600, and then the hydrogenated water of the dissolved portion 600 will be supplied to the user through the flow rate detecting sensor 700.

At this time, the flow rate detection sensor 700 is provided in the piping after the dissolved portion 600, and detects whether or not the supply of hydrogen water is performed.

The flow rate detection sensor 700 functions to drive the fluid pump 400 and to supply power to the electrolysis unit 300 to perform electrolysis when water supply water is detected.

That is, whether or not the fluid pump 400 is operated and the electrolysis in the electrolysis unit 300 is determined depending on whether or not water of a small number of water detected by the flow rate detecting sensor 700 is supplied. As a result, unnecessary power consumption And it is possible to generate water and generate water in real time when the user's number of water is used without generating a water number having a very short hydrogen dissolution time in advance.

In the above description, the oxygen generated during the electrolysis is discharged to the atmosphere through the vent hole 312 of the oxygen generating chamber 310. However, if necessary, a separate pipe may be connected to the vent hole 312, It may also be used for manufacturing.

Hereinafter, the operation of the present invention will be described with reference to FIGS. 1 to 3. FIG.

In the apparatus for producing hydrogen water of the present invention having the above-described structure, the raw water is supplied to the preliminary filter unit 100, and the preliminary filter unit 100 is connected to the preliminary filter unit 110, the prefiber filter 120, the hollow fiber membrane filter 130, (140), and the raw water is filtered.

Most of the raw water filtered in the preliminary filter unit 100 is supplied to the static pressure holding unit 200 and the rest of the raw water is supplied to the electrolysis unit 300 by the amount of raw water insufficient through electrolysis.

The raw water supplied to the static pressure holding part 200 is maintained at a certain level in the hermetic container 230 of the static pressure holding part 200 by the knot 210 and the opening and closing valve 220, The raw water filtered through the preliminary filter unit 100 is supplied again.

Accordingly, the water pressure acting on the water pipe works only up to before the static pressure holding part 200, and no separate water pressure acts after the static pressure holding part 200, A small number of water supply is performed, thereby preventing the water pressure acting on the water pipe from acting on the inside of the apparatus, thereby preventing the durability from being lowered.

The oxygen generating chamber 310 and the hydrogen generating chamber 320 are separated from each other by the ion exchange membrane 330 in the closed vessel 340 of the electrolysis unit 300, Oxygen is generated in the positive electrode plate 311 in the hydrogen generating chamber 310 and hydrogen is generated in the negative electrode plate 321 in the hydrogen generating chamber 320.

At this time, oxygen generated in the oxygen generating chamber 310 is discharged to the atmosphere through a vent hole 312 provided above the electrolysis unit 300.

In this electrolysis, only the positive ions are allowed to move through the ion exchange membrane 330 and the water can not move inside the electrolysis unit 300. Hence, the hydrogen water generated in the hydrogen generation chamber 320 It is possible to reliably prevent the ozone and the like from being dissolved in the hydrogen water by not receiving the influence of oxygen at all.

The raw water and the hydrogen are sent to the filter unit 500 through the fluid pump 400 together with the hydrogen water having a relatively small amount of hydrogen generated in the hydrogen generation chamber 320 of the electrolysis unit 300.

In the filter unit 500, the activated charcoal filter 510 removes foreign matter contained in the hydrogenated water, and additionally filters the foreign substances. The raw water and the hydrogen together with the hydrogenated water having a relatively small amount of hydrogen dissolved therein, .

In the dissolved portion 600, raw water and hydrogen are strongly injected into the inner vessel 620 inside the casing 630 by the nozzle 610, so that a relatively large amount of hydrogen is produced in the dissolved portion 600 And the generated hydrogenated water is supplied to the user through the flow rate detecting sensor 700.

At this time, the flow rate detecting sensor 700 detects the user's supply of water to control the electrolysis of the electrolysis unit 300, as well as the operation of the fluid pump 400.

Thus, the electrolysis and the operation of the fluid pump 400 can be performed only when the user supplies water at a small number of times, thereby making it possible to quickly generate and supply water without unnecessary power consumption.

Therefore, the water-producing apparatus of the present invention has an advantage that the water pressure acting on the water pipe does not act inside the apparatus, so that the durability of the component parts, which may be caused by the water pressure, can be prevented in advance.

Since the electrolytic unit 300 is completely separated by the ion exchange membrane 330, the hydrogen generated by the electrolysis is not affected by oxygen at all, and there is no fear that ozone or the like is harmful to the human body.

In addition, the nozzle 610 can be used to inject raw water and hydrogen at high pressure, thereby greatly increasing the amount of hydrogen dissolved in the hydrogen water, thereby supplying better quality water.

Finally, since the electrolysis and the operation of the fluid pump 400 are performed by the flow rate detection sensor 700, unnecessary power consumption is prevented, and water is supplied within a short period of time after the hydrogen water production, To be able to supply it.

The above embodiment is an example for explaining the technical idea of the present invention specifically, and the scope of the present invention is not limited to the above-mentioned drawings or embodiments.

100: preliminary filter unit 110: precipitate filter
120: free carbon filter 130: hollow fiber filter
140: post carbon filter 200: static pressure holding part
210: Knitting 220: opening / closing valve
230: airtight container 300: electrolytic unit
310: oxygen generating chamber 311: positive electrode plate
312: vent hole 320: hydrogen generating chamber
321: cathode plate 330: ion exchange membrane
340: sealed vessel 400: fluid pump
500: filter unit 510: activated carbon filter
600: dissolved part 610: nozzle
620: inner container 621: through hole
630: casing 631: outlet
700: Flow detection sensor

Claims (2)

A static pressure holding unit which is composed of a closed container provided with an on / off valve operated by a knitting machine and receives a purified raw water and maintains a predetermined water level;
Wherein a positive electrode plate is provided in the oxygen generating chamber and a hydrogen generating chamber is provided in the hydrogen generating chamber so that the hydrogen generating chamber is filled with the raw water purified by the positive pressure holding unit, An electrolytic unit provided with a cathode plate and performing electrolysis according to power supply;
A fluid pump for supplying raw water and hydrogen from the hydrogen generation chamber of the electrolysis unit and feeding the raw water and hydrogen;
A filter unit connected to the fluid pump to receive raw water and hydrogen, and to filter out foreign matter and ozone;
A dissolution part for dissolving hydrogen in the raw water by supplying raw water and hydrogen from the filter part with a nozzle and injecting it;
And a flow rate detecting sensor provided in the piping after the dissolved portion for driving the fluid pump in accordance with detection of water supply of water and supplying power to the electrolysis portion to perform electrolysis. Small number manufacturing device.
The apparatus according to claim 1,
A nozzle for spraying raw water and hydrogen toward the vertically downward direction;
A container-shaped inner container having a plurality of through holes formed on an outer peripheral surface thereof;
And a casing accommodating the inner container, the casing having the nozzle on the upper side and the outlet on the lower side.

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