KR20180065618A - Hydrogen water generator - Google Patents

Abstract

The present invention relates to a hydrogen-water generator, and more particularly, to a hydrogen water generator, which comprises: a power supply unit (10) having a battery (11) for supplying power; an electrode unit (20) having a pair of electrodes (21) electrolyzing water by a power source of the battery (11); a water storage unit (30) having an outlet (31) extended upward to supply or discharge the water; and a lid unit (40) provided with an outlet coupling end (41), and thus the amount of hydrogen dissolved in the water is increased and hydrogen and oxygen are stably discharged to the outside.

Description

HYDROGEN WATER GENERATOR

[0001] The present invention relates to a hydrogen-water generator, and more particularly, to a hydrogen-water generator, in which water produced by electrolysis of water in a water bucket is supplied to water in the bucket to store water in which hydrogen is dissolved, Hydrogen and oxygen to the outside in a stable manner.

In general, when living normally, most of the active oxygen is reduced to water by the hydrogen ions generated in the cell activity process, but it can be treated in the human body by stress, unreasonable exercise, drinking, smoking, There is more than enough capacity.

The active oxygen has a strong oxidizing power and is produced in the course of cell activity, and it plays a positive role of sterilizing harmful bacteria. However, when it is produced excessively, it can not be reduced to water and attack the normal cell itself to cause mutation It plays a negative role in killing cells, promoting aging, causing various metabolic diseases, decreasing immunity and accelerating skin aging.

Accordingly, there have been proposed methods using hydrogen water, which is a water in which hydrogen molecules are dissolved, to remove active oxygen (.OH) generated in the body, and mainly hydrogen is obtained by electrolysis of water, Have been proposed.

Korean Patent No. 10-1442565 (Apr. 15, 2014) discloses a portable, functional water-producing apparatus.

The conventional technique includes a main body 110 having a cover 111 that can be opened and closed as shown in FIG. 1; A storage container (120) for storing raw water; A storage container cover 130 coupled to an upper side of the storage container 120 and having a discharge port 131 formed to discharge hydrogen water; A filter block receiver (140) detachably coupled to the discharge port (131) inside the storage container cover (130) and having a reducing block filter (144) installed therein; A gas discharge unit 150 installed in the storage container cover 130 and operated to discharge gas generated in the storage container 120 to the outside; An electrolysis unit 160 installed on a lower inner surface of the storage container 120 and including a first electrode 161 and a second electrode 162; A power supply unit 170 installed inside the main body 110; A main control unit 170 that receives power from the power supply unit 170 and supplies alternating currents of positive and negative electrodes to the first electrode 161 and the second electrode 162 in a period of time during which no scale material is generated, 180, < / RTI >

The gas discharge unit 150 includes a gas passage hole 151 formed in the storage container cover 130; And is formed below the gas passage hole 151 and is elastically supported by a spring 153 to block the gas passage hole 151. When the pressure inside the storage container 120 becomes equal to or higher than a predetermined pressure, A vent valve 152 for opening the valve 151; And further comprising:

However, in the above-described prior art, the main controller 180 alternately supplies alternating currents of the positive electrode and the negative electrode so that hydrogen, oxygen, and ozone electrolyzed from the first electrode 161 and the second electrode 162 are mixed with water There is a problem that impurities are included in the hydrogenated water.

In addition, the above-described prior art should be provided in the filter block receiver 140 in which the reducing block filter 144 is embedded in the storage container cover 130, so that chlorine ions and hypochlorous acid can be removed. However, There is a problem that the manufacturing cost of the apparatus is increased.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a fuel cell system in which hydrogen generated in a cathode electrode is supplied to raw water during electrolysis of water, And a check valve is provided on the lid so as to exhaust hydrogen generated by a predetermined internal pressure or more to the outside, and the battery is charged through the USB power supply terminal, thereby providing a reusable hydrogen-water generator.

According to an aspect of the present invention, there is provided a hydrogen generator for generating hydrogen water by electrolyzing water, comprising: a power unit including a battery for supplying power during electrolysis of the water; An electrode unit coupled to an upper portion of the power unit and having a pair of electrodes for electrolyzing the water using a power source of the battery; A water storage part coupled to an upper part of the electrode part and having a discharge port extended upward to supply or discharge the water to the upper center; And a lid part coupled at an upper portion of the water storage part and having a discharge port coupling end extending downward at a center to be coupled to an outer periphery of the discharge port,

An oxygen discharge hole through which the oxygen generated in the electrode is discharged to the outside, a discharge opening / closing part which is inserted into the inner periphery of the oxygen discharge hole and in which a plurality of O- Bars,

The discharge opening / closing rod is protruded outward from a lower end of the power source part and is inserted into a spring at an upper outer circumferential edge to slide up and down.

The electrode includes a negative electrode disposed at the upper end, a positive electrode disposed at the lower portion, a diaphragm seated on the upper surface of the positive electrode, and a ring-shaped separator that is seated on the diaphragm and separates the negative electrode and the positive electrode from each other by a predetermined distance Ring.

The electrode unit includes an electrode housing having an electrode shell having a supporting end formed at an inner center of the lower end of the water reservoir and an upper housing having an upper end supported by the supporting end, An electrode seat having an upper communicating hole through which the ball is passed and a central stopper which is inserted into a peripheral edge of the lower portion of the electrode jacket so as to be fixed to the supporting end at an outer circumferential periphery so as to be fixed when fastened to the upper communicating port, And a lower coupling part coupled to a lower outer periphery of the electrode seat so that the electrode support is closely attached to the bottom surface of the electrode.

The electrode seat includes an upper coupling end extending upwardly to be engaged with the upper communication hole and a lower coupling end extending downward to be coupled with the lower coupling hole, and the lower coupling end is provided with a pair of upper And a plurality of electrode supports are provided in the center of the electrode seat so as to allow the water to flow in the seating of the electrodes.

The anode and the cathode are formed of a platinum electrode having a plurality of planar apertures formed on a circular plate having a circular center at its center and electrode terminals extending outward from the outer periphery of one side of the platinum electrode to be electrically connected to the power supply unit .

And a check valve fastener having a check valve recessed therein is fastened to an upper inner edge of the lower inner periphery of the discharge port fastening end, And a protruding incision end which is incised and protrudes downwardly is provided.

As described above, the hydrogen-water generator according to the present invention has the following effects.

First, an oxygen discharge hole passing through the center of the power unit for discharging the oxygen electrolyzed from the electrode unit to the lower bottom, and a discharge opening / closing rod for opening / closing the oxygen discharge hole, Therefore,

Secondly, the diaphragm is divided into a diaphragm between a cathode electrode and a cathode electrode constituting the electrode, and a cathode electrode is provided on an upper part of the anode electrode so that hydrogen generated by electrolysis is supplied to the upper part, The dissolved amount of hydrogen in the negative water increases,

Third, there are provided an upper communicating hole, an electrode sheathing hole, an electrode seating hole, an electrode holder and a lower coupling hole in the electrode portion having the electrode built therein, and a plurality of O- It is possible to stably prevent water from leaking to the lower power supply unit or the outside,

Fourth, since a plurality of planar expansion holes are provided on the disk of the negative electrode and the positive electrode, the cross-sectional area of the same size electrode is expanded,

Fifth, since the check valve, which is bent downwardly and protruded downward from the coupling end of the discharge port communicating with the lid portion formed with the discharge hole, is provided so that the hydrogen pressure of the water storage portion is kept constant, Thereby preventing the water from leaking to the outside.

FIG. 1 is a view showing a conventional portable water heater for producing a functional water,
2 is a perspective view of a hydrogen-water generator according to the present invention,
FIG. 3 is a view showing the hydrogen-water generator according to the present invention separated,
4 is a view for explaining a power supply unit according to the present invention,
5 is an enlarged view of a check valve of a lid part of the present invention,
FIG. 6 is a view showing an electrode unit according to the present invention.

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

As shown in FIGS. 2 to 6, the hydrogen generator of the present invention is a generator for generating hydrogen water by electrolyzing water. The generator 10 includes a power supply unit 10 having a battery 11 for supplying power during the electrolysis of water )Wow; An electrode unit 20 coupled to an upper portion of the power supply unit 10 and having a pair of electrodes 21 for electrolyzing the water with the power of the battery 11; A water storage part 30 coupled to an upper part of the electrode part 20 and having an outlet 31 extended upward to supply or discharge the water to the upper center; And a lid part 40 coupled to an upper part of the water storage part 30 and having an outlet coupling end 41 extending downward to be coupled to the outer periphery of the discharge port 31 at the center.

The discharge port coupling end 41 of the lid part 40 is threadedly coupled to the discharge port 31 and is rotated. That is, the lid part 40 is opened to allow the user to drink the small amount of water through the discharge port 31.

An oxygen discharge hole 12 is formed in the center of the lower end of the power supply unit 10 so that oxygen generated in the electrode 21 is discharged to the outside. The discharge opening / closing rod 13 protrudes outward from the lower end of the power source unit 10 and is slidable upward and downward so that the discharge opening / So that the spring S is recessed in the outer peripheral edge of the upper part.

As shown in FIG. 3, a switch W for turning on / off the power supply of the battery 11 and a switch (not shown) for charging the battery 11 with an external power supply A USB port P is provided.

The electrode 21 includes a negative electrode 21a disposed at an upper portion thereof, a positive electrode 21b disposed at a lower portion thereof, a diaphragm 21c seated on the upper surface of the positive electrode 21b, And a ring-shaped spacing ring 21d which is seated on the upper portion and separates the cathode electrode 21a and the anode electrode 21b by a predetermined distance.

Here, the spacing ring 21d is provided to prevent the negative electrode 21a and the positive electrode 21b from being short-circuited.

The electrode unit 20 includes an electrode jack 22 which is fastened to the outer circumference of the lower portion of the water reservoir 30 and has a support end 22a formed at the center of the electrode, An upper communication hole 23 surrounding the electrode shell 22 and having a plurality of communication holes 23a for receiving the water at the center thereof, An electrode seat 24 having a center end 24a formed on the outer circumferential periphery and fixed to the support end 22a so as to be fixed to the upper communication hole 23, The electrode holder 25 is fixed to the bottom surface of the electrode 21 so that the electrode holder 25 is fixed to the bottom surface of the electrode 21, And a lower coupling hole 26 fastened to the outer peripheral edge of the lower portion of the sphere 24.

The electrode unit 24 is rotatably mounted on the electrode 21 so that it can be cleaned when the electrode 21 and foreign substances generated around the electrode 21 are removed.

The electrode seat 24 includes an upper coupling end 24b extending upwardly to be coupled with the upper communication hole 23 and a lower coupling end 24 extending downward to be coupled to the lower coupling hole 26 And a pair of terminal receiving ends 24c 'cut upward from the lower end thereof are provided on the lower connecting end 24c and the electrode 21 A plurality of electrode supports 24d having through holes for allowing water to flow therethrough are provided.

That is, the electrode unit 24 is fixed around the electrode seat 24, and in particular, the electrode 21 is fixed on the bottom surface of the electrode seat 24d.

The negative electrode 21a and the positive electrode 21b are connected to a platinum electrode 21 'through which a plurality of plane extension holes 21a' are formed in a circular plate having a circular central opening, And an electrode terminal 21 "extending outward from the outer periphery of one side of the platinum electrode 21 'so as to be connected to the electrode terminal 21. The electrode terminal 21 " do.

The upper end of the lid portion 40 is provided with a discharge hole 42 communicated with the discharge port coupling end 41. The discharge port coupling end 41 is provided with a check valve The check valve fastener 43 into which the valve seat 43a is inserted is fastened,

The check valve 43a is provided with a protruding cut-off end 43b which is cut at the lower center and protruded downward. The check valve 43a is preferably made of a silicon material so as to operate at a constant internal pressure.

The operation of the hydrogen-water generator according to the present invention having the above-described structure will be described below.

2 to 6, water is electrolyzed into hydrogen and oxygen by the action of the electrode 21 connected to the battery 11 of the power supply unit 10. As shown in FIG.

Here, hydrogen is generated in the cathode electrode 21a disposed at the upper end of the electrode 21, and the generated hydrogen is transported upward to be dissolved in the water stored in the water storage unit 30, and dissolved in the water The hydrogen that is not discharged through the discharge port 31 is exhausted to the outside through the discharge hole 42 of the lid part 40 so that the water storage part 30 is maintained at a constant internal pressure and water is prevented from leaking to the outside .

At this time, when the check valve 43a provided with the protruding cut-end 43b protruding downwardly curved downward is opened in the lid part 40, hydrogen having a pressure higher than the predetermined internal pressure is generated, so that the internal pressure of the water storage part 30 .

In the meantime, since the oxygen discharge hole 12 and the discharge opening / closing rod 13 for opening and closing the oxygen discharge hole 12 are provided at the central portion of the power source 10, the bottom of the hydrogen generator is brought into contact with the floor The discharge opening / closing rod 13 is slid upward to form a flow path through which oxygen is discharged to the outside.

That is, when the discharge opening / closing rod 13 is transferred to the upper side, oxygen generated in the anode 21b is transferred downward and discharged to the outside. At this time, the diaphragm 21c on the upper portion of the positive electrode 21b allows the water to pass downward through the generated oxygen after the hydrogen is generated in the cathode electrode 21a, and water is leakproofed to prevent water from passing therethrough, .

The electrodes 21 are formed in a state in which the spacing rings 21d are formed so as to be spaced apart from each other by a predetermined distance between the positive electrode 21b and the negative electrode 21a.

The electrode 21 having the positive electrode 21b and the negative electrode 21a is inserted into and fixed to the electrode seat 24 of the electrode unit 20. The electrode seat 21 is provided with a pair of terminal receiving ends 24c 'cut from the lower end to the upper end so that the positive electrode 21b and the electrode terminal 21 "of the negative electrode 21a are recessed and seated. do.

A protrusion protruding from the lower end of the electrode holder 25 is also inserted into the terminal receiving end 24c ', and the electrode holder 25 has a plurality of support protrusions protruding upward at the center thereof, And the lower surface of the second guide portion 21b is closely contacted and supported.

In this case, an O-ring is coupled between the electrode holder 25 and the electrode seat 21 to prevent the water from being pushed down, and also between the water storage 30 and the electrode seat 22 O-rings are provided to prevent leakage to the outside.

As described above, the electrode unit 20 of the present invention is formed to have a structure in which the scale generated in the electrode 21 is easily removed from the surface,

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
10: Power source 11: Battery
12: oxygen discharge hole 13: discharge opening / closing rod
20: electrode part 21: electrode
21a: negative electrode 21b: positive electrode
21c: diaphragm 21d: spacing ring
21 ': platinum electrode 21a': plane extension hole
21 ": electrode terminal 22: electrode outer casing
22a: Support end 23: Upper communication hole
23a: communication hole 24: electrode seat
24a: central side branch 24b: upper coupling end
24c: lower coupling end 24c ': terminal coupling end
24d: electrode holder 25: electrode holder
26: lower coupling part 30: water storage part
31: outlet 40: lid
41: outlet coupling end 42: exhaust outlet
43: Check valve fastener 43a: Check valve
43b: protruding edge B: PCB O: O-ring
P: USB port S: Spring W: Switch

Claims (6)

A generator for generating water by electrolyzing water, comprising:
A power supply unit 10 having a battery 11 for supplying power during electrolysis of the water; An electrode unit 20 coupled to an upper portion of the power source unit 10 and having a pair of electrodes 21 for electrolyzing the water using a power source of the battery 11; A water storage part 30 coupled to an upper part of the electrode part 20 and having an outlet 31 extended upward to supply or discharge the water to the upper center; And a lid part 40 coupled at an upper portion of the water storage part 30 and having a discharge port coupling end 41 extending downward at the center to be coupled to the outer periphery of the discharge port 31,
At the lower center of the power supply unit 10,
An oxygen discharge hole 12 through which oxygen generated in the electrode 21 is discharged to the outside and a discharge hole 12 which is formed in the inner peripheral edge of the oxygen discharge hole 12 so as to open and close the oxygen discharge hole 12, A discharge opening / closing rod 13 to which a plurality of O-rings are coupled,
Wherein the discharge opening / closing rod (13) is protruded outward from a lower end of the power source unit (10), and a spring (S) is inserted into the upper outer periphery so as to slide up and down. The method according to claim 1,
The electrode (21)
A diaphragm 21c seated on the upper surface of the positive electrode 21b and a lower electrode 21b placed on the upper portion of the diaphragm 21c to form the negative electrode 21a And a separating ring (21d) in the form of a ring which separates the positive electrode (21b) and the positive electrode (21b) by a predetermined distance. 3. The method of claim 2,
The electrode part (20)
An electrode jack 22 which is fastened to the outer circumferential edge of the lower part of the water reservoir 30 and has a support end 22a formed at the center of the water jacket 22 and an electrode jack 22 surrounding the upper end of the support end 22a, An upper communication hole 23 which is seated on the inside of the electrode jacket 22 and through which a plurality of communication holes 23a are formed so that the water is supplied to the center of the upper hole 23, An electrode seat 24 having a center support end 24a which is in contact with the support end 22a at an outermost periphery of the electrode seat 24 so as to be fixed when fastened to the electrode seat 24, The electrode holder 25 is inserted into the lower outer periphery of the electrode seat 24 so that the electrode holder 25 is closely contacted with the bottom surface of the electrode 21, And a lower coupling member (26) fastened to the lower portion of the body. The method of claim 3,
The electrode seat (24)
An upper coupling end 24b extending upward to be engaged with the upper communication hole 23 and a lower coupling end 24c extending downward to be coupled to the lower coupling hole 26,
The lower coupling end 24c is provided with a pair of terminal receiving ends 24c 'cut from the lower end to the upper end,
Wherein a plurality of electrode supports (24d) are provided in the center of the electrode seat (24) and through holes are formed in the center of the electrode seat (24) to allow water to flow therethrough when the electrode (21) is seated. 3. The method of claim 2,
The negative electrode 21a and the positive electrode 21b
A platinum electrode 21 'having a plurality of planar expansion holes 21a' formed therein and having a central opening on the circular plate, and a platinum electrode 21 'electrically connected to the power source unit 10, And an electrode terminal (21 ") extending from the periphery to the outside. The method according to claim 1,
An outlet hole 42 is formed in the upper center of the lid 40 so as to communicate with the outlet coupling end 41,
A check valve fastener 43 into which a check valve 43a is inserted is fastened to the upper inner end of the lower end of the lower end of the discharge port coupling end 41,
Wherein the check valve (43a) is provided with a protruding cut-off end (43b) cut at the lower center and bent downward.

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