KR20190030836A - Hydrogen water generator - Google Patents

Abstract

The present invention relates to a hydrogen water generator. As the hydrogen water generator is formed in a small size, anybody can quickly generate and immediately drink hydrogen water useful for a human body regardless of place as long as power can be connected even if a space is narrow. According to the present invention, the hydrogen water generator comprises: a main body (10) having a holding part (13), and first and second connection parts (131, 132) respectively extended upward from a part recessed in the holding part; an electrolytic tank (20) including an electrolysis module (21) mounted to block the inside, and first and second compartments (22, 22′) separated by the electrolysis module; a water tank (30) having water supplied from the first compartment and supplying water to the second compartment; and a water container (40) including a body (41), a sealing cap (42) provided with first and second valve holes (421, 422) combined to seal the open lower end of the body and punched on the bottom to correspond to the first and second connection parts and first and second valves (423, 424) mounted to descend to the first and second valve holes by repulsive force of each coil spring to open and close the first and second valve holes, and a lid (43) for covering the open upper end of the body.

Description

Hydrogen water generator

The present invention relates to a hydrogen generator, and more particularly, to a hydrogen generator for generating hydrogen water useful for a human body in a short period of time, regardless of the place, will be.

Conventionally, in order to manufacture and supply hydrogen-rich water, which is known to be effective for prevention and treatment of various adult diseases, it is necessary to use a water-holding unit for storing tap water as raw water and a water- When a square-wave AC voltage is applied to the electrolytic electrode, the raw water in the electrolytic chamber is electrolyzed, oxygen is generated in the anode, hydrogen is generated in the cathode, and water The initial very fine hydrogen floating in the chamber is adsorbed to the activated carbon porous body to be forcibly charged. When the raw water is supplied by opening the water supply valve, the hydrogen charged in the activated carbon porous body is sucked into the water to be dissolved in the raw water, (Patent Registration No. 10-1065742).

However, since the electrolytic hydro-hydrogen generator is constructed with a cold / hot water purifier or the like to manufacture and store hydrofluoric acid water, the structure is very complicated, Since the generated hydrogen and oxygen are dissolved together in the raw water, the process of reducing the dissolved hydrogen to the water molecule by reacting with the active oxygen generated by the electron transfer of the dissolved oxygen occurs and consequently the concentration of the dissolved hydrogen is lowered there was.

The present invention has been made in view of the foregoing problems, and it is an object of the present invention to provide a fuel cell which is simple in structure and small in size and small in space and can be used for a human body having a high concentration of hydrogen It is intended to provide a hydrogen generator capable of quickly generating and rapidly drinking hydrogen peroxide in a short period of time, as well as reducing the manufacturing cost and purchasing it without any cost.

In order to achieve the above object, according to the present invention, there is provided a mounting structure comprising: a mounting part having a cavity inside and being attached to a front surface of the mounting part; ; An electrolytic module mounted on the inner side of the first compartment, an electrolytic module mounted on the inner side of the first compartment, An electrolytic bath having an inlet port connected to the second connection port on the right side and an inlet port and an oxygen outlet port respectively provided on the upper surface of the second compartment; A float for detecting an appropriate water level of the water supplied to the water inlet, a supply port connected to the water inlet, and a water outlet formed by electrolysis of the water by the electrolysis module And an oxygen discharge port through which oxygen is discharged to the outside when the oxygen flows into the second compartment through the oxygen discharge port and the inlet port; First and second valve holes which are hermetically coupled to the lower open end of the body and are perforated so as to penetrate up and down on the floor corresponding to the first and second connection ports, And a cap for covering the opened upper end of the body, the cap having a first end and a second end, the first and second valves being installed to be lowered by the repulsive force of the coil spring, A bucket; And a pump installed between the first connection port and the inlet port. The pump has a simple structure and a small volume, and can greatly reduce the manufacturing cost, and can quickly produce good hydrogenated water having a high hydrogen concentration in a short time, To provide hydrogen hydrators to be supplied to the hydrogen generator.

The apparatus for generating hydrogen in accordance with the present invention has a simple structure and a small volume. Even if the space is small, if the power source can be connected, It is not only advantageous to quickly generate a small number and continuously supply it to drink immediately, but also to reduce the cost of production, and economical effect to purchase without the cost.

1 is a perspective view of a hydrogen generator according to the present invention;
FIG. 2 is a perspective view of the hydrogen generator shown in FIG. 1,
FIG. 3 is a schematic view showing the hydrogen generator of FIG. 1
FIG. 4A is a partial cross-sectional view of FIG.
FIG. 4B is a cross-sectional view of the bucket shown in FIG.
Fig. 5 is a cross-sectional view showing another example of use,

Hereinafter, a hydrogen generator according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a hydrogen generator according to the present invention, FIG. 2 is a perspective view showing a part of the hydrogen generator of FIG. 1 partially removed, FIG. 3 is a schematic view showing a hydrogen generator of FIG. 1, FIG. 4B is a cross-sectional view of the water bottle separated from FIG. 4A. FIG.

1 to 4A and 4B includes a main body 10, an electrolytic bath 20 provided inside the main body, a water tank 30, and a water bottle 40.

The main body 10 is hollow and has a bottom plate 11 which is joined to the bottom surface and the rear surface which are opened, a mounting portion 13 of the cover 12 and a water bottle 40 attached to the front surface, A control unit (14) including an on / off switch, a light transmitting window (15) laid on the front in correspondence with the mounting portion, a mounting groove (16) recessed and formed at an upper end of the front surface, And a mounting piece 17 protruding from the mounting portion at a lower end.

The mounting portion 13 is formed to stably mount the water bottle 40 and includes first and second connecting portions 131 and 132 extending upward at the center of a portion formed at a predetermined depth so as to be isolated from each other at the bottom, And a proximity switch 133 installed at a position deviated from the first and second connectors on the floor.

The control unit 14 is provided with switches and operation indicators for enabling automatic or selective manual operation including the on / off switch and the generation of the hydrogenated water.

The light transmitting window 15 is provided with an LED (not shown) such as red or blue which is installed in the main body 10 and is selectively turned on to emit light to the outside, 20), it is possible to confirm whether or not the generation operation of the number of water is in progress or completed, depending on the color, as well as the decoration effect according to the illumination.

The electrolytic cell 20 includes an electrolytic module 21 interposed in a cavity, first and second compartments 22 and 22 'isolated from each other by the electrolytic module, An inlet port 223 and an oxygen outlet port 224 provided on the upper and lower surfaces of the second compartment, respectively.

The water inlet 221 of the electrolytic bath 20 is connected to the first connection pipe 131 of the mounting part 13 by the first pipe 201 and the water outlet 222 is connected to the second pipe 202 by the second connection pipe 132, and the water tub 30 is connected to the second pipe 203 by a third pipe 203.

The pump 101 and the filter 102 for purifying and purifying water are connected in order to the piping of the first piping 201. The second piping 202 and the third piping 203 are connected by a three- And a pressure valve 104 and a UV sterilizer 105 are connected to the duct of the second pipe.

Accordingly, when the pump 101 is operated in a state in which the water bottle 40 containing water is mounted on the mounting part 13 to generate hydrogenated water, the water in the water bottle is pumped and connected to the first connection port 131 If there is any foreign matter or impurities in the process of passing through the single pipe 201, the water is purified and purified by the filter 102, and then flows into the first compartment 22 through the inlet 221.

In the course of passing through the first compartment 22, hydrogen generated by the action of the electrolysis module 21 is mixed as described later, and water mixed with the hydrogen exiting to the water outlet 222 flows into the second pipe The water mixed with the hydrogen compressed and fed by the pressure valve 104 passes through the UV sterilizing unit 105 while the water is injected into the water bottle 40 through the second connection port 132 and the second connection port 132, If it is sterilized, it is injected.

In this process, the three-way solenoid valve 103 closes the third pipe 203 so that water mixed with the hydrogen exiting to the water outlet 222 is injected into the water bottle 40 through the second pipe 202, When water is to be supplied to the water tank 30 during the generation of the hydrogenated water, the second pipe is closed and the third pipe is opened to allow water mixed with hydrogen to be supplied to the water tank through the third pipe. When water is not generated Allow water not mixed with hydrogen to be watered.

In the above description, the three-way solenoid valve 103 is provided to open or close any one of the second pipe 202 and the third pipe 203. However, the present invention is not limited thereto, and if necessary, The first and second pipes may be selectively or simultaneously closed by providing respective solenoid valves in the third pipe. It goes without saying that the present invention is also applicable to such a case.

The electrolysis module 21 is generally disposed between the negative electrode plate and the positive electrode plate and between the negative and positive electrode plates so that not only the water itself but also oxygen in the oxygen and hydrogen generated by electrolysis of water can pass therethrough, Which is used for electrolysis of water.

The electrolytic module 21 is installed inside the electrolytic bath 20 so that the inside of the electrolytic module 21 is isolated from the first and second compartments 22 and 22 ' It is located in the deletion.

When water is allowed to pass through the first compartment 22 and water is accommodated in the second compartment 22 'as will be described later, the water introduced into the first compartment 22 and the second compartment 22' As shown in FIG.

In this state, when positive electricity is supplied to the positive electrode plate 212 and negative electricity is supplied to the negative electrode plate, the water introduced into the second compartment 22 'is electrolyzed by the electrolysis module 21, And hydrogen are generated so that oxygen rises in water and flows into the water tank 30 through the oxygen exhaust port 224 and the oxygen inlet port 35 and then to the outside through the oxygen exhaust port 32. Hydrogen passes through the dura And flows into the first compartment 22.

The hydrogen introduced into the first compartment 22 is mixed with the water obtained through the first connection port 131 and the inlet port 221 from the water tank 40 and flows through the outlet port 222 and the second connection port 132 The water is injected again into the water bottle and mixed with water in the water bottle to generate hydrogen water.

The water tank 30 has a water supply port 31 attached to the upper surface thereof, an oxygen discharge port 32 installed to discharge oxygen to the outside electrolyzed by the electrolytic bath 20, A float 33 installed in the three-way solenoid valve 103 to close the third pipe 203 to stop water supply or water supply, an inlet 223 of the electrolytic cell connected to the water in the water tank, And the oxygen inlet 35 connected to the oxygen outlet 224 by the fourth pipe 204 is installed on the upper surface of the supply port 34. The supply port 34 is connected to the second compartment 22 '

When the third pipe 203 is opened by the three-way solenoid valve 103, water in the water tank 30 is mixed with water mixed in the hydrogen discharged from the first compartment 22 to the water outlet 222 during the generation of hydrogen The water is supplied to the second compartment 22 'through the water inlet 31 and a part of the water is supplied to the second compartment 22' through the inlet 223 connected to the supply port 34. The water level rises to reach the appropriate level, The water supply is stopped because the 3-way solenoid valve closes the third pipe.

The water in the second compartment 22 'flowing from the water tank 30 is electrolyzed with oxygen and hydrogen by the electrolysis module 21 to supply pure hydrogen required for generating hydrogen water to the first compartment 22 .

The water bottle 40 includes a pipe-shaped body 41 formed of a transparent synthetic resin having open upper and lower ends, a sealing cap 42 sealingly coupled to an open lower end of the body, And a lid 43 for covering the upper end thereof.

The body 41 includes a spout 411 which is formed at an upper end portion of the body 10 so as to be inclined upward outward and conforms to the front mounting groove 16 of the body 10 and a handle 412 formed on the outer surface of the spout 411 corresponding to the spout .

The sealing cap 42 includes first and second valve holes 421 and 422 formed in the bottom of the mounting portion 13 to be vertically penetrated through the bottom of the mounting portion 13 in correspondence with the first and second connectors 131 and 132, First and second valves 423 and 424 mounted on the first and second valve holes and closing the first and second valve holes when the first and second valve holes descend due to the repulsive force of the coil spring, And a magnet 426 attached to a portion of the lower surface corresponding to the proximity switch 133. The engaging groove 425 is formed in the lower portion of the outer surface so that the piece 17 is engaged.

The lid 43 includes a through hole 431 formed at the center of the upper surface portion, a cap 432 sealingly connecting the through hole, a main surface portion 433 extending downward from the outer periphery of the upper surface portion, And a plurality of outflow holes 434 vertically formed in a portion corresponding to the left and right widths of the spout 411 (see Fig. 5) may be provided in a part of the main surface portion.

When the lid 43 is coupled to the open upper end of the main body 10, the plurality of outflow holes 434 are formed in the upper end portion of the main body 10 in such a manner that the main surface portion 433 is shifted from the spout 411, .

The outer surface of the main surface portion 433 is brought into close contact with the inner surface of the main body 10 and at the same time the portion of the main surface portion where the outflow grooves 434 are not formed blocks the spout 411 from the inside, And is sealed by the lid to prevent the hydrogen supplied to the inside thereof from leaking out to generate hydrogen water.

At this time, the through-hole 431 is sealed by the cap 432, and if necessary, the packing ring may be attached to the outer surface of the main surface 433.

In order to use the hydrogen generator according to the present invention configured as described above, first, the water bottle 40 into which a proper amount of water (preferably purified water) is inserted is inserted into the spout 411 in the mounting groove 16, 425 are fixedly coupled to the hooking piece 17 (see Fig. 4A)

The first and second connection ports 131 and 132 are inserted into the first and second valve holes 421 and 422 to push up the first and second valves 423 and 424, And the first and second valve holes are opened and the magnet 426 is placed in the proximity switch 133 to be turned "on " so that the control unit 14 is supplied with current.

At this time, if the hydrogen water handler is set to operate automatically, the pump 101 operates so that the water in the water bottle 40 passes through the first valve hole 421, the first valve 423, and the first connection port 131 When foreign substances or bacteria are present in the purified water and the purifying filter 102 in the process of passing through the first pipe 201, the purified water is purified and purified and flows into the first compartment 22 through the inlet 221, .

The electrolytic bath 20, the pressure valve 104 and the UV sterilizing unit 105 are not operated and the three-way solenoid valve 103 is not operated when the water tank 30 is empty. The water discharged to the water outlet 222 is supplied to the water tub 30 through the water supply port 31 through the third pipe and the water supply pipe Is supplied to the second compartment 22 'through the supply port 34 and the inlet port 223.

Thereafter, when the water level of the water tank 30 rises and an appropriate level is detected by the float 33, the three-way solenoid valve 103 closes the third pipe 203 and opens the second pipe 202, The water passing through the second piping passes through the second piping and simultaneously the electrolytic bath 20, the pressure valve 104 and the UV sterilizing unit 105 operate. Sterilized when passing through the UV sterilizing part while passing through the UV disinfecting part and then sterilized after passing through the second connecting hole 132, the second valve 424 and the second valve hole 422, .

In the process of circulating the water contained in the water bottle 40, the electrolysis module 21 of the electrolytic bath 20, which is operated, causes the water in the second compartment 22 ' The oxygen in the hydrogen flows into the interior of the water tank 30 through the oxygen exhaust port 224 connected to the fourth pipe 204 and the oxygen inlet port 35 and is discharged to the outside through the oxygen exhaust port 32, Passes through the membrane of the decomposition module, flows into the first compartment 22, is mixed with the water received through the inlet 221, and then exits to the outlet 222.

The water mixed with the hydrogen by the operation is pressurized by the pressure valve 104 to be pressurized and injected into the water contained in the lower portion of the water bottle 40 through the second valve hole 422, Since the hydrogen particles are mixed and dispersed in the water to be injected, the hydrogen is uniformly and evenly mixed with the whole water, .

When the drinking water generated in this way is consumed, holding the handle 412 and lifting the water bottle 40 from the mounting portion 13 causes the proximity switch 133 to "off" the magnet 426 from the magnetic force, And the operation of the hydrogen handler is immediately stopped and at the same time as the first and second connection ports 131 and 132 are released from the first and second valve holes 421 and 422, The first and second valves 423 and 424 are lowered by the repulsive force so that the first and second valve holes are simultaneously closed, so that the hydrogen is not leaked (see FIG. 4B).

In this state, the lid 43 is turned so that a plurality of outflow grooves 434, which are offset from the spout 411, are aligned with the spout, and then the water bottle 40 is tilted, Drink it.

Thereafter, when the water bottle 40 is placed on the mounting portion 13 even when fresh water is added or the remaining water amount is large, the proximity switch 133 is turned on by the magnet 426 to generate hydrogen water Operation is again performed.

The operation of generating hydrogen water is not performed only when the water level is lowered and the water level is lowered, or when the water level is lowered or when the water level is lowered and the water level is lowered. It is preferable that hydrogen is intermittently operated because the hydrogen is dissolved and the residual amount is decreased and the efficacy thereof is lowered.

In addition, the operation of generating the hydrogenated water may be operated manually by operating the control unit 14 in accordance with the convenience of the user.

FIG. 5 is a cross-sectional view showing another use example of the bucket in FIG.

5 shows that the water bottle 40 can be made to drink by generating hydrogen water without having to store the water bottle 40 on the main body 10. For example, in the hydrogen generator of the present invention, The hose 60 may be opened by inserting the cap 432 and inserting the cap 432 through the through hole 431 into the water bottle and immersing the water in the water.

Since the hydrogen generator according to the present invention is manufactured in a simple structure and small in volume, even if the space is small, if the power source can be connected, the hydrogen generator can be used for a short time So that it can be supplied immediately.

10: Main body 13:
15: light transmitting window 16: mounting groove
17: Hook 20: Electrolyte
21: electrolysis module 22, 22 ': first and second compartments
30: water tank 31: water supply port
32: oxygen outlet port 33: float
34: supply port 35: oxygen inlet
40: water bottle 41: body
42: sealing cap 43: lid
101: Pump 102: Filter
104: Pressure valve 105: UV sterilizer

Claims (5)

(13) formed on the front surface and a first and a second connection ports (131) extending upward from the bottom of the mounting part (13) 132; < / RTI >
An electrolytic module 21 mounted on the inside of the first compartment 22 so as to be spaced apart from the inside of the first compartment 22, a first compartment 22 and a second compartment 22 separated by the electrolysis module 21, A water inlet 222 connected to the second connection port 132 on the right side of the first compartment 22 and a water outlet 222 connected to the second connection port 132 on the left side of the first compartment 22, An electrolytic bath 20 having an inlet 223 and an oxygen outlet 224 provided on the upper surface of the compartment 22 ';
A float 33 connected to a water outlet 222 of the first compartment 22 and a float 33 installed inside the water inlet 31 to detect an appropriate water level of the water supplied to the water inlet 31, And an oxygen inlet port 35 connected to the oxygen outlet 224 in the second compartment 22 'so that oxygen generated by electrolysis of water by the electrolysis module 21 is connected to the oxygen outlet 224, A water tank 30 having an oxygen outlet 32 for discharging the water to the outside;
The upper and lower ends of the body 41 are connected to the lower end of the body 41 so as to be hermetically sealed. The upper and lower ends of the body 41, The first and second valve holes 421 and 422 and the first and second valve holes 421 and 422 are mounted on the first and second valve holes 421 and 422 so as to be lowered by the repulsive force of the coil spring, And a lid 43 covering the open upper end of the body 41. The seal cap 42 includes first and second valves 423 and 424 that are installed to open and close the body 41, ; And
And a pump (101) installed between the first connection port (131) and the inlet port (221). The method according to claim 1,
The main body 10 includes a light transmitting window 15 attached to a front surface corresponding to the mounting portion 13 and allowing the light of the LED to be emitted to the outside to be emitted to the outside, A groove (16), and a mounting piece (17) protruding from the mounting part at a lower end of the front surface;
The water bottle 40 includes a spout 411 formed at an upper end of the body 41 so as to be aligned with the mounting groove 16 and sloping upward to the outside, And an engaging groove (425) formed in the lower portion of the outer surface to be recessed. 3. The method according to claim 1 or 2,
The main body 10 further comprises a proximity switch 133 installed at the bottom of the mounting portion 13;
Wherein the water bottle (40) further comprises a magnet (426) attached to the bottom of the sealing cap (42) corresponding to the proximity switch (133). The method according to claim 1,
A purification filter 102 installed between the pump 101 and the inlet port 221 and a pressure valve 104 installed between the second connection port 132 and the outlet port 222, . 5. The method of claim 4,
And a UV sterilizer (105) installed between the second connection port (132) and the pressure valve (104).

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