KR20150092821A - Producing apparatus for hydrogen water being capable of providing a warm hydrogen water - Google Patents

Abstract

The present invention relates to an apparatus for manufacturing hydrogen water and, more specifically, to an apparatus for manufacturing hydrogen water capable of providing warm hydrogen water. An apparatus for manufacturing hydrogen water for providing the generated hydrogen water in warm water condition, comprises: a cold water tank for storing hydrogen water dissolved with hydrogen which is generated by a hydrogen generation unit; and a warm water tank for discharging the warm hydrogen water to a warm water coke by storing hydrogen water under a warm water condition heated by a heater receiving hydrogen water from the cold water tank.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hydrogen water producing apparatus capable of supplying hot water,

The present invention relates to an apparatus for producing hydrogen water, and more particularly, to a hydrogen-water producing apparatus configured to provide generated hydrogen water in a hot water state, wherein hydrogen- And a hot water tank for receiving the hot water in the hot water heated by the heater by receiving the hot water from the cold water tank and discharging it to the hot water coke. To a small number of manufacturing apparatuses.

Generally, hydrogenated water refers to water in which hydrogen is dissolved at a high dissolved amount.

These hydrogenated hydrogels prevent the aging process and prevent diabetes, hypertension, arteriosclerosis, cancer and dementia by antioxidative action of dissolved hydroxyl radicals (hydroxyl radicals) , Fatigue recovery, sexual function improvement, athletic ability improvement, strengthening of immunity, hangover is reported to be effective.

As a device capable of producing such hydrogenated water, a conventionally known technology is disclosed in Korean Patent Laid-open Publication No. 10-2011-39647, an electrolytic water water producing device, a Korean Patent No. 1076631, a water producing device, and a Korean Electrode No. 995713 A decomposition electrode assembly, an oxygen-hydrogen generator having the oxygen-decomposing electrode assembly, a device for producing hydrogen-containing water, and a device for manufacturing dissolved hydrogen-water in Korean Patent No. 1250470.

However, such known technologies have a limitation that the generated hydrogen number can be provided only in a cold state.

In addition, since the structure is very complicated and large in size as a whole, it is disadvantageous in that it is difficult to install according to the installation place, and thus it has a disadvantage that it is somewhat unsuitable for general household use or business use.

In order to solve the above-mentioned problems of the related art, the inventive water producing apparatus of the present invention is capable of providing water in a cold state as well as a hot water state, has a simple and small capacity structure, and is used for domestic and business purposes The present invention also provides a configuration of a hydrogen-water producing device capable of generating hydrogen-rich dissolved hydrogen in an abundant amount of hydrogen.

According to an aspect of the present invention, there is provided an apparatus for producing hot water, the method including: receiving hydrogen-dissolved hydrogen generated by a hydrogen generator in a cold water tank; And a hot water tank for receiving the small number of water and receiving the hot water heated by the heater and discharging the hot water to the hot water coke.

The apparatus for producing hot water capable of providing hot water of the present invention having the above-described structure can provide hot water in a hot water state, and thus has the effect of drinking drinking water suitable for a user's taste.

Also, since the structure is relatively simple and small in capacity, there is an effect that it can be used in homes and businesses without depending on the installation place.

In addition, it is a very advanced invention that has the effect of providing a high-quality hydrogen-rich water rich in hydrogen that is beneficial to the human body.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a block diagram of a hydrogen-
FIG. 2 is an exploded perspective view of a water tank of the hydrogen-
3 is an exploded perspective view of a main portion of a hydrogen generating portion of the hydrogen-
4 is a detailed view of the hot water tank of the hydrogen-producing plant of the present invention.

Hereinafter, the construction and operation of a hydrogen-water producing device capable of providing hot water of the present invention will be described with reference to the drawings.

It is to be noted, however, that the disclosed drawings are provided as examples for allowing a person skilled in the art to sufficiently convey the spirit of the present invention. Accordingly, the present invention is not limited to the following drawings, but may be embodied in other forms.

In addition, unless otherwise defined, the terms used in the description of the present invention have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. In the following description and the accompanying drawings, A detailed description of known functions and configurations that may be unnecessarily blurred is omitted.

FIG. 1 is a structural view of the hydrogen-producing plant of the present invention, FIG. 2 is an exploded perspective view of a water tank of the hydrogen-producing plant of the present invention, and FIG. 3 is an exploded perspective view of a main portion of the hydrogen-

As shown in FIG. 1, the apparatus for producing hydrogen water according to the present invention includes a water storage tank 10 for storing purified water through a filter unit 70, a water tank 10 installed in the water storage tank 10, A cold water tank 60 for storing purified water through the filter unit 70 and a hydrogen generator 60 for generating hydrogen by the hydrogen generator 20, A pump 30 for feeding the water contained in the cold water tank 60 to the dissolver 40 and a water pump 40 for supplying the water in the cold water tank 60 and the hydrogen generator 20, And a dissolver 40 for producing hydrogen water by mixing hydrogen generated by the water.

2, the water storage tank 10 is composed of a container 11 in which water is received and a lid 16 which is assembled in the upper part of the container 11, And the oxygen in the oxygen and hydrogen produced by electrolysis by the hydrogen generator 20 and the inlet 17 through which the purified water flows through the water supply pipe 100 is discharged to the outside of the vessel 11 An air vent 14 is formed.

A water outlet 18 for discharging the water contained in the container 11 to the hydrogen generating unit 20 at the lower end of the container 11 of the water storage tank 10; And a drain port 15 for discharging the accommodated water is formed.

The container 11 is provided with a float 12 for opening or closing the inlet port by raising or lowering the water inlet port 17 by the water level.

The auxiliary member 12 is an ordinary member in such a manner that an arm 13 provided at one side thereof is vertically rotated by opening or closing a channel of the inlet 17 as the water is raised or lowered by the water level.

The filter unit 70 is a part for purifying the water supplied to the water storage tank 10 and the cold water tank 60, and is generally made of materials such as ceramics for purifying water. The inlet 71 of the filter unit 70 is connected to a general water pipe and the outlet 72 is connected to a water pipe 100.

The water supply pipe 100 supplies purified water to the water inlet 17 of the water storage tank 10 via the water storage tank water supply pipe 130 branched from the first branch point 110 while passing through the filter unit 70, And supplies the water to the cold water tank (60) through the cold water tank water pipe (120) branched from the branch point (110).

Meanwhile, although not shown, it is possible to adjust the amount of water supplied to the water storage tank 10 and the cold water tank 60 by installing an electronic control valve in the water supply pipe 100.

3 is an exploded perspective view of a main portion of a hydrogen generator 20 installed at a lower portion of the water storage tank 10 and generating hydrogen by electrolyzing water contained in the water storage tank 10.

The hydrogen generating unit 20 electrolyzes the stored water and the hydrogen generated by the electrolysis is discharged to the pump 30 through the water tank exhaust pipe 140 connected to the water outlet 18 of the water storage tank 10.

Meanwhile, the oxygen generated through the electrolysis is discharged to the outside of the water storage tank 10 through the air vent 14 formed in the lid 16, while rising on the water surface contained in the water storage tank 10.

The hydrogen generating unit 20 includes a diaphragm 23 and an upper electrode 21 disposed on the upper portion of the diaphragm 23 and a lower electrode 22 disposed below the diaphragm 23 The upper cover 24 is fastened to the upper side of the upper electrode 21 and the lower cover 25 is fastened to the lower side of the lower electrode 22.

The upper electrode 21 and the lower electrode 22 are formed with a plurality of pores 21b and 22b formed at densely spaced centers in the central portion and an upper cover 24 and a lower cover 25 are formed on the outer periphery of the central portion, And a plurality of coupling holes 21a and 22a for coupling with the coupling holes 21a and 22a are formed.

Electrode terminals 21c and 22c for inputting current are protruded from one side of the upper electrode 21 and the lower electrode 22 and a positive voltage and a negative voltage of about 3.5 V to 5 V are respectively applied .

Although not shown, an insulating packing member (not shown) is disposed on the surfaces of the upper electrode 21 and the lower electrode 22 to prevent a short circuit between the upper electrode 21 and the lower electrode 21, (Not shown) to the coupling holes 21a and 22a formed in the upper electrode 21 and the lower electrode 22 and the coupling holes 24a and 25a formed in the upper cover 24 and the lower cover 25, (Not shown) to prevent leakage of water passing through the diaphragm 23.

Therefore, when positive and negative voltages are applied to the upper electrode 21 and the lower electrode 22 of the hydrogen generator 20 of the present invention, water contained in the water storage tank 10 is electrolyzed Oxygen and hydrogen are produced.

At this time, oxygen generated from the anode is discharged to the outside through the air vent 14 while rising on the surface of the water storage tank 10, and hydrogen generated in the cathode is discharged to the water storage tank exhaust pipe 140 to the pump 30.

When the water contained in the water storage tank 10 is lowered due to the electrolysis operation of the hydrogen generating unit 20, the water pool 12 is lowered to open the water inlet 17 of the water storage tank 10, Water is introduced into the water storage tank 10 through the water inlet 130 and the water inlet 17 is closed again when the water 13 rises again in accordance with the rising water level due to the inflow of water, Water can always maintain a constant water level.

The upper electrode 21 and the lower electrode 22 of the present invention are a kind of catalytic electrode which is easy to diffuse hydrogen and has a high permissive current density and is preferably made of a noble metal such as platinum or iridium.

In the embodiment of the present invention, an anode is formed using the iridium electrode as the upper electrode 21, and a cathode is formed using the platinum electrode as the lower electrode 22.

It is preferable that the diaphragm 23 employs a polymer membrane mainly composed of a silicon material. The electrodes serving as a catalyst by the upper electrode 21 and the lower electrode 22 ionize and decompose water molecules, And is discharged from the upper electrode 21 to the pump 30 through the diaphragm 23 and the lower electrode 22 as a negative electrode through the water tank exhaust pipe 140. The electrolysis structure of water employing such a diaphragm 23 is a well-known conventional structure.

The cold water tank 60 includes a water inlet 61 through which the purified water flows through the cold water supply pipe 120, a discharge port 62 through which the water is discharged to the pump 30, A cold water discharge port 65 for discharging the hydrogenated water to the cold water discharge pipe 180 and a hydrogen feed inlet 64 for feeding the hydrogen water from the dissolved device 40 to the hot water tank 80, Shaped member formed with a hollow portion.

At this time, the water discharged through the discharge port 62 through the pumping operation of the pump 30 flows through the cold water tank drain pipe 160, and the hydrogen passing through the water tank exhaust pipe 140 and the hydrogen at the second branch point 150 And is transferred to the pump 30.

The pump inlet valve 200 is installed in the water tank exhaust pipe 140 so that the hydrogen introduced through the water tank exhaust pipe 140 and the water introduced through the cold water tank discharge pipe 160 flow back to the hydrogen generator 20 .

The hydrogen and water combined at the second branching point 150 are connected to the inlet of the dissolver 40 via the pump input pipe 31 and the pump output pipe 32. The outlet of the dissolver 40 is connected to the transfer pipe 170 connected to the hydrogen feed inlet 64 of the cold water tank 60.

The dissolved water in the cold water tank 60 is pumped by the hydrogen generated by the hydrogen generator 20 during the operation of the pump 30, (40), the foreign matter is filtered in the process of passing through the hollow fiber membrane filter installed in the dissolved device (40), and hydrogen is introduced into the water introduced into the dissolved device (40) And the generated hydrogen water is supplied to the cold water tank 60 through the hydrogen feed inlet 64 of the cold water tank 60 through the feed pipe 170 connected to the outlet of the dissolver 40 ).

Subsequently, the hydrogen water flowing into the hydrogen impregnated water pipe 64 is sprayed into the water contained in the cold water tank 60, and the hydrogen water flowing into the cold water tank 60 while being vortexed in the process of being sprayed is received in the cold water tank 60 The water contained in the cold water tank (60) is mixed with the water already converted into the hydrogen water by the continuous operation of the apparatus for producing hydrogen according to the present invention, It is reduced to a small number.

On the other hand, it is preferable to install a filter (50) on the pipe of the transfer pipe (170) by installing a pressure feeding valve (210) to prevent backflow of hydrogen water and further filtering foreign matter.

When the user opens the cold water coke 220, the cold water in the cold water tank 60 is supplied to the cold water coke 220 through the cold water discharge pipe 180 A water level sensor (not shown) installed in the cold water tank 60 can be provided to the user when the water level of the water in the cold water tank 60 is lowered according to the drawing of the water. The purified water is supplied to the water storage tank 10 and the cold water tank 60 through the control of the central control unit (not shown) and then the hydrogen generator 20 and the pump 30 are operated to generate hydrogenated water, The water is introduced into the cold water tank 60 and the water level of the cold water tank 60 is kept constant, so that the water can be continuously generated and stored.

Meanwhile, it is preferable that the operation of generating a small number of water in the central control unit (not shown) proceeds after a predetermined time even if the water level of the cold water tank 60 is maintained at an appropriate level. The reason for this is to prevent the concentration of hydrogen in the hydrogen stream from decreasing with time as a result of the vaporization phenomenon.

In the embodiment of the present invention, the first one hour is operated after the power source of the inventive hydrogen-producing plant of the present invention is started, and the cold water is continuously circulated for about 40 minutes after stopping for 40 minutes, (60).

In addition, the apparatus for producing hydrogen water according to the present invention can provide hot water in the hot water tank 80 through the cold water tank 60 as well as the cold water in the cold water tank 60, Will be described in detail with reference to FIG.

4 is a detailed view of the hot water tank of the hydrogen-producing plant of the present invention.

The hot water tank 80 includes an inlet 84 through which the cold water in the cold water tank 60 flows into the hot water tank through the connecting pipe 190 through which the hydrogen water discharged from the hot water tank connector 63 flows, A heater 82 installed in the hot water tank 80 for heating the contained water to a predetermined temperature, an air vent 81 for discharging gas such as oxygen or water vapor generated when the heater 82 is heated, A hot water discharge pipe 85 for discharging the hydrogen water in the hot water state to the outside and a hot water discharge pipe 181 for discharging the hot water water through the hot water coke 221 connected to the hot water discharge port 85, And a temperature sensor 83 installed in the hot water tank 80 for sensing the temperature of the hydrogen water contained therein.

The hot water tank 80 of the present invention as described above receives the hydrogen water stored in the cold water tank 60 via the connection pipe 190 to the inlet 84 and then the built-in water level sensor When the detected water level reaches a predetermined water level, the heater 82 is operated to heat the hydrogen water stored in the hot water tank 80.

At this time, the gas of oxygen or water vapor generated during heating is discharged to the outside through the air vent 81, and the temperature of the hydrogen water stored in the hot water tank 80 rises.

When the temperature of the hot water rises to reach a predetermined temperature, the temperature sensor 83 detects the temperature of the hot water and stops the operation of the heater 82. When the temperature of the hot water falls after a predetermined time, And operates the heater 82 to heat the hydrogen water to keep the temperature of the hydrogen water contained in the hot water tank 80 constant.

The heater 82 is operated so as to maintain the temperature of the hot water in the embodiment of the present invention between 80 ° C and 88 ° C, and a normal bimetal material is employed as the temperature sensor 83.

Thereafter, the user opens the hot water coke 221 to take out the hot water water, so that the user can supply the hot water in the hot water state. In accordance with the drawing out of the hot water water, A water level sensor (not shown) installed inside the hot water tank 60 senses the water level of the water stored in the hot water tank 60 and controls the water level of the cold water tank 60 through the connection pipe 190 through the control of the central control unit The heater 82 is supplied to the inlet 84 and the heater 82 is operated to keep the water level and the temperature of the hot water in the hot water tank 80 constant so that the hot water can be continuously generated and stored .

Description of the Related Art [0002]
10; Water tank
11; Vessel 12; Wealthy
13; Cancer 14; Air vent
15; Drain 16; Lid
17; Inlet 18; Outlet
20; The hydrogen-
21; An upper electrode 22; Lower electrode
23; Diaphragm
24; An upper cover 25; Bottom cover
30; Pump
31; An input tube 32; Output tube
40; Dissolution machine
50; filter
60; water cooler
61; Water inlet 62; outlet
63; Hot water tank connector 64; Water inlet
65; Cold water outlet
70; The filter unit
71; Inlet 72; exit
80; Hot water tank
81; Air vent 82; heater
83; temperature Senser
100; Main water supply pipe 110; First branch point
120; Cold water tank water supply pipe 130; Water tank supply pipe
140; A reservoir drain pipe 150; Second branch point
160; Cold water tank exhaust pipe 170; Conveying pipe
180; Cold water discharge pipe 181; Hot water discharge pipe
190; Hot water tank connector 200; Pump input valve
210; Feed valve 220; Cold water coke
221; Hot water coke

Claims (6)

In the hydrogen-water producing device,
A water storage tank (10) for receiving purified water through a filter unit (70);
A hydrogen generator 20 installed in the water storage tank 10 for generating electricity by electrolyzing water contained in the water storage tank 10;
A cold water tank (60) for receiving purified water through the filter unit (70);
A pump 30 for feeding the hydrogen generated by the hydrogen generator 20 and the water contained in the cold water tank 60 to the dissolver 40;
A dissolver 40 for mixing the water in the cold water tank 60 and the hydrogen generated by the hydrogen generator 20 by the pump 30 to produce hydrogen water;
A hot water tank 80 for generating and storing hot water in a hot water state in which the hot water stored in the cold water tank 60 is introduced and heated by the built-in heater 82 to maintain a constant temperature;
And a water supply pipe connected to the water supply pipe.
The water treatment system according to claim 1, wherein the water storage tank (10)
A water inlet 17 through which water purified through the filter unit 70 flows through the water supply pipe 100 and a water inlet 17 formed by electrolysis by the hydrogen generating unit 20, An air vent 14 through which oxygen is discharged and a water outlet 18 for discharging the water contained in the container 11 of the water storage tank 10 to the hydrogen generator 20,
Wherein the vessel (11) is provided with a boiler (12) for opening or closing the inlet while being raised or lowered by the water level of the water flowing through the inlet (17).
The fuel cell system according to claim 1, wherein the hydrogen generator (20)
And a lower electrode 22 disposed below the diaphragm 23. The upper electrode 21 is disposed on the upper portion of the diaphragm 23,
The upper electrode 21 and the lower electrode 22 have a plurality of pores 21b and 22b formed at densely spaced intervals in a central portion thereof,
And electrode terminals (21c, 22c) for inputting current are formed on one side of the upper electrode (21) and the lower electrode (22).
The method of claim 3,
The upper electrode 21 is an iridium electrode forming an anode,
Wherein the lower electrode (22) is a platinum electrode forming a negative electrode. The cold water tank (60) according to claim 1, wherein the cold water tank (60)
A water inlet 61 through which water purified through the filter unit 70 flows through the cold water tank water pipe 120, a discharge port 62 through which the water is discharged to the pump 30, A cold water discharge port 65 for discharging the hydrogenated water to the cold water discharge pipe 180 and a hydrogen feed port 64 for feeding the hydrogen water from the dissolved device 40 to the hot water tank 80 And a water supply pipe connected to the water supply pipe.
The hot water tank (80) according to claim 5, wherein the hot water tank (80)
An inlet port 84 through which cold water in the cold water tank 60 flows through the connection pipe 190 through which the hydrogen water discharged from the hot water tank connection port 63 flows,
A heater 82 installed in the hot water tank 80 for heating the water contained in the hot water tank 80 to a predetermined temperature,
An air vent 81 for discharging the gas generated when the heater 82 is heated,
A hot water outlet 85 through which the heated water in the hot water state is discharged to the outside,
A hot water discharge pipe 181 connected to the hot water discharge port 85 for discharging the hot water water through the hot water coke 221,
And a temperature sensor (83) installed in the hot water tank (80) for sensing the temperature of the contained hydrogen water.

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