KR20160122289A - Direct type providing apparatus for hydrogen water - Google Patents

Abstract

The present invention relates to a direct-type apparatus for providing hydrogen water. According to the present invention, provided is the direct-type apparatus for providing hydrogen water, the apparatus comprising: a water supply conduit which is directly connected to a water pipe in a home or a business site; a filter which purifies water supplied via the water supply conduit; a hydrogen generation unit which generates hydrogen by electrolyzing the water purified by the filter, and generates hydrogen water by dissolving hydrogen in the water; a pump which draws the hydrogen water generated by the hydrogen generation unit and re-circulates the hydrogen water to the hydrogen generation unit in order to increase the amount of hydrogen dissolved; and a water outlet through which the hydrogen water generated by the hydrogen generation unit is discharged.

Description

[0001] The present invention relates to a direct water supply apparatus for hydrogen water,

The present invention relates to a water supply apparatus, and more particularly, to a water supply apparatus for supplying water, which comprises a water supply pipe directly connected to a water pipe of a home or business, a filter for filtering and purifying water supplied from the water supply pipe, A hydrogen generation unit for generating hydrogen by dissolving the generated hydrogen in water to generate hydrogen water and a hydrogen generation unit for introducing hydrogen water generated by the hydrogen generation unit to increase the hydrogen dissolution amount, And a water outlet for discharging the hydrogen water generated in the hydrogen generating unit.

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, the above known technologies have a disadvantage in that it is difficult to install them according to the installation place because the structure is very complicated and large in size as a whole, and thus it is somewhat unsuitable for general home use or business use.

In order to solve the above problems, the present invention provides a direct water type water supply apparatus of the present invention, which is relatively simple and has a miniaturized structure, is suitable for use in residential and commercial use, and further comprises a water reservoir The present invention provides a direct water type water supply apparatus that can directly convert water supplied directly to a water pipe into drinking water and drink it.

According to an aspect of the present invention, there is provided an apparatus for supplying direct water, comprising: a water supply pipe directly connected to a water pipe of a home or business; a filter for filtering and purifying water supplied from the water supply pipe; A hydrogen generation unit for generating hydrogen by dissolving the purified water by dissolving the generated hydrogen in water to generate hydrogen water, and a hydrogen generation unit for introducing the hydrogen water produced by the hydrogen generation unit to increase the hydrogen dissolution amount A pump for recirculating the hydrogen to the hydrogen generating unit, and a water outlet for discharging the hydrogen water generated in the hydrogen generating unit.

The apparatus for supplying direct water of the present invention having the above-described structure has a relatively simple and miniaturized structure, and is advantageous in that it can be installed in a home or business without being limited to a place of installation.

In addition, since it is a direct water-based water supply device for directly converting water supplied directly to a water pipe into hydrogen water and discharging it, there is no need for washing for a separate water bottle, so that a drinking water can be more hygienically and conveniently .

In addition, there is an effect that it is possible to provide high-quality hydrogenated water rich in hydrogen that is beneficial to the human body.

In addition, the hydrogen generating unit of the present invention exhibits the effect of further enhancing the hygiene for the drinking of hydrogenated water because the occurrence of water mist inside the hydrogen generating unit is minimized by the dropping pressure of water flowing into the inlet.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram of a direct water-
2 is a configuration diagram of an embodiment of the direct-type,
3 is a perspective view of the hydrogen generating unit of the embodiment of the present invention,
4 is an exploded perspective view of the hydrogen generating unit of the embodiment of the present invention,
5 is a plan view of the hydrogen generating unit of the embodiment of the present invention,
6 is an exploded perspective view of an electrode assembly of a hydrogen generating unit according to an embodiment of the present invention.

Hereinafter, the configuration and operation of the direct water-based water supply apparatus 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.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

Referring to the drawings, the apparatus for supplying direct water of the present invention includes a water supply pipe (70) directly connected to a water pipe (not shown) of a home or a business, a filter for filtering and purifying water supplied from the water supply pipe A hydrogen generating unit 20 for electrolyzing water purified by the filter 10 to generate hydrogen and dissolving the generated hydrogen in water to produce hydrogen water; A pump 30 for introducing the hydrogen generated by the hydrogen generating unit 20 and recirculating the generated hydrogen to the hydrogen generating unit 20 and a water outlet 40 for discharging the hydrogen generated in the hydrogen generating unit 20 ).

In the direct water type water supply apparatus of the present invention as described above, water is supplied directly from the water pipe by the water supply pipe 70, the hydrogen generation unit 20 generates hydrogen water using the supplied water, When the water discharge is not performed by the water outlet 40, the pump 30 recirculates the hydrogen water to the hydrogen generation unit 20, It is possible to provide a hydrogen-containing water of a linear type but a high dissolved amount.

Hereinafter, the configuration and operation of an embodiment of the direct water-based water supply apparatus of the present invention having the above-described structure will be described in detail.

Fig. 2 is a configuration diagram of an embodiment of the direct-type water-supplying apparatus of the present invention, and the same components as those shown in Fig. 1 are denoted by the same reference numerals.

The water supply apparatus for direct water of the embodiment of the present invention includes a water supply pipe 70 connected directly to a water pipe (not shown) of a home or business, and water supplied from the water supply pipe 70 through a filter inlet 11 And a filter 10 for filtering the water to purify the water, and then discharging purified water through the filter outlet 12.

The water purified by the filter 10 flows through the first connection pipe 71 connected to the filter outlet 12 and flows into the inlet of the first T-tube 51.

The inlet of the first T-shaped tube 51 is connected to the outlet of the first connecting tube 71. The outlet of the first T-shaped tube 51 is connected to the inlet 21 of the hydrogen generating unit 20, The hydrogen gas discharged into the outlet 32 of the pump 30 flows into the connection port communicated between the inlet and the outlet of the first T-shaped tube 51.

The purified water introduced into the inlet of the first T-shaped tube 51 is mixed with the hydrogenated water introduced into the connecting tube, discharged to the outlet of the first T-tube 51, and then discharged through the second connecting tube 72 And flows into the inlet 21 of the hydrogen generating unit 20.

As shown in the figure, since the inlet of the first T-shaped tube 51 is located above the outlet and the discharge pressure from the outlet 32 of the pump 30 acts on the outlet side of the first T-shaped tube 51 The phenomenon that the water flowing into the first T-shaped tube 51 flows back to the filter outlet 12 side does not occur.

The hydrogen generating unit 20 includes a water inlet 21 formed at an upper portion thereof and a water outlet 22 formed at a side portion thereof and an electrode portion for generating hydrogen by electrolyzing water flowing from the water inlet 21 at a lower portion thereof 23 are attached.

Therefore, the water flowing into the inlet 21 is electrolyzed by the hydrogen generating unit 20 configured as described above to generate hydrogen, and the generated hydrogen dissolves in the incoming water, so that the hydrogen generated in the hydrogen generating unit 20 It is converted to a decimal number.

As shown in the drawing, the hydrogen generating unit 20 can be installed by connecting the plurality of hydrogen generating units 20 in series. As the number of the hydrogen generating units 20 increases, the amount of dissolved hydrogen increases. However, it is preferable to install only the necessary number of tubes in consideration of the volume and size of the direct-type water-supplying apparatus of the present invention.

The embodiment of the present invention is an embodiment in which two hydrogen generating units 20 and 20 'are installed and the number of hydrogen discharged to the outlet 22 of the hydrogen generating unit 20 at the front end is the hydrogen generating unit 20' And then discharged to the outlet 22 'of the hydrogen generating unit 20' through the hydrogen generating unit 20 '.

The hydrogen water discharged into the outlet 22 'of the two hydrogen generating units 20' connected in series is introduced into the inlet of the second T-shaped tube 52 through the third connecting tube 73.

The inlet of the second T-shaped tube 52 is connected to the outlet of the second connecting tube 72, the outlet of the second T-shaped tube 52 is connected to the inlet of the water jet valve 60, The connection port communicated between the inlet and the outlet of the self-pipe 52 is connected to the inlet 31 of the pump 30.

Therefore, the hydrogen water discharged into the water outlet 22 'of the hydrogen generating unit 20' flows through the inlet of the pump 30 through the connection port of the second T-shaped pipe 52 in the closed state of the water valve 60, (31), pumped by the pump (30), then discharged through the outlet (32) of the pump, and the hydrogen water discharged to the outlet (32) flows through the connection and outlet of the first T- The water is discharged to the water outlet 40 through the second connection pipe 72 and returned to the inlet 21 of the hydrogen generating unit 20 so that the water discharge valve 60 is closed, The hydrogen is recirculated to the hydrogen generating unit 20 due to the pumping operation of the hydrogen generating unit 30 so that the hydrogen dissolved amount of hydrogenated water can be improved. Through the recycling process of the hydrogenated water, Despite the fact that the number of employment It will be good.

The outlet of the water valve 60 connected to the outlet of the second T-shaped tube 52 is connected to the water tube 75 and the water outlet 40 is provided at the end of the water tube 75, 60 is opened, the hydrogen water flows to the water tube 75 and is discharged to the outside through the water outlet 40, so that the user can drink the water.

At this time, it is preferable to provide the metering valve 61 between the outlet of the water jet valve 60 and the water jetting pipe 75 as in the embodiment.

The metering valve 61 is a well-known valve designed so that the middle portion of the conduit has a smaller diameter than the other portions. The number of the hydrogen introduced into the metering valve 61 is narrowed by the Bernoulli principle, The water is discharged to the water tube 75 while the water speed and the extrusion pressure are increased, so that the water is discharged more smoothly into the water jetting spouts 40.

It is preferable that the operation of the pump 30 and the hydrogen generating unit 20 is controlled by electronic control and that the water jet valve 60 employs a solenoid valve that is opened and closed by electronic control desirable.

As a result of the test, the pump 30 and the hydrogen generating unit 20 are operated for the first hour after the power is applied, and the hydrogen generating unit 20 is operated for 40 minutes and then for 20 minutes If the water is continuously circulated for 40 minutes, a high water content of about 1300 ppm can be supplied through the water outlet 40.

Hereinafter, the configuration of the hydrogen generating unit 20 of the embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 3 is a perspective view of the hydrogen generating unit of the embodiment of the present invention, FIG. 4 is an exploded perspective view of the hydrogen generating unit of the embodiment of the present invention, and FIG. 5 is a plan view of the hydrogen generating unit of the embodiment of the present invention.

The hydrogen generating unit 20 of the embodiment of the present invention can maximize the dissolved amount of hydrogen in consideration of the direct type of the hydrogen generating unit of the present invention being directly connected to the water pipe, And has a structure specifically designed to minimize the occurrence of water spots (commonly referred to as " white spots ").

3 and 4, the hydrogen generating unit 20 has a cylindrical hollow hollow body 24 having an open top, and an upper opening of the body 24 is connected to the cap 25 And a cap (25) is provided with a water inlet (21) for introducing water into the body (24) side.

A water outlet 22 for discharging the water contained in the body 24 to the outside is formed at one side of the body 24 and a water outlet 22 is formed at a lower portion of the body 24 from the water inlet 21, And an electrode part 23 for electrolyzing water to generate hydrogen is attached.

Accordingly, the water flowing into the inlet 21 is electrolyzed by the electrode unit 23 by the hydrogen generating unit 20, and hydrogen is generated. When the generated hydrogen is dissolved in the water, the hydrogen generating unit Water is converted into hydrogen water in the body 24 of the water tank 20. The converted hydrogenated water is discharged to the outside through the outlet 22 of the body 24. [

Since the hydrogen generating unit 20 according to the present invention has a structure in which water flows in through the upper inlet 21 and water is discharged through the outlet 22 in the side of the hydrogen generating unit 20, Thereby preventing the generation of foreign matter as much as possible.

5 is a plan view of the body 24 in a state where the cap 25 is removed. The electrode unit 23 includes an electrode body 80 to which electric power is applied for electrolyzing water, The exposed edge portion of the sealing member 80 is sealed by the sealing member 26.

6 is an exploded perspective view of the electrode assembly 80. The electrode assembly 80 includes a diaphragm 83 and an upper electrode 81 positioned above the diaphragm 83 and a lower electrode And an upper cover 84 is fastened to the upper side of the upper electrode 81 and a lower cover 85 is fastened to the lower side of the lower electrode 82.

The upper electrode 81 and the lower electrode 82 are formed with a plurality of pores 81a and 82a formed at densely spaced intervals in the center portion and the outer periphery of the center portion of the upper electrode 81 and the lower electrode 82 A plurality of through holes for mutual coupling with the upper cover 84 and the lower cover 85 are formed.

Electrode terminals 81b and 82b for inputting current are protruded from one side of the upper electrode 81 and the lower electrode 82 and positive and negative voltages 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 81 and the lower electrode 82 to prevent the upper electrode 81 and the lower electrode 82 from being short-circuited.

A fixing bolt (not shown) is passed through the upper cover 84 and the lower cover 85 through a through hole formed on the outer periphery of the upper electrode 81 and the lower electrode 82, and a nut (not shown) Thereby preventing leakage of water passing through the diaphragm 83. [

Therefore, when the positive and negative voltages are applied through the electrode terminals 81b and 82b of the upper electrode 81 and the lower electrode 82, respectively, the electrode body 80 of the embodiment of the present invention as described above, ) Is electrolyzed to generate hydrogen, and the generated hydrogen is dissolved again in the water introduced into the body (24), thereby converting the water into hydrogen fluoride.

The upper electrode 81 and the lower electrode 82 of the electrode assembly 80 function as a kind of catalytic electrode which facilitates diffusion of hydrogen and has a high permissive current density and uses a noble metal material such as platinum or iridium .

In the embodiment of the present invention, a cathode is formed using the platinum electrode as the upper electrode 81, and an anode is formed using the iridium electrode as the lower electrode 82.

Hydrogen generated as a result of electrolysis of water molecules passes from the lower electrode 82 as an anode through the diaphragm 83 to the upper electrode 81 as a cathode and flows through the pores 81a of the upper electrode 81 into hydrogen Water is converted into hydrogen-containing water while being dissolved in the water introduced into the body of the generating unit 20.

Meanwhile, it is preferable that the diaphragm 83 employs a polymer membrane mainly composed of a silicon material.

Description of the Related Art [0002]
10; filter
11; Filter inlet 12; Filter outlet
20; Hydrogen generating unit
21; Available space 22; A watering hole
23; Electrode portion 24; Body
25; Cap 26; The sealing member
30; Pump
31; Pump inlet 32; Pump outlet
40; Toyo
51; First T-tube 52; The second T-
60; Water valve
61; Metering valve
70; Water supply pipe
71; A first connector 72; The second connector
73; A third connector 74; Fourth connection pipe
75; Toe pipe
80; Electrode body
81; The upper electrode
81a; Pores 81b; Electrode terminal
82; Lower electrode
82a; Pores 82b; Electrode terminal
83; Diaphragm
84; Upper cover
85; Bottom cover

Claims (8)

In the water supply apparatus,
A water supply pipe (70) directly connected to the water pipe;
A filter 10 for filtering and purifying water supplied from the water supply pipe 70;
A hydrogen generating unit 20 for electrolyzing water purified by the filter 10 to generate hydrogen and dissolving the generated hydrogen in water to produce hydrogen peroxide;
A pump 30 for introducing the generated hydrogen to increase the amount of dissolved hydrogen and recirculating the produced hydrogen to the hydrogen generating unit 20;
A water outlet (40) for discharging hydrogen generated in the hydrogen generating unit (20); And a water supply unit for supplying water to the water supply unit.
The method according to claim 1,
The hydrogen generating unit 20 includes a water inlet 21 formed at an upper portion thereof and a water outlet 22 formed at a side portion thereof and an electrode portion for generating hydrogen by electrolyzing water flowing from the water inlet 21 at a lower portion thereof 23) is attached to the water supply pipe (2).
The filter according to claim 2, wherein the water purified by the filter (10) flows through a first connecting pipe (71) connected to the filter outlet (12) and flows into the inlet of the first T-
The inlet of the first T-shaped tube 51 is connected to the outlet of the first connecting tube 71, the outlet of the first T-shaped tube 51 is connected to the inlet 21 of the hydrogen generating unit 20, Wherein the water discharged into the outlet (32) of the pump (30) flows into a connection port communicated between an inlet and an outlet of the first T-shaped pipe (51).
The hydrogen generator according to claim 2, wherein the hydrogen water discharged into the outlet port (22) of the hydrogen generating unit (20) flows into the inlet of the second T-shaped tube (52) through the third connection pipe (73)
The inlet of the second T-shaped tube 52 is connected to the outlet of the second connecting tube 72, the outlet of the second T-shaped tube 52 is connected to the inlet of the water jet valve 60, Wherein the connection port communicated between the inlet and the outlet of the self-pipe (52) is connected to the inlet (31) of the pump (30).
5. The method of claim 4,
The outlet of the water valve 60 connected to the outlet of the second T-shaped tube 52 is connected to the water tube 75 and the water outlet 40 is installed at the end of the water tube 75 A device for supplying water to the drinking water. 6. The method of claim 5,
And a metering valve (61) is provided between the outlet of the water jet valve (60) and the water jetting pipe (75).
The hydrogen generator according to claim 2, wherein the hydrogen generating unit (20)
And an upper opening of the body 24 is shielded by a cap 25 and a water inlet 21 for introducing water into the body 24 is provided in the cap 25 Formed,
An outlet 22 is formed on one side of the body 24 and an electrode 23 is mounted on the lower side of the body 24,
And an electrode body (80) to which electric power is applied to electrolyze water inside the electrode unit (23).
The electrode assembly according to claim 7, wherein the electrode member (80)
And a lower electrode 82 positioned below the diaphragm 83. The upper electrode 81 and the lower electrode 82 are formed on the upper surface of the diaphragm 83,
An upper cover 84 is fastened to the upper side of the upper electrode 81 and a lower cover 85 is fastened to the lower side of the lower electrode 82,
Wherein the upper electrode (81) and the lower electrode (82) have a plurality of pores (81a, 82a) formed at densely spaced centers.

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