KR20160137208A - Portable Hydrogen and Hydrowater Ganerater - Google Patents

Abstract

The present invention relates to a portable hydrogen water generator having a hydrogen respirator function. The portable hydrogen water generator having a hydrogen respirator function comprises: a hydrogen generator (110) which feeds power, supplied from a power supply unit (111), to a negative electrode part (113) located on an upper side thereof and a positive electrode part (114) located on a lower portion thereof via a main control unit (112), in which cation exchange membranes (115) are stacked between the negative electrode part (113) and the positive electrode part (114), and which can generate hydrogen gas via the negative electrode part (113) when moisture is supplied to the negative electrode part (113); a water container (120) which is detachably coupled to an upper portion of the hydrogen generator (110), and in which hydrogen water is generated while the hydrogen gas generated via the negative electrode part (113) is passing through raw water contained therein; and a cannula gender (140) which is detachably coupled to an upper portion of the water container (120), and which supplies the hydrogen gas, having passed through the hydrogen water, to a cannula (141).

Description

[0002] Portable Hydrogen and Hydrowater Ganerater [0003]

The present invention relates to an apparatus for producing a portable functional water having a hydrogen respiratory function and in which power supplied from the power supply unit 111 is supplied to the cathode electrode unit 113 located on the upper side and the anode electrode unit 113 located on the lower side via the main control unit 112, A cation exchange membrane 115 is stacked and inserted between the cathode electrode unit 113 and the anode electrode unit 114 so that water is supplied to the cathode electrode unit 113 A hydrogen generator 110 capable of generating hydrogen gas from the cathode electrode unit 113 and a cathode electrode unit 113 connected detachably to the upper side of the hydrogen generator 110, The hydrogen gas is passed through the cannula (141), and the hydrogen gas is passed through the water pipe (120). The water pipe Supplying cannulas 140; And a portable respiratory water supply device (100) having a hydrogen respiratory function.

Hydrogen refers to hydrogen in atomic form, indicated by the symbol "H". In general, the hydrogen that we are talking about is hydrogen in the molecular state as "H2"

Hydrogen is known to easily bind active oxygen and detoxify active oxygen which causes various diseases

2% of the oxygen used to make energy in the body is active oxygen, but if active hydrogen is always present in the active oxygenation site, active oxygen causes the disease (90% of all diseases are active oxygen ) Will not occur in principle.

Acting water is not actually active hydrogen, but the active water is said to be better to drink the active water, known as the world's most famous miracle water known as the Lourdes spring water, Norde Nau, Trancote water body It is true that it is known to be good for.

As an existing invention for manufacturing (or generating / generating) hydrogen water containing hydrogen (H 2), the inventor of the present invention disclosed in Patent Document 1, "Functional Hydrogen Water Production Apparatus (Korea Patent No. 10- 1120942 ") was proposed and patented. On the other hand, the background and operation principle for producing hydrogen-containing water containing active hydrogen are also widely disclosed in the above-mentioned prior art.

However, this conventional invention has a problem that the hydrogen gas generated due to the airtightness problem is directly discharged into the atmosphere and can not be used effectively.

That is, although the above-mentioned existing invention discloses a structure having a battery for the possibility of movement, it is a means for sealing for movement and carrying, or a type of a gas The hydrogen gas is discharged to the outside by attaching an air vent to lower the pressure of the hydrogen gas (H2) generated in the hydrogen gas.

In recent years, there have been a growing number of products for portable water-use generators that can be used in portable outdoor activities such as mountain climbing and trekking while carrying the hydrogen generator. However, the above-mentioned existing invention is satisfied with the effective use of hydrogen gas There is a problem in that it is difficult to provide a configuration and a function to be achieved.

On the other hand, the conventional non-diaphragm type hydrogen-water generator can not be expected to have a high concentration of hydrogen because the hydrogen (H2) at the cathode and oxygen (O2) at the anode are dissolved during the electrolysis. In addition, there is no electrolytic decomposition of distilled water and reverse osmosis water, and therefore, hydrogen and oxygen gas are not generated. In electrolysis of electrolytic water, in addition to hydrogen (H ₂ ), oxygen (O ₂ ) Toxic chlorine (cl ₂ ), ozone (O ₃ ) and the like are also generated, so that there is a problem that it can not be sucked into the respiratory tract.

Korean Patent No. 10-1120942

The present invention solves the above-mentioned problems of the prior art, and it is very easy to carry out the present invention, and pure hydrogen is generated through electrolysis of drinking water, and the hydrogen gas that has passed through the water is passed through a cannula (Cannula) And a function of being capable of sucking a small amount of water in a short period of time by directly sucking the molecular gas through the nose and a hydrogen breathing apparatus capable of automatically providing a functional water- And a portable functional water producing device having a function as a portable functional water producing device.

In addition, when removing the water bottle main body and replacing it with bottled water gender, it is possible to manufacture drinking water by directly using bottled water bottles from all over the world, And an object of the present invention is to provide a functional water-producing plant.

In order to accomplish the above object, the portable water supply system for a portable water purifier having the hydrogen respiratory function according to the present invention comprises a power supply unit 111 for supplying power to the cathode electrode unit 113 located on the upper side through the main control unit 112, And a cation exchange membrane 115 is stacked and inserted between the cathode electrode unit 113 and the anode electrode unit 114 so that the cathode electrode unit 113 can be inserted into the cathode electrode unit 114, A hydrogen generator 110 capable of generating hydrogen gas from the cathode electrode unit 113 when moisture is supplied to the hydrogen generator 110, and a hydrogen generator 110, which is detachably coupled to the hydrogen generator 110, A water tank 120 through which the hydrogen gas generated from the cathode electrode unit 113 passes and generates hydrogen water; a water tank 120 detachably coupled to the water tank 120, By the needle (141) Class Kane nyulra gender 140; And a control unit.

The apparatus 100 for producing a portable functional water having a hydrogen respiratory function according to another embodiment of the present invention includes a power supply unit 111 for supplying power to the cathode electrode unit 113 And a cation exchange membrane 115 is stacked and inserted between the cathode electrode unit 113 and the anode electrode unit 114. The cathode electrode unit 114 is disposed on the cathode electrode unit 114, A hydrogen generator 110 capable of generating hydrogen gas from the cathode electrode unit 113 when water is supplied to the hydrogen generator unit 113, a water tank 110 detachably coupled to the hydrogen generator 110, a bottle gender 150 detachably coupled to the bottle coupling part 151 and adapted to be detachably coupled to the bottle coupling part 151 and configured to generate hydrogen generated from the cathode electrode part 113, A small cannula that feeds the gas to the cannula (141) And a ladder 152 as shown in FIG.

The hydrogen generator 110 includes a through hole 119 and an upper housing 118 disposed on the cathode electrode 113 and a lower hole 117a. A lower housing 117 provided below the anode electrode part 114; And further comprising:

Further, a sealing member 116 is further provided between the upper housing 118 and the cathode electrode part 113 to prevent leakage of the raw water.

The power source unit 111 may be a rechargeable battery.

According to the present invention, it is very easy to carry out the electrolysis, and pure water is generated through the electrolysis of the drinking water, and the hydrogen gas passing through the water is passed through the nose by using the cannula (Cannula) The water bottle main body is provided with a function of the hydrogen respiratory function capable of automatically providing the functional water of the antioxidative effect while the high concentration of the pure hydrogen gas passes through the body of the water bottle, There is an effect that a small number of manufacturing apparatus can be provided.

In addition, when the water bottle body is removed and replaced with a bottled water gender, the bottled water can be directly manufactured using the bottled water from all over the world, and it can be used as a mini hydrogen ventilator by directly supplying a small amount of water There is an effect that a portable functional water producing apparatus can be provided.

1 is an exploded perspective view showing a configuration of an apparatus for producing a portable functional water having a hydrogen respirator function according to an embodiment of the present invention;
Fig. 2 is a schematic view showing the operation principle of a portable functional water producing apparatus having a hydrogen respiratory function according to an embodiment of the present invention; Fig.
FIG. 3 is a schematic view showing a configuration of a main portion of a hydrogen generating apparatus of a portable water purifier having a hydrogen respirator function according to an embodiment of the present invention. FIG.
4 is a cross-sectional view showing a configuration of an apparatus for producing a portable functional water having a hydrogen respirator function according to an embodiment of the present invention;
FIG. 5 is a cross-sectional view showing a hydrogen-absorbing state of a portable, functional hydrogen-water producing device having a hydrogen respirator function according to an embodiment of the present invention.
FIG. 6 is a schematic diagram showing a hydrogen gas sucking state of a portable, functional hydrogen-water producing apparatus having a hydrogen respirator function according to an embodiment of the present invention.
7 is a cross-sectional view showing a configuration of an apparatus for producing a portable functional water having a hydrogen respirator function according to a second embodiment of the present invention;
8 is a schematic diagram showing a hydrogen gas sucking state of a portable, functional hydrogen-water producing device having a hydrogen respirator function according to a second embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a portable functional water producing apparatus having a hydrogen respirator function according to an embodiment of the present invention will be described in detail. First, it should be noted that, in the drawings, the same components or parts are denoted by the same reference numerals whenever possible. In describing the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

1, 4, and 5, the apparatus for manufacturing a portable functional water having the hydrogen respiratory function of the present invention includes a hydrogen generator 110, a water bottle 120, and a cannula gender 140 .

First, the hydrogen generator 110 will be described. 4, the hydrogen generator 110 includes a cathode electrode portion 113 located on the upper side and a cathode electrode portion 114 located on the lower side via the main controller 112, And a cation exchange membrane 115 is stacked and inserted between the cathode electrode unit 113 and the anode electrode unit 114. When water is supplied to the cathode electrode unit 113, So that hydrogen gas can be generated from the electrode unit 113.

The principle of generating hydrogen in the hydrogen generator 110 will be described in more detail with reference to FIG.

When the raw water is electrolyzed, the raw water is electrolyzed in the anode electrode part 114 (anode) to generate oxygen gas (O ₂ ) and electrons (e ^- ), and in the cathode electrode part 113 And an anodic reaction that decomposes into hydrogen ions (H ⁺ ) occurs. In this case, the raw water supplied from the cathode electrode portion 113 is used for the reaction while being diffused through the cation exchange membrane 115. The hydrogen ions generated in the anode electrode part 114 move to the cathode electrode part 113 by the cation exchange membrane 115 and move through the electric circuit at the anode electrode part 114. [ And hydrogen gas is generated in the cathode electrode unit 113 by reacting with one electron. The generated hydrogen gas is discharged into the supplied raw water to convert the raw water into hydrogen-containing water, and the unreacted hydrogen gas is discharged in the form of a gas.

3, a through hole 119 is formed in the hydrogen generator 110 to discharge the generated hydrogen gas, and the hydrogen generator 110 is installed above the cathode electrode 113 And a lower housing 117 formed below the anode electrode part 114 and having a lower through hole 117a through which the generated oxygen gas can be discharged and discharged to the outside, So that the main part is modularized to ensure stability and durability. In this case, as shown in FIG. 3, a sealing member 116 is preferably provided between the upper housing 118 and the cathode electrode 113 so as to prevent leakage of the raw water.

In order to improve the portability, the power supply unit 111 is preferably composed of a rechargeable battery that can be charged using a charging adapter (AC 100V-240V) or a computer or other USB (R) 5V OUT .

Next, the water tank 120 will be described. 1, 4, and 5, the water bottle 120 is detachably coupled to the upper side of the hydrogen generator 110, and the hydrogen generated from the cathode electrode unit 113 And has a function of allowing gas to pass through to generate hydrogen. 5, the lower portion of the water bottle 120 is opened toward the hydrogen generator 110 to supply the raw water to the hydrogen generator 110, The hydrogen gas generated in the hydrogen generator 110 flows into the inside of the hydrogen generator 110 to generate hydrogen gas, and the hydrogen gas generated is stored in the reservoir.

Next, the cannula gender 140 will be described. 1, 4, and 5, the cannula jumper 140 is detachably coupled to the upper side of the water bottle 120, and the hydrogen gas passing through the hydrogen water is supplied to the cannula 141, . The hydrogen gas supplied to the cannula 141 can be directly breathed by the user wearing the cannula 141 as shown in FIG.

1 and FIG. 7, the hydrogen generator 110 and the hydrogen generator 110 (shown in FIG. 1) A bottle gender 150 detachably coupled to the bottle coupling part 151 and capable of detachably coupling the water bottle b to the bottle coupling part 151, And a small cannula gender 152 for supplying the hydrogen gas generated from the cathode electrode unit 113 to the cannula 141. [ That is, the specifications of the inlet unit having various specifications can include the bottle gender 150 so that the water tank b, which is globally uniform, can be used in combination with the water tank 120 instead of the water tank 120.

In this case, as shown in Fig. 7 (b), the water bottles can be directly produced by using the water bottles b in the world, and in the case of using the small cannula gender 152, It is possible to supply a small amount of water directly to the cathode electrode unit 113 as well as to use it as a mini hydrogen ventilator.

Hereinafter, an experimental example of operation of a portable, functional hydrogen-water producing apparatus having a hydrogen respirator function according to an embodiment of the present invention will be described. The temperature of the water used in the experiment was 20 ° C and the dissolved hydrogen analyzer was TRUSTEX ENH-1000.

[Example 1]

350 ml of distilled water, commercial water (samdasu), and water purifier were placed in a portable, functional hydrogen-water producing apparatus having a hydrogen respiratory function according to an embodiment of the present invention and operated for 3 minutes. The dissolved hydrogen concentration was measured to be 980 ppb, 1,030 ppb and 1,110 ppb, respectively, and it was found that hydrogen was dissolved in high concentration in a short time. The supply current at this time was 0.8 V and the supply voltage was 3.7 V DC.

[Example 2]

350 ml of commercially available mineral water (Samdasu) was placed in a portable functional water producing apparatus having a hydrogen respiratory function according to an embodiment of the present invention, and the amount of generated hydrogen gas was measured while operating for 10 minutes, and the dissolved hydrogen concentration in 350 ml of commercial water (samdasu) As a result, 50 ml of hydrogen gas and 350 ml of hydrogen water having a dissolved hydrogen concentration of 1,169 ppb were produced. The supply current at this time was 0.8 V and the supply voltage was 3.7 V DC.

[Example 3]

500 ml of commercially available bottled water was directly connected to the hydrogen generator 110 by using the bottle gender 150 for 3 minutes in a portable functional water producing apparatus having a hydrogen respiratory function according to another embodiment of the present invention 500 ml of water with a dissolved hydrogen concentration of 1,005 ppb was produced. The supply current at this time was 0.8 V and the supply voltage was 3.7 V DC.

[Example 4]

(B) is removed from the bottle gender 150, and 1 ml of distilled water is placed in the interior of the bottle gender 150 (above the cathode electrode portion 113) in the portable water / water producing apparatus having the hydrogen respirator function according to another embodiment of the present invention The hydrogen gas production amount was measured by operating for 10 minutes. As a result, 52 ml of hydrogen gas was generated. The supply current at this time was 0.8 V and the supply voltage was 3.7 V DC.

On the other hand, a method of sucking hydrogen into the human body is known such as a method of sucking a hand gas through dissolved hydrogen or breathing in water. The amount of dissolved hydrogen (H ₂ ) 1,000 ppb in 1 liter of water is converted into the amount of hydrogen and volume.

H ₂ 1,000 ppb = 1 ppm = 1 mg / L

H ₂ 1 mg = 0.001 g

=

        = 0.0112 L

= 11.12 ml

The amount of hydrogen generated in Experimental Example 2 and Experimental Example 4 was converted to 1,000 ppb of hydrogen per liter (L), which corresponds to about 4.5 liters (L). Therefore, it can be seen that the hydrogen gas (H ₂ ) can be inhaled as much as 4.5 liters of drinking water of 1,000 ppb in a short time of 10 minutes through breathing, which is very efficient.

In the foregoing, optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

b: Water tank
100: Portable functional water producing device with hydrogen respiratory function
110: hydrogen generator
111: Power supply unit 112:
113: cathode electrode portion
114: anode electrode portion
115: Cation exchange membrane 116: Closure member
117: Lower housing
117a: Lower opening
118: upper housing
119: Through hole
120: Bucket
140: cannula gender 141: cannula
150: bottle gender 151: bottle coupling part
152: Small cannula gender

Claims (5)

The power supplied from the power supply unit 111 is supplied to the cathode electrode unit 113 located on the upper side and the anode electrode unit 114 located on the lower side via the main control unit 112. The cathode electrode unit 113 and the anode A cation exchange membrane 115 is stacked and inserted between the electrode units 114. When water is supplied to the cathode electrode unit 113, hydrogen generated from the cathode electrode unit 113 Device 110;
A water reservoir 120 detachably coupled to the hydrogen generator 110 on an upper side thereof to generate hydrogen water through hydrogen gas generated from the cathode electrode 113;
A cannula gender 140 detachably coupled to the upper portion of the water bottle 120 to supply the hydrogen gas having passed through the hydrogen water to the cannula 141; (100) having a function as a hydrogen respirator.
The power supplied from the power supply unit 111 is supplied to the cathode electrode unit 113 located on the upper side and the anode electrode unit 114 located on the lower side via the main control unit 112. The cathode electrode unit 113 and the anode A cation exchange membrane 115 is stacked and inserted between the electrode units 114. When water is supplied to the cathode electrode unit 113, hydrogen generated from the cathode electrode unit 113 Device 110;
A bottle gender 150 detachably coupled to an upper portion of the hydrogen generator 110 and capable of detachably coupling the water bottle b to the bottle coupling part 151;
And a small cannula gender 152 detachably coupled to the bottle coupling part 151 and supplying hydrogen gas generated from the cathode electrode part 113 to the cannula 141. [ A portable functional water producing apparatus (100) having a hydrogen respiratory function.
The method according to claim 1 or 2,
The hydrogen generator (110)
An upper housing (118) having a through hole (119) formed on the cathode electrode part (113);
A lower housing 117 formed on the lower side of the anode electrode part 114 with a lower through hole 117a formed therein; (100) having a function of a hydrogen respirator. ≪ RTI ID = 0.0 > (100) < / RTI >
The method of claim 3,
And a sealing member 116 is installed between the upper housing 118 and the cathode electrode unit 113 to prevent leakage of the raw water 100. The portable water / ). The method according to claim 4,
Wherein the power supply unit (111) comprises a rechargeable battery. The apparatus (100) for portable water treatment having a hydrogen respirator function.

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