KR101678293B1 - Hydrogenated water atomization apparatus - Google Patents

Abstract

A hydro-atomization apparatus is disclosed. The disclosed hydrophobic atomization apparatus comprises: a container filled with water; An electrolysis unit for electrolyzing water in the vessel to increase the pressure in the vessel to produce hydrogen peroxide; A cap installed at an upper portion of the container; An inlet pipe for providing a path through which the hydrogen in the container flows into the space in the cap by increasing the pressure in the container; And an atomization unit for atomizing the hydrogen water introduced into the space in the cap.

Description

{HYDROGENATED WATER ATOMIZATION APPARATUS}

The present invention relates to a water spraying apparatus that can be used as a skin mist or a humidifier, and more particularly, to a water spraying apparatus capable of electrolyzing water in a container to make hydrogen water, The present invention relates to a water spraying apparatus for spraying water into a cap equipped with an atomizing unit and atomizing the water injected into the cap.

Typical devices for atomizing and spraying water include a humidifier and a handy mist maker for skin. The humidifier keeps the indoor air at a moderate humidity of 60% moisture, thereby contributing to a pleasant indoor environment and at the same time preventing various diseases caused by the dry indoor air. In addition, the handy mist device is used to provide adequate moisture to the skin. As a method in which the atomizing device such as the humidifier or the mist device as described above atomizes water, there is a use of a piezoelectric material or a vibrator in which ultrasonic waves or surface acoustic waves have propagated.

A general water atomizer is a system in which water stored in a vessel is atomized and atomized. However, recently, research has been conducted on an atomizer that converts water into electrolytic water, atomizes it, and atomizes it. When the water filled in the vessel is electrolyzed, hydrogen gas is generated at one electrode, and the hydrogen gas is melted to produce hydrogenated water or hydrogen rich water. Hydrogen water in which hydrogen gas is dissolved has an effect of removing active oxygen by binding to active oxygen which causes disease and aging when absorbed into human body. Thus, application of a hydrogen atomization technique to a humidifier can increase the concentration of hydrogen in the room air that a person breathe, resulting in an effect similar to drinking hydrogen peroxide, and further, As the hydrogen is atomized, oxygen in the atmosphere will meet and moisture will be produced more efficiently. In addition, applying the hydrophobic atomization technique to the mist group may contribute to delaying the aging of the skin, in addition to general skin moisturizing effect, by providing hydrogen peroxide which removes active oxygen on the skin. Particularly, since hydrogen water is produced by electrolysis, the water molecule size observed by nuclear magnetic resonance spectroscopy (NMR) is 50 to 60 Hz, which is much smaller than ordinary tap water (about 150 to 200 Hz). Therefore, when atomized water is supplied to the skin using a mist or humidifier, moisture can penetrate the skin more effectively. In addition, when water is electrolyzed to make hydrogen water, a small amount of ozone is generated in the produced water. In the case of a humidifier which atomizes and sprayes the hydrogen water containing ozone, the sterilizing effect .

Although the humidifier or mist unit employing the hydrogen atomization technique has various advantages as described above, it is difficult to apply the pump for the water supply, the arrangement of the electrolysis unit and the atomization unit for generating water, and the complicated power supply structure Due to the problem, there were many limitations on commercialization.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art, and it is an object of the present invention to provide an apparatus and a method for electrolyzing water in a container to produce hydrogen water, And the atomized water injected into the cap is sprayed to atomize the atomized water. Thus, the atomized water containing hydrogen gas is made almost uniform and sprayed while having a compact structure and a beautiful shape And the like.

According to an aspect of the present invention, there is provided a water spraying apparatus comprising: a container filled with water; An electrolysis unit for electrolyzing water in the vessel to increase the pressure in the vessel to produce hydrogen peroxide; A cap installed at an upper portion of the container; An inlet pipe for providing a path through which the hydrogen in the container flows into the space in the cap by increasing the pressure in the container; And an atomization unit for atomizing the hydrogen water introduced into the space in the cap.

According to one embodiment, the inflow conduit may comprise a hydrogen-water intake tube extending partially into the interior of the container and into the interior of the cap.

According to one embodiment, the inflow conduit may further include an inclined guide portion for guiding the hydrogen water sucked through the hydrogen suction pipe downwardly to the atomization unit.

According to one embodiment, the container is detachably mounted to the electrolytic unit at a lower end side, and a joint member is provided to connect the cap and the electrolytic unit in a state where the joint member partially contacts the outer surface of the container, The coupling member passes through a wiring that electrically connects the electrolysis unit and the atomization unit.

According to an embodiment of the present invention, the container includes a groove elongated from an upper end to a lower end on an outer surface, and the coupling member is inserted and fixed in the groove, and the hollow wiring passage through which the wiring is extended is extended Wherein the wiring has a pair of electrical connectors at both ends connected to the electrolysis unit and the atomization unit, the joint member is made of an opaque material, and the container is made of a transparent material.

According to another aspect of the present invention there is provided an atomization apparatus comprising: a container filled with water; An electrolysis unit for electrolyzing water in the container to increase the pressure in the container, wherein the container is detachably mounted; A cap installed at an upper portion of the container; An inlet pipe for providing a path through which water in the container flows into the space in the cap by increasing the pressure in the container; And an atomization unit for atomizing the water introduced into the space in the cap.

The water spraying apparatus according to the present invention electrolyzes water in the container to make hydrogen water and causes the hydrogen in the container to flow naturally into the cap provided with the atomizing unit by increasing the pressure in the container due to the generation of hydrogen water, It is possible to make atomized hydrogenated water almost constant while having a compact structure, and spraying it in the air or human skin. That is, the hydrogen-atomizing device according to the present invention does not require the use of a separate pump for supplying hydrogen water, and the means for atomizing the hydrogen-containing water is not placed in the container, It is sufficient to install the installed cap, which has the advantage of having a compact structure and economical efficiency. Further, the present invention has an advantage in that the hydrogen gas concentration is high enough to flow into the hydrogen-sump cap only when the pressure in the vessel is increased, so that hydrogen water having almost the same concentration can be atomized. .

FIG. 1 is a perspective view illustrating a water spraying apparatus according to an embodiment of the present invention. Referring to FIG.
FIG. 2 is a longitudinal sectional view showing a hydrogen atomizing apparatus according to an embodiment of the present invention. FIG.
3 is a cross-sectional view of the hydrodewater atomization apparatus taken along II of FIG.
Fig. 4 is an enlarged cross-sectional view of the main part of Fig. 2. Fig.
5 is a cross-sectional view for explaining an electrical wiring for connecting the atomizing unit side and the electrolysis unit side on one side of the container and a joint member used for covering the electric wiring.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings and the description thereof are intended to aid those of ordinary skill in the art in understanding the present invention. Accordingly, the drawings and description are not to be construed as limiting the scope of the invention.

FIG. 1 is a perspective view illustrating a hydrogen atomizing apparatus according to an embodiment of the present invention, and FIG. 2 is a longitudinal sectional view illustrating a hydrogen atomizing apparatus according to an embodiment of the present invention. FIG. 3 is a cross-sectional view of the hydrogen atomizing device taken along line II in FIG. 2, FIG. 4 is an enlarged cross-sectional view of the recess in FIG. 3, Sectional view for explaining an example of a joint member used to cover an electric wiring and an electric wiring.

1 to 5, a hydro-mist apparatus 1 according to an embodiment of the present invention is a humidifier configured to make water water and atomize the hydrogen water to spray it into the air, An electrolysis unit 20 for electrolyzing water in the container 10 to produce hydrogen water; a cap 30 detachably coupled to an upper end of the container 10; And an atomizing unit (40) provided in the space of the cap (30) and atomizing the water introduced from the container (10), that is, hydrogen water.

The container 10 is preferably formed of a transparent plastic material so that the inside of the container 10 is partially filled with water so that the space between the water and the cap 30, Lt; / RTI > The electrolytic unit 20 is provided on its upper surface with a recess on which the container 10 is mounted. The electrolytic unit 20 includes a power supply unit and a control unit. The electrolytic unit 20 supplies power to first and second electrodes (not shown) of different polarities in contact with water in the container 10, The first and second electrodes are activated to electrolyze the water in the container to generate hydrogen gas in the water to convert the water into hydrogen peroxide.

Since the vessel 10 is made of a transparent material, it can be visually confirmed that hydrogen bubbles are formed in the water during the production of the hydrogen. In addition, the electrolytic unit 20 includes an LED (not shown) therein, and the light emitted from the LED is emitted to the outside through the transparent water and the transparent container 10.

The hydroisomerization apparatus 1 may also be configured such that hydrogen water produced in the vessel 10 is drawn up into the space of the cap 30 using the pressure in the vessel 10, . The change in the pressure in the vessel 10 varies with the concentration of water in the vessel 10 and the increase in the concentration of hydrogen in the vessel 10 increases the amount of hydrogen gas in the vessel 10 The pressure in the vessel 10 increases.

The hydrogen atomization device 1 may further include an inlet pipe (not shown) which provides a path through which the hydrogen in the container 10 flows into the space of the cap 30 when the pressure in the container 10 increases, 50).

The inflow conduit 50 is connected to a water suction pipe 52 extending up to a space in the cap 30 while being partially immersed in water in the container 10 and a water suction pipe 52 extending through the water suction pipe 52, And an inclined guide portion 54 for guiding downward the slurry to the atomization unit 40 in an inclined manner. A hole including the inclined guide portion 54 may be formed on the cap 30 so as to be connected to a space in the cap 30. [ The water suction pipe 52 may be integrally fixed to the hole including the inclined guide 54. In addition, various methods of connecting the hydrogen suction pipe 52 and the inclined guide 54 may be considered.

The partial blocking plate 31 may be formed to be supported on the upper side of the space in the cap 30 by a plurality of ribs. Hydrophobic water atomized by the partial blocking plate 31, that is, A spray nozzle 32 through which the mist mist is sprayed is annularly formed on the upper side of the space in the cap 30. An atomizing unit 40 including, for example, an ultrasonic vibrator is disposed on the bottom surface of the space in the cap 30.

Hydrogen water that has entered the space in the cap 30 through the hydrogen suction pipe 52 and the inclined guide 54 due to an increase in pressure in the container 10 is atomized into the atomizing unit 40, Is sprayed to the outside through the spray port (32). In the method of coupling the cap 30 to the upper end of the container 10, it is preferable that the cap 30 is pressed and fixed to the container 10 without rotating the cap 30. However, 30 to the container 10 may be considered.

In the meantime, the hydro-mist apparatus 1 according to the present embodiment is provided with a power supply unit and an input unit in the electrolytic unit 20, and for the electrical operation of the atomization unit 40, the atomization unit 40, And the electrolytic unit 20 is connected with the electric wiring W. At this time, the water spraying apparatus 1 according to the present embodiment is provided with the cap 30 and the electrolytic unit 20 (not shown) so as to cover the electric wiring W while providing a passage through the electric wiring W (Not shown). The coupling member 70 is formed of an opaque material so as to cover the electric wiring W and is connected to the cap 30 and the electrolytic unit 20 in a state of being partially in contact with the outer surface of the container 10. [ Respectively.

A groove 15 is formed on the side surface of the container 10 so that the joint member 70 is fitted and formed so that the joint member 70 can be smoothly installed on the outer surface of the container 10. The groove 15 is formed on the outer surface of the container 10 from the upper end of the container 10 to the lower end of the container 10. The coupling member 70 is fixedly inserted in the groove 15 and includes a hollow wiring passage 72 through which the electric wiring W passes.

A pair of connectors C and C are provided at both ends of the electric wiring W and the pair of connectors C and C are connected to the electric connection portion of the atomization unit 40 and the electrolytic unit 20 To electrically connect the atomizing unit 40 and the electrolytic unit 20, respectively.

It should be noted that although the hydrophobic atomization apparatus 1 according to the present embodiment has a structure of a humidifier, it may be modified into a skin mist unit by using a cap 30 structure or the like.

Now, a method and an operation of the water spraying apparatus 1 according to the present invention will be described.

Water is filled in the container 10 so that there is a space where air exists in a part of the upper part in the container 10. The operation of filling the container 10 with water can be performed after the cap 30 is completely separated or a part of the cap 30 is separated. In the latter case, it is preferable to configure the cap 30 to include the cap body with the atomization unit 40 and the cap cap separate from the cap body so that water can be filled into the vessel 10 by removing only the cap cap. The container 10 sealed by the cap 30 is attached to the electrolysis unit 20 and power is supplied to the container 10 so that the water in the container 10 Lt; / RTI > By the electrolysis, hydrogen gas is generated in water in the container 10, and water is produced by recording in the hydrogen gas. The amount of hydrogen gas in the space in the vessel 10 increases in the course of the production of the hydrogen gas, whereby the pressure in the vessel 10 increases. Hydrophobic water is supplied to the cap 30 through the inlet pipe 50 including the water suction pipe 52 and the inclined guide 54 according to the increase in the pressure in the container 10, And flows into the atomizing unit 40. The atomization unit 40 atomizes the hydrogen water by, for example, ultrasonic vibration, and the atomized hydrogen water is sprayed to the outside through the atomizer 32 formed in the upper space of the cap 30 in the mist state.

10: vessel 20: electrolysis unit
30: cap 40: atomizing unit
50: inlet pipe 52: water suction pipe
54:

Claims (6)

A container in which water is partially filled;
A cap installed on an upper portion of the container to form a closed space with air above the water in the container;
An electrolysis unit for electrolyzing water in the vessel to increase the pressure of the closed space in the vessel to produce hydrogen water;
An inflow conduit for providing a path through which the hydrogen in the container flows into the space in the cap by increasing the pressure of the closed space; And
And an atomization unit for atomizing the hydrogen water introduced into the space in the cap,
Wherein the inflow conduit includes a water suction pipe extending partially to the space in the cap with part of the water in the container being locked,
The electrolysis unit electrolyzes the water to make the hydrogen water, so that the pressure in the closed space is increased,
Wherein the inflow conduit further comprises an inclined guide portion for guiding the hydrogen water sucked through the hydrogen suction pipe downwardly to the atomization unit,
Wherein the container is detachably mounted to the electrolytic unit at a lower end side and is provided so as to connect the cap and the electrolytic unit in a state where a joint member partially contacts an outer surface of the container, Wherein a wiring for electrically connecting the decomposition unit and the atomization unit passes, and the container includes a groove formed on the outer surface to extend from the upper end to the lower end, and the coupling member is inserted and fixed in the groove, And the wiring includes a pair of electrical connectors at both ends connected to the electrolysis unit and the atomization unit, the joint member is made of an opaque material, and the container is made of transparent Wherein the nozzle is made of a material. delete delete delete delete delete

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