KR101957175B1 - A device for producing hydrogen-alkali-reduced water - Google Patents

Abstract

The present invention relates to an apparatus for producing a hydrogen-alkali reduced water, and more particularly, to a hydrogen-alkali reduced water producing apparatus for converting a power source of a cell phone auxiliary battery or a mobile phone battery into an operation power (low power) And at the same time, converting water circulated through an alkali ion filter into hydrogen-alkali-reduced water containing alkali-rich alkali ions.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hydrogen-

The present invention relates to an apparatus for producing a hydrogen-alkali reduced water, and more particularly, to a hydrogen-alkali reduced water producing apparatus for converting a power source of a cell phone auxiliary battery or a mobile phone battery into an operation power (low power) And at the same time, converting water circulated through an alkali ion filter into hydrogen-alkali-reduced water containing alkali-rich alkali ions.

Active oxygen is produced naturally during human metabolism by breathing or ingesting food. About 2% of the inhaled oxygen is converted to active oxygen.

Although active oxygen is beneficial to the immune function of the human body, excessive exercise, excessive drinking, contaminated air inhalation, excessive intake of acidic food and the like cause excessive production of active oxygen, and some reactive oxygen species directly oxidize the cells in the human body It can cause DNA mutation. As a result, various diseases can occur. According to the medical community, the disease caused by active oxygen accounts for more than 90% of all cases.

However, when drinking water containing hydrogen, that is, drinking hydrogen water, reactive oxygen reacts with hydrogen dissolved in hydrogen water to be reduced to water, and the reduced water is passed out of the body without a second reaction. This is called an antioxidant reaction.

Hydrogen is basically a colorless, odorless, no-taste element that has strong reducing power. Dissolved hydrogenated water is prepared so that the redox potential (ORP) is located at a negative potential (-mv) and contains a large amount of hydrogen. It has a neutral pH value and is not only rapidly absorbed in the body, Hydrogen water is called alkaline reducing water (ionic water) or hydrogen rich water, and more clearly, water is water which can confirm the amount of dissolved water, and alkaline water is water which can confirm the pH value . Hydrogen water is a water rich in hydrogen, and it is known that it acts to selectively remove active oxygen in the human body and to maintain a healthy balance of the body. As the action and effect of hydrogen peroxide are known, various applications and researches have been conducted to utilize water for drinking water in the fields of health care, anti-aging and beauty.

Both hydrogenated water and alkaline ionized water can be used for drinking water, cosmetics, industrial and agricultural purposes because the water is hydrogen and the particles of water are small and absorbed and discharged quickly from the body. Specifically, hydrogen peroxide can be used in cosmetics with anti-aging and moisturizing effects, skin whitening, skin whitening, aging, lifestyle-related diseases and the like, and has excellent washing power in ultra-pure water in the fields of semiconductor and display, It has the effect of accelerating growth and prevention of pest insects in the field of hydroponic cultivation, and has excellent effect in long-term preservation of foods.

As the efficacy of such water has become known, many devices for making hydrogen peroxide have recently been developed.

In general, hydrophobic water is produced by a method such as magnetization treatment, ultrasonic treatment, ore treatment, mineral treatment, or electrolysis. Among these methods, an electrolysis method is mainly used, and hydrogen water produced by electrolysis is also referred to as electrolytic water.

Typical hydrogenated water has an oxidation / reduction potential (ORP) of -100 to -200 mV, which is a measure of the antioxidant function. When the oxidation / reduction potential has a minus value, it means that the reduction reaction occurs. Conversely, when the oxidation / reduction potential has a positive value, it means that the oxidation reaction occurs.

In addition, a method of alkalizing water by collecting alkali metal ions such as OH ^- or Ca ²⁺ , Mg ²⁺ , K ⁺ , Na ⁺ originally contained in purified water by using a cathode electrode is mainly used, Most of the alkaline water has a problem that its function is lost due to the generation of scale depending on the water quality when using a platinum catalyst plate. In order to facilitate the electrolysis, Ca In case of forced injection, more than half of the energy is wasted due to the problem of waste. In addition, when electrolytic alkaline water is stored, there is a disadvantage that white sediment is generated on the floor, causing discomfort.

Therefore, there has been developed a method using an alkaline earth metal such as Ca and Mg, which can generate alkaline water only by passing water through a water purifier without using an electrical device.

Various types of water producing apparatuses have been known by applying the above-described principle. However, in most cases, since an expensive power supply and a filter are used, the unit price of the product is increased, and the water producing apparatus can generate only water , There were some unsatisfactory parts to consumers in that the alkali reducing water producing machine can produce only the alkali reduced water.

Hydrogen has been used for both domestic and commercial applications. However, it is difficult to apply the technology to produce large quantity of hydrogen water in real time, and the cost of producing expensive water This is the limit. In order to overcome these limitations, it is required to develop an efficient hydrogen-water producing apparatus capable of supplying high-quality hydrogen water containing high concentration of hydrogen in real time while securing stability and economical efficiency.

Korean Patent No. 10-1608475 Korean Patent No. 10-0662595

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a water storage container for a mobile phone, And simultaneously converting the water circulated through the alkali ion filter into a hydrogen-alkali reduced water containing alkali-rich alkali ions. have.

According to an aspect of the present invention, there is provided a washing machine comprising: a housing (100) in which a water storage container (1) is detached; A power supply unit 110 for supplying power; An operating power supply unit 120 for converting the power of the power supply unit 110 into operating power; (130) having a circulation structure passing through the inside of the water storage container (1) mounted on the housing (100) and operating when the operation power is supplied to generate hydrogen water; An alkali reducing unit 140 provided at a predetermined position of the circulation structure and generating alkali ions with respect to the hydrogen generated in the hydrogen generating unit 130; And a control unit.

The housing 100 of the present invention is a case provided with a container mounting end 101 on which a water storage container 1 is mounted and includes a power supply unit 110, an operation power supply unit 120, 130 or to provide a connection site with the power supply unit 110 and to support the alkali reduction unit 140 in an outward direction of the container mounting end 101.

In addition, the power supply unit 110 of the present invention is a low power power supply unit including a cell phone auxiliary battery 6V or an extra cell phone battery (3.2V to 3.8V).

Also, the operating power supply unit 120 of the present invention is a DC inverter that converts power supplied from the power supply unit 110 to 2V to 3V (2.5V).

In addition, the hydrogen generating unit 130 of the present invention includes a hydrogen generating unit 131 for generating hydrogen in the positive electrode by causing electrolysis on the circulation path of water formed in the closed block, ; And a water inlet (132) and a water outlet (133) protruded from both ends of the circulation path of the water toward the water storage container (1).

Further, the alkali reduction unit (140) of the present invention is an alkali ion filter filled with an alkali reduction material.

The alkali reduction unit 140 of the present invention includes an inlet 132 and an outlet 133 protruding from both ends of a circulation path of water provided in the hydrogen generating unit 130 toward the water storage container 1, And is fixed while being wrapped.

The alkali reduction material of the present invention may be any one or more selected from a mixture of a silver nanomaterial and carbon particles, a germanium ball, a magnesium ball, an energy stone ball, an iron ore ball, a zeolite ball, an alkali ball, a tourmaline ball, .

The present invention may also be applied to a case where the water storage container 1 of the container mounting stage 101 provided in the housing 100 is mounted and the power supply unit 110, And a mounting sensing unit 150 for conducting the power of the operating power supply unit 120 to the operating power supply unit 120.

The power supply unit 110 of the present invention is a dual power supply unit that blocks the power supply path of the cell phone auxiliary battery 111 in the process of inserting the cell phone battery 112 into the housing 100 for connection to the connection terminal 113. [ A power shutoff means 114 may be further provided.

In addition, two to four support means 102 are protruded from the outer surface of the housing 100 according to the height direction of the water storage container 1 to be mounted.

The apparatus for producing hydrogen-reduced water according to the present invention is configured to receive power from a low-power power supply unit 110 such as a cellular phone auxiliary battery or an unused cell phone battery, It is possible to produce a hydrogen-alkali reduced water containing alkaline ions rich in minerals with a high pH concentration in comparison with a conventional water-based water in a stable state at low power.

In addition, the present invention can be used by attaching a conventional 500 ml or 1 liter small-volume bottled water bottle, or by attaching a large-capacity bottled water bottle of 10 liters or more to be used, The effect of expanding the usable range to be used is obtained.

The present invention is not limited to the case where the water storage container 1 is mounted on the container mounting end 101 of the housing 100, The effect of improving the usability and the power consumption can be minimized by providing the power supply 150 without additional switch operation.

The present invention also includes a dual power shutoff means 114 for shutting off the power supply path of the cell phone auxiliary battery 111 in the process of inserting the cell phone battery 112 into the housing 100 for connection to the connection end 113 It is possible to prevent the power supply from being performed in multiple and to obtain the effect of inducing the stable power supply of the power supply system.

The present invention further provides a method of protecting a water storage container 1 by partially wrapping the outside of a water storage container 1 on which two to four support means 102 formed on the outer surface of the housing 100 are mounted And at the same time, the water storage container (1) is stood on the floor and the standing state is stably supported.

1 is a perspective view showing an external configuration according to an embodiment of the present invention;
2 is a side cross-sectional view specifically showing a configuration and a use state according to an embodiment of the present invention;
3 is a partial side cross-sectional view specifically showing a configuration according to another embodiment of the present invention.
4 is a perspective view showing a configuration according to another embodiment of the present invention.
5 is a side cross-sectional view specifically showing a configuration according to the embodiment of FIG.

The present invention will now be described with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, a hydrogen-alkali reduced water producing apparatus 10 according to the present invention includes a housing 100 in which a water storage container 1 is detached; A power supply unit 110 for supplying power; An operating power supply unit 120 for converting the power of the power supply unit 110 into operating power; (130) having a circulation structure passing through the inside of the water storage container (1) mounted on the housing (100) and operating when the operation power is supplied to generate hydrogen water; And an alkali reducing unit 140 provided at a predetermined position of the circulation structure and generating alkali ions with respect to the hydrogen generated in the hydrogen generating unit 130.

Here, the housing 100 of the present invention is a case provided with a container mounting end 101 on which a water storage container 1 is mounted. The housing 100 includes a power supply unit 110, an operation power supply unit 120, 130 or to provide a connection site with the power supply unit 110 and to support the alkali reduction unit 140 in an outward direction of the container mounting end 101.

The container mounting end 101 may be a mounting groove formed at the center of one side of the housing 100 and may have an inner diameter formed with a thread corresponding to a thread formed on the outer diameter of the discharge port of the water storage container 1, Lt; / RTI > may be provided.

Meanwhile, the power supply unit 110 may be a low-power power supply unit including a cell phone auxiliary battery 111 (6V) or an extra cell phone battery 112 (3.2V to 3.8V) It may be a rechargeable battery.

At this time, the cell phone auxiliary battery 111 can be connected to a USB port provided in the housing 100 through a leased line, and the cell phone battery 112 is drawn through an insert path passing through the housing 100, And may be connected to the connection terminal 113 that is connected.

Meanwhile, the operating power supply unit 120 of the present invention may be a DC inverter that down converts the power supplied from the power supply unit 110 to 2V to 3V (2.5V).

At this time, the operating power supply unit 120 may further include level varying means for adjusting the level of the operating power through a switch operation (for example, a resistance variable).

In addition, in the present invention, the hydrogen-generating unit 130 includes a hydrogen generating unit 131 for generating hydrogen in the (+) electrode, causing electrolysis on the circulation path of water formed in the closed block, ); And a water inlet 132 and a water outlet 133 protruding from both ends of the circulation path of the water toward the water storage container 1.

At this time, a plurality of (-) electrodes and (+) electrodes may be arranged in parallel on the circulation path of water.

The length of the water inlet 132 and the water outlet 133 may be relatively short.

In the present invention, the alkali reducing unit 140 may be an alkali ion filter packed in a case where the alkali reducing material is punched.

The alkali reducing unit 140 surrounds the water inlet 132 and the water outlet 133 protruding from both ends of the circulation path of water provided in the hydrogen generating unit 130 toward the water storage container 1, .

In addition, a screw thread may be formed at one end of the alkali reducing part 140 so as to be coupled to the container mounting end 101 of the housing 100.

The alkali reduction material may be one or more selected from a mixture of a silver nanomaterial and carbon particles, a germanium ball, a magnesium ball, an energy stone ball, an iron ore ball, a zeolite ball, an alkali ball, a tourmaline ball, .

The operation of the present invention will now be described.

First, as described above, the present invention provides a water treatment apparatus comprising: a housing (100) in which a water storage container (1) is detached; A power supply unit 110 for supplying power; An operating power supply unit 120 for converting the power of the power supply unit 110 into operating power; (130) having a circulation structure passing through the inside of the water storage container (1) mounted on the housing (100) and operating when the operation power is supplied to generate hydrogen water; And an alkali reduction unit 140 provided at a predetermined position of the circulation structure and generating alkali ions with respect to the hydrogen generated in the hydrogen generation unit 130.

2, the water storage container 1 is mounted on a container mounting end 101 of the housing 100. The water storage container 1 is provided with a dedicated It is preferable to use a container, but it is also possible to use a common bottled water bottle sold on the market as a substitute.

In the present invention, the DC inverter, which is the operating power supply unit 120, down-converts the power supplied from the power supply unit 110, for example, the 6V power supplied from the cell phone auxiliary battery 111 to 2V to 3V And supplies it to the water-reduced water generating unit 130.

At this time, the operating power supply unit 120 selectively controls the generation amount of hydrogen according to the condition or taste of the user by adjusting the level of the operating power through the operation of the switch for varying the resistance, Can be determined by the consumer.

In addition, in the present invention, the hydrogen generating unit 130 includes a hydrogen generating unit 131 for generating hydrogen in the positive electrode due to electrolysis on the circulation path of water formed in the closed block, And a water inlet 132 and a water outlet 133 protruding from both ends of the circulation path of the water in the direction of the water storage container 1. The positive electrode and the negative electrode may be connected to the circulation path It is also preferable to arrange a plurality of units in parallel to increase the efficiency of electrolysis.

In this case, it is preferable that the length of the inlet 132 and the length of the outlet 133 is relatively short, so that the water contained in the water storage container 1 can flow into the inlet 132 to flow through the water circulation path in the hydrogen generating means 131 to the water storage vessel 1 through the outlet water 133.

In the present invention as described above, active hydrogen generated by electrolysis in the hydrogen generating means 131 of the hydrogen generating unit 130 destroys active oxygen harmful to the human body. At this time, although it is not much in tap water, it can help electrolysis of water because it contains cations such as Ca2 +, Na + and anions such as HO- and Cl-.

For example, in the electrochemical reaction of water electrolysis with the help of NaOH, the sodium metal produced by the reduction in the anode generates active hydrogen by decomposing water, Oxygen is generated.

Originally, hydrogen and oxygen are two atomic molecules that combine two atoms to form a stable molecule. Just before it becomes a molecule, hydrogen in atomic state is called active hydrogen, and oxygen in atomic state is called active oxygen. They are called active elements because they are much higher in reactivity than molecular states. When they come into contact with each other in electrolysis, they cause an explosion. To prevent the explosion, a separator is placed between the anode and the cathode, Is preferably discharged.

The water contained in the water storage vessel 1 flows into the water inlet 132 through the water circulation path in the hydrogen generating means 131 and is electrolyzed as described above to generate hydrogen The generated hydrogen flows out to the water storage vessel 1 through the outlet water 133. In the course of the operation, the alkali is passed through the alkaline ion filter filled with the alkali reducing material as the alkali reducing unit 140, The ions generated by the material are eluted into hydrogenated water, and this action is repeated cyclically and converted into hydrogen-alkali reduced water containing alkali-rich minerals.

Another embodiment of the present invention will now be described.

As shown in FIG. 3, the present invention is characterized in that a mounting state of the container mounting end 101 provided in the housing 100 is detected at a portion where the water storage container 1 is mounted, And a mounting sensing unit 150 that conducts the power of the power supply unit 110 to the operating power supply unit 120.

In this case, since the power supply is performed without a separate switch operation, it is easy to use, and when the water storage container 1 is not mounted, unnecessary operation of the water generating portion 133 prevents power consumption It is possible to do.

3, the power supply unit 110 of the present invention may be configured such that when the mobile phone battery 112 is inserted into the housing 100 for connection to the connection terminal 113, 111 may be further provided with a dual power supply cut-off means 114 for cutting off the power supply path of the power supply 111.

In this case, the dual power-off means 114 prevents the simultaneous supply of power to the mobile phone battery 112 while the power is supplied through the mobile phone auxiliary battery 111, thereby inducing a stable power supply of the power system It is possible to do.

4 and 5, on the outer surface of the housing 100 according to the present invention, two to four support means 102 are disposed along the height direction of the water storage container 1 to be mounted, As shown in Fig.

The supporting means 102 partially covers the outside of the water storage container 1 mounted on the housing 100 so as to protect the water storage container 1 and at the same time, It is possible to stably support the erected state when standing on the floor.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

In addition, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims.

Accordingly, all such appropriate modifications and changes, and equivalents thereof, should be regarded as within the scope of the present invention.

100: Housing
110: Power supply
120: Operation power supply
130: Hydrogen generator
140: alkali reduction unit
150:

Claims (11)

A housing in which the water storage container is detached;
A power supply unit for supplying power; An operation power supply for converting the power of the power supply unit into operation power;
A water generating unit having a circulation structure that passes through an inside of a water storage container mounted on the housing and operates when the operation power is supplied to generate hydrogenated water;
A water inlet provided at a predetermined position of the circulation structure and protruding from the both ends of the water circulation path provided in the water generating unit to the water storage vessel to generate alkali ions with respect to the hydrogen water generated from the water generating unit, An alkali reducing unit which is fixed while being wrapped around the outside of the outflow port, and has an outer diameter threaded to be coupled to a container mounting end formed on the housing at one end;
Wherein the hydrogen-reduced water producing apparatus comprises:
The method according to claim 1,
Wherein the housing is a case provided with a container mounting end to which a water storage container is mounted and accommodates the power supply unit, the operation power supply and the hydrogen generation unit, or provides the connection unit with the power supply unit, Wherein the hydrogen-alkali reduced water producing device is fixedly supported in an outward direction.
The method according to claim 1,
Wherein the power supply unit is a low-power power supply unit including a mobile phone auxiliary battery or a mobile phone battery.
The method according to claim 1,
Wherein the operation power supply unit is a DC inverter that down converts the power supplied from the power supply unit to 2V to 3V.
The method according to claim 1,
The hydrogen generating unit generates hydrogen on the circulation path of water formed in the closed block to generate hydrogen at the (-) electrode and hydrogen at the (+) electrode. A water inlet and a water outlet protruded from both ends of the circulation path of the water in the direction of the water storage vessel;
Wherein the hydrogen-reduced water producing apparatus comprises:
The method according to claim 1,
Wherein the alkali reducing unit is an alkali ion filter filled with an alkali reducing material.
delete The method of claim 6,
Wherein the alkali reduction material is at least one selected from a mixture of silver nanoparticles and carbon particles, a germanium ball, a magnesium ball, an energy stone ball, an iron ore ball, a zeolite ball, an alkali ball, and a tourmaline ball. .
The method according to claim 1,
Further comprising a mounting sensing unit for connecting the power supply of the power supply unit to the operation power supply unit when the mounting state of the housing is detected by contact or noncontact sensing.
The method according to claim 1,
Wherein the power supply unit further comprises a dual power cutoff unit for cutting off a power supply path of the cell phone auxiliary battery in the process of inserting the cell phone battery into the housing for connection to the connection end.
The method according to claim 1,
And two to four support means are protruded from the outer surface of the housing with an interval along the height direction of the water storage container to be mounted.

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