KR20210141843A - Water cluster decomposition purifier - Google Patents

Abstract

Provided is a water cluster decomposition water purification device capable of decomposing water clusters by ionizing water contained in a container and sterilizing the ionized water by irradiating microwaves. The water purification device based on water cluster decomposition includes: a container for accommodating water; an ionizing unit for ionizing the water contained in the container; a microwave generating unit for decomposing water clusters by colliding dipoles by polar rotational motion by irradiating microwaves to the container; a filter for filtering the decomposed water from the microwave generating unit to remove foreign substances contained in the water; and a UV sterilizing unit for generating nano-decomposed water by separating mineral particles by sterilizing the filtered water with ultraviolet rays.

Description

Water cluster decomposition water purification device {WATER CLUSTER DECOMPOSITION PURIFIER}

The present invention relates to water clusters, and more particularly, to an apparatus for decomposing and purifying water clusters.

The first thing that humans need the most is water. It should include drinking water, washing water, and even the environment and human food (animals and plants). Of the water used by humans directly or indirectly, only a few percent of the water is directly consumed, and most of the water is consumed indirectly through living water, environmental water, and food.

In one water molecule, two hydrogen atoms form an angle of 104.5 degrees to one oxygen atom and are biased to one side. For this reason, water exists as a lump (hydrate) around a specific ion, such as sodium, or the like, or a lump (water cluster) by combining water molecules. According to recent findings, it is known that one water cluster usually consists of 36 to 37 water molecules, and the more polluted water, the greater the number of water molecules that bind, thereby increasing the size of the water cluster.

Good water refers to the so-called pentagonal or hexagonal water made up of 5 to 6 water molecules. In particular, hexagonal water can easily penetrate human cell membranes, so it can wash out contaminants in cells, and its ability to mobilize calcium ions in cells is increased. It is known that it is good for health and can help in the treatment of diseases because it activates cells and restores the original function of cells.

Therefore, various methods for obtaining hexagonal water are being studied. Among them, the method of obtaining magnetized water by artificially magnetically treating water is described in Korean Patent No. 10-1151293 and Registration Utility No. 20-0374259, etc. A method of increasing the magnetic force by repulsive force by having magnets facing each other with the same pole perpendicular to and one or more A technology is disclosed to increase magnetization water conversion efficiency by inserting two permanent magnet blocks and allowing water to pass therein to increase the movement distance of water flowing in contact with the magnet.

Although the prior technologies have their respective advantages, they are all methods of obtaining magnetized water by properly disposing magnets in a stationary state and allowing water to flow, so it is difficult to effectively drop water molecules agglomerated as hydrates around contaminants.

Patent Registration No. 10-0712073 {Registration Date: April 20, 2007}

An object of the present invention is to provide a water cluster decomposition water purification apparatus capable of decomposing water clusters by ionizing water contained in a container and sterilizing the ionized water by irradiating microwaves.

A water cluster decomposition water purification apparatus according to the present invention includes a container for accommodating water; an ionizer for ionizing the water contained in the container; Microwave generator for decomposing the water cluster by irradiating the microwave to the container and collide with a dipole by polar rotational motion; a filter for filtering the decomposed water from the microwave generator to remove foreign substances contained in the water; and a UV sterilization unit for generating nano-decomposed water by separating the mineral particles by sterilizing the filtered water with ultraviolet rays.

When the water molecule is ionized by the ionization unit, dipoles in the form of (+) ions and (-) ions may be formed. The microwave is a frequency of 30 MHz to 3 GHz and may be continuously or non-continuously irradiated. When the microwave is irradiated discontinuously, the process of irradiating the microwave for 20 to 30 seconds and stopping the irradiation for 1 to 2 seconds may be repeated.

When the wavelength of the microwave is (+) and (-), the water molecules make the polar rotational motions in (-) and (+) directions, respectively, and the polar rotational motion is 2.995 billion per second at a speed of 147 billion rpm. It can be repeated ten million times. The ultraviolet light may have a wavelength of 250 nm to 280 nm.

The water cluster decomposition water purification apparatus may further include a control unit for controlling the operation of the ionization unit, the filter, and the UV sterilization unit, the intensity of the microwave, and the irradiation time.

The water cluster decomposition water purification device according to the present invention decomposes proteins (aquatic bacteria) in the bacterial body through polar rotational motion and non-polar thermal motion by the microwave generating unit and UV sterilizing unit. Since it loses its activity (denaturation of protein), it realizes the best sterilization power unlike the existing water disinfection method.

1) The electrical action force of microwaves damages the cell membrane charge distribution of bacteria.

2) This leads to disruption and destruction of the cell membrane function of bacteria.

3) Since the environment of clean water is created when nano clusters are generated through microwaves, the nano-decomposed water does not have secondary contamination by bacteria even after time has elapsed.

Bacteria generate ionized particulates through chemical decomposition in all of their biochemical processes, and under the action of microwaves, the ions affect the charge distribution near the cell membrane by the force of an electric field, resulting in damage to the semi-permeable action of the Na-K pump ( (not shown) affects the function of the cell membrane and causes cell membrane dysfunction, causing cells to interfere with or destroy normal metabolic function, leading to final sterilization. In order to lead to such sterilization, the irradiation time of the microwave generating unit 300 is required for several tens of seconds to several minutes. By configuring an aggregation device (not shown) in the container 100 to repeat irradiation, real-time sterilization is reached.

Unlike the existing water purifier, the water cluster decomposition water purification apparatus according to the present invention enables sterilization without a filter, and thus does not change the physical properties of raw water. Cluster decomposition that does not destroy the mineral balance of raw water is made. Through cluster decomposition, the absorption rate for body absorption and nutrient supply to animals and plants was maximized. During microwave irradiation, oxygen from water molecules is released and the amount of dissolved oxygen explodes. There is no high temperature or time-dependent reduction because the water clusters undergo physical decomposition (attraction = repulsive force) due to collisions caused by polar rotational motion of 147 billion rpm of already ionized water molecules.

1 is a block diagram showing the configuration of a water cluster decomposition water purification apparatus according to an embodiment of the present invention.
2 and 3 are views for explaining the principle of the water cluster decomposition water purification apparatus according to an embodiment of the present invention.
4 is a view for explaining a process of generating nano-decomposed water according to microwave irradiation according to an embodiment of the present invention.
5 is a graph showing the solubility improvement rate of water after microwave treatment according to an embodiment of the present invention.
6 is a view comparing a sample before E. coli sterilization and a sample after E. coli sterilization by the water cluster decomposition water purification device according to an embodiment of the present invention.
7 is a view showing an example of applying the nano-decomposed water produced according to the present invention to the growth of sweet potatoes.
8 is a view showing an example of applying the nano-decomposed water produced according to the present invention to onion growth.
9 is a view showing an example of applying the nano-decomposed water produced according to the present invention to the growth of bellflower.
10 is an exemplary installation view of a water cluster decomposition water purification device according to the present invention and a water purifier according to the related art.

Hereinafter, a water cluster decomposition water purification apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing the configuration of a water cluster decomposition water purification apparatus according to an embodiment of the present invention.

1, the water cluster decomposition water purification apparatus according to an embodiment of the present invention includes a container 100, an ionizer 200, a microwave generator 300, a filter 400, a UV sterilizer 500, and and a control unit 600 .

The container 100 contains water. The ionizer 200 ionizes the water contained in the vessel 100 . When the water molecules are ionized by the ionization unit 200, dipoles in the form of (+) ions and (-) ions are formed.

The microwave generating unit 300 decomposes the ionized water by irradiating the microwave to the vessel 100 . The microwave is a frequency of 30 MHz to 3 GHz and may be continuously or non-continuously irradiated. Microwaves can be irradiated continuously or discontinuously. When irradiating microwaves discontinuously, the process of irradiating microwaves for 20 to 30 seconds and stopping irradiation for 1 to 2 seconds may be repeated. The microwave irradiation time for separating the water clusters according to the present invention is irradiated until the water is nano-sized, and as the frequency increases, the microwave irradiation time can be shortened.

2 and 3 are views for explaining the principle of the water cluster decomposition water purification apparatus according to an embodiment of the present invention.

2 and 3, when the microwave of a frequency of 30 MHz to 3 GHz is irradiated to the vessel 100 by the microwave generator 300, when the wavelengths are (+) and (-), the water molecules are (- ) and (+) directions, respectively, make polar rotational motions of 2.95 billion times per second and collide with dipoles to decompose underwater bacteria and water clusters to separate ultra-fine nano-ion mineral particles, thereby generating nano-decomposed water without reduction. The polar rotational motion may be repeated 2.95 billion times per second at a speed of 147 billion rpm.

The filter 400 filters the decomposed water from the microwave generator 300 to remove foreign substances contained in the water.

The UV sterilization unit 500 sterilizes the filtered water with ultraviolet rays to separate mineral particles to generate nano-decomposed water.

The control unit 600 controls the operation of the ionization unit 200 , the filter 400 , and the UV sterilization unit 500 , the intensity of the microwave, and the irradiation time.

Hereinafter, the operation of the water cluster decomposition water purification apparatus according to an embodiment of the present invention will be described.

4 is a view for explaining a process of generating nano-decomposed water according to microwave irradiation according to an embodiment of the present invention.

4, through the water cluster decomposition water purification apparatus of the present invention, primary ionized water molecules collide with each other by a microwave module to decompose the water cluster (inducing polar rotational motions of 2.45 billion times per second) to form a complete cluster ( Me too) to produce decomposition water.

1) Through the primary ionization process, water forms dipoles in the form of cations (+) and anions (-).

2) Therefore, through microwave (2,450MHz) irradiation, when the wavelength is (+), water molecules rotate in the (-) direction, and when the wavelength is (-), the water molecules rotate in the (+) direction.

3) As a result, the water cluster is decomposed by the collision caused by the rotational motion (147 billion rpm) of the ionized water molecules to generate cluster (nano) decomposed water.

4) In this process, the minerals inside the cluster are released and the nutrients of the water are improved.

According to the present invention, the superfine minerals hidden through the decomposition of water clusters are discharged with the highest absorption power. Minerals are essential for maintaining a healthy body, such as:

Calcium (Ca) helps form bones and teeth, helps blood clot, and is essential for muscle control and mental stability. Magnesium (Mg) helps the calcium permeate into every corner of the body and smoothly regulates blood flow. Sodium (Na) balances the body's water balance, prevents blood pressure from rising, and helps recover from fatigue. Potassium (K) interacts with sodium to balance intracellular balance and aid in neurotransmission. Serenium (Se) promotes growth and prevents body aging with its powerful antioxidant power. Zinc (Zn) breaks down, absorbs, and excretes proteins and carbohydrates, and activates hormones. Phosphorus (P) grows cells and produces energy. Sulfur (S) makes the skin healthy and improves the luster of the hair.

5 is a graph showing the solubility improvement rate of water after microwave treatment according to an embodiment of the present invention.

Referring to FIG. 5 , the effect of microwaves on improving drug solubility in water will be described. It can be seen that the pH and molecular mobility of water irradiated with microwaves are improved compared to raw water. Since the molecular mobility of the water irradiated with microwaves is improved and drug solubility is improved, it can be seen that it is higher than the case where microwaves are not irradiated (untreated).

6 is a view comparing a sample before E. coli sterilization and a sample after E. coli sterilization by the water cluster decomposition water purification device according to an embodiment of the present invention. Referring to FIG. 6 , an E. coli sterilization test was performed to verify the sterilization effect of the water particle accelerator according to the present invention. After primary culture of E. coli in 1 liter of water, it was confirmed that E. coli was completely sterilized by passing it through a water particle accelerator.

7 is a view showing an example of applying the nano-decomposed water produced according to the present invention to the growth of sweet potatoes.

Referring to FIG. 7 , a bulb plant growth experiment was performed to verify the growth efficacy of nano-degraded water. The sweet potato was placed in a container containing normal tap water and the nano-decomposed water of the present invention and observed for 10 days, and as a result, it was confirmed that the growth of roots, stems and leaves was promoted.

After 25 days, there was a clear difference in the growth rates of stems and leaves, and based on this, it can be seen that the nano-degraded water prospers roots, which are the source of plant growth, and smoothly supplies nutrients necessary for growth.

8 is a view showing an example of applying the nano-decomposed water produced according to the present invention to onion growth.

Referring to FIG. 8 , a secondary growth experiment was performed using other bulbous plants (onions) to verify the effect of improving the mineral content and nutrient absorption rate of nano-degraded water. After 15 days, it was found that onion growth in purified water was slower than onions in nano-degraded water and tap water. This clearly shows the limitations of the existing water purification method in which nano-degraded water not only promotes plant growth but also removes mineral particles.

9 is a view showing an example of applying the nano-decomposed water produced according to the present invention to the growth of bellflower. Referring to FIG. 9 , it can be confirmed that the growth rate of bellflower in the nano-decomposed water of the present invention after 10 days is faster than that in general tap water.

10 is an exemplary installation view of a water cluster decomposition water purification device according to the present invention and a water purifier according to the related art. Referring to FIG. 10 , it is installed directly on the water pipe entering the building to change all the water circulating therein to nano-decomposed water. Although the water purifier used in the home can not be used for purposes other than drinking water in general. The water cluster decomposition water purification device according to the present invention provides a wide range of applications such as boilers, toilets, kitchens, and laundry in addition to drinking water.

On the other hand, although specific embodiments have been described in the detailed description and accompanying drawings of the present invention, the present invention is not limited to the disclosed embodiments, and the technical spirit of the present invention is provided to those of ordinary skill in the art to which the present invention pertains. Various substitutions, modifications, and changes are possible without departing from it. Therefore, the scope of the present invention should not be limited to the described embodiments and should be construed as including not only the following claims, but also equivalents to these claims.

100: courage
200: ionization unit
300: microwave generation unit
400: filter
500: UV sterilization unit
600: control unit

Claims (8)

a container containing water;
an ionizer for ionizing the water contained in the container;
Microwave generator for decomposing the water cluster by irradiating the microwave to the container and collide with a dipole by polar rotational motion;
a filter for filtering the decomposed water from the microwave generator to remove foreign substances contained in the water; and
A water cluster decomposition water purification device including a UV sterilization unit for generating nano-decomposed water by separating the mineral particles by sterilizing the filtered water with ultraviolet rays. The water cluster decomposition water purification apparatus according to claim 1, wherein, when the molecules of water are ionized by the ionizer, dipoles in the form of (+) ions and (-) ions are formed. The water cluster decomposition water purification apparatus of claim 1, wherein the microwave is a frequency of 30 MHz to 3 GHz and is continuously or discontinuously irradiated. The water cluster decomposition water purification apparatus according to claim 3, wherein when the microwave is irradiated discontinuously, the process of irradiating the microwave for 20 to 30 seconds and stopping the irradiation for 1 to 2 seconds is repeated. The method according to claim 1, wherein when the wavelength of the microwave is (+) and (-), the water molecules rotate in the (-) and (+) directions, respectively, and the polar rotational motion is 147 billion rpm. Water cluster decomposition water purification device that performs 2.95 billion iterations per second at a speed. The water cluster decomposition water purification device according to claim 1, wherein the ultraviolet light has a wavelength of 250 nm to 280 nm. The water cluster decomposition water purification apparatus according to claim 1, further comprising a control unit for controlling the operation of the ionizer, the filter, and the UV sterilizer, the intensity of the microwave, and the irradiation time. a container containing water;
an ionizer for ionizing the water contained in the container;
Microwave generator for decomposing the water cluster by irradiating the microwave to the container and collide with a dipole by polar rotational motion;
a filter for filtering the decomposed water from the microwave generator to remove foreign substances contained in the water;
UV sterilization unit for generating nano-decomposed water by separating the mineral particles by sterilizing the filtered water with ultraviolet rays; and
A control unit for controlling the operation of the ionization unit, the filter, and the UV sterilization unit, the intensity of the microwave and the irradiation time,
When the water molecules are ionized by the ionization unit, dipoles in the form of (+) ions and (-) ions are formed, and the microwave is a frequency of 30 MHz to 3 GHz and is continuously or discontinuously irradiated, and the microwave is discontinuously irradiated. When irradiated, the microwave is irradiated for 20 to 30 seconds, and the process of stopping the irradiation for 1 to 2 seconds is repeatedly performed, and when the wavelength of the microwave is (+) and (-), the water molecules are ( -) and (+) directions, respectively, the polar rotational motion, the polar rotational motion is repeated 2.95 billion times per second at a speed of 147 billion rpm, the ultraviolet light is a water cluster decomposition water purification device having a wavelength of 250nm to 280nm .

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