KR100594759B1 - Functional active water and its manufacturing method - Google Patents

Abstract

The present invention relates to a functional active water and a method for manufacturing the same, electrolyzing tap water or ground water used as living water and drinking water in an electrolytic water tank, and applying a strong rotational force to the electrolyzed water discharged from the electrolytic water tank to collect water molecules of water. (Cluster) is decomposed and then discharged through magnetic field (or induction electric field) and filter to completely remove impurities while maintaining the beneficial nutrients such as minerals in proper state, and the activity of water molecules is extremely activated. It can be used to promote bioactivity during drinking, show an excellent effect on the decomposition of poorly soluble precipitate accumulated in cholesterol and body organs, and the use of acidic water to maximize the disinfection and sterilization effect.

The present invention includes a first activation step of electrolyzing raw water, such as tap water or ground water, supplied from a water supply pipe in an electrolytic water tank; A second activation step of applying flow force to the electrolyzed water discharged from the electrolytic water tank by applying a rotational force to impart flow characteristics; A third activation step of changing the molecular structure of the electrolyzed water into a hexagonal structure by allowing the second activated electrolyzed water to pass through the magnetic field formed on the discharge path; The electrolytic water passed through the third activation step is discharged through the filtration means, and includes a purification step and a water extraction step of removing only harmful components while passing through the minerals and nutrients of the water.

The number of functional activity produced according to the invention while purified water is an impurity contained in the raw water (原水) is removed at the same time by being water molecules hexagonal screen a small surface tension, the nature of the highly polar, O ¹⁷ NMR is a water molecule It has a low strength with a small half width that represents the size of the cluster.

In addition, the functional active water produced according to the present invention has a high chemical activity of the chemical shift (Chemical shift) with a positive (+), while the electronically stabilized arrangement to form a group 1A and 2A on the periodic table It is composed of cationic poorly soluble substance and excellent cholesterol dissolving function, ORP is high (-) and has excellent reducibility property, so it is not seen at all in other water to be compared or has the most excellent feature.

Description

Functional activated water and its manufacturing method {FUNCTIONAL ACTIVATED WATER AND MANUFACURING PROCESS OF THE SAME}

1 is a process chart showing a method of producing functional active water according to the present invention;

2 is a schematic configuration diagram showing an apparatus for producing functionally active water according to the present invention;

3 is a graph showing a comparison of O ¹⁷ NMR results of functional water and functional water prepared according to the present invention;

Figure 4 is a graph showing the comparison of the interfacial tension test results of the functional water and functional water produced by the present invention,

5 is a graph showing the ORP test results of the functional water and functional water prepared according to the present invention,

6 is a graph showing the degree of change in ORP according to the time change of the functional active water and various water produced by the present invention,

Figure 7 is a photograph showing the comparison of the cholesterol soluble properties of the functional water and functional water produced according to the present invention.

** Description of symbols for the main parts of the drawing **

S1: first activation step S2: second activation step

S3: 3rd activation step S4: purification step

1: diaphragm 2: electrode

3: electrolytic water tank 4: rotational force applying means

5: magnetization means.

The present invention relates to functionally active water and a method of manufacturing the same, and more specifically, electrolyzing tap water or ground water used as living water and drinking water in an electrolytic water tank, and applying a strong rotational force to the electrolyzed water discharged from the electrolytic water tank. The water molecule cluster of water is decomposed and discharged through a magnetic field (or an induction electric field) and a filter to completely remove impurities, while maintaining nutrients such as minerals that are beneficial to the human body in an appropriate state. It is activated so that it can be extremely activated, promotes bioactivity during drinking, has an excellent effect on the decomposition of poorly soluble substances accumulated in body organs such as cholesterol, and maximizes the disinfection and sterilization effect when acidic water is used. It relates to active water and a method for producing the same.

As is well known, water is one of the most important elements for human survival along with oxygen.

About 70% of the human body is made up of water. If you lose only 1 ~ 2% of the water in your body, you will experience severe thirst and pain.If you lose about 5%, you will fall into a coma and lose 12% of your life. You lose.

Water introduced into the human body circulates for a short time in the body to maintain cell morphology, enhance metabolism and smooth the circulation of blood and tissue fluid.

In addition, water dissolves nutrients in the human body, supplies it to cells by absorbing and transporting it, excretes unnecessary wastes generated in the body outside the body, keeps the blood neutral or alkaline, and releases heat from the body to maintain body temperature. It is essential to maintain vital life, such as regulating, that is, to perform circulatory function, assimilation, excretion function, temperature control function.

Therefore, it is a measure of health that how much water plays in the body until it is excreted in the form of urine or sweat, so drinking good water is a good measure of health. It is not necessary to say that it is basic.

On the other hand, the water we normally drink is common to tap water or groundwater, and the tap water and groundwater contain a large amount of impurities that are harmful to the human body.

Tap water contains various disinfectants, such as hypochlorous acid, which have chloride groups that are harmful to the human body for odor removal and sterilization, and groundwater contains various harmful components such as heavy metals depending on the degree of contamination due to the flow of pollutants accumulated in the air and above the ground. It is likely to be.

In this tap and groundwater, due to the binding of foreign matters, the state of aggregation of water molecules becomes large, and it is not only a good condition for breeding various bacteria, but also the physical properties are high, so the interfacial tension is low, soaking effect is low, and the nutrition is low. It has a non-ideal water molecule structure in which the solubility of the component is lowered and the biological activity is lacking.

Because of this, the water finally supplied to the consumer was not only more contaminated than natural water but also significantly lower in water molecule activity.

Therefore, tap water and groundwater do not impart activity to the normal function of the body without undergoing reprocessing, and drinking water that is not suitable for the human body has been raised as a cause of various diseases.

Accordingly, in order to purify or activate various types of domestic water and drinking tap water or groundwater, various methods as follows have been proposed.

1. Simple filtration

  Simple filtration is a method of filtering out impurities contained in tap water or ground water simply by using a filtration filter. It refers to a method of activating water by the action of far-infrared rays emitted from ceramics.

2. Magnetization

  In the magnetization method, magnets are installed inside or outside the water pipes so that magnetic fields are formed on the flow path of water, and tap water or ground water is allowed to pass through the water to ionize water under the influence of magnetic fields. It is a way of changing the structure.

3. Electrolysis method

  The electrolysis method refers to a method in which tap water or ground water is introduced into an electrolytic cell divided into a positive electrode chamber and a negative electrode chamber by a diaphragm and electrolysis of water molecules by applying a voltage to each chamber. In the decomposition method, since the ion-bonding substance existing as an inorganic substance in water is completely decomposed and exists in an ionic state, harmful components are removed and decomposed and alkaline water can be obtained.

4. Mixing method

  The mixing method refers to a method of activating water by passing tap water and ground water in combination or selectively combining all of the simple filtration method, magnetization method, and electrolysis method described above.

In general, technologies that combine and apply the above methods are commercially available and applied to water purifiers and ionizers in addition to devices that directly attach and supply water to water pipes.

On the other hand, in the above simple filtration method, the anion and the far-infrared radial material produced by the catalytic filter to purify the water has been shown experimental examples in which water is activated, water ionization degree, interfacial tension and ion solubility is insignificant.

As a practical example of application, although it is relatively expensive among the various manufacturing methods described above, the ionizer which has electrolysis is higher than the water purifier which filters water by a simple filtration method or a ceramic method. This is because the water produced through has excellent activity.

Recently, a method of increasing the active capacity of water by applying a magnetic field to water discharged from an ionizer has been proposed.

The ionizer applied to the above electrolysis method can be used to electrolyze water to make alkaline water and acidic water, so that alkaline water can be used as drinking water and acidic water can be separated for washing and sterilization respectively. It is possible to improve the activity of the water molecules to produce functional water.

The ionizer as described above can be evaluated in a manner that can produce a functional water having excellent performance compared to other water purifiers to simply purify the water, but the following problems were found.

As mentioned above, in order to produce electrolyzed water in an ionizer, water is electrolyzed through a constant electric field. During the electrolysis of water, hydrogen is generated in the cathode chamber, and due to electrical neutral conditions and electrical attraction, the cation forms a diaphragm. Through the movement from the anode chamber to the cathode chamber.

However, in the electrolysis process of water, the energy level of water molecules becomes unstable because of the artificially applied electrical energy to the water. After a certain time, the water activity becomes ineffective due to the nature of finding the electrical stability of the water molecules themselves. There is a problem that it is easily destroyed.

In addition, in the electrolysis of water, there is a limitation in that activity is not enhanced for the physical properties of water related to the flow characteristics and the transfer characteristics because no treatment is performed on the fluid properties of the water itself.

In addition, it is known that about 30 minutes are required to fully activate the water, whereas the general electrolyzed water production apparatus does not process enough time to produce such an effect, and the low activity itself is activated only by magnetic force. There is a technical limitation that the activation energy for raising is not low to produce enough hexagonal water.

On the other hand, in the prior art, a water production apparatus combining the two water activation methods (electrolysis method + magnetization method) has been proposed, but the water produced through the production apparatus still has instability and can receive sufficient magnetic force. Since it is not water, the problem that the magnetic field effect is not discharged even though strong magnetic force is irradiated was not overcome.

In addition, it does not impart any physical property enhancement effect on the flow phenomenon of water, so that the interfacial tension is not greatly reduced, the property of permeation through microtubules is not high, the polarity of the water molecule itself is not high, and the half width is not reduced. I couldn't.

The present invention is to solve such a conventional problem, its purpose is to electrolyze tap water or ground water used as living water and drinking water in an electrolytic water tank, and to apply a strong rotational force to the electrolyzed water discharged from the electrolytic water tank to The water molecule cluster is decomposed and discharged through a magnetic field (or an induction electric field) and a filter to completely remove impurities, while maintaining nutrients such as minerals that are beneficial to the human body in an appropriate state. New function that makes it extremely active, promotes bioactivity during drinking, shows excellent effect on decomposition of poorly soluble sediment accumulated in cholesterol and body organs, and maximizes disinfection and sterilization effect when acidic water is used. It is to provide a method for producing active water.

Another object of the present invention is to maintain the nutritional ingredients beneficial to the human body, such as minerals, and to maintain the activity of water molecules to be extremely activated to promote bioactivity during drinking, poorly soluble in body organs such as cholesterol It provides an excellent effect on the decomposition of the material, and provides a new functional active water to maximize the bactericidal and bactericidal effect when using acidic water.

In order to achieve the above object, a method for producing active functional water according to the present invention includes a first activation step of electrolyzing raw water such as tap water or ground water supplied from a water supply pipe in an electrolytic water tank; A second activation step of applying flow force to the electrolyzed water discharged from the electrolytic water tank by applying a rotational force to impart flow characteristics; A third activation step of changing the molecular structure of the electrolyzed water into a hexagonal structure by allowing the second activated electrolyzed water to pass through the magnetic field formed on the discharge path; The electrolytic water passed through the third activation step is discharged through the filtration means, and includes a purification step and a water extraction step of removing only harmful components while passing through the minerals and nutrients of the water.

Functionally active water according to the present invention is electrolyzed in an electrolytic bath and activated first, and then activated secondly by application of a strong rotational force, then activated through a magnetic field, and then purified by filtration means, -400 represents the redox potential value (ORP) of ~-600mV, O ¹⁷ NMR indicates a 62.0~65.0Hz half band width of the measurement, and has a characteristic having a surface tension of 8.0~9.0mN / m.

The rotation speed of the rotational force applying means for imparting the rotational force to the electrolyzed water discharged from the electrolytic water tank in the method for producing functional activated water according to the present invention has a characteristic of 20 to 1,000rpm.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a process chart showing a method for producing functionally active water according to the present invention, and FIG. 2 is a schematic configuration diagram showing an apparatus for producing functionally active water according to the present invention.

Referring to this, the method for producing functional active water according to the present invention includes a primary activation step (S1) of electrolyzing raw water, such as tap water or ground water, supplied from a water supply pipe in an electrolytic water tank, and separate electrolytic water discharged from the electrolytic water tank. By using the rotation means of applying a rotational force includes a secondary activation step (S2) to impart a flow characteristic.

In another aspect, the present invention is the third activation step (S3) and the third activation step to allow the second activated electrolyzed water to pass through the magnetic field formed on the discharge path to change the molecular structure of the electrolyzed water into a hexagonal structure (S3), It includes a purifying step (S4) and withdrawal step (S5) to remove only harmful ingredients while passing through the mineral and nutrients of the water to be discharged through the filtering means.

Functional activated water production apparatus to which the functional activated water production method according to the invention is applied as shown in FIG.

The functional active water production apparatus is provided with a raw water inlet in the outside, an electrolytic water tank provided with a cathode chamber and an anode chamber for electrolyzing raw water introduced in a state partitioned by the diaphragm 1 into alkaline water and acidic water. (3), the electrode rods 2 provided in the cathode chamber and the anode chamber in the electrolytic water tank, and the rotational force applying means 4 to impart rotational force to the water discharged from the electrolytic water tank 3; It consists of a magnetizing means 5 and a filtration means for magnetizing the electrolyzed water discharged by being composed of permanent magnets having a magnetic force of size.

As the electrolytic water tank 3, a container made of an insulating ceramic or polymer material is used, and a diaphragm 1 is provided at a central portion to divide the inside of the electrolytic water tank 3 into a cathode chamber and an anode chamber, and the diaphragm 1 Electrodes 2 for applying a voltage are respectively installed in the cathode chamber and the anode chamber spaced apart from each other by the same distance.

The shape of the diaphragm 1 depends on the shape of the electrolytic water tank 3, and may be a multi-electrolysis chamber, or may be arranged in a zigzag shape to prevent partial mixing of water. It must be constructed of materials and structures that will prevent the mixing of water.

The structure of the electrode 2 is plate- and rod-shaped is not limited in shape, the material is electrically conductive, the electrode itself should not be decomposed during the electrolysis process.

In addition, the electrode 2 is not limited in number and size, and is designed to form a uniform electric field.

The rotational force applying means (4) is installed for imparting a rotational force to the electrolyzed water discharged from the electrolytic water tank (3), the rotational speed of the rotational force applying means (4) is 20 to 1000rpm, more preferably the rotational speed is 20 It is -100 rpm.

The material for the rotational force applying means 4 is any material capable of applying the rotational force is sufficient, a polymer material of insulating material is preferred.

Rotating vessels can be designed in various shapes such as cylindrical and oval, and are not limited in shape and size.

The rotation force applying means 4 is mounted on the flow path of the electrolyzed water corresponding to the outside of the electrolyzed water tank 3 for the purpose of applying the rotational force to the electrolyzed water discharged from the electrolyzed water tank 3, as shown in FIG. Preferably, it may be attached to the discharge pipe inlet inside the electrolytic water tank 3, and the same effect can be obtained by attaching the magnetization means 5 to the rear part.

On the other hand, the magnetizing means (5) has a structure in which a discharge pipe of a predetermined length is not shielded in the electrolytic water discharge port, and a permanent magnet is installed inside or outside the discharge pipe through which the electrolytic water passes.

Permanent magnets constituting the magnetizing means (5) may be made of a donut-shaped circular magnet, plate or square cylinder shape, the permanent magnet may be provided one or several depending on the treatment capacity of the electrolytic bath.

The magnetizing means 5 may be an induction magnetic field, not a permanent magnet, in which case it should be able to completely block electromagnetic waves.

On the other hand, the filtration means is basically composed of activated carbon, to remove the cations contained in the electrolytic water can be added an ion adsorption filter, such as zeolite (ore), ore ceramics such as elvan, loess, biotite to emit far infrared Filters can also be fitted.

In addition, anion-emitting ceramic filters such as tourmaline, monazite, and meteorites may be additionally installed to increase the electrolytic properties of water, and a filter processed with silver material may be installed to increase antibacterial properties.

The filtering means may be prepared by mixing the materials in a single container according to the use space and the degree of utilization, may be used as a plurality of containers in which each material is stored separately, or a combination thereof.

In addition, the filtering means may be additionally installed to calculate the replacement time of the filter, such as a flow sensor.

Referring to the operation of the functional activated water production apparatus described above is as follows.

When the electrolyzed water discharged from the electrolytic water tank 3 is rotated at high speed by using the rotational force applying means 4, the density of the water increases while the rotational force is applied. At this time, the unstable water has a high density to reduce the rotational force applied to the water. The high water will make its own change.

As described above, the electrolyzed water discharged from the electrolytic water tank 3 is very unstable water due to electrical energy, and receives the rotational force from the rotational force applying means 4 to have a high density and stable water.

Through this process, since the treatment in the electrical insulation state while maintaining the effect in the electrolytic bath (3) as it is, the flow properties are improved to improve the interfacial tension and microtubule permeability of water.

On the other hand, water maintains the highest density at 4 ° C., and the occurrence rate of hexagonal water is also high in this state.

Water passing through the manufacturing process of the present invention is a state having a high density state of hexagonal water is generated a lot at 4 ℃, when the process of manufacturing the hexagonal water is subjected to the above process is a constant for conversion into hexagonal water It has a driving force, so that water is easily produced in the form of hexagonal water without applying excessive magnetic field, and at the same time, water of high enough activity is produced without irradiating magnetic force for a long time.

As a result, when subjected to the electrolysis and subjected to the magnetic field treatment in the high-speed rotation treatment, the water containing the electrical activity and the probability of generating hexagonal water through the magnetic field effect is increased to maximize the water functionality and activity capacity.

The water prepared as described above has an extremely effective activity of water molecules to promote bioactivity, remove cholesterol, decompose non-insoluble substances accumulated in body organs and cells, and utilize acidic water produced in the anode chamber. In case of water, the cleaning and sterilization effect is maximized.

Functionally active water according to the present invention is electrolyzed in an electrolytic bath and activated first, and then activated secondly by application of a strong rotational force, then activated through a magnetic field, and then purified by filtration means, -400 It represents the redox potential value (ORP) of ~-600mV, O ¹⁷ NMR indicates a 62.0~65.0Hz half band width of the measurement, and has a surface tension of 8.0~9.0mN / m.

The characteristics of the functional active water produced according to the present invention will be described in more detail.

Functionally active water produced by the preparation method of the present invention has a high ORP (redox potential) value toward the negative side.

ORP is a numerical value evaluating edible and drinking water, and has a significantly high (-) ORP value of -400 to -600 mV for the functionally active water produced in the present invention.

This is a high value compared with the conventional reduced water and ionic alkaline water.

Functionally active water produced according to the present invention has a relatively stable structure and maintains a high ORP value for a long time. In the case of general electrolyzed water (ion electrolyzed water), magnetized water and deep seawater, the functionally active water of the present invention Of course, even if water having a high ORP value is produced, the rapid attenuation appears within one day.

However, the functionally active water according to the present invention showed a change amount after 60 days of general alkaline ionized water after 60 days, and still has a high ORP value compared to alkaline ionized water.

In addition, the functional active water according to the present invention is excellent in fine permeability and interfacial tension.

The flow of fluid corresponding to microtubular permeation occurs between cells and between cells or cell membranes. Only when the fluid flow is smooth, blood circulation is smooth in the body, and the osmotic ability is improved, so that the metabolic reaction in the body is improved. This efficiency is increased, and disease prevention and physical activity are promoted.

 Functionally active water according to the present invention was confirmed through the same test as in the following experimental example excellent in this fluid flow.

Functionally active water produced by the present invention is excellent in cholesterol dissolving ability.

Cholesterol makes up about 80% of its own in the human body, and the remaining 20% is known to be controlled by eating habits.

High cholesterol is broken down by the liver and, conversely, when it is insufficient, it produces cholesterol in the liver to protect fat and protect blood vessels.

In a healthy body, these cholesterol levels are controlled through the body's own regulatory functions. If you lose these control functions due to aging and illness, cholesterol levels increase rapidly.

Cholesterol is low in solubility in general water and is not removed unless it causes a decomposition reaction due to liver function. Even if it is partially removed, clots form blood clots and cause fatal physical diseases such as cerebral hemorrhage, heart attack and high blood pressure.

Functional active water produced according to the present invention, as shown in the test, such as the following experimental example, provides a superior function in terms of the performance of cholesterol dissolving ability compared to general water.

In addition, as a result of O ¹⁷ NMR (nuclear magnetic resonance) measurement, the half width is significantly smaller than that of the comparison, and the peak intensity and chemical shift are not seen in the comparison, and the deep sea water and It is shown in the natural hexagonal water, the phenomenon also showed a higher performance than this water.

The properties of the water produced in the present invention will be described by the following specific experimental example.

Experimental Example 1 Performance Test of Water through Microtube Permeation Experiment

In order to evaluate the microtubule permeability of the functionally active water of the present invention, the ground water and the tap water were selected as comparison targets, and the performance was compared.

Three types of water were used for the experiment, and the functional active water produced by the present invention, groundwater purified with activated carbon, and tap water supplied from a general household were used.

In the test method, a container having a capacity of 1 L at a height of 1.5 m was used, and water was filled therein, and then the time for 500 μs of water to escape through the micropores having an average diameter of 10 μm was specified.

The experimental results are shown in Table 1 below.

Table 1. Microtube Permeation Test Results

Kind of water Penetration time Time converted to 6ℓ standard Function active water 244 seconds 29280 seconds underground water 255 seconds 30600 seconds tap water 271 seconds 32520 seconds

If it is assumed that the above-mentioned permeation occurs between cells and cell membranes, even if there is no phenomenon that is shifted by diffusion, the functional active water of the present invention is simple compared to other water by simple flow of liquid. The transmission amount is high.

This phenomenon is also occurring in the human body, the ability of the average daily adult drinking water of 6 L absorption indicates that the functionally active water of the present invention can be improved by 11.4% compared to tap water.

This is a value that is evaluated only by the flow of the liquid, and the reaction occurring in the body is given up to osmotic pressure, so the improvement of 11.4% is the minimum value.

Experimental Example 2 O ¹⁷ NMR (Nuclear Magnetic Resonance) Experiment

O ¹⁷ NMR (600MHz) was commissioned by a domestic authorized laboratory to investigate the characteristics of water for a number of samples.

Figure 3 is a graph showing the comparison of the O ¹⁷ NMR results of the functional water and functional water prepared according to the present invention.

Several types of water were used in the NMR analysis, and the functional active water discharged from the active water production apparatus of the present invention and the acidic functional active water discharged from the positive electrode were analyzed.

In addition, water, which is named as magnetized water, is applied to the water which has been magnetically treated for 10 minutes by using a magnetized water group that has been used and is commercially available, water that has electrolyzed groundwater by using the conventional method of producing reduced water and alkaline ionized water, and general households. The tap water supplied was analyzed together.

Table 2. Half-width of several water measured using O ¹⁷ NMR.

Water class Functional active water Alkaline water Magnetization tap water Functional active water (acidic) Half width 64.4 Hz 74.8 Hz 107.3 Hz 103.7 Hz 58.8 Hz
As can be seen in Figure 3 and Table 2, the functionally active water according to the present invention has the smallest half width, the chemical movement and strength degradation phenomenon not seen in other water.

delete

These measurements are a frequent occurrence in deep seawater and natural hexagonal water, and their numbers are also high for other types of water.

Experimental Example 3 Polarity Evaluation Experiment

An electric field of 6 V was applied to the copper plate having a width of 2 cm x length 4 cm x thickness 0.3 cm.

When the water to be tested was dropped by 2.5㏄ / min between the two copper plates, the degree of water flow bent by the electric field was compared and the relative strength with respect to the polarity was compared.

Several repeated experiments resulted in a difference in warpage in the following order.

Functional active water> Distilled water> Magnetized water> Tap water

From the results of the experiments, it can be expected that the solubility in salt precipitates and cationic binders is high as a function of the clear functional active water, and the solubility of the precipitate which shows poor solubility in general water is high. .

Experimental Example 4 Evaluation of Interfacial Tension

The interfacial tension of various water types was examined by requesting an institution that tests domestic interfacial tension.

A total of eight kinds of water requested for testing were functionally active water produced by the present invention, and acidic functionally active water was prepared in the anode chamber of the production apparatus of the present invention.

Alkaline water (I) refers to reduced water and alkaline ionized water. Alkaline water (II) is alkaline water in which water is activated using an anion-emitting ceramic catalyst.

Tap water was tested for general domestic tap water. Magnetized water is water produced by commercially available magnetized water production equipment, and acidic water is water produced in an anode chamber of an ion electrolyzer.

Figure 4 is a graph showing the comparison of the interfacial tension test results of the functional water and functional water produced according to the present invention.

As can be seen in Figure 4, the functional active water of the present invention is not only excellent in the interfacial tension compared to other water, but also has a feature that can not be seen at all in the water of the other comparison object also has a function of reducing the interfacial tension with oil To provide. In consideration of the compatibility with the human body, it can be seen that the affinity between the cell wall-water, body sediment-water is the most excellent.

Experimental Example 5 Redox potential (ORP) evaluation experiment.

The redox potential was evaluated for several kinds of water.

The water used in the experiment was a total of eight functionally active water is water produced by the present invention, functionally active water (acidic) is water produced in the anode chamber of the production apparatus of the present invention.

Alkaline water (I) refers to reduced water and alkaline ionized water. Alkaline water (II) is alkaline water in which water is activated using an anion-emitting ceramic catalyst.

Tap water was tested for general domestic tap water, magnetized water is water produced through commercially available magnetized water production equipment, and acidic water is water produced in the anode chamber of the electrolytic water tank (3).

Figure 5 is a graph showing the ORP test results of the functional water and functional water prepared by the present invention in comparison.

As can be seen in Figure 5, the ORP value of the functionally active water of the present invention appears to have a high reducing power corresponding to -538mV, and has a reducing power of about 200 ~ 300mV greater than the conventional commercially produced and reduced water.

Among the figures currently reported, the most reducible.

Experimental Example 6 Stability and Information Retention Ability of Redox Potential (ORP).

The change in ORP after a long time was measured in the functionally active water and the alkaline ionized water of the present invention in which the ORP was relatively high (-).

Storage vessel, storage temperature, and storage mode maintained the same conditions for both objects.

6 is a graph showing the degree of change in ORP according to the time change of the functional active water and various water produced by the present invention.

Functionally active water of the present invention has considerable stability compared to reduced to alkaline water.

Figure 6 shows the change in value over time, the amount of functional active water changes about 60 days Alkaline water has already changed in about 20 days.

As mentioned earlier, functional active water shows excellent stability after -300 ~ -400mV even after 60 days, whereas alkaline water shows -200mV level after 20 days, which shows a low stability. .

Experimental Example 7 Cholesterol Dissolution Test

The dried cholesterol particles were put in water heated to 35 ° C. and maintained for 1 minute, and filtered to determine the degree of dissolution.

The water used at this time was used functional water and tap water, distilled water prepared by the present invention.

Figure 7 is a photograph showing the comparison of the cholesterol soluble properties of the functional water and functional water produced according to the present invention.

7 (a) shows that the filtered water is yellow when cholesterol is dissolved in the functional active water of the present invention, and it is confirmed that a certain amount of cholesterol is dissolved. At this time, the cholesterol present in the functional active water was measured to be 0.2㎛ or less in size.

However, in the case of tap water and distilled water, as shown in FIGS. 7 (b) and 7 (c), most of the cholesterol was filtered out by the filter paper, and the transparent state was almost absent.

In addition, in alkaline water and magnetized water, the phenomenon of separation between water and cholesterol in the form of agglomerated cholesterol appeared, and after a certain time, the cholesterol was present in a large agglomerated state by forming a secondary aggregate of at least 100 μm or more in water.

As a result of the above experiment, it was confirmed that when the cholesterol particles are dissolved in the functional active water of the present invention, the dissolving ability is excellent compared to other water, and after a predetermined time, it is completely dispersed to dissolve the particles of cholesterol in a fine state. It has been confirmed that the mass has an excellent function of dissolving large cholesterol in the form of fine particles.

In the present invention described above, the water produced in the cathode chamber in the electrolytic water tank is referred to as functional activated water, and the water produced in the anode chamber is referred to as acidic functional activated water.

The weakly alkaline functional active water and acidic functional water produced by the present invention are supplied to the consumer in a suitable container after the manufacturing process according to the present invention.

The number of functional activation produced by the present invention is both clean water reservoir of the impurities contained in the raw water (原水) removed at the same time than the other water to be compared by being angry water molecules hexagonal small surface tension, high polarity, O ¹⁷ In the NMR, the half-value width indicating the size of the water molecule cluster is small, the strength is low, and the chemical shift is significantly shifted to (+) to have high water activity.
In addition, the functionally active water of the present invention has an electronically stabilized batch, excellent cationic poorly soluble substance and cholesterol dissolving function composed of Groups 1A and 2A on the atomic periodic table, high ORP (-) and excellent reducibility Has
By such a feature, the functional active water of the present invention suppresses the removal and generation of impurities, thereby not only completely removing impurities harmful to the human body, but also promoting excellent metabolism in biological tissues, thereby exhibiting excellent performance in maintaining a healthy body state. Can be.

Claims (3)

A first activation step (S1) of electrolyzing raw water such as tap water or ground water supplied from a water supply pipe in an electrolytic water tank 3; A second activation step (S2) of decomposing the water molecule group and giving flow characteristics by applying a strong rotational force to the electrolyzed water discharged from the electrolytic water tank by using a separate rotational force applying means (4); A third activation step (S3) for allowing the second activated electrolyzed water to pass through the magnetic field formed by the magnetization means (5) installed on the discharge path to change the molecular structure of the electrolyzed water into a hexagonal structure; A purification step (4) of allowing the electrolyzed water passed through the third activation step to be discharged through the filtration means to remove only harmful components while passing through the minerals and nutrients of the water; And a water extraction step (S5) for extracting the purified water; The first activation step (S1), the second activation step (S2) and the third activation step (S3) is a functionally activated water production method, characterized in that each step is sequentially generated along the flow of raw water. The method of claim 1, Rotational speed of the rotational force applying means (4) for imparting a rotational force to the electrolyzed water discharged from the electrolytic water tank is characterized in that 20 to 1,000rpm. Electrolyzed in the electrolytic bath (3) is activated first, and activated secondly by the application of a strong rotational force by the action of the rotation force applying means 4 and then through the magnetic field formed by the magnetization means (5) to activate the third And then purified by filtration means to produce a redox potential (ORP) of -400 to -600 mV, a half width of 62.0 to 65.0 Hz in O ¹⁷ NMR measurement, and an interfacial tension of 8.0 to 9.0 mN / m. Functionally active water, characterized in that for dissolving and dispersing cholesterol particles to 0.2μm or less.

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