KR20020049326A - structural water with a hexagonal loop of irregular shape - Google Patents

Abstract

PURPOSE: Provided is a structural water of amorphous hexagonal ring which is prepared by the device of hexagonal ring water generator. It is proven that this type of water is a novel water material. The amorphous hexagonal water is antibacterial, anti-cancer agent and effective for the stability of plasmin as well as smoothing metabolism of the body by neutralizing and detoxicating the heavy metals in the body. It is also effective in preventing and treating neuralgia, rheumatism and high blood pressure. CONSTITUTION: The device of making the water comprises: a case(1) wherein several ordered separate plates(5) with a through hole part(2) are connected; magnet(6) is attached to the exterior surface of the pipe(9), through which water passes to become the amorphous hexagonal ring water, located inside the space among the plates(5); and two accumulative induction reflector plates(7) composed of iron and special alloys are located abreast or symmetrically opposite to the pipe(9). The structural characteristic of the above water comprises: arrangement of amorphous type structure wherein the position of each oxygen bonded to two hydrogen is somewhat unsymmetrical, deferring from other hexagonal water structure and the connection of the molecule is broken off making it amorphous structure; and having the physical properties of pH 7.15 at 20°C and approaches pH 7 as the temperature rises, 246 μS/m conductivity at 20°C, 275μS/m conductivity at 25°C, 0.35mg/l oxidative power, 11.7 deg.F water quality, 12.5 deg.F T.A.C, 0.1N.T.C turbidity, 152mg/l bicarbonate, percarbonate, 25.2mg/l silicon, 5.3mg/l magnesium, 13.1mg/l sodium, 2mg/l potassium, <0.1mg/l ammonia, 3mg/l chloride, 15mg/l sulfides, <2mg/l nitrate, <0.05mg/l nitrite, 0.05mg/l fluorine, <0.1mg/l phosphate, <10μg/l zinc, and 175mg/l dried residue at 180°C.

Description

Structural water with a hexagonal loop of irregular shape

The present invention relates to a structural water having an atypical hexagonal ring, specifically, a structural water for detoxifying and neutralizing various toxins and preventing the growth of various bacteria, that is, antibacterial as well as anticancer and plasmin effects. The purpose of the present invention is to provide a structural water having a hexagonal ring of atypical shape, which is a material of new water, by allowing a structural water having a hexagonal ring molecule to be produced through a device for manufacturing hexagonal water.

In general, the molecular structure of water is formed by combining one oxygen (0) atom of -ion and two hydrogen (H) atoms of + ion, and the molecular structure of water is a tetrahedral structure as shown in FIG. That is, the oxygen atom is in the center of the tetrahedron, and H2, that is, two hydrogen atoms, lie at two of the four vertices of the tetrahedron. Therefore, the cylinder where the hydrogen atom and the oxygen atom bond shows the bond of the combined hands of the two hands, while the other two peaks of the oxygen atom show the anti-bonding orbit because they are not used for another bond. The orbits that make up the molecules of water extend in the direction of the four vertices of the tetrahedron, so that the orbits of electrons around each atom interact with each other to create the orbits of bonds. To combine with a hand that can afford to accept, the result is that you want a more stable 'molecular orbital' rather than an atom alone. Eventually, the water molecule has a semi-bonded orbit that does not participate in bonding, that is, two of the four vertices shown in FIG. When interacting with the semi-bonded orbit, the hands can be stretched to form a weakly-bonded orbit (see FIG. 2).

In the present invention, the very nature of the molecules of water in this passage, that is, the stabilizing and destabilizing forces of the atoms and atoms bonded to the molecule, in other words, the bond or semi-bond orbit is formed Paying attention to the fact that it is being made, the researches that have been made to develop the material of water which is not good for the human body have begun.

As such, the water molecule has a tetrahedral structure, two hydrogen atoms are located at two peaks, and two other peaks are facing a semi-bonded orbit, and the bonds between hydrogen atoms are the peaks of the semi-bonded orbit. The research and development of the present invention began with the idea that it was the result of the hydrogen bond occurring between and the hydrogen atom. In this case, the hydrogen bond of the water molecule is the most stable under which state. This is because the orbital of the hydrogen bond occurs between the parallels of oxygen atom, hydrogen atom, and oxygen atom when the OHO connections are lined up side by side in a straight line. It can be said that it is time to stretch as straight as possible. In other words, the model of the water molecule compound divided according to the calculation result of the quantum chemical theory, which is said to be the theory of public knowledge, is based on Table 1, which is the result of the theory. In this case, the structure is the most natural and stable when 6 water molecules (Fig. 4 as hexagonal water) or 5 (Fig. 3 as pentagonal water) are connected in a ring shape.

<Table 1: Diagram of Relative Presence and Interaction Energy of Various Water Molecules>

Model of water molecule compound energy Probability of existence Triangular water rings (H ₂ O) ₃ 4.32 0.081 Rectangular ring (H ₂ O) 5.11 0.278 Pentagram ring (H ₂ O) ₅ 5.34 1.000 Hexagonal Ring Shape (H ₂ O) ₆ 5.78 0.703 Seven-cornered ring (H ₂ O) ₇ 2.56 0.003

Therefore, it is reasonable to think that the liquid water is a mixture of pentagonal and hexagonal waters. However, as shown in the figure 1 above, ordinary water is formed in the form of pentagonal water with the highest probability of existence. It is the most common to see that it is.

However, as shown in Table 1, from the viewpoint of water energy, the hexagonal number is much better than the pentagonal number, and the body fluid is known to have a hexagonal ring structure, which requires more hexagonal water than the pentagonal number. However, the hexagonal numbers are only theoretically identified. In other words, the hexagons made from liquid water are not only recurring, but they are not fixed in their shape (hexagon) even if they are left in their natural state. It is only about a hundred billionth of a second, so no matter how good the observation equipment is, the human eye cannot see the hexagonal water.

On the other hand, hexagons that are made in the case of SNOW crystals or ice that can be seen with the naked eye through a microscope or X-ray analysis are fixed crystal structures. These hexagonal structures are melted due to high temperature and are subject to external shocks. Hexagonal shape is maintained as long as it is not destroyed. This hexagonal structure is fundamentally different from the hexagonal water of liquid water. In this context, the focus of the present invention is that by observing the hexagonal crystal structure of the immobilized eye with the naked eye, a considerable portion of the crystal structure of the constantly flowing water is changed through external stimuli and attempted to be immobilized. It was possible to produce a hexagonal structure tree in the form of a new material with a considerable degree of rigor, although not a fully structured hexagon structure like a hexagonal tree.

Anyway, the main development purpose of the present invention will be described later, and the reason why the hexagonal structure of hexagonal ring molecules instead of ordinary water is obtained is introduced from various papers and magazines. By doing so, we will first solve the question.

It is well known that juices of animals and plants, including humans, have hexagonal molecular structure, not normal water structure at room temperature. However, in the hexagonal structured water, no bacteria can absorb oxygen in the water molecule, and about 0.5 times more than normal water, inevitably retains about 0.5 times more positive ion atoms and negative ion atoms combine with each other. It is difficult to survive germs because of various sanctions by magnetic energy of Gaussian degree.

Therefore, the more hexagonal structures in our body, the better. In addition, in indirect terms, the body fluid in our body is composed of hexagonal structured forms and detoxifies and neutralizes various toxins, and prevents the growth of bacteria, so that there is a natural healing power (immunity) of the disease.

However, today's modern people directly or indirectly include nicotine by smoking, various foods and drugs containing a large amount of harmful toxins such as caffeine, alcohol, preservatives and antibiotics, and low quality air and heavy metals due to various environmental pollution such as water quality and air. Because it is put into the human body through a path through a certain amount of white blood cells and hexagonal structured body fluids are not enough to handle it, it is thought that it is easy to suffer from various adult diseases such as hypertension, neuralgia and diabetes.

On the other hand, according to another medical report, the human body needs about 2-3 liters of water per day, and once the drink is digested and absorbed through internal organs such as the stomach and small intestine, the hexagonal structure is not H ₂ O. It is reconstituted with water [(H ₂ O) ₆ ] to replenish body fluids discharged from sweat and urine.

However, this lack of structured hexagonal structure itself is a problem.

In other words, as mentioned above, in today's harsh environment, the amount of white blood or hexagonal water (body fluid) that our body possesses is not enough to detoxify, neutralize, and sterilize various toxins and bacteria. The daily drinking water (natural water) is not only a variety of Escherichia coli, but also a number of heavy metals are dissolved, so detoxification to the human body due to water pollution is inevitable.

In addition, in the case of tap water administered with chlorine (Cl ₂ ), although various chemicals in the tap water are neutralized by the self-cleaning action in the human body, it gradually accumulates in the human body and eventually causes various diseases. .

And because of the distrust of tap water is usually boiled and drink, but in this case several residual bacteria and toxicities are neutralized to some extent, but because of the lack of oxygen itself, it may cause inferior resistance to immunity.

As such, the current natural water (including tap water) is necessary for the human body, but is also the cause of blocking various metabolic veins due to contamination of materials, which is the basis of many adult diseases without knowing it.

Therefore, researchers in developed countries have studied and analyzed the structure of the drink in the human body and how it changes, and concluded that it is very efficient to drink water with hexagonal structure directly. The following theories are established.

That is, the amount of geomagnetism flowing from north (N) to south (S) on the present earth is about 0.5 gauss, so people must receive at least 0.5 gauss of geomagnetism to produce a voltage of 5.5V. (Reminds us that electricity is flowing in our body) The heart beats, and hemoglobin supplies nutrients and oxygen to each end of the body, and various wastes are discharged to the outside to maintain a healthy life. .

However, today's living environment greatly interferes with the natural life itself, and is exposed to air and water pollution by concrete buildings (especially underground buildings), asphalt, factories, automobiles, destruction of ozone layer, and excessive exposure to various radioactive materials. Due to the living environment, the absorption of geomagnetism is only 0.25 ~ 0.3 Gauss, which is much less than 0.5 Gauss, which is an appropriate amount, and it can produce only about 3V of voltage, so metabolism is not smooth. Therefore, various diseases such as neuralgia, rheumatism, and high blood pressure Caused by. After all, this means that the supplementation or intake of hexagonal structured water is necessary, and thus, there have been many studies on this.

However, as shown in FIG. 4, the hexagonal structural member barely revealed through the above studies may form a hexagonal structural member in which the left and right balances are perfectly symmetric, that is, the left and right balances are perfectly standardized. Therefore, this is only a hypothetical theoretical formulation based on research, and the actual structure of the hexagonal ring's molecular structure is not clearly demonstrated through actual experimental data.

David Clary, a world-renowned water writer and British chemist, said at the American Physics Society that water molecules form two hydrogen atoms bonded to an oxygen atom in the middle, like a TV antenna. Have been formed, and they have reportedly combined with one another and indeed have mystical properties.

In other words, water as a liquid dissolves organic molecules and almost all substances and mixes them together to create life phenomena occurring on Earth, as well as being the only substance present in the gas, liquid and solid in the daily temperature range. The water molecules in the ice state, which are the water of, are arranged regularly, and the regularity of the arrangement is more than 10 depending on the temperature conditions of the water itself. And it is said that ice floats on water because it has a higher number than any other substance but the specific gravity of ice is smaller than that of water. It has been explained that most substances have a higher specific gravity than liquid state, whereas water has the opposite.

The problem, however, is that no one can explain the reasons for the water's waterness, nor is there a sufficient logical and consistent single theoretical explanation. Moreover, the theoretical formulation of hexagonal water is not only hypothetical, there are no objectively demonstrated examples, and even if there is a case of scientific proof under experimental hypothesis, this is to the extent that the hexagonal arrangement structure of natural water is to the end. It's nothing more than a case study. In other words, the fact that the sixth molecule is applied to natural water with a two-dimensional structure turns into a three-dimensional network structure through computer simulations. It is not the result of scientific research to create a new concept of new material by converting it into a structural member with a hexagonal ring for a long time.

On the other hand, the present invention will be focused on establishing a new water material for the first time in the world through a change in the physical properties of the water, and the motivation for the applicant to challenge the development of such a new water material is water. The peculiar nature, that is, water is a good memory material.

In other words, it is noted that water, when treated, remembers its treated process for a long time. When water is treated by external factors, the change that occurs during treatment continues for a considerable period of time. The new material was developed by paying attention to the fact that the treated water changes for a certain period of time compared to before being treated in the specific properties such as surface tension, oxygen solubility, viscosity, and active surface to the organism.

As described above, the present invention is a structural number (hereinafter referred to as 'amorphous hexagonal number' or 'amorphous hexagonal structural number'), wherein the material of water produced by the apparatus for producing hexagonal water shown in FIGS. In addition, this paper presents empirical data that this is a new material of water that has not existed on this earth so far. It is an object of the present invention to provide a structural number having an hexagonal ring of atypical shape by demonstrating it through a linear graph, etc., while demonstrating that it is a novel substance through physiological and ionic analysis.

In addition, scientific experimental data reveals that the atypical hexagonal water (a slightly asymmetric hexagonal water) formed on the basis of the above-described results is excellent in antibacterial and anti-cancer and plasmin stability. The present invention aims to provide a structured water having an atypical hexagonal ring that can facilitate metabolism in the human body through detoxification and neutralization, and can heal or prevent various diseases such as neuralgia, rheumatism and hypertension. There is a purpose.

1 is a general structural diagram of water molecules (H ₂ O)

2 is a state diagram of two water molecules (H ₂ O)

3 is a plan view showing a coupling structure of five angles

4 is a plan view showing a theoretical hexagonal coupling structure;

Fig. 5 is a tomographic analysis diagram taken through a spectrophotometer of a general natural number and a structural number having an hexagonal ring of atypical shape according to the present invention.

6 is a graph of the relationship according to the wavelength of the structural water having a hexagonal ring of the amorphous form and the natural and distilled water

Figure 7 (a) is a perspective view of a device configuration for producing a structural member having a hexagonal ring of the amorphous form

Figure 7 (b) is another device configuration for producing a structural number having a hexagonal ring of amorphous shape

FIG. 8A is an enlarged detail view of a magnet body to be installed inside the device configuration of FIG.

FIG. 8B is another enlarged detail view of the magnet body to be installed inside the device configuration of FIG.

9 is a graph of the analysis of the intrinsic properties of structural and general natural numbers having hexagonal rings of atypical shape using wavelengths of ultraviolet rays, visible rays and near infrared rays as an embodiment of the present invention.

10 is a graph of the analysis of the intrinsic properties of a structural number and a general natural number having a hexagonal ring of an amorphous form using ultraviolet wavelengths according to an embodiment of the present invention.

11 is a graph of the analysis of the intrinsic properties of a structural number and a general natural number having a hexagonal ring of an amorphous form using visible light wavelengths according to an embodiment of the present invention

12 is a graph of the characteristic analysis of a structural number and a general natural number having a hexagonal ring of atypical shape using a near infrared wavelength as an embodiment of the present invention.

13 is an enlarged detailed graph of FIG. 11 viewed from another side;

14 is a detailed graph of absorbing near infrared rays to a first general natural water (eg, volvic bottled water product) according to an embodiment of the present invention.

FIG. 15 is a detailed graph of absorbing near infrared rays in a second general natural water (eg, evian mineral water product) according to an embodiment of the present invention.

FIG. 16 is a detailed graph when near-infrared rays are absorbed by a structural member having an hexagonal ring having an amorphous shape as an embodiment of the present invention.

17 is a detailed graph for confirming the number of neutrons in the structural and distilled water having an hexagonal ring of the amorphous form

18 is a plan view of a structural member having a hexagonal ring of atypical shape;

19 is a perspective view of a bonded form of a structural member having a hexagonal ring of atypical shape;

Fig. 20A is a cell state diagram when a structural number having an hexagonal ring of atypical form is applied to normal cells, b is a stereoscopic view, and c is an enlarged cross-sectional view of a normal cell.

Fig. 21A is a cell state diagram when a structural number having an hexagonal ring of atypical form is applied to cancer cells, b is a stereoscopic view, and c is an enlarged cross-sectional view of the cancer cells.

22 is a bar graph showing the activity of the structural and general natural numbers having hexagonal rings of atypical form as experimental data for the stability of plasmin.

23 to 34 are graphs of residual activity according to measurement of absorbance of structural and general natural waters having a hexagonal ring of atypical form as experimental data for stability of plasmin.

First of all, structural water having an atypical hexagonal ring is water that has undergone certain physical property changes, unlike ordinary water, and assumes that water can be drunk freely like natural or bottled water.

In other words, all kinds of bottled water products (e.g. Evian, Vitel, Contrex, Volvik, Chantelle bottled water, etc.) that are currently on the market and structural water having an irregular hexagonal ring are clearly water. The point is that ordinary ordinary mineral water products are formed in a non-lattice structure in the form of a pentagonal water, whereas the amorphous hexagonal water according to the present invention has a hexagonal water lattice structure, and all ordinary mineral water products are anticancer, antibacterial, etc. In contrast to the effect of the hexagonal structured water according to the present invention has a significant difference that is proven to be excellent in the anti-cancer effect as well as the antibacterial effect and stability of plasmin.

Anyway, the water quality analysis of the hexagonal structured water of the present invention, which has a molecular structure of water and has a binding orbit of a form different from that of the conventional theoretical hexagonal water (a fully structured hexagonal structured water), is presented compared to general bottled water products. Let's look at it.

<Chart 2: Water Quality Analysis Table>

Ingredient Atypical Hexagon Evian Vittel Contrex Volvic Chantereine calcium 37.1 78 202 486 9.9 119 magnesium 5.3 24 36 84 6.1 28 sdium 13.1 5 3.8 9.1 9.4 7 poiarrium 2 One 3.2 5.7 2 sulfatc 15 10 306 1187 6.9 52 chlonre 3 4.5 8.6 8.4 18 fluon 1.05 0.28 0.75

When looking at the properties of the water, the hexagonal structured water of the amorphous form according to the present invention has a noticeable value of sdium (sodium) as compared to general bottled water products, whereas Contrex and Vitel bottled water products are calcium-rich water, which is particularly calcium This is good water for those who need a lot. Here, the fact that the atypical hexagonal water of the present invention is rich in sodium can be said to be very meaningful and remarkable. Because ionic drinks known as sports drinks (e.g. ghettore and pokari sweatshirts) are artificially added with sodium to increase their absorption into the human body, which in turn has been shown to enhance affinity with body fluids and thus artificially The fact that sodium is rich in pure hexagonal water, which does not add any ingredients, is due to its affinity with body fluids, which can be seen as a hexagonal structured water that has greatly enhanced its assimilation with body fluids. .

Meanwhile, from now on, the hexagonal structure number according to the present invention is different from the theoretical hexagonal number published by the World Sociological Society and the World Physics Journal. In addition, the form structure for this will be illustrated in detail.

The existing theoretical hexagonal waters that have been known so far have been focused on the structure of water molecules in the natural state, and as a result, computerized tomography shows that the left and right symmetry is a balanced hexagonal structure. It is finding out. On the contrary, the hexagonal structure water according to the present invention causes a change in physical properties of water in its natural state, and unlike the theoretical hexagonal water where the new water material structure is formed as a result of the property change, the hexagonal structure water of atypical shape, that is, It is composed of a hexagonal number in an irregular form, which is not symmetrical, and an empirical structure thereof is shown in FIGS. 5 to 16.

That is, as shown in FIG. 5, the atypical hexagonal water according to the present invention can be said to be the main feature that the molecules of water are divided.

The photographic analysis chart shown in FIG. 5 is a tomographic image of a commercial Evian bottled water product and atypical hexagonal water of the present invention, respectively, using a spectrophotometer called Les Spectrophotometre Cary 500. The Evian bottled water shown at the top of FIG. In this case, the atypical hexagonal number of the present invention shown at the bottom of FIG. 5 is mixed with a large number of atypical hexagonal numbers and a small amount of stereotypes. Shows a mixed pentagram. In other words, the case of Evian bottled water when the laser beams such as ultraviolet rays, near infrared rays, and visible rays are transmitted by using a spectrophotometer called Cary500 is a non-lattice structure. On the other hand, when the atypical hexagonal number according to the present invention is injected into the spectrophotometer (Cary 500) device and transmitted through a laser beam, the appearance is a lattice structure. Have For reference, the above-mentioned Les Spectrophotometre is a machine that transmits freely a ray of ultraviolet rays, visible rays, near infrared rays, etc. to a substance, and then analyzes the nature or form of the substance by using the wavelength appearing here. In the present invention, using the spectrophotometer Cary 100 and spectrophotometer 500 reveals that the structural analysis of the atypical hexagonal number according to the present invention. And while the spectrophotometer Cary100 reads the analytes in a graph form (linearized form), the spectrophotometer Cary500 is a far more advanced type than the Cary 100, which allows tomography of the analyte. 5 is the world's first example to demonstrate the cross-sectional analysis of the molecular structure of the atypical hexagonal number according to the present invention.

In addition, a structural member having an atypical hexagonal ring can be analyzed by using the wavelengths of ultraviolet (UV) and visible (VIS) and near infrared (NIR) spectrophotometers (LesSpectrophotometre Cary 100). Shown as That is, the general natural water contains a lot of impurities when compared to distilled water having almost no impurities at a wavelength between 3200 and 3400, whereas the amorphous hexagonal water shows almost no impurities when compared to distilled water.

For reference, the more pure the water, the better the hexagonal structure, and the more impurities, the more difficult the hexagonal structure, as shown in FIGS. It is well known that there is no impurity as much as distilled water anyway, because it hinders the structuring. Therefore, according to the experimental analysis of FIG. 6, it is understood that the amorphous hexagonal water is close to the linear structure of distilled water. In addition to this will mean that the hexagonal structure hydration is made or can be made well.

Meanwhile, the atypical hexagonal water according to the present invention is generated through the hexagonal water manufacturing apparatus developed by the present applicant.

As shown in FIGS. 7 and 8, a plurality of turn plates 5 having a through hole 2 are formed in the inner center of the case 1, and a conduit 9 in the space between the diaphragms 5 is provided. 2) The magnet body 6 is attached to the outer side, and on the opposite side of the conduit 9, two integrated induction reflecting plates 7 made of iron and a special alloy are provided side by side or faced side by side. And the method of attaching the magnet body 6 is well shown in Figs. 8 (a) and 8 (b), and even if the case 1 is removed, there is no problem in the generation of atypical hexagonal water according to the present invention, but the hexagonal structure The disadvantage of lower hydration rates remains.

As a result of a long research and analysis on what the molecular structure of the water produced by the above-described hexagonal water manufacturing apparatus scientifically and its efficacy, as shown in Figure 5, a new water material having a lattice structure of each divided form In addition, as shown in Figure 6 it will have a structure of pure water having almost no impurities.

In addition, using the spectrophotometer (Cary100) to examine the fact that atypical hexagonal water according to the present invention is a new water material that has almost no impurities compared to ordinary bottled water, and the molecular structure is large and gentle at the same time through the accompanying drawings Let's take a look at the chart. For reference, hexagonal water is generally known to have a large molecular structure and moderate orbital inclination, but it is not clear how large the molecular structure is. From this point of view, therefore, the theoretical hexagonal number, which has a regular hexagonal structure, is a mysterious substance that has not been scientifically identified (of course, it is only a scientific research work to identify the reality of the hexagonal number inherent in natural number). Is admitted). On the other hand, the atypical hexagonal water according to the present invention can be said to be a novel substance that has been demonstrated through empirical scientific data. And why the hexagonal number according to the present invention forms an atypical hexagonal shape unlike the conventional theoretical hexagonal number will be described later.

Now, let's look at another experiment to show that atypical hexagonal water has almost no impurities compared to normal bottled water.

First, commercially available first natural water (e.g. volvic mineral water products), second natural water (e.g. euian mineral water products) and atypical hexagonal water of the present invention using a spectrophotometer (Les Spectrophotometre Cary 100) UV light (350nm) And visible light (between 350 and 800 nm) and near infrared light (between 800 and 3000 nm).

Then, as shown in Figs. 9 to 12, the absorbance (or transmittance) of the first and second general natural numbers is measured, the absorbance of the measurement result is not good, the wavelength is irregular, and the molecular structure is not large. It can be seen that this shows that water contains a lot of impurities.

On the other hand, as a result of measuring the absorbance (or transmittance) of the atypical hexagonal number, it can be seen that the absorbance is good and the wavelength is made regularly, and the molecular structure is also large and the inclination trajectory is gentle. It can be seen that the content of is extremely low compared to the general bottled water.

Differences in the molecular size of the atypical hexagonal water and the general bottled water and the content of impurities in accordance with the present invention can be seen through FIGS. 13 to 16. FIG. 13 shows a detailed graph when absorbing visible light in the wavelength range of 700 to 800 nm through a spectrophotometer (Cary100). Here, it can be seen that the atypical hexagonal water absorbance is higher than that of Evian and Volvic bottled water. . That is, Volvic bottled water has absorbance of about 0.008, Evian bottled water has absorbance of about 0.010, and atypical hexagonal water has absorbance of about 0.012, respectively. Not having it means that the hexagonal structure hydration rate is high.

FIG. 14 is a detailed graph of absorbing near infrared rays in a wavelength range of 2000 nm to 2500 nm in a first natural water (eg, volvic bottled water), and FIG. 15 is a wavelength range of 1900 nm to 2500 nm in a second natural water (eg, evian bottled water). Is a detailed graph when absorbing near infrared rays, and FIG. 16 shows a detailed graph when absorbing near infrared rays in a wavelength range of 2000 to 2500 nm in an amorphous hexagonal number.

Therefore, even here, the wavelengths of Volvik and Evian bottled water products are very small, whereas the wavelength width of the atypical hexagonal water is enormously larger than that of the bottled water products, and thus the water molecular sizes thereof are different.

On the other hand, the reason why the atypical hexagonal structure according to the present invention does not constitute a perfect hexagonal structure will be described based on the scientific data.

As mentioned above, although academic researches are being actively conducted to determine the hexagonal number in the natural state, it has been previously announced that such hexagonal number is not only a hexagonal number of a new material concept but also a theoretically established theoretical hexagonal number. On the other hand, the atypical hexagonal water according to the present invention is a water of a new material concept generated by the applicant's hexagonal water manufacturing apparatus, and the structure of the atypical hexagonal water which has these properties changes as its own property has a perfect hexagonal structure. The fact that it is not a number has been described with reference to FIG. 5 and the like, but can be explained by the following example. That is, the molecular structure of water is combined with the oxygen atom of -ion and the hydrogen atom of + ion. Based on the ion analysis, it can be seen that the hexagonal water according to the present invention is formed in an amorphous form. First, the results of the ion analysis of the atypical hexagonal water of the present invention at the Paris Institute for Water Quality Management in France are presented in the following chart.

<Table 3: Electronic Currency Volume by Thousand Per Liter of Atypical Hexagons>

cation (acidic) at mg / l Anion (alkaline) at mg / l calcium 1.86 T.A.C (titration of complete alkali determination) 2.50 magnesium 0.44 chloride 0.08 salt 0.57 sulfide 0.31 Potassium (potassium) 0.05 nitrate 0.03 Other cations 0.01 Another anion 0.00 Total 2.93 Total 2.92

As a result of measuring the amount of electronic currency per liter (ℓ) equivalent to the atypical hexagonal water according to the present invention, as shown in Table 3, in the case of cations, calcium 1.86mg / 1, magnesium 0.44mg / 1, sodium 0.57mg / 1, A total of 2.93 mg / 1 cations are detected from the numerical detection of potassium 0.05 mg / 1 and other cations 0.01 mg / 1, in the case of anions, TAC (titration of full alkalinity) 2.50 mg / 1, chloride 0.31 mg / 1, An anion of 2.92 mg / 1 in total was detected from the detection of nitrate 0.03 mg / 1 and the other anion 0.00, indicating that the atypical hexagonal number is not a perfectly standard hexagonal number, but an atypical hexagonal number with a slightly inclined left and right balance. This is demonstrated by the scientific data in Table 3. The imperfect balance of acidic and alkaline anions, shown in Table 3, also means that the atypical hexagonal water itself is closer to neutralized water, which is the water that the body fluids most want to bond to.

In addition, experiments were conducted to determine the number of neutrons contained in atypical hexagonal water.

As shown in FIG. 17, a neutron is obtained through neutron diffraction between atypical hexagonal water and distilled water according to the present invention, with neutron counts on the X-axis and megavolts (E = mev) on the Y-axis, respectively. As a result of numerical verification experiments, it can be seen that almost identical result graphs are shown. Therefore, even if the superior performance of atypical hexagonal water is aside, the water molecular structure of the atypical hexagonal water is proved to be remarkably different from that of general natural water.

On the other hand, on the basis of the description so far, the schematic structure of the atypical hexagonal water according to the present invention is as follows. As shown in Figs. 18 and 19, the non-symmetrical structural numbers, which are not completely symmetrical, are fixed in a substantially hexagonal form, and the state in which the hexagonal structure is changed continues and there is almost no impurities. In the hexagonal ring structure of water molecules are holding hands together, this is a group of water (cluster) will be said to form a cluster.

And the physiological and chemical analysis elements and results of the atypical hexagonal water of the present invention is configured as follows.

Figure 4: Physiological and Chemical Analysis of Atypical Hexagons

variable unit shame Turbidity N.T.C 0.1 PH at 20 ° C pH 7.15 Conductivity (20 ° C room temperature) micro S / cm (10 ⁶ sec / cm) 246 Conductivity of 25 ℃ micro S / cm (10 ⁶ sec / cm) 275 T, H (titration during water quality test) degre 'F 11.7 T.A.C (titration of full alkalinity) degre` F 12.5 Bicarbonate percarbonate mg / l HCO ₃ 152 Oxidative power (mild acid) mg / l (O ₂ ) 0.35 Drying residue at 180 ° C mg / l 175 silice (silicon) mg / l (SIO ₂ ) 25.5 Calcium (potassium: K) mg / l 37.1 Magnesium (Mg) mg / l 5.3 Sodium (Sodium: Na) mg / l 13.1 Potassium (K) mg / l 2 Ammonia (NH ₄ ) mg / l <0.1 chloride mg / l 3 sulfide mg / l 15 Nitrate (NO ₃ ) mg / l <2 Nitrite (NO ₂ ) mg / l <0.05 Fluorine (F) mg / l 1.05 Phosphate (PO ₄ ) mg / l <0.1 Aluminum (Al) micro g / l (10 ⁶ g) <10 Full iron micro g / l (10 ⁶ g) 20 Manganese (Mu) micro g / l (10 ⁶ g) 2 Copper (Cu) micro g / l (10 ⁶ g) <2 Zinc (Zn) micro g / l (10 ⁶ g) 10

(Source: Marie de Paris, Environmental Health Institute, Paris City Hall, France)

As shown in Table 4, the amorphous hexagonal water according to the present invention has a turbidity of 0.1 NTC, a hydrogen ion index (pH) at 20 ° C of 7.15 pH, and a conductivity of 246 mirco S / m at room temperature of 25 ° C and 25 ° C. The conductivity at is 275 mirco S / m, the water quality (TH) is measured at 11.7 degre'F, the full alkalinity titration (TAC) is 12.5 degreF, the bicarbonate percarbonate is 152 mg / l, and the mild oxidation is 0.35 mg. It can be seen that / l, the residual amount of drying at 180 ℃ is 175 mg / l, silicon is composed of 25.5 mg / l.

In addition, calcium was measured to 37.1 mg / l, magnesium 5.3 mg / l, sodium 13.1 mg / l, potassium 2 mg / l, ammonia <0.1 mg / l.

Chloride consists of 3 mg / l, sulfide 15 mg / l, nitrate <2 mg / l, nitrite <0.05 mg / l, fluorine 1.05 mg / l and phosphate <0.1 mg / l This was measured.

Aluminum consists of <10 mirco g / l, total iron 20 mirco g / l, manganese 2 mirco g / l, copper <2 mirco g / l and zinc 10 mirco g / l.

However, I would like to emphasize in this passage that the numerical values of the variables mentioned above are not completely fixed, but there may be some fluctuations centered on the values in Table 4, even if there are fluctuations. In other words, it will develop in a positive numerical direction. For example, the pH at 20 ° C is 7.15, but as the temperature gradually increases, the pH index will approach 7, and when the body temperature reaches 37.5 ° C, the pH index will be close to 7, which is the conductivity of Figure 4. The conductivity at 25 ° C is 275 micro s / m, while the conductivity at 20 ° C is 246 micro S / cm. As a result, in the case of hexagonal water having a very high intimacy with body fluid, as the temperature rises by body temperature, the characteristics of hexagonal water are stronger. It can be manifested in positive numbers.

Another important thing to note in Table 4 is the constituent values of sodium, potassium, magnesium, etc. in addition to the pH index and conductivity, and in particular, in the case of sodium, the difference is significantly different from the values contained in general bottled water as described above. This is illustrated from another perspective as follows.

Because atypical hexagonal water is a highly soluble substance that washes away dirt in vivo, it must be a transport material that can effectively release the dirt (such as cell waste and debris) that is a result of biological activity. Although it is a substance, in addition to this function, it is necessary to convert it into a substance having affinity that can be immediately put where it is needed by the human body. The necessary component is sodium, etc. In addition to enhancing the affinity of this, it can be said that the absorption rate to the human body is very fast and effective response is possible.

In any case, the atypical hexagonal water according to the present invention may be referred to as a novel substance having an excellent solubility in water but having a degree of affinity with the human body at least several times faster than general bottled water. In particular, the atypical hexagonal water according to the present invention is shown in FIGS. It can be said that the material of the new concept that acts as an entity having a very large molecular structure while maintaining the influence of the energy generated by the hexagonal water production apparatus of FIG. 8 for a relatively long time. have.

From now on, the action and effect on the atypical hexagonal water of the present invention will be described as the following examples.

EXAMPLE

A. Example Bacterial Analysis of Atypical Hexagon

As a result of examining the bacteria of atypical hexagonal water contained in one bottle (n。1), it was shown in Table 5.

Table 5: Bacterial Analysis of Atypical Hexagonism I

Germ Variable / Unit Measurement result Total coliformes N / 100ml 0 Heat-resistant E. coli N / 100ml 0 Sympathy Streptocoques fecaux N / 100ml 0 Sulfur Reducing Bacteria (Spores) N / 20ml 0 Number of aerobic bacteria Aerobic bacteria (37 ℃) N / 1ml 42 Aerobic bacteria (22 ℃) N / 1ml 450

(Source: Marie de Paris, Institute of Environmental Health, Paris City Hall, France)

As shown in Table 5, in the first embodiment that examined the bacterial relationship of atypical hexagonal water produced by the hexagonal water producing apparatus developed by the applicant, there was no comprehensive E. coli and heat-resistant E. coli, and the Lactobacillus strain and the yellow reducing bacteria No spores were present, but the number of aerobic bacteria was 450 at 22 ° C and 42 aerobic bacteria at 37 ° C. In other words, when the temperature was raised from 22 ° C to 37 ° C, the number of aerobic bacteria present in the atypical hexagonal water itself was significantly reduced. This embodiment examined the bacterial relationship by simply raising the temperature in a short time. It was measured that the number of bacteria was decreasing.

B. Example Bacterial Analysis of Atypical Hex Number II

Following the bacteriological analysis of Table 5, the temperature of the atypical hexagonal water was again performed at 72 ° C. for 72 hours and at 24 ° C. for 37 hours at the same time.

Figure 6: Bacterial Analysis of Atypical Hexagons Table II

Germ Variable / Unit Measurement result Total coliformes N / 100ml 0 Heat-resistant E. coli N / 100ml 0 Sympathy Streptocoques fecaux N / 100ml 0 Sulfur Reducing Bacteria (Spores) N / 20ml 0 Number of aerobic bacteria 24 hours at 37 ° c N / 100ml 0 72 hours at 20 ° c N / 100ml 1150

(Source: Marie de Paris, Institute of Environmental Health, Paris City Hall, France)

As shown in Table 6, the general E. coli, heat-resistant E. coli, Lactobacillus strains, and yellow reducing bacteria (spores) are the same as in Table 5, but the number of aerobic bacteria is very remarkable.

In other words, the number of aerobic bacteria present in the atypical hexagonal water of the present invention was not present after 24 hours at 37 ° C, but culture of aerobic bacteria after 72 hours at 22 ° C This was 2.5 times better.

C. Examples of Antimicrobial Effects

Based on the bacteriological analysis examples I and II described above, the antimicrobial effect of atypical hexagonal water will be analyzed.

As the atypical hexagonal water of the present invention is hexagonal water, the ions dissolved in water act and these ions are closely related to living cells. In the human body, about 0.5 Gauss of magnetic flux and about 5.5V voltage are flowing, and a strong electric field is formed at the molecular level around ions dissolved in water. Therefore, there are water in the structural state that is well-matched with the molecules constituting the living cell, and water in the structural state that is not well-matched. Basically, water that is well-matched with the biomolecule can be called hexagonal water. It belongs to one of these categories. In other words, even atypical hexagonal numbers such as living cells and reporters and voltage volts are being rotated without any problems. As a result, when the temperature of the atypical hexagonal water itself is low, there is a place where the aerobic bacteria can be cultured as well as the natural water, but when the temperature of the atypical hexagonal water reaches 37 ° C, which is the same as that of the living cells, the immune function (ie, antibacterial) Function) is believed to act to sterilize bacteria.

On the other hand, the feature of the biological function is to protect the function of the whole body by functioning in a certain range of conditions even if there is a stimulus such as temperature change from the outside. In keeping with this function, that is, homeostasis, water inside and outside the cell has a regular structure, which serves to protect living cells from various stimuli and disturbances. Here, the necessary water condition is that water having a low degree of freedom of water molecules is difficult to work and water having large power energy, and a large capacity of molecular energy, and the like. Atypical hexagonal water is also known to have the ability to fight or put pressure on a variety of viral bacteria.

In addition, the antibacterial ability of atypical hexagonal water can be explained from the following viewpoints. In other words, atypical hexagonal water of about 20 ° C is a hexagonal ring of structural numbers with a hexagonal ring but less active in the molecular orbit, and flows in the human body even if an electric field is formed on the inner and outer walls of the molecular orbit. The magnetic field of 0.5 gauss and the voltage of the voltage of around 5.5V are not being properly exhibited. On the other hand, as the temperature gradually increases, the momentum of the molecules increases, so the magnetic field and voltage intensity gradually find their shape. Beginning by killing bacteria or severely reducing their activity by killing or vitalizing bacteria by virtue of strong magnetic force and voltage, the bacteria around normal cells (living cells) Is to do.

The reason that the atypical hexagonal water has an affinity with normal cells is that the molecular structure of the body fluid surrounding the inner and outer walls of the normal cell and the atypical hexagonal water molecule are extremely identical.

In addition, the antimicrobial effects of atypical hexagonal water have already been revealed in Tables 5 and 6, but the results of the bacteriological analysis carried out twice in Tables 5 and 6 are extracted and rearranged as follows.

Figure 7: Experimental Chart of Aerobic Bacteria

First measurement (the number of aerobic bacteria in table 5) Secondary measurement (the number of aerobic bacteria in Table 6) Temperature Quantity (1) Aerobic bacteria Temperature Quantity (1) time Aerobic bacteria 37。c 1ml 42 37。c 1ml After 24 hours 0 22。c 1ml 450 20。c 1ml After 72 hours 1150

As shown above, the aerobic bacteria, which existed 450 at 22 ° C in the first experiment, increased to 1150 in the second experiment after 72 hours. Therefore, the atypical hexagonal water according to the present invention has been demonstrated to have no antimicrobial effect as a hexagonal water around 22 ° c, unlike the theoretical hexagonal water function discussed in the academic field. In other words, theoretical antibacterial effect of hexagonal water is assumed to be constant, but atypical hexagonal water according to the present invention has the same function as normal bottled water rather than hexagonal water around 22 ℃, that is, aerobic bacteria in water increases as time goes by. When the temperature of atypical hexagonal water reaches about 37 ℃, the number of aerobic bacteria is reduced to 42 as shown in the first measurement, and the number of aerobic bacteria has disappeared in the second measurement after 24 hours. It is believed that the antimicrobial effect acts as a.

d. Example of anticancer effect

The reason why the A431 cancer cell experiment was performed with the atypical hexagonal water according to the present invention was as follows in the example of the antimicrobial effect at 22 ° C as a result of testing the water quality and bacterial bacteria of the atypical hexagonal water in MAIRIE DE PARIS (Direction de protection de I 'Environnement). The second experiment was carried out to answer the question of 42 bacteria at 450 ° C and 37 ° C. After 72 hours at 20 ° C, 1150 animals at 24 ° C and 24 hours at 37 ° C. This was because 0 bacteria were detected. The bacteria used in this experiment are bacteria that breed in oxygen and water, although in normal water, bacteria at 37 ° C, similar to body temperature, should be detected at or near 20% of the number of bacteria detected. In the amorphous hexagonal water, very little or no bacteria were detected at 37 ° C.

The scientific question that began here came to this experiment with the possibility that the atypical hexagonal water can kill cancer cells in the human body at around 37 ° C. As a result, the surprising scientific fact that the atypical hexagonal water of the present invention that humans can safely drink kills the cancer cells. Proved.

And the anticancer effect experiment was carried out as follows.

After adding cancer-causing substances to A431 cells mainly found in breast cancer and uterine cancer, and culturing for 24 hours using atypical hexagonal water and conventional culture, growth inhibition of A431 cancer cells occurred about 20%.

On the other hand, after incubation for 24 hours using atypical hexagonal water and conventional culture medium without introducing cancer-causing substances into A431 cancer cells, A431 cells had no effect on growth, but showed an inhibitory function on activated cancer cells. The explanation is as follows.

Experiment 1: Change A431 cells into active cancer cells by adding EGF substance to A431 cells into cancer cells, and then culture medium containing 500 ml of amorphous hexagonal water per 1 g of culture powder was added to A431 cancer cells transformed into active cancer cells for about 24 hours. As a result of culturing, the growth of about 20% was inhibited or cancer cells died compared to the existing culture.

Experiment 2: By not adding EGF material to A431 cells, A431 cells were present as inactive cancer cells, and cultured for about 24 hours by adding a culture solution containing 500 ml of amorphous hexagonal water per 1g of culture powder. It was found that inactive cancer cells of A431 grew normally, and incubated for about 24 hours by injecting the culture medium into the inactive cancer cells of A431 instead of the culture medium containing the atypical hexagonal water. It was found to grow.

The clear results obtained in the first and second experiments of the anticancer effect indicate that atypical hexagonal cells act on active cancer cells to inhibit the growth of active cancer cells, but atypical hexagonal numbers have no effect on normal or inactive cancer cells. It is a fact that is notable, which is very noteworthy. Because atypical hexagonal water inhibits growth not only in normal cells but also in cells that are not active as cancer cells, because it can be seen as a dangerous substance beyond the function of water.

At any rate, atypical hexagonal water surrounds the outer surface of activated cancer cells and then attacks the cancer cells through ionic action dissolved in atypical hexagonal water, and at the same time, effectively disturbs or blocks information and nutritional pathways through the battlefield. On the contrary, for affinity of normal cells or inactive cells, the affinity of these cells can be used to promote affinity.

In the case of normal cells, as shown in FIG. 20, hexagonal structured water (body fluid) is densely attached to the outer surface of the cell membrane of normal cells, and thus normal cells are not affected by external disturbance. However, the water on the outer surface of the cancer cell is composed of water (the more active water) having a lower degree of hexagonal structure and a higher degree of freedom of water molecules than the water on the normal cell, as shown in FIG. 21. It is not disturbed. In other words, the hexagonal structure water in the cell acts in the direction of maintaining normal physiological activity of normal cells, on the contrary, water having a low degree of hexagonal structuring acts in a direction that disrupts or lowers the physiological activity of the cell. Therefore, breast cancer may be caused by a factor that destroys the structure of water in the cell due to some cause. Therefore, the activity of the cancer cells must be controlled through the supplementation of hexagonal structured water. Will do. This, after all, by supplementing the large amount of atypical hexagonal water according to the present invention it will be necessary to completely wrap the outer surface of various cancer cells that may occur every day to inhibit the growth of cancer cells.

e. Example for Stability Test of Plasmin

Plasmin is a thrombolytic enzyme present in the blood, which is composed of proteins and functions to decompose blood clots.

The stability of plasmin is an experiment that examines how long the intrinsic function of plasma can be maintained.

One of the leading causes of death in modern people is cardiovascular disease, which includes coronary artery thrombosis, which causes myocardial infarction, and cardiovascular thrombosis that causes strokes such as stroke, and pulmonary embolism. venous thrombosis that causes pulmonary embolism.

And the human body is always kept constant by the various components of the blood, but if any blood vessel damage caused by any factor bleeding occurs as a physiological defense mechanism within the blood vessels to prevent the loss of blood.

This hemostatic response is regulated by the activation of successive coagulation factors through the coagulation pathway. Finally, activated thrombin is produced to convert fibrinogen, a plasma protein, into fibrin polymer. The fibrin produced plays an important role in blood coagulation and is the basis of blood clots.

In addition, when the hemostasis process is completed and blood vessel tissue is regenerated, the formed blood clots are dissolved by thrombolytic enzymes, but when the generated blood clots are excessively accumulated in the body or the mechanism of thrombolysis does not work smoothly, thrombosis It can cause fatal damage to the human body.

In other words, the fibrin polymer is dissolved by a substance called plasmin, which is usually present in the form of a zymogem called plasminogen, and when decomposed by plasminogen activity. It turns into an active form in the fibrinolytic activity (fibrinolytic activity).

This fibrin breakdown system is a kind of protective function against the deposition of fibrin in the blood vessels, thereby protecting the living body from blood clots.

In this embodiment, the biological plasmin, which has a function of thrombolytic function, is acted in the atypical hexagonal water and general natural water of the present invention (selected Evian bottled water product as the target water of the contrast), respectively, to determine its structural and functional stability. Comparison was made using plasmin activity assay.

That is, the plasminogen activator, which is added when plasminogen activity is injected into the blood, creates plasmin while cutting the plasminogen, and the plasmin decomposes blood clots again.

Here, plasmin, which is present only in the blood, does not exist for a long time (plasmin nogen also has vitality of about 20 to 40 minutes) and lasts about 2 to 9 minutes.

At this time, the body fluid is present in the blood in which the plasmin is located, and the bodily fluid acts as plasmin, and the plasmin acts to effectively decompose the blood clot while continuing in the blood for a long time. As follows.

First, enzyme activity was measured using N-p-Tosyl-Gly-Lys-P-nitroanilide, which is a substrate for plasmin.

In a 0.2 ml and 0.5 mM substrate solution (20 mM phosphate buffer solution, pH 7.0) and 0.18 ml 20 mM phosphate buffer solution (pH 7.0), 0.02 ml of coenzyme solution (final concentration 0.0427 unit / 0.4 ml) was added at 37 ° C. The activity was compared while reacting for about 10 minutes.

The crude enzyme solution was used by mixing the purified human plasmin solution and amorphous hexagonal water in a ratio of 1: 1 (0.1ml: 0.1ml), and were kept at room temperature (about 20 ° C) for 1 day, 2 days, and 6 days. The residual activity was measured at, and the residual activity was compared under the same conditions.

<Chart 8: Contrast chart between atypical hexagonal water and Evian bottled water>

Date Classification 0 One 2 6 12 20 25 Atypical Hexagon Number (Activity%) 100 89.46 81.50 54.33 29.27 27.17 10.3 Evian Bottled Water (Activity%) 100 85.95 69.32 32.78 0.94 0 0

Each sample prepared as described above was measured for absorbance at 405 mm, the residual activity of the plasmin was measured as in Figures 23 to 34.

That is, as shown in Figs. 23 to 34, the plasmin treated with the amorphous hexagonal structured water showed higher residual activity than the plasmin treated with the natural natural water (Evian bottled water product), especially about 1.7 times, 12 on the 6th day. On the first, an amazing result was about 31 times.

In addition, from the 20th day, in the case of the general natural water, the residual activity of 0 was found, but the amorphous hexagonal water according to the present invention was found to have 27.17% of its residual activity, and it was found that about 10.3% of the residual activity remained on the 25th day. there was.

Based on these results, it can be seen that atypical hexagonal water plays a more stable role in maintaining structure and function of plasmin in vitro than general natural water.

In addition, enzymes, which are biocatalysts, have a much better function than other catalysts, but their stability is very weak. In addition, the activity and specificity of the enzyme is based on the three-dimensional structure of the enzyme, the three-dimensional structure is often destroyed without being able to withstand the weak physical and chemical changes. Therefore, the more stable the enzyme, the more valuable it is, so it is very important to find the optimal way to stabilize the enzyme. Therefore, when looking through the above embodiment, the amorphous hexagonal water having the molecular structure most similar to the body fluid component has a specificity to ensure the stability of the plasmin while playing a greater role in the preservation and function of the biological protein gender Buddha than other natural waters. It can be said.

As described above, the present invention provides empirical data that the water material produced by the hexagonal water production apparatus is a structural water having an hexagonal ring of amorphous form and that this is a novel water material that has not existed on this earth. On the other hand, these experimental hexagonal waters show that the antibacterial, anti-cancer and plasmin efficacies are excellent in the experimental data. Provides the effect of healing or preventing various diseases such as neuralgia, rheumatism and hypertension.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (14)

A structural member having an hexagonal ring of atypical shape, characterized in that the position of each oxygen to which two hydrogens are bonded is arranged in an amorphous form, which is not completely symmetrical but slightly asymmetrical, The method of claim 1, A structural member having an atypical hexagonal ring is a lattice structure and has a hexagonal ring having an atypical shape, characterized in that the structure of each molecule is formed in an atypical form in which the molecules are broken. Structural water having a regular hexagonal ring, characterized by the presence of bacteria and sulfur-reducing bacteria (spores) of S. aureus strains as well as E. coli or heat-resistant Escherichia coli. The method of claim 3, wherein The aerobic bacteria is about 42 dogs at 37 ℃ and around, and about 450 dogs at 22 ℃ is a structural number having a hexagonal ring of the amorphous form characterized in that the presence. The method of claim 3, wherein The aerobic bacteria is a structured water having an atypical hexagonal ring, characterized in that the cultivation is better or less than 20 ℃ after 24 hours at 37 ℃. 0.1NTC turbidity, 152 mg / 1 bicarbonate percarbonate, 25.2 mg / 1 silicon, 37.1 mg / 1 calcium, 5.3, mg / 1 magnesium, 13.1 mg / 1 sodium, 2 mg / 1 potassium <0.1 Mg / 1 ammonia, 3 mg / 1 chloride, 15 mg / sulfide, <2 mg / 1 nitrate, <0.05 mg / 1 nitrite, 0.05 mg / 1 fluorine, <0.1 mg / 1 phosphate, It contains zinc at <10 mirco g / 1, and also contains hydrogen ions, conductivity and oxidative power, 11.7 degre'F water quality and 12.5 degreF TAC (full alkali titration) and 175 mg / 1 dry residue at 180 ° C. A structural number having an hexagonal ring of atypical form that exhibits a physiological chemical reaction. The method of claim 6, The hydrogen ion is measured by a hydrogen ion index (pH) of 7.15 at 20 ° C and the structural water having a hexagonal ring of the amorphous form, characterized in that the temperature is closer to pH7. The method of claim 6, The conductivity is measured at 246 mirco S / m at room temperature of 20 ℃ and measured at 275 mirco S / m at 25 ℃, structural number having a hexagonal ring of the amorphous form characterized in that the numerical value increases with increasing temperature. The method of claim 6, The oxidizing power is a structural water having a hexagonal ring of the amorphous form, characterized in that the mild oxidizing power of about 0.35mg / 1 is measured. 2.93 mg / 1 cation detected with calcium, magnesium, potassium and other cations; 2.92 mg / 1 anion detected with T.A.C (titration of complete alkali cloves), chloride, sulfide, nitrate and other anions; Structural number having a hexagonal ring of atypical shape, characterized in that consisting of the electronic currency represented by. The method of claim 10, The calcium is measured around 1.86 mg / 1, magnesium is measured around 0.44 mg / 1, the sodium is measured around 0.57 mg / 1, potassium is measured around 0.05 mg / 1, other cations 0.01 Structural water having a hexagonal ring in atypical form, characterized in that it can be measured in and around mg / 1. The method of claim 10, The TAC is measured at around 2.50 mg / 1, the chloride is measured at around 0.08 mg / 1, the sulfide is measured at around 0.31 mg / 1, the nitrate is measured at around 0.03 mg / 1, and the other anions are 0.00 mg. Structural number having a hexagonal ring of atypical shape, characterized in that it can be measured in about / 1. The method of claim 1, A structural member having an atypical hexagonal ring, wherein the structural member having an atypical hexagonal ring may have an anticancer effect of about 20%. The method of claim 1, Structural water having an atypical hexagonal ring may contribute significantly to the stability of plasmin present in the blood vessels of the human body.