JPH06254531A - Small cluster water - Google Patents

Abstract

PURPOSE:To effectively manufacture the small cluster water which is of high water suction and discharge rate and permeability like deep-sea water by applying specific high oxygen pressure to water. CONSTITUTION:After a manufacturing process wherein dirt, bleaching powder, and harmful gold are removed by filtering water through a filter material which performs physical adsorption, the water is processed at low frequency temperature for a specific time to make clusters of the water small. Thus, the water after the preliminary process is poured in a process device 1 through an injection hole 35 and charged in the cylindrical part 25 in the main body 3. Then oxygen of >=100atm from a high pressure oxygen cylinder is pressed in through the injection hole 35 to fill the funnel-shaped part 23 in the main body 3, thereby pressing the cylindrical part 25. After the water is processed in this state, for example, 2-5 hours, the oxygen pressure is removed and a lower cap 5 is detached to take out the water. The cluster size of the water which is taken out is reduced to 30-50% of the ordinary size.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to small cluster water having extremely small clusters.

[0002]

2. Description of the Related Art The effects of water on living organisms are great. In particular, the water around 500m to 2000m below sea level
It is believed to have a good effect on life. In other words, the water below that area is kept in a very clean state by cutting harmful ultraviolet rays and cosmic rays moderately at the stage of reaching that area, and preventing contaminants from staying due to water pressure and atmospheric pressure. There is. In addition, water clusters are extremely small,
Therefore, it has a high water absorption and drainage rate and a high permeability to living things.

However, it is not easy to obtain such water deep in the seabed. Therefore, it has been attempted to obtain water close to this state by treating the water obtained on the ground. For example, impurities or harmful substances are physically adsorbed on a filter medium or the like to be removed by a method such as filtration to obtain water in a relatively clean state. Further, water is treated with far infrared rays, low frequency sound, electricity or magnetism to reduce clusters.

[0004]

However, in any of the above methods, it was not possible to obtain water with extremely small clusters such as water deep in the sea floor. Therefore, it is desired to obtain water with extremely small water absorption and drainage rate and high permeability of clusters.

Therefore, an object of the present invention is to solve the above problems and to provide small cluster water which is water having extremely small clusters.

[0006]

The small cluster water of the present invention is characterized by being produced by applying an oxygen pressure of 100 atm or more to water.

[0007]

According to the small cluster water of the present invention, when water is compressed by high pressure oxygen of 100 atm or more, the action of pressure and oxygen makes the water cluster extremely small. As a result, the water absorption and drainage rate and the permeability increase. here,
A cluster is a molecular association formed by coordinating several water molecules by hydrogen bonds. And small cluster water means water with many clusters having a small number of molecules.
A cluster with a small number of molecules has a very small diameter, so that movement becomes active, and the water absorption / drainage rate and permeability are improved. There are still many unclear points about how high-pressure oxygen acts on water, but the high-pressure oxygen energy probably has a large effect on water clusters and water molecules, resulting in extremely small water clusters. It is considered as something.

[0008]

Preferred embodiments of the present invention will be described below in order to further clarify the constitution and operation of the present invention described above. [Embodiment 1] FIG. 1 shows a water treatment apparatus 1 of this embodiment.
The water treatment device 1 includes a cylindrical body 3 and a lower cap 5
And an upper cap 7. On the bottom surface 9 of the main body 3,
A substantially columnar convex portion 13 having a disc-shaped portion 11 at the tip is formed. The disk-shaped portion 11 includes the upper surface 15 to the lower surface 1
Several bolt holes 19 are formed through to 7.
Further, the inner wall 21 of the main body 3 is formed with a funnel-shaped portion 23 on the upper portion and a cylindrical portion 25 on the lower portion.
Penetrates to the lower surface 17 of the disk-shaped portion 11 of the convex portion 13.

The lower cap 5 has a disk shape having the same diameter as that of the disk-shaped portion 11, and has several bolt holes 31 penetrating from its upper surface 27 to its lower surface 29. The lower cap 5 is fixed to the convex portion 13 of the main body 3 by connecting the bolt hole 31 and the bolt hole 19 of the disc-shaped portion 11 of the main body 3 and fixing them with the bolt 33.
5 is hermetically sealed. In addition, a circular O
The ring hole 23 is provided, and the convex portion 11 of the main body 3 is provided.
The gap between and is sealed.

The upper cap 7 has a flat cylindrical shape and closes the upper surface of the main body 3. In the center, a thin cylindrical injection port 35 is penetrated from the upper surface 37 to the lower surface 39, and water and oxygen are injected from here. Next, an operation procedure of the water treatment device 1 of this embodiment will be described.

First, water is prepared which has been purified so that the clusters are somewhat smaller. A method of purifying water to reduce clusters may be any conventionally known method, but in this example, the following procedure was performed. 1. Purification of water By passing it through a filter material that physically absorbs, dirt, chlorine, chlorine, and other harmful bacteria were removed.

2. Make water cluster small 1 to 3 hours with low frequency sound of 210hz to 260hz,
The water cluster was made smaller by treating the water. The treatment with low-frequency sound is preferable because it is possible to reduce the cluster as a whole in contrast to electrolysis with low-frequency current, which is highly effective in decomposing part.

Further, if desired, various minerals suitable for the beverage may be added here, and a far-infrared emitting ceramic containing the mineral may be added for this purpose. Didn't do it. Next, water clusters are made extremely small by the water treatment device 1 of the present embodiment.

First, the water treated as described above is injected into the water treatment device 1 through the injection port 35. Then, the cylindrical portion 25 in the main body 3 is filled. Then, 100 atm to 150 atm of oxygen is injected from the injection port 35 from a high pressure oxygen cylinder (not shown). Then, the funnel-shaped portion 23 in the main body 3
The inside is filled with high-pressure oxygen and presses the cylindrical portion 25.
The reason is not clear, but here 100atm-150a
The oxygen injected at tm acts better on the water by the funnel-shaped part 23. After treating for 2 to 5 hours in this state, the oxygen pressure is removed, the lower cap 5 is removed,
Take out the water. If the lower cap 5 is provided with a drain port that can be opened and closed by a valve, water can be easily taken out from the drain port without removing the lower cap 5.

As described above, the water treated by the water treatment apparatus 1 of this embodiment has extremely small clusters due to high-pressure oxygen, and has a normal size of 30% to 50%. This was confirmed by nuclear magnetic resonance (NMR) spectroscopy. That is, the NMR of the water before the treatment and the water treated by the present example were measured at the Aichi Prefectural Food Industry Technology Center (5 Shokugi No. 1-134, 1-133).
No.), and compared the results. Figure 2 shows the NM of water before treatment
R, FIG. 3 shows the NMR results of water according to this example, and FIG. 4 shows the NMR results of water after 7 days from the treatment according to this example. The line width of water before treatment is about 126 to 127 hz (Fig. 2)
On the other hand, according to the water treated in this example, the line width is 58 to 59 hz (FIG. 3), which is less than half. It is known that when the water cluster becomes smaller, the molecular motion becomes more active, and the line width of NMR becomes narrower. Therefore, the water of this example has extremely smaller clusters than the water before the treatment. It is clear that Moreover, as is clear from FIG. 4 showing the NMR of water after 7 days from the treatment, the water of this example does not change with time.
This is remarkable because in conventional methods for reducing water, water clusters often grow with time after treatment.

Therefore, the water absorption and drainage rate and the permeability are good, and various excellent actions are exhibited. Further, due to high-pressure oxygen, oxygen is dissolved in water in a saturated state, so that it has a sterilizing effect on Escherichia coli and the like. When this was confirmed by the qualitative test (5 food techniques No. 1-59) at the Aichi Prefectural Food Technology Center,
The viable cell count was 0 / g and the coliform group was negative. Therefore, the growth of bacteria is prevented and the life of water is extended.

Further, when a quantitative test for various impurities and contained minerals (5 foods No. 1-58, No. 1-60) was conducted at the Aichi Prefectural Food Technology Center, 0 mg / l nitrate nitrogen was obtained. , Nitrite nitrogen 0mg / l, chloride ion 4
mg / l, potassium permanganate consumption 1 mg / l, evaporation residue 1 mg / l, copper, manganese, zinc, lead, hexavalent chromium, cadmium and arsenic 0.00 mg / l, compared with tap water standards Also showed very good results. Furthermore, regarding minerals, iron 0.01 mg / l, calcium 0.31 mg / l and magnesium 0.04 mg / l
1 was found to be contained. And the pH is
It is neutral from 6.5 to 7.0, and since it is soft water, it can be advantageously used in any application without causing any adverse reaction.

According to the water treatment apparatus 1 of this embodiment, the water cluster is artificially made extremely small.
Equivalent water can be obtained with good reproducibility. As described above, the water treated in this example is drinking water, processed water for drinking,
It can be used in various fields such as foods, cosmetics, pharmaceuticals, and industrial fields, and can obtain extremely good effects.

That is, drinking water is delicious because the water clusters are extremely small, and because it has good permeability, it is rapidly absorbed and discharged into every corner of the body, which is good for health.
Of course, it has the same effect on living things and plants.
When used for processing beverages such as alcoholic beverages (sake, whiskey, etc.), drinks, soy sauce, etc., it enhances the taste and enhances the umami. Furthermore, since the clusters are extremely small and activated, the reaction is enhanced in the production of alcoholic beverages, soy sauce, etc., and the production period is shortened. When used for ice cream and ice candy, the cluster density is extremely small, so that the crystal density is high, and a delicious product with a pleasant texture is obtained. In addition, when tea is added, the components of the tea can be quickly extracted due to its good permeability, and the tea leaves can be reduced. Furthermore, when used in food, it is delicious and sterilized as described above, so that the lotion that makes the food less perishable is well absorbed by the skin due to its good water penetration, and , Its efficacy is high because it penetrates the active ingredient into cells well.

Since the active ingredient of a drug penetrates into the body quickly and efficiently, it is effective and can be treated with a smaller amount or a weaker drug. Furthermore, in the industrial use, for example, in cleaning precision machines such as IC circuits, impurities can be easily dissolved and removed cleanly.

In the above embodiment, the water was purified and the clusters were reduced in size to some extent in advance, but if the water was clean, the water was treated as it was in the water treatment apparatus 1 of the present embodiment to obtain the clusters. Can be extremely small. [Example 2] In this example, as commercially available water, π water (which is said to be derived from a divalent and trivalent iron salt) which is generally commercially available was used, and the same as the above example. Was processed. Then, the NMR of the treated water and the water diluted 1000 times with tap water was measured at the Aichi Prefectural Food Technology Center (5 foods No. 1-13).
No. 4, 1-133).

FIG. 5 shows the NMR of the water after treatment, and FIG.
NMR of water after day, NM of water diluted 1000 times in FIG.
R and FIG. 8 show the results of NMR of water after 7 days. As is clear from FIGS. 5 and 6, it is clear that the NMR line widths are all narrow at 87 to 88 hz, the water clusters are made extremely small as in Example 1, and there is no change with time. .

Then, surprisingly, as shown in FIG. 7, the water treated in the present example was treated with tap water to 1000
The double-diluted water has a line width as narrow as about 70 hz, that is, a cluster of water is smaller than that of the water only treated in this example. And, even after 7 days,
As shown in, the line width is about 72 to 73 hz, and this state is maintained. It has not yet been clarified by what mechanism causes the phenomenon that the water cluster becomes smaller by diluting with tap water (at least it does not change even if diluted with tap water), but it has not been clarified experimentally. This is a confirmed fact. Probably, it is caused by the interaction between the structure of π-water and the processing according to the present embodiment.

The embodiment of the present invention has been described above.
The present invention is not limited to these examples, and it goes without saying that the present invention can be implemented in various modes without departing from the gist of the present invention.

[0025]

As described above, according to the water treatment method of the present invention, the excellent effect that the water cluster can be made extremely small is exhibited.

[Brief description of drawings]

FIG. 1 is a schematic cross-sectional view showing a water treatment device of this embodiment.

FIG. 2 is a graph showing NMR of water before treatment.

FIG. 3 is a graph showing NMR of water treated according to the first embodiment.

FIG. 4 is a graph showing NMR of water after 7 days.

FIG. 5 is a graph showing NMR of water treated according to the second embodiment.

FIG. 6 is a graph showing NMR of water after 7 days.

FIG. 7 is a graph showing an NMR of water treated by Example 2 and diluted 1000-fold with tap water.

FIG. 8 is a graph showing NMR of water after 7 days.

[Explanation of symbols]

1 ... Water treatment device, 3 ... Main body, 5 ... Lower cap, 7 ... Upper cap, 23 ... Funnel-shaped part, 25 ... Cylindrical part, 35 ... Water And oxygen inlet.

Claims (1)

[Claims] 1. Small cluster water produced by adding oxygen pressure of 100 atm or more to water.