JPH04176381A - Activating method of water in high-pressure injection type - Google Patents

Abstract

PURPOSE:To diminish the molecular mass of water and to activate water by injecting water from a small-diameter nozzle which is communicated with the pressurization part for pressurizing water and allowing the injected water to collide against a wall surface. CONSTITUTION:An equipment is constituted so that a conduit 1' is communicated with a pressurization part for pressurizing water to be treated and both a holder 2' having a nozzle connected to the conduit 1' and a plate 3' positioned oppositely thereto are provided and a vessel 6 receives the water to be treated which is injected from the nozzle of the holder 2'. The molecular mass of water is easily diminished by passing the water to be treated which is pressurized to several thousands atm in the pressurization part through the nozzle and violently changing the pressure to ordinary pressure from high pressure. Thereby water is obtained which is high in physiological activity and tastily tasted. Furthermore minimization of the molecular mass of water is efficiently achieved by the successive impact pressure on the wall surface of the plate 3' in addition to the violent change in pressure to normal pressure from high pressure.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention is characterized by: - Pressurizing water, such as tap water, and spraying it from a small diameter nozzle to reduce the molecular population of wood and activate the water. It's about how to do it.

[Conventional technology] Trees, which make up about 60% of the human body's weight, naturally have a large effect on health, but with the health boom of recent years, interest in water has increased recently, and people are increasingly interested in water that is good for health and tastes good. Scientific evaluations have begun to be conducted.

As a result, it has been proposed that water with a small water molecule population, in addition to adequate mineral content and alkalinity, is good for health and tastes better.

This is because water with a small water molecule population is absorbed quickly into the body, has high dissolving power, penetrating power, and thermal conductivity, and is therefore thought to have high physiological activity. It is said to be delicious because it absorbs into the body.

Generally, a single water molecule cannot exist at room temperature, but forms a dynamic group of at least five molecules through hydrogen bonding. Furthermore, this group is not fixed, but is constantly changing.

Table 1 shows the relationship between the water molecule population and the molecular motion speed. In this case, if the molecular population is small, the water as a whole has a large population of small molecules and can move actively, resulting in faster molecular motion. Therefore, by measuring the speed of molecular motion, it is possible to relatively evaluate the size of a water molecule population, and nuclear magnetic resonance (NMR) is used as a method for this evaluation.

As shown in Table 2 below, the method for evaluating the water molecule population using NMR is specifically the spin analysis for 170 using NMR.
Mobility of water molecules can be evaluated by measuring the spin relaxation time (T2), which is usually determined by the line width proportional to the reciprocal of (T, ).

Furthermore, as a method for activating water molecules, that is, reducing the size of a water molecule population, there are the following methods, and products based on these various methods are currently on the market.

・Magnetic treatment ・Electrolysis ・Far-infrared irradiation ・Ultrasonic excitation ・Ceramic filter treatment ・Hollow system membrane [Problem to be solved by the invention] There is a device that cuts individuals such as.

This time, when we investigated the state of the molecular population of this high-pressure water, we found that it formed a good SI-like population, leading to the present invention.

An object of the present invention is to obtain a method for activating water by reducing the molecular population of water.

[Means for Solving the Problems] In the high-pressure injection method for activating mature trees according to the present invention, in the method of activating water by reducing the molecular population of water, The water is sprayed from a nozzle.

More preferably, the water jetted from the small-diameter nozzle collides with a wall surface.

[Function] In the present invention, in the method of activating water by reducing the molecular population of water, the water is injected from a small diameter nozzle communicating with the pressurizing part that pressurizes the water. The liquid to be treated, which has been pressurized to several thousand atmospheres, passes through the nozzle, and the rapid pressure change from high pressure to normal pressure makes it possible to easily reduce the size of the water molecule population.
Water with high bioabsorption, solubility, permeability, and thermal conductivity, that is, high physiological activity and taste, can be obtained.

In addition, since the jet is not only jetted from a small-diameter nozzle but also collided with a wall, in addition to the rapid pressure change from high pressure to normal pressure, the subsequent impact pressure on the wall creates an efficient group of water molecules. Minimization will be achieved.

The device for this purpose is as shown in Fig. 1(δ)(b).
It may be a device that injects the liquid into a catcher that is made up of a cylindrical cover with a bottom plate provided opposite the nozzle injection port and the eimei injection port,
For a more convenient configuration, the light may be simply irradiated toward a plate facing the nozzle injection port.

[Example] Figures 1 (a) and 1 (b) are explanatory diagrams showing the configuration of one embodiment and another embodiment of an apparatus for carrying out the present method. 1st (
a) The figure shows a holder (2) having a nozzle connected to a conduit (1) that communicates with a pressurizing part (not shown) that pressurizes the water to be treated, and a holder (2) installed at a position opposite to the injection port (2). Bottom plate (3)
This is a device that injects water to be treated into a catcher (5) covered with a cylindrical pipe (4).
A plate (3°) is provided at a position opposite to a holder (2°) having a nozzle connected to the boulder (2'), and the container (6) receives the water jetted from the boulder (2').

By the way, various tests were conducted using water injected into the catcher shown in FIG. 1(a).

The specific configuration is a nozzle diameter of 0.25 mm and a catcher.
The inner diameter is 407I, the distance from the nozzle end to the bottom plate is 270
It can be changed to 3 levels: 111111.370111111.4mm.

The number of times the water is sprayed is 100mm from the bottom plate of the catcher.
It was the upper part. Line width of oxygen nuclei in recovered jet water and p
(Changes were measured over time.

Figure 2 is a diagram showing the change over time in the line width of oxygen nuclei in the injection water at various pressures, and Figure 3 is a graph showing the line width of the oxygen nuclei in the injection water at various pressures.
It is a line diagram showing a change.

As shown in Figure 2, the line width of untreated water is 137 It.
z, whereas the line width value after about 6 hours of injection is 84) at a pressure of 100,100 O/cm2, and a pressure of 30
At 00 Kgf/cm2, it decreased to 57 II z. From this, it was confirmed that the higher the injection pressure, the more the line width decreased. Furthermore, it was confirmed that the line width showed a sharp change over time. On the other hand, no significant difference in line width was observed with respect to the difference in distance from the nozzle end to the bottom plate.

Further, as shown in FIG. 3, the pH tends to increase depending on the injection pressure, that is, it becomes alkaline. pressure 30
At 00gf/cm', the pH of untreated water is 7.6,
It was confirmed that the number increased to 8.9. It was also confirmed that the pH also showed a change over time and approached the initial value over time. On the other hand, the distance I from the nozzle end to the bottom plate! 11
After 4 days in the evening, no significant difference in pl+ was observed.

Furthermore, various tests were conducted using jetted water that was jetted toward a plate facing the nozzle jet 010 shown in FIG. 1(b).

Specifically, water was sprayed from a nozzle with a nozzle diameter of 0.25 mm onto a 5US304 plate with a thickness of 4 mm, and the sprayed water was collected. The distance from the nozzle end to the bottom plate is 701I1m, 17
It can be changed to four levels: 0 layer m, 270 mm, and 370 mm. Sprayed water was collected from a container containing a board. The line width of oxygen nuclei and pH changes in the recovered injection water were measured over time. As a comparative example, a sample which had been subjected to ultrasonic vibration for 30 minutes was also measured in the same manner.

FIG. 4 is a diagram showing the change over time in the line width of oxygen nuclei in the injection water at various pressures, and FIG. 5 is a diagram showing the pH change in the injection water at various pressures.

As shown in FIG. 4, it was confirmed that the higher the pressure, the smaller the line width when spraying onto a flat plate, similar to when spraying onto a catcher. It was also confirmed that the line width of the water jetted onto the flat plate also tended to increase over time. Also,
As shown in Fig. 5, similarly to Fig. 3, pl+ tends to increase with injection pressure, that is, it shows alkalinity, and pl+ also shows a change over time, approaching the initial value with time. confirmed.

FIG. 6 is a diagram showing the difference in line width when the injection distance is changed, and FIG. 7 is a diagram showing the difference in pl+ when the injection distance is changed.

As shown in Figure 6, the injection distance is 70.170, 270,
370), but it was confirmed that the line width tended to decrease as the injection distance increased.

Furthermore, from FIG. 7, it was confirmed that po is not related to the difference in injection distance.

Possible uses for the product include water used in the manufacturing process of beverages, foods, cosmetics, alcoholic beverages, etc.

It is thought that water with a small molecular population, ie, water with high activity, promotes the chemical reaction, dissolves the mixture, and so on.

[Effects of the Invention] As explained above, the present invention is a method for activating water by reducing the molecular population of water, in which water is injected through a small diameter nozzle communicating with a pressurizing section that pressurizes water. Therefore, when the liquid to be treated is pressurized to several thousand atmospheres in the pressurizing section and passes through the nozzle, the water molecule population can be easily reduced by rapidly changing the pressure from high pressure to normal pressure.
■It has high bioabsorption, dissolving power, penetrating power, and thermal conductivity, which means it has high physiological activity and is delicious! 5. You can get water that you know.

In addition, since the jet is not only jetted from a small-diameter nozzle but also collided with a wall, in addition to the rapid pressure change from high pressure to normal pressure, the subsequent impact pressure on the wall creates an efficient group of water molecules. This has the effect of achieving minimization.

[Brief explanation of drawings]

Figures 1 (a) and (b) are explanatory diagrams showing the configuration of one embodiment and another embodiment of the apparatus for carrying out this method, and Figure 2 shows oxygen nuclei of water injected into the catcher at various pressures. Figure 3 is a diagram showing the change in line width over time; Figure 3 is a diagram showing changes in the pH of water injected into the catcher at various pressures; Figure 4 is a diagram showing changes in the pH of water injected into a flat plate at various pressures. A diagram showing changes in the line width of atomic nuclei over time, Figure 5 shows the p of water jetted onto a flat plate at various pressures.
A line diagram showing the H change, Figure 6 is a line diagram showing the difference in line width when the injection distance is changed in flat plate injection, and Figure 7 is a line diagram showing the difference in pH when the injection distance is changed in flat plate injection. It is a ward. Agent Patent Attorney Masatoshi Sato (CI) (1) Injection in the catcher Plane injection Fig. 2 Time H Fig. 3 Time 11 Funeral Fig. 4 Fig. 5 Injection distance m11

Claims (2)

[Claims] (1) A method for activating water by reducing the molecular population of water, which is characterized by jetting the water from a small-diameter nozzle communicating with a pressurizing section that pressurizes the water. . (2) The method for activating high-pressure water spray according to claim 1, characterized in that the water sprayed from the small-diameter nozzle is made to collide with a wall surface.