JP3227469B2 - Activation method of high pressure injection type water - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention activates water by reducing the molecular population of water, for example, by pressurizing water such as tap water and jetting it from a small-diameter nozzle. It is about the method.

[Prior art] Water, which accounts for about 60% of the body weight of a human body, naturally greatly influences the state of health. However, interest in water has recently increased due to the recent health boom. Scientific evaluations have begun.

As a result, it has been proposed that water having a small water molecule population besides moderate minerals and alkalinity is water that feels good and delicious.

This is because water with a small population of water molecules absorbs quickly into the body, has high dissolving power, high permeability, and high thermal conductivity, and is therefore considered to have high physiological activity. It is said to be delicious.

Generally, water molecules cannot exist alone at normal temperature, but form a dynamic group of at least 5 molecules by hydrogen bonding. And the population is not fixed, it is constantly changing.

Table 1 shows the relationship between the water molecule population and the molecular motion velocity.
In this case, if the molecular population is small, the water as a whole has a large population of small molecules and can actively move, so that the molecular motion becomes faster. Therefore, by examining the speed of the molecular motion, the size of the water molecule population can be relatively evaluated, and a nuclear magnetic resonance apparatus (NMR) is used as a method for the evaluation.

As shown in Table 2 below, the water molecule ensemble is evaluated by NMR. Specifically, the mobility of water molecules is evaluated by measuring the spin-spin relaxation time (T ₂ ) for ¹⁷⁰ by NMR. Can,
It is usually determined by the line width proportional to the reciprocal of (T ₂ ).

Further, as a method of activating water molecules, that is, a method of reducing the water molecule population, there are the following methods, and products based on each of the methods are currently on the market.

・ Magnetic treatment ・ Electrolysis ・ Far-infrared irradiation ・ Ultrasonic vibration ・ Ceramic filter treatment ・ Hollow membrane [Problems to be solved by the invention] On the other hand, high pressure water is used for metal There is a device for cutting an individual such as. This time, when the state of the molecular group of water injected at high pressure was examined, it was recognized that a good dynamic group was formed, and the present invention was reached.

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

[Means for Solving the Problems] In the method for activating high-pressure injection water according to the present invention, water pressurized by the pressurizing unit is jetted from a small-diameter nozzle communicating with a pressurizing unit that pressurizes the water. By applying a rapid pressure change to reduce the water molecule population and activate it, the jetting is performed while collecting the jetting water for use as activation water.

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

[Action] In the present invention, in the method of activating water by reducing the molecular population of water, the water is jetted from a small-diameter nozzle communicating with a pressurizing unit that pressurizes the water. The liquid to be treated, which has been pressurized to several thousand atmospheres, passes through the nozzle, which makes it possible to easily reduce the water molecule population due to a sudden change in pressure from high pressure to normal pressure. Water that has high dissolving power, high permeability, and high thermal conductivity, that is, high physiological activity and taste is obtained.

In addition, because it is not just a small-diameter nozzle but also a collision with the wall surface, in addition to the sudden pressure change from high pressure to normal pressure, the subsequent impact pressure on the wall surface
Efficient minimization of the water molecule population is achieved. As shown in FIGS. 1 (a) and 1 (b), a device for this purpose is a device which injects a nozzle into a catcher which covers a nozzle and a bottom plate provided at a position opposite to the nozzle in a cylindrical shape. It is also possible to adopt a configuration in which the spray is simply and simply directed toward the plate facing the nozzle outlet.

[Embodiment] FIGS. 1 (a) and 1 (b) are explanatory diagrams showing the configuration of one embodiment of an apparatus for performing the present method and another embodiment. First
(A) shows a holder (2) having a nozzle connected to a conduit (1) communicating with a pressurizing unit (not shown) for pressurizing the water to be treated, and a holder (2) provided at a position facing the injection port (2). This is a device for injecting water to be treated into a catcher (5) in which a bottom plate (3) and a bottom plate (3) are covered with a tubular shape (4), and FIG. 1 (b) has a nozzle connected to a conduit (1 '). Holder (2 ')
A plate (3 ') is provided at a position facing the
The container (6) receives the jet water discharged from the container.

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

Specifically, the nozzle diameter is 0.25mm, the inner diameter of the catcher is 40.7mm, the distance from the nozzle end to the bottom plate is 270mm, 370mm,
It can be changed to three stages of 470mm. The injection water was collected 100 mm above the bottom plate of the catcher. The line width and pH change of the oxygen nucleus of the collected injection water were measured over time.

FIG. 2 is a diagram showing the change over time of the line width of oxygen nuclei of the injection water at various pressures, and FIG. 3 is a diagram showing the pH change of the injection water at various pressures.

As shown in FIG. 2, while the line width of the untreated water is 137 Hz, the value of the line width after about 6 hours from the injection is a pressure of 1000 kgf / cm.
^{At 2} the pressure was reduced to 84 Hz, and at 3000 kgf / cm ² the pressure was reduced to 57 Hz.
From this, it was confirmed that the line width was greatly reduced as the injection pressure was higher. Further, it was confirmed that the line width showed a temporal change that increased with time. On the other hand, no significant difference in line width was found for the difference in distance from the nozzle end to the bottom plate.

In addition, as shown in FIG. 3, the pH tends to increase with the injection pressure, that is, shows alkaline. Pressure 3000
At kgf / cm ² , it was confirmed that the pH of the untreated water increased to 8.9 compared to pH 7.6. Further, it was confirmed that the pH also changed with time and approached the initial value with time. On the other hand, no significant difference in pH was observed with respect to the difference in the distance from the nozzle end to the bottom plate.

Further, various tests were carried out using the jet water jetted toward the plate facing the nozzle jet port shown in FIG. 1 (b).

The specific configuration is 4m thick from a nozzle with a nozzle diameter of 0.25mm
The sprayed water was collected by spraying the SUS304 plate of m. The distance from the nozzle end to the bottom plate can be changed in four stages of 70 mm, 170 mm, 270 mm, and 370 mm. The injection water was collected from the container containing the board. The line width and pH change of the oxygen nucleus of the collected injection water were measured over time. Note that, as a comparative example, a sample subjected to ultrasonic vibration for 30 minutes was similarly measured.

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

As shown in FIG. 4, it was confirmed that the line width became smaller as the pressure was higher in the injection to the flat plate as in the injection to the catcher. In addition, it was confirmed that the line width of the injection water on the flat plate tends to increase with time. Also, as shown in FIG. 5, as in FIG. 3, the pH tends to increase with the injection pressure, that is, shows alkaline, and the pH also changes with time, approaching the initial value with time. It was confirmed that.

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

As shown in FIG. 6, the injection distance was changed to 70, 170, 270, and 370 mm, but it was confirmed that the line width tended to decrease as the injection distance increased. Also, from FIG.
Was not related to the difference in the injection distance.

The use of the product can be considered to be used for water used in the production process of beverages, foods, cosmetics, liquors and the like. It is expected that water having a small molecular population, that is, water having a high activity will promote the chemical reaction and improve the solubility of the mixture.

[Effects of the Invention] As described above, the present invention provides a method for activating water by reducing the molecular population of water, in which the water is jetted from a small-diameter nozzle communicating with a pressurizing unit that pressurizes the water. Therefore, the liquid to be treated, which has been pressurized to several thousand atmospheres in the pressurizing section, passes through the nozzle, and the water molecule population can be easily reduced by a sudden pressure change from high pressure to normal pressure. Thus, water that has high absorption in the living body, dissolving power, permeability, and thermal conductivity, that is, high physiological activity and can be tasted is obtained.

In addition, because it is not just a small-diameter nozzle but also a collision with the wall surface, in addition to the sudden pressure change from high pressure to normal pressure, the subsequent impact pressure on the wall surface
There is an effect that efficient minimization of the water molecule population is achieved.

[Brief description of the drawings]

1 (a) and 1 (b) are explanatory diagrams showing the construction of an embodiment for carrying out the present method and another embodiment, and FIG. 2 is an oxygen nucleus of water jetted into a catcher of various pressures. 3 is a diagram showing the pH change of the water jet into the catcher at various pressures, and FIG. 4 is a diagram showing the pH change of the water blast of the water jet to the flat plate at various pressures. FIG. 5 is a graph showing a change in the line width with time, FIG. 5 is a graph showing a change in the pH of the injection water to the flat plate at various pressures, and FIG. FIG. 7 is a diagram showing a difference in pH when the injection distance in flat injection is changed.

──────────────────────────────────────────────────続 き Continued on the front page (58) Fields surveyed (Int. Cl. ⁷ , DB name) C02F 1/00 A23L 2/00 B26F 3/00 JICST file (JOIS) WPI (DIALOG)

Claims (2)

(57) [Claims] A small-diameter nozzle communicating with a pressurizing unit for pressurizing water jets water pressurized by the pressurizing unit to give a rapid pressure change, thereby reducing the molecular population of water and thereby increasing the activity. And activating the high-pressure injection water while collecting the injection water for use as activation water. 2. The method for activating high-pressure jet water according to claim 1, wherein the water jetted from said small-diameter nozzle impinges on a wall surface.