JP3308616B2 - Method for ionizing mineral components from mineral-containing substances and apparatus used for the ionization - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for ionizing a mineral component and an apparatus used for the ionization. The present invention relates to a method for forming mineral ions and an apparatus used for the ionization.

2. Description of the Related Art

Conventionally, as a method of ionizing a mineral component from a mineral-containing substance, for example, in the case of silver or a silver-containing substance, a compound with an acid, ie, silver nitrate, is ionized. The unit cost is increased due to the treatment of NOx generated, and silver nitrate as a compound adversely affects human body cells, so that it cannot be used for foods and the like.

[0003]

Means for Solving the Problems Accordingly, in the present invention, a mineral-containing substance fermented by adding a koji mold and an alkyl
The organic acid solution having a hydroxyl group is mixed and stirred in a container in which an electrostatic magnetic field is formed, and the atmosphere in the container is maintained at a predetermined temperature and preferably irradiated with far-infrared rays to ionize the mineral components. The purpose of the present invention is to obtain a mineral ion which is easy to perform and does not adversely affect human body cells.

In this case, a mixture of a mineral-containing substance and an organic acid solution having an alkyl group in a container is circulated through a circulating system, or a fluid electrolytic magnetizing treatment is performed while circulating the mixture through a circulating system. It is preferable to perform a sterilization treatment and / or a sunlight irradiation treatment because ionization of mineral components can be efficiently performed.

[0005] As a specific device for ionizing mineral components in a mineral-containing substance, a koji mold is added to start the process.
For mixing the fermented mineral-containing substance and the organic acid solution having an alkyl group, for example, a porcelain container is prepared, and a number of magnets and a heater are arranged on the wall of the container. It is preferable that the stirrer fan attached to the rotating shaft of the stirring mechanism is configured to face the mixed solution in the container.

In this apparatus, a circulation system having a pump device is connected to the container so that a mixture of the mineral-containing substance and the organic acid solution having an alkyl group is fluidized and circulated. The system is configured by adding a flowing electrolytic magnetizing mechanism, a sterilizing mechanism, and / or a solar radiation mechanism.

[0007]

According to the method for ionizing a mineral component from a mineral-containing substance according to the present invention, a mineral-containing substance fermented by adding a koji mold and an organic acid solution having an alkyl group are mixed and stirred in a container. Thus, the mineral component of the mineral-containing substance is dissociated into the organic acid solution, and this dissociation is efficiently performed at a predetermined temperature, under irradiation of an electrostatic magnetic field and far-infrared rays.

[0008]

Next, a method for ionizing minerals from a mineral-containing substance according to the present invention will be described in detail below in relation to an ionization apparatus for performing the method.

1 and 2, an apparatus 10 for ionizing minerals from a mineral-containing substance according to the present invention comprises:
A porcelain container 12, for example, is provided which contains a mixture of a mineral-containing substance and an organic acid solution having an alkyl group and is formed of a material that efficiently emits far-infrared rays.

A heater 14 is provided on substantially the entire outer bottom and sides of the container 12, and a number of permanent magnets 16 are provided outside the heater 14 so that the mineral-containing material in the container 12 It is configured such that an electrostatic magnetic field is formed in a mixture with an organic acid solution having an alkyl group. Although not shown, a suitable heat insulating material is provided on the outermost side of the container 12 so that the container 12 can be maintained at a predetermined temperature.

A drive motor 18 is disposed above the open portion of the container 12, and a rotation shaft 18 of the drive motor 18 is provided.
a is extended into the container 12 at a predetermined angle and in a predetermined direction, and a stirrer fan 20 for stirring is attached to a tip end thereof. In addition, stirring members 24, 24 formed by arranging permanent magnets 22 in a cross shape are disposed on the rotating shaft 18a near the mounting position of the stirrer fan 20.

On the other hand, the vessel 12 is provided with a circulation system 28 having a pump device 26, in which a fluidized electromagnetization mechanism 30, an ultraviolet sterilizer 32, and a sunlight irradiation mechanism 34 are arranged in series. I do.

The fluidized electromagnetization mechanism 30 includes a container 36 having a predetermined shape, in which an inlet and an outlet for the mixed solution are separately opened.
And a large number of ceramic spheres 38
It is constituted by accommodating. Solar irradiation mechanism 3
Numeral 4 is provided with a large number of optical fibers 42 having a light incident portion 40 extending on the outdoor side, and the light irradiating portions 44 of the optical fibers 42 face the sunlight irradiating portions 28a formed in the circulation path 28. It constitutes by doing.

In FIG. 1, reference numeral 46 denotes a filter member provided at the mixed liquid suction portion of the circulation system 26.

Next, a procedure for dissociating calcium ions Ca ⁺ from pearl oysters, for example, using the ionization apparatus 10 according to the present invention configured as described above will be described (see FIG. 3).

First, as a raw material, a finely ground pearl oyster 48 and purified water activated water 50 are prepared in approximately equal amounts and mixed, and then 10% to 20% of koji mold 52 is added to 35 to 40 degrees Celsius. Hold and ferment for a certain period of time.

Next, the fermentation raw material 54 obtained by the pretreatment and the organic acid 56 having an alkyl group are prepared at a weight ratio of 10: 1. In this case, as the organic acid 56 having an alkyl group, for example, tartaric acid, citric acid, lactic acid, acetic acid, or the like can be suitably used.

Next, after the fermentation raw material 54 and the organic acid 56 having an alkyl group are charged into the container 12 of the ionizer 10, the drive motor 18 is started to activate the stirrer fan 20 and the stirring member composed of the cross-shaped permanent magnet. 24, 24
Is rotated at a speed of, for example, about 120 times / minute to stir and mix a mixed solution 58 of the fermentation raw material 54 and the organic acid 56 having an alkyl group. At this time, the container 12
By operating the heater 14 provided outside the container 12, the mixed liquid 58 in the container 12 is maintained at 45 to 55 degrees Celsius by utilizing the far-infrared effect radiated by the material itself of the container 12.

On the other hand, the pump device 26 is driven in synchronization with the stirring and mixing of the mixed liquid 58, and the mixed liquid 58 is supplied to the circulating system via the fluidized electromagnetization mechanism 30, the ultraviolet sterilizer 32 and the sunlight irradiation mechanism 34. By circulating slowly through the inside of the container 28 and the inside of the container 12 for a predetermined time, sterilization by the ultraviolet sterilizer 32 and acceleration of ionization of the mixed solution 58 by the sunlight irradiation mechanism 34 are performed.

The mixture 58 of the ground fermentation raw material 54 and the organic acid 56 having an alkyl group is slowly stirred in an electrostatic magnetic field and in a far-infrared irradiation atmosphere, and the circulating system 28 is caused to flow so that the electromagnetization is performed. When the treatment, the sterilization treatment, and the sunlight irradiation are performed, calcium ions in the pearl oyster (calcium carbonate) as a raw material are dissociated by the following reaction formula.

[0021]

(Equation 1)

After the calcium ions have been sufficiently dissociated in the mixed solution 58, the mixture is aged for a predetermined period, and then appropriately filtered by a filtering means to extract the pearl layer mineral extract (calcium ion water) 60. The analysis example of the mineral component (ash) in the pearl layer mineral extract obtained by this extraction is 6.5 to 7.2% by weight, and the PH is about 5.5 to 7.5.
6.0. In addition, this pearl layer mineral extract 1
Calcium as a mineral ion in 00 g was 2500 mg to 3600 mg.

Experimental Example Next, a predetermined amount of tap water (sample water A) and this tap water 5
The experimental water (treated water B) to which the above-mentioned pearl layer mineral extract was added at a ratio of 1 to 00 was applied to a nuclear magnetic resonance apparatus (NMR) at 20 ° C., and the trend of oxygen nuclei was captured as a spectrum (FIG. 4). reference).

According to this spectrum, the line width of the resonance signal is as follows.
9.9 Hz, which is as narrow as about 45.2%. The fact that the line width of the NMR spectrum signal is narrower than that of the sample water is equivalent to the fact that the viewer is watching, but the molecular motion is faster. This indicates that the hydrogen bond is broken, and the broken single group wraps around the mineral molecules (in this case, calcium ions), and indicates that the molecular group itself has become finer. The ionized calcium is present in the treated water B in which the water is subdivided.

[0025]

As described above, according to the method and apparatus for ionizing minerals from a mineral-containing substance according to the present invention, since an organic acid solution having an alkyl group is used, only water and carbon dioxide gas are used in the ionization process. It does not occur and is harmless when compared to industrial ionization, and it is easy to obtain ionized minerals without any adverse effects or irritation on human body cells. It has various advantages, such as that ionization can be achieved.

The preferred embodiment of the method and apparatus for ionizing a mineral component from a mineral-containing substance according to the present invention has been described above. However, the present invention is not limited to this embodiment. Of course, various changes can be made without departing from the spirit of the present invention.

[Brief description of the drawings]

FIG. 1 is an explanatory view of a preferred embodiment of an apparatus used when performing a method of ionizing a mineral component from a mineral-containing substance according to the present invention.

FIG. 2 is an explanatory plan view of a main part of the ionization apparatus shown in FIG. 1;

FIG. 3 is a flowchart showing a procedure when ionizing mineral components of pearl oysters by the apparatus shown in FIG. 1;

Fig. 4 Tap water (Siple water A) and experimental water (Treatment water B)
FIG. 4 is an explanatory diagram in which the trend of oxygen nuclei is captured as a spectrum by a nuclear magnetic resonance apparatus (NMR).

[Explanation of symbols]

10 ionizer, 12 containers, 1
6 permanent magnet, 18 drive motor, 20 stirrer fan, 22 permanent magnet, 24 stirring member,
26 pump device, 28 circulation system, 30 electrolytic magnetization treatment mechanism, 32 ultraviolet sterilization device, 34 sunlight irradiation mechanism 36 container, 38 ceramic sphere, 4
0 light input part, 42 optical fiber, 44 light irradiation part, 46 filter member, 48 raw material (Akoya mussel), 50 purified water activated water, 52 koji mold, 54 fermentation raw material, 56 organic acid having alkyl group, 5
8 mixture, 60 pearl layer mineral extract,

────────────────────────────────────────────────── ─── Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI C02F 1/68 520 C02F 1/68 520M 540 540B 540F 540J (56) References JP-A-2-290289 (JP, A) JP JP-A-2-222764 (JP, A) JP-A-58-128110 (JP, A) JP-A-4-45594 (JP, U) JP-A-3-86093 (JP, U) (58) Fields investigated (Int) .Cl. ⁷ , DB name) C02F 1/48 C02F 1/30-1/32 C02F 1/68

Claims (5)

(57) [Claims] 1. A mineral-containing substance fermented by adding koji mold.
A mineral-containing substance, wherein a substance and an organic acid solution having an alkyl group are mixed and stirred in a container in which an electrostatic magnetic field is formed, and the atmosphere in the container is maintained at a predetermined temperature and preferably irradiated with far-infrared rays. Of ionizing mineral components from water. 2. The method for ionizing a mineral component from a mineral-containing substance according to claim 1, comprising circulating a mixture of the mineral-containing substance and an organic acid solution having an alkyl group in a container through a circulation system. 3. The method for ionizing a mineral component from a mineral-containing substance according to claim 2, comprising performing a fluidized electromagnetization treatment, a sterilization treatment, and / or a sunlight irradiation treatment while circulating the mixture through a circulation system. 4. A method for mixing a mineral-containing substance fermented by adding a koji mold and an organic acid solution having an alkyl group,
Preferably, a container made of porcelain is provided, and a number of magnets and a heater are arranged on the wall of the container, while a stirrer fan attached to the rotating shaft of the stirring mechanism is provided with a mineral-containing substance and an alkyl group in the container. An apparatus for ionizing a mineral component from a mineral-containing substance, wherein the apparatus is exposed to a mixed solution with an organic acid solution having the following. 5. A circulation system is connected to the container, and a pump device is provided in the circulation system to flow and circulate a mixture of a mineral-containing substance and an organic acid solution having an alkyl group. The apparatus for ionizing a mineral component from a mineral-containing substance according to claim 4, wherein the circulating system is provided with a fluidized electromagnetization mechanism, a sterilization mechanism, and / or a solar irradiation mechanism.