JP3320042B2 - Acidic water production method - 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 producing acidic water by converting tap water into acidic water by using naturally-occurring diatom or other fossil sedimentary soil without performing chemical treatment, electrolysis and the like. It is about the method.

[0002]

2. Description of the Related Art To obtain acidic water, refer to Japanese Patent Application No. 63-517.
As proposed in Japanese Patent Application No. 65 and Japanese Patent Application No. 63-49861, the inside of the electrolytic layer is divided into two chambers by a diaphragm, electrodes are provided in both chambers, and these electrodes are connected to a DC power supply to form an anode chamber. And a cathode compartment, and water containing salt (sodium chloride) is supplied to the anode compartment and the cathode compartment, and the electrolytic solution is electrolyzed to generate acidic water from the anode compartment. Was. In addition, alkaline water is generated from the cathode chamber.

[0003]

However, the above-mentioned conventional method for producing acidic water is a method for electrolyzing water, and a large amount of equipment is required to produce a large amount of acidic water by these treatments. Cost is required, a large amount of acidic water cannot be easily generated, and the oxidation-reduction potential (ORP) becomes (-) due to the reforming method of electrolyzing water, so that water as water There is a problem that the function does not work and minerals such as calcium, potassium and magnesium are insufficient.

[0004] The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide diatoms and the like that are produced naturally without performing chemical treatment, electrolysis, and the like on tap water. It is an object of the present invention to provide a method for producing acidic water which can be reformed into a large amount of acidic water at low cost by using fossil sedimentary soil.

[0005]

In order to achieve the above object, a method for producing acidic water according to the present invention is characterized in that the sealed water contains magnetically treated water consisting of tap water having magnetic lines of magnetic force. A method for producing acidic water in which a predetermined amount of fossil soil such as diatoms is charged into a water tank in a state, and the magnetically treated water is reformed into acidic water. Then, 10% of this tap water is deposited with fossil sediment such as diatoms, and the magnetic water of 6000 gauss to 10000 gauss is permeated into the tap water to produce magnetically treated water. The tap water is reformed into acidic water by stirring and circulating and irradiating the magnetically treated water with light to maintain the temperature of the magnetically treated water at 25 ° C. or higher.

Therefore, 6000 gauss to 10000 gauss
Tap water (magnetically treated water) that is magnetically permeable to Gauss's magnetic field lines,
The cluster of water molecules is small, and
When sedimentary soil of fossils such as diatoms is left in water, water will enter from the myriad of fine holes on the surface, and the sedimentary layers will peel off and water will enter the gaps Become.

Accordingly, the sedimentary soil of fossils such as diatoms comes into contact with tap water, and many of the sedimentary layers are peeled off, so that the contact area of water of the sedimentary soils of fossils such as diatoms increases. Moreover,
Tap water (magnetically treated water) that is magnetically permeable to magnetic field lines has small clusters of water molecules, and therefore has a porous structure of fossil sedimentary soil such as diatoms. It can easily penetrate into the part, elute components of fossil sediment such as diatoms, in particular, substances having hydrogen ions, sulfides, etc., and reform magnetically treated water into acidic water.

In addition, since the magnetically treated water is stirred and circulated, and the temperature of the water is maintained at 25 ° C. or higher by light irradiation, the sediment of fossils such as diatoms expands in the water, and a large number of the diatoms grow. The sedimentary layer is peeled off, the contact area of the water of the sediment of fossils such as diatoms increases, and the magnetically treated water becomes more porous in the tissue of the fossil sediments of diatoms such as diatoms This makes it easy to penetrate into parts, elute components of fossil sedimentary soil such as diatomaceous earth, in particular, substances having hydrogen ions, sulfides, etc., and can reform magnetically treated water into acidic water.

As described above, since tap water can be reformed into acidic water by using fossil sediment such as diatoms produced naturally without performing chemical treatment, electrolysis, etc. A large amount of acidic water can be produced at low cost without adverse effects.

The method for producing acidic water according to the invention of claim 2 is a method for producing acidic water according to claim 1,
A required amount of acidic water was taken out of the water tank, and the same amount of tap water as the amount of acid water taken out was replenished. By repeating this process, a large amount of acidic water was obtained.

Therefore, the water tank is replenished with the same amount of tap water as the amount of the acidic water taken out, and a large amount of the acidic water can be obtained by repeating this process, so that a large amount of the acidic water can be produced.

[0012]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a perspective view of equipment used in the method for producing acidic water according to the present invention.

In the method for producing acidic water, a closed water tank 30 shown in FIG. 1 is used. This water tank 30 is a glass container, and the reason for sealing the water tank 30 with the transparent lid 36 is that when carbon dioxide, nitrogen, and oxygen in the air are hydrated, plants may be propagated by photosynthesis. This is to prevent hydration of carbon dioxide, nitrogen, and oxygen in the air.

The water tank 30 is filled with raw water (conductivity of 100 μS / cm or more, cation of mineral component 20 mg / L or more, chloride ion 30 mg / L or more, hardness of 50 or more) as tap water. Yes, this raw water 31
Is illuminated by the illumination device 32 such that the illuminance in water is 1200 lux to 2000 lux. By this light irradiation, the temperature of the raw water is maintained at 25 ° C. or higher.

The water tank 30 is provided with a circulating stirring device 33 for raw water. The circulating stirring device 33 has a circulating stirring pump 34 composed of a submersible pump. Is connected to a pipe body 20 which is a discharge side pipe made of a magnetic material. The suction side 34 </ b> B of the circulation stirring pump 34 communicates with the inside of the water tank 30.
By operating the circulation stirring pump 34, the raw water 31 in the water tank 30 is supplied to the suction side 34 </ b> B and the circulation stirring pump 3.
4. The raw water 31 in the water tank 30 is circulated and agitated by the circulation and agitation through the pipe 20 which is the discharge side pipe, and a flow of 2 to 3 m per second is generated in the raw water 31 in the water tank 30.

The raw water 31 in the liquid tank 30 contains 10% of natural fossil earth G of the raw water 31.
The fossil soil G is a solidified sediment of diatom fossils and a solidified sediment of blue-green algae fossils. These fossil sediments of diatoms and the like are hereinafter referred to as fossil earths G. I will.

Diatomaceous earth is a sedimentary soil of diatom shells,
It is a kind of algae floating in the sea and lakes. It is a single-celled plant that absorbs nutrients from water and absorbs silica to form a cell membrane. The fossil of this cell membrane is diatom shell. The fossil of this diatom shell is 1
It forms microscopic independent cells of 0 to 100 microns, and its surface is covered with countless fine pores. When the diatomaceous earth is in the ground, it becomes a rock containing a large amount of substances containing hydrogen ions, sulfides, and the like due to volcanic activity, crustal deformation, and the like.

Cyanobacteria are present in a wide variety of species, such as urea and noctuid algae, are unicellular bodies that do not move by themselves, live in free, massive, or filamentous colonies, and have no nucleus and no body. They propagate only by division. When this cyanobacterium is fossilized and is underground, it becomes a rock containing a large amount of substances containing hydrogen ions, sulfides, etc. due to volcanic activity, crustal deformation, and the like.

There are several tens of these fossil earths G in nature, of which reddish brown and gray black are used. Fossil earth G has a large number of sedimentary layers, and when this fossil earth is left in water, water will enter through numerous micropores on its surface. When peeled off, water enters the gap.

The discharge side 34A of the circulation stirring pump 34
A magnetic processing device A is mounted on a tube 20 made of a magnetic material connected to the magnetic tube. As shown in FIG. 2, the magnetic processing apparatus A includes one magnetic processing body 1 and the other magnetic processing body 2, and one magnetic processing body 1 and the other magnetic processing body 2 have the same configuration. is there.

The one magnetic processing body 1 has a box-shaped magnet holding case 3 made of an iron-based material (soft iron). The magnet holding case 3 has a bottom surface 3A, a front and rear surface 3B, 3C and left and right side portions 3D and 3E.
Further, semicircular grooves 6 are formed in the peripheral portions of the left and right surfaces 3D and 3E. A quadrangular columnar permanent magnet 7 is fixed to the inner surface of the bottom surface 3A of the magnet holding case 3,
The magnet holding case 3 is filled with a filler 8 made of a non-magnetic material such as a synthetic resin, for example, an epoxy resin. A permanent magnet 7 is exposed at the center of the filler 8. In this case, the corners of the magnet holding case 3 have a bend angle of 56 degrees or more, and are rounded without magnetic leakage.

The other magnetic processing body 2 is one magnetic processing body 1
Although the configuration is the same as that described above, different reference numerals are given for convenience of explanation.
That is, the other magnetic processing body 2 is made of an iron-based material (magnetic body).
The magnet holding case 3-1 has a bottom surface 3A-1, front and rear surfaces 3B-1, 3C-1, and a left and right surface 3D-. 1,
3E-1. The left and right sides 3D-1, 3
A semicircular groove 6-1 is formed at the periphery of E-1. Further, a quadrangular prism-shaped permanent magnet 7-1 is fixed to the inner surface of the bottom surface portion 3-1A of the magnet holding case 3-1. The magnet holding case 3-1 is made of a synthetic resin such as an epoxy resin. Is filled with the non-magnetic filler 8-1
A permanent magnet 7-1 is exposed at the center of the non-magnetic filler 8-1.

Then, the magnetic processing apparatus A configured as described above has one magnetic processing body 1 as shown in FIGS.
And the other magnetic treatment body 2 are connected to each other while sandwiching a non-magnetic tube 20 through which a fluid (raw water 31) as a treatment target flows, and attached to the tube 20.

That is, the one magnetic processing body 1 and the other magnetic processing body 2 are joined together at the joints (edges) 3a, 3a-1 of the magnet holding cases 3, 3-1. They are attracted by magnetic force. The tube 20 is
The permanent magnet 7 of one of the magnetic processing bodies 1 penetrates a circular hole which is a tube sandwiching portion J formed by the semicircular grooves 6 and 6-1.
And the permanent magnet 7-1 of the other magnetic processing body 2 are opposed to each other with the tube 20 interposed therebetween. The opposite end 7a of the permanent magnet 7 is at the south pole and the opposite end 7a- of the permanent magnet 7-1. 1 is an N pole.

In this case, the magnet holding cases 3 and 3-1 constitute a continuous frame 10, and this frame 10 forms a part of a so-called magnetic circuit. That is, the magnetic flux density is high (6000 gauss to 10000) from the facing end (S pole) 7a of the permanent magnet 7 of one magnetic processing body 1 to the facing end (N pole) 7a-1 of the permanent magnet 7-1. A Gaussian magnetic field is formed, and the lines of magnetic force F penetrate the tube 20 and the frame 10
, And a magnetic circuit converged on the permanent magnet 7 is formed. In the case of this magnetic circuit, since the corners of the magnet holding cases 3 and 3-1 are rounded at a bending angle of 56 degrees or more, there is no magnetic leakage and the coercive force is improved.

The lines of magnetic force F generated in the magnetic circuit penetrate through the tube 20 and flow through the tube 20 as raw water (objects containing various positive and negative ions and charged fine particles such as charged particles). A magnetic field perpendicular to the flow of the processing liquid 31 is formed and applied.

As described above, a so-called Lorentz force is generated by applying a magnetic field at right angles to the flow of the raw water 31 containing various positive and negative ions and charged fine particles, and water molecules are charged. Particles will cause relative motion and even collisions, the structure will change due to the magnetic decomposition of various atoms in water, the properties of the liquid will change, and the density, surface tension,
Various effects such as an increase in viscosity, dielectric constant, dissolution rate of the electrolyte, etc., or a decrease in electrical conductivity, gas solubility, etc. are brought about.

In particular, mineral components magnetically treated at 6000 gauss to 10000 gauss are arranged in such a manner that the mineral ions are arranged and the clusters of water molecules are subdivided.

As described above, 6000 gauss to 10000 gauss
The raw water (magnetically treated water) 31 permeable to Gaussian magnetic lines of force is discharged at a flow rate of 2 to 3 m / sec from the pipe 20 which is the discharge side pipe thereof by the driving of the circulation stirring pump 34, and circulates in the water tank 30. I will be.

Next, a method for producing acidic water will be described.

As described above, 6000 gauss to 10000 gauss
Raw water (magnetically treated water) 31, which is tap water having magnetic field lines of Gauss magnetic permeability, is discharged from the pipe 20 at a flow rate of 2 to 3 m / sec by driving a circulation stirring pump 34, and circulates in the water tank 30. The raw water 31 is agitated.
Within 0, it comes into contact with 10% of the natural fossil earth G of this raw water 31.

Raw water (magnetically treated water) 3 with magnetic flux passing through it
In the case of No. 1, the cluster of water molecules is small, and the raw water 31 has an illuminance of 1
Irradiation is performed to 200 to 2000 lux, and the irradiation of this light keeps the water temperature of the raw water 31 at 25 ° C. or higher, and when the fossil earth G is left in water, Water infiltrates through the myriad of fine holes, and between the deposition layers is peeled off, so that water infiltrates into the gaps.

Accordingly, the fossil earth G comes into contact with the raw water 31 and a large number of the deposited layers are peeled off. However, since the water temperature of the raw water 31 is maintained at 25 ° C. or higher, the fossil earth G expands. , Because the separation between the deposition layers is promoted,
The contact area of the fossil earth G with water increases. In addition, the raw water (magnetically treated water) 31 having the magnetic field lines permeated therein easily penetrates into the structure of the fossil earth G, for example, the porous portion of the fossil earth G because the clusters of the water molecules are small. And elutes the components of the fossil earth G, in particular, substances having hydrogen ions, sulfides and the like.

The raw water 31 treated as described above becomes strongly acidic water within two to three days. This is shown in FIG. In FIG. 6, the upper part shows the temperature (° C.), the middle part shows the temperature of the tap water put in the water tank (° C.), and the lower part shows the pH of the tap water.

At 20:00 on August 26, the water tank 30
10 liters of tap water (pH 7.15) and fossil earth G
Of 6000 gauss to 1000 g of tap water
As a result of passing the magnetic field lines of 0 gauss, the pH of the tap water became 3.38 at 9:00 on August 27, and the pH of the tap water became 3.0 or less after 17:00 on August 27.

Table 1 shows the components of acidic water when diatomaceous earth is used as the fossil earth G. As comparative examples, Table 2 shows the components of the electrolytic acid water, and Table 3 shows the components of the tap water (tap water in Tokyo).

[0038]

[Table 1]

[0039]

[Table 2]

[0040]

[Table 3]

As can be seen from the components shown in Tables 1 and 3, tap water has a pH of about 7.41. The raw water 31, which is tap water, becomes acidic water having a pH of 2.90 after the above-described steps. Become.

When the tap water (magnetically treated water) in the water tank 30 becomes acidic water having a pH of 3.0 or less, a required amount (about half of the water tank 30) of this acidic water is taken out of the water tank 30 and the dark water is removed. To save. The tank 30 from which the required amount of acidic water has been taken out is replenished with the taken-out amount of tap water.

In this state, the water tank 30 may be provided for two to three days.
Is turned into acidic water, and a required amount of this acidic water is taken out of the water tank 30 and stored in a dark place. The tank 30 from which the required amount of acidic water has been taken out is replenished with the taken-out amount of tap water.
By repeating this, a large amount of acidic water can be obtained. The replenishment of the fossil earth G is performed as the number of times of taking out the acidic water increases.

The acidic water produced in this way uses natural activities except for changing tap water to magnetic water, and is produced without adversely affecting the environment. It can be used (as for acidic hot springs, Kusatsu hot spring has a pH of about 2.3 and Tamagawa hot spring has a pH of about 1.8).

As can be seen from the components shown in Tables 1 and 2, the acidic water produced by the production method of the present invention has more mineral components than the acidic water of the electrolytic solution, and is suitable for hot spring water.

The acidic water produced by the production method of the present invention, when used as hot water for home hot spring baths, is gentle on human skin, has a sterilizing effect, has the advantage of not cooling with hot water, and has the advantages of plant diseases. For example, it can be used as a control solution for scab, viral disease, powdery mildew, ulcer disease, brown spot, erythema and leaf blight.

The acidic water produced by the production method of the present invention can be used together with the alkaline aqueous solution produced by the method of producing an alkaline aqueous solution previously proposed by the present applicant (Japanese Patent Application No. 11-173838) for soil improvement. It can be used for In addition, by alternately performing the spraying of acidic water in the air and the spraying of an alkaline aqueous solution under the ground, it is possible to promote plant growth and to achieve disease-free and harmless cultivation. Moreover, the acidic water produced by the production method of the present invention is lower in price than the electrolytic solution and the chemical pesticide.

When fossil earth G is not weathered, it can be air-dried and reused, and when fossil earth G of good quality is used, magnetically treated water is reduced to about pH2. Modification is also possible.

In the above-described embodiment, as the fossil earths G, those obtained by solidifying diatom fossil sedimentary soil and those obtained by solidifying cyanobacterial fossil sedimentary soil are used. What is necessary is just that the sediment of the algae fossil is solidified. Also, the amount of fossil earth G charged into the water tank 30 depends on the amount of the water tank 30.
Although 10% of tap water filled with water is used, it can be adjusted according to the properties of fossil earth G.

[0050]

As described above, according to the method for producing acidic water according to the present invention, tap water (magnetically treated water) having magnetic flux lines of 6000 gauss to 10000 gauss is converted to a cluster of water molecules. When the soil of fossils such as diatoms is left in water, water will infiltrate through the myriad of fine pores on its surface.
The deposition layers are peeled off, and water enters the gaps.

Therefore, the sediment of fossils such as diatoms comes into contact with tap water, and many of the sedimentary layers are peeled off, and the contact area of water of the sediments of fossils such as diatoms increases. Moreover,
Tap water (magnetically treated water) that is magnetically permeable to magnetic field lines has small clusters of water molecules, and therefore has a porous structure of fossil sedimentary soil such as diatoms. It can easily penetrate into the part, elute components of fossil sediment such as diatoms, in particular, substances having hydrogen ions, sulfides, etc., and reform magnetically treated water into acidic water.

Further, since the magnetically treated water is stirred and circulated, and the temperature of the water is maintained at 25 ° C. or higher by light irradiation, the sediment of fossils such as diatoms expands in the water, and a large number of the diatoms grow. The sedimentary layer is peeled off, the contact area of the water of the sediment of fossils such as diatoms increases, and the magnetically treated water becomes more porous in the tissue of the fossil sediments of diatoms such as diatoms This makes it easy to penetrate into parts, elute components of fossil sedimentary soil such as diatomaceous earth, in particular, substances having hydrogen ions, sulfides, etc., and can reform magnetically treated water into acidic water.

As described above, since tap water can be reformed into acidic water by using sedimentary soil of fossils such as diatoms produced naturally without performing chemical treatment, electrolysis, etc. A large amount of acidic water can be produced at low cost without adverse effects.

Further, according to the method for producing acidic water according to the present invention, it is possible to replenish the water tank with the same amount of tap water as the amount of acidic water taken out, and to obtain a large amount of acidic water by repeating this process. Thus, a large amount of acidic water can be produced.

[Brief description of the drawings]

FIG. 1 is a perspective view of equipment used for a method for producing acidic water according to the present invention.

FIG. 2 is a perspective view of a magnetic processing device in an attached state.

FIG. 3 is a plan view of the magnetic processing apparatus.

FIG. 4 is a perspective view of a magnetic processing body in the magnetic processing apparatus.

FIG. 5 is an explanatory diagram of a magnetic action in the magnetic processing apparatus.

FIG. 6 is a graph showing experimental results in the method for producing acidic water according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 One magnetic processing body 2 The other magnetic processing body 3 Magnetic holding case 7 Permanent magnet 20 Tube 30 Water tank 31 Raw water (magnetically treated water, tap water) 32 Lighting equipment 33 Circulation stirring device 34 Circulation stirring pump A Magnetic treatment device G Fossil earth

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) C02F 1/00 C01B 5/00

Claims (2)

(57) [Claims] 1. A predetermined amount of sedimentary soil of fossils such as diatoms is charged into a closed water tank containing magnetically treated water made of tap water having magnetic lines of magnetic force. A method for producing acidic water which is modified into acidic water, wherein 10% of the tap water is filled with fossil sediment such as diatoms into the tap water filled in the water tank, and The magnetically treated water is formed by permeable to 6000 gauss to 10,000 gauss lines of magnetic force in the water to form the magnetically treated water, stirring and circulating the magnetically treated water in the water tank, and irradiating the magnetically treated water with light. Wherein the tap water is reformed into acidic water by maintaining the water temperature at 25 ° C. or higher. 2. A method according to claim 1, wherein a required amount of acidic water is taken out of said water tank, and the same amount of tap water as that taken out of said acidic water is replenished. The method for producing acidic water as described above.