JP2000024669A - Manufacturing device for water obtained by immersing iouseki stones in filled water and by high voltage application/discharge and utilizing application thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a high voltage impressed water manufacturing device, which is high in oxidation suppressing and reducing function by setting the oxidizing-reducing potential value of a living body to a minus of a higher absolute value or a value close to a minus by utilizing the high voltage applied water, and a method for utilizing that water. SOLUTION: IOUSEKI stones are immersed in water in water filled in a water tank 1 of a insulating shield base stock. A net shaped high voltage current collecting board 4 intersected with the shape of plural projecting bars and a high voltage discharge wire 3 with the shape of plural projecting bars, which is a high voltage applied pole 2, are installed to face oppositely. By immersing the living body such as humans, animal and plant in the high voltage applied water 6 obtd. by applying and discharging a high voltage between the high voltage current collecting board 4 and the high voltage discharge wire 3, or in the high voltage applied water, which is obtd. by further filtrating and heat treating this high voltage applied water 6, or giving this high voltage applied water to the living body, the oxidizing-reducing potential value during and after the growing process of this living body is maintained in the state of the minus of the higher absolute value or the value close to the minus.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of disposing a high-voltage current collector and a high-voltage discharge electrode in water filled with Ioishi in a water tank made of an insulating shield material such as acrylic and applying a high voltage to discharge. By discharging, the oxidation-reduction potential value of the high-voltage applied water,
The absolute value is set to minus or near minus, and the high voltage application water production apparatus is used to grow living organisms (humans, animals, fish and shellfish, and plants including trees, vegetables, fruits, etc.), and for various uses. is there.

[0002]

2. Description of the Related Art At present, tap water purification methods carried out in local governments and the like use some ozone disinfection and sterilization methods, but most local governments take water from rivers, lakes and the like. In a sand basin, after the sand is precipitated, a chemical such as aluminum sulfate is added to form a turbid mass.In the filtration process, small turbidity and bacteria are removed, and then chlorine is added to disinfect and sterilize. It is generally supplied as tap water. Also, in the purification of water by water purification equipment and the like, humans are concerned about the effects on human health due to the ingestion of plants and vegetables grown in such water due to contamination of chlorine and the like.

[0003] In recent years, air pollution due to destruction of the natural environment, pesticide residual vegetables, chemical processed products, electromagnetic waves and other external factors cause intrusion of pollutants into the human body, and internal stress due to psychological factors and various other factors. Health has been impaired by such factors. In the body, active oxygen is produced to remove pollutants and tries to maintain health as an immune function. However, active oxygen generated in the body more than necessary (excess active oxygen) destroys healthy cells and causes disease.

[0004] Oxidation is a phenomenon of electron detachment from the atomic level, that is, disease or aging. Corruption is a state in which electrons have been deprived and a state in which electrons have changed drastically. Iron rusts because of oxidation reactions, and when rusted iron is reduced, it returns to its original state. Redox reactions are occurring in the human body. Active oxygen is attracting attention as a substance that promotes oxidation.

[0005] The situation of such active oxygen in the body can be known by measuring the oxidation-reduction potential value in the body. If the human body is healthy, the body is kept alkaline, and as a result, health is maintained by natural healing power. However, recently, anxiety about food is spreading due to residues of pesticides, pollution, and the like on fruits, vegetables, seafood, and the like.

Therefore, a dietary life in which the absolute value of the oxidation-reduction potential value in the body becomes more or less negative, that is, a life without stress and ingestion of foods that have a high activity of suppressing and eliminating active oxygen is kept in mind. By doing so, you can maintain your health. It is important to proactively create situations that lead to stress relief due to the mental and peacefulness of water and food, as well as flowers, plants and pets, which are vital for living things.

[0007] Humans are harnessed by the benefits of nature. Due to environmental pollution, the land of food production, which is important for humans and living beings, is polluted by chemical fertilizers, soil improvers such as lime, acid gas organic, and various types of fuels. The soil oxidizes due to rain, etc.
In the above-mentioned oxidation, an acid or a gas substance that has lost the electron deprives the negative electrode of soil water or the atmosphere, and produces a positive electron, that is, an oxidation state. Effective bacteria do not propagate in such water and soil, harmful gas is generated, and the soil becomes hard soil like concrete, and food production and plant growth are jeopardized.

[0008]

Therefore, the present invention is based on the idea that Ioishi is a natural material which has been used as a medicinal stone for a long time and is rich in more than 40 kinds of minerals. By utilizing the high-voltage applied water, which is obtained by immersing in water filled with Ioishi, applying high voltage and discharging, and abundant minerals obtained by melting, the oxidation-reduction potential value of the growing process and grown organisms is absolutely By setting the value to a negative value or a value close to the negative value, active oxygen, which is a cause of disease induction, is suppressed or eliminated, and this is intended to be used for producing food that reduces oxidation.

[0009]

That is, the present invention has been made to solve the above-described problems, and has a water tank filled with Ioishi in a water tank made of an insulative shield material. By arranging a net-shaped high-voltage current collector plate and a plurality of protruding rod-shaped high-voltage discharge lines, which are high-voltage application electrodes, crossed at The focus is on obtaining a discharge effect. The high voltage applied water thus obtained, or further filtered,
By immersing or giving to humans and animals and plants, vegetables, fruits, fish and shellfish, etc. in the heat-treated high-voltage applied water, the growth-reduction process and the oxidation-reduction potential value of the organism after growth are given.
The absolute value is set to a state of minus or close to minus, and the active oxygen is suppressed, the food is made to be eliminated and the environment is reduced for oxidation. And a use application of the water production device obtained in the above.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The gist of the present invention will be described below with reference to the drawings. FIG. 1 is a flowchart showing a method of using water produced by the present invention, and FIG. 2 is an explanatory diagram showing an example of a high-voltage-applied water producing apparatus circuit in which Ioishi used in the present invention is submerged. FIG. 3 is an explanatory diagram showing an example of a high-voltage application water production apparatus circuit in which the Ioishi used in the present invention is brought into contact with the high-voltage discharge wire 3 of the high-voltage application electrode 2 and submerged. FIG. 4 is an explanatory diagram showing an example of a high-voltage-applied water production apparatus circuit in which the Ioishi used in the present invention is brought into contact with the high-voltage current collector plate 4 and is submerged. FIG. 5 shows a high-voltage application in which the Ioishi used in the present invention is brought into contact with the high-voltage discharge wire 3 of the high-voltage application electrode 2 and is immersed in water. Explanatory drawing which shows an example of a water production apparatus circuit. FIG. 6 shows a high voltage application electrode 2 connected from the high voltage generator 5 and a high voltage discharge wire 3 connected to the high voltage application electrode 2. FIG. 7 shows the high voltage collector plate 4 connected from the high voltage generator 5. FIG. 8 is an explanatory view showing an example in which a high voltage applying electrode 2, a high voltage discharging wire 3, and a high voltage collecting plate 4 are arranged as an overall view of an electric voltage applying water producing apparatus installed in a water tank of an insulating shield material. is there. In FIG.
A water tank 1 made of an insulating shield material filled with water and a high voltage application electrode 2 installed at the center of the water tank 1 are passed by a high voltage generator 5 to a high voltage discharge wire 3 via a high voltage. The high voltage collector plate 4 installed near the side wall in the water tank 1 is passed by a high voltage by a high voltage generator 5. It was obtained by applying a high voltage from the high voltage generator 5 to the high voltage collector wire 4 between the high voltage discharge wire 3 and the high voltage collector plate 4 from the high voltage application electrode, discharging the Ioishi and applying a high voltage. Water 6 and Io stone 7 used in the present invention submerged in water tank 1. In FIG. 3, a water tank 1 made of an insulating shield material filled with water and a high-voltage application electrode 2 installed at the center of the water tank 1 are passed by a high-voltage generator 5 to a high-voltage discharge line 3 through a high voltage. The high voltage discharge wire 3 of the high voltage application electrode 2 is immersed in Ioishi and connected to form a discharge electrode. Water 6 obtained by applying a high voltage between the high-voltage discharge wire 3 and the high-voltage current collector 4 from the high-voltage generator 5 through the high-voltage application electrode 2 to discharge the water 6, and Ioishi immersed in the water tank 1 8 In FIG. 4, a water tank 1 made of an insulating shield material filled with water and a high-voltage application electrode 2 installed at the center of the water tank 1 are passed by a high-voltage generator 5 to a high-voltage discharge line 3 through a high voltage. On the other hand, the high-voltage current collector 4 is connected to the high-voltage current collector 4 connected by the high-voltage generator 5 by immersing Ioishi in the water. Water 6 obtained by applying a high voltage between the discharge wire 3 and the high-voltage current collecting plate 4 to cause discharge, the Ioishi 9 used in the present invention immersed in the water tank 1
It is. In FIG. 5, the high-voltage discharge wire 3 and the high-voltage current collector 4 connected to the high-voltage application electrode 2 by the high-voltage generator 5 are connected to the Io stone used in the present invention via an insulating shield.
Water 6 obtained by applying a high voltage between the high-voltage discharge wire 3 of the high-voltage application electrode 2 and the high-voltage current collector 4 and discharging by a high-voltage generator 5; Io stones 8 and 9 used in the present invention submerged in water.

In order to implement the present invention, first, FIG.
A high-voltage discharge wire 3 connected to a high-voltage application electrode 2 and a high-voltage current collector 4 are arranged in a water tank 1 of a high-voltage application water production apparatus as shown in FIG. Fill with water to try. When the high voltage generator 5 generates a high voltage, a high voltage is applied between the high voltage discharge line 3 connected to the high voltage discharge electrode 2 and the high voltage collector plate 4 to discharge. As a result, suspended matter such as iron rust and dust mixed in the water in the water tank 1 is adsorbed by the high-voltage current collector 4 and the Io stones 7, 8, and 9 flooded in the water tank 1 become nutrients in the ore. It is a stone made of natural material rich in minerals, and the water obtained by applying this high voltage and discharging by using this special product has an oxidation-reduction potential value of minus or greater minus absolute value. The water 6 obtained by immersing the Io stone, which reduces the oxidation more, and applying a high voltage is purified.

Further, the high voltage is applied, the purified Io stone is immersed in water, and the water 10 obtained by applying the high voltage is filtered and sent to a heat treatment apparatus (not shown) so as not to be boiled at about 72 ° C. Heat treatment at temperature results in high quality water that is less susceptible to oxidation.

It should be noted that water having a redox potential value of minus or close to minus, which has a greater absolute value, has a high function of suppressing and eliminating active oxygen, which causes disease, as described above. Has proven. The measurement of the oxidation-reduction potential measures only the reaction potential of the PH value with hydrogen ions, while the oxidation-reduction potential value measures the mixed potential expressed as the weighted average of the respective reaction energies of ions and molecules. Therefore, body fluids of animals and plants containing bioactive substances such as enzymes are also expressed as redox potentials. Since the oxidation-reduction reaction is promoted by the enzyme, the oxidation-reduction potential of the body fluid also helps to know the activity of the enzyme.

Hereinafter, the breeding of organisms utilizing the high-voltage applied water will be described. First, the high-voltage-applied water adjusted as described above is collected in a water tank, and an organism such as edible fish or seafood or a plant for appreciation is immersed in the aquarium, or charcoal is immersed in the organism. When the high-voltage application water obtained as described above is applied, the oxidation-reduction potential value of the organism such as the fish and shellfish or the plant is maintained at a minus value having a larger absolute value or a value near the minus value.

The high-voltage-applied water obtained by immersing Io-ishi and applying a high-voltage to discharge increases the solidification of the ready-mixed concrete due to the fine density of water molecule (cluster) particles.
Preventing peeling by suppressing the oxidation (rust) of the metal that will be used in the use of the ready-mixed concrete, by reducing the oxidation-reduction potential value to a ready-mixed concrete that is more or less negative and less negative. An apparatus for producing water obtained by immersing Ioishi and discharging by applying a high voltage, characterized by enhancing coagulation, and its use.

[0016] Reduction refers to the reverse process of oxidation. The original meaning is to restore the oxidized substance, but chemically the chemical changes that the compound loses oxygen, the addition of hydrogen, the decrease in the positive valence of the metal, and the increase in the negative valence. Is also called reduction. Generally, a reaction in which an atom or a compound obtains an electron is called reduction. That is, oxidation and reduction have a front and back relationship, and whenever oxidation is performed in a certain reaction system, reduction always occurs at the same time. Thus, an oxidizing agent refers to a substance that can accept electrons, and a reducing agent refers to a substance that can donate electrons. If the oxidizing agent (Oxidant) and the reducing agent (Reductant) are abbreviated to Ox and Red, respectively, the relationship is expressed by the following equation. Here, e represents one electron, and n is a positive integer.

When a platinum electrode containing a pair of oxidation-reduction potential and a hydrogen electrode are inserted, a potential difference occurs between the two electrodes. This is referred to as an oxidation reduction potential (Oxidation Reduction P).
Otential (abbreviated as ORP). OR
P is defined as follows. Here, E: redox potential (V) Eo: standard redox potential (V) R: gas constant T: absolute temperature n: valence of ion F: Faraday constant [Ox]: redox agent (mol / l) [Red]: Reducing agent concentration (mol / l) Eo is E when [Ox] = [Red] and is a constant for the system.

Next, a method of using high-voltage-applied water obtained by immersing in water filled with Ioishi and applying a high voltage will be described with reference to FIG. A system for applying a high voltage to water (Step S-1) immersed in water filled with Ioishi (Step S-1) to form a high-voltage applying water (Step S-2). Use of the high-voltage applied water obtained by applying a voltage (step S-3) includes the following: for growing plants such as plants, seeds, flowers, pasture, and bonsai; for growing vegetables and fruits;
Used for growing livestock, for drinking water, for mixing with drinking water and vegetables, fruits, plants, etc., for plants and cut flowers, for solidifying fresh concrete, for cleaning precision equipment, electrical components, semiconductors, etc. Used for lotion for preventing rough skin, for promoting hair, or for vegetables and fruits (side shoots, seedlings), and horticultural plants (side shoots, seedlings, various cut flowers). In addition, as rooting with high-voltage applied water (step S-4), side shoots of vegetables, fruits, and horticultural plants are cut out, flooded and rooted, and immersed in soil and the high-voltage applied water of the present invention to grow. It is also applied to the use. In addition, horticulture such as soaked trees, foliage plants, flowers, etc., through the process of planting and growing on soil mixed with natural soil and mulch (step S-5), growing, harvesting and shipping (step S-6). The oxidation-reduction potential value of various kinds of target objects such as plants becomes a negative value or a value close to a negative value, which is larger in absolute value, and suppresses oxidation.
It becomes high-voltage-applied water that has a high power of reducing not only foods such as vegetables and fruits, but also a wide range of uses.

In addition, charcoal is immersed in polluted water such as industrial wastewater or domestic wastewater and high voltage is applied and discharged (step S-6), and the oxidation-reduction potential value is set to a negative value having a larger absolute value or a value close to the negative value. This helps prevent oxidation of rivers, lakes, seawater, etc.

For example, a plant such as a flower or vegetable seedling or a cut piece thereof, and a cut portion such as a bud of the seedling, a cut flower, a bulb or the like is immersed in the high-voltage applied water obtained in the present invention for a certain period of time. Root. When the generated root grows, the plant is taken out of the soaked water tank and replanted in a soil in which natural soil and mulch are mixed.After that, the plant has an oxidation-reduction potential value in the body of the absolute value. It grows while being kept at a larger minus or near minus value. After harvesting, harvesting and edible fruits and vegetables of trees whose redox potential value is kept at minus or near minus value, which is larger in absolute value, suppresses active oxygen in the human body that ingested it Then, the oxidation-reduction potential value is maintained at a value that is more or less than the absolute value, and active oxygen is suppressed. In addition, plants that have grown from cut flowers and bulbs are also promoted to grow and have a long life, and they can protect the natural environment by not growing with chemical fertilizers.

The high-voltage-applied water according to the present invention can also be applied to growing rice. That is, from the stage of rice seedling production, rice fir is immersed or sprinkled with high-voltage-applied water obtained by immersing the Ioishi and applying a high voltage, thereby greatly improving the growth of the rice. The redox potential value of the rice during the growing process and after harvesting becomes a negative value or a value close to the negative value, which is larger in absolute value, and the food has a high function of reducing.

Also, If the high-voltage-applied water obtained by immersing the high-voltage and applying high voltage is applied to human athlete's foot, promoting hair, roughening of the skin surface or affected area of animal skin surface, the affected area may be oxidized. The reduction potential value becomes a negative value or a value close to the negative value having a larger absolute value, the action of reducing increases, and the phenomenon gradually heals.

The high-voltage-applied water obtained by the present invention has an absolute value of the oxidation-reduction potential value that is more or less negative and close to a negative value. Enhance. By suppressing oxidation (rust) of the metal that will become the support rod and the iron plate assembled in the use of the ready-mixed concrete, separation of the ready-mixed concrete from the support rod and the like is suppressed.

The Ioishi is a natural material stone rich in minerals of nutrients. The high-voltage-applied water obtained by immersing in the water filled with the Io-ishi and applying a high voltage, having this specialty. Reduces the oxidation by keeping the oxidation-reduction potential value larger or closer to minus,
Industrial precision machinery with water that suppresses rust and decay, such as semiconductors and various electrical components, improves the cleaning accuracy and becomes water that is not easily oxidized even after cleaning, and water containing minerals is used in rivers, seas, By being returned to the soil, it will also contribute to the protection of the global environment.

Further, the high voltage applied water of the present invention is
Filtration and heat treatment by a heat treatment device (not shown) at a temperature of about 72 ° C. that does not cause boiling, so that mineral components and the like are not decomposed, and grown and harvested with drinking water and the high-voltage applied water of the present invention. Drinking water mixed with fruits and vegetables will greatly help maintain health.

[0026]

【Example】

[Table 1] The oxidation-reduction potential value (mv) of vegetables and rice harvested using the high-voltage-applied water obtained by the manufacturing apparatus for immersing Io-ishi and applying high-voltage discharge according to the present invention is described in claims 1, 4, and 5. ,
6 show the same numerical values, and Table 1 shows an example of claim 1.

Also, examples in which the present invention is applied to cut flowers are shown (types of flowers: wind chime, gladiolus, gun lily, azalea, iris, chrysanthemum, peony, etc.). When applied to these cut flowers, they bloomed without dying for about 3 weeks. Also,
Chrysanthemums have been in bloom for four weeks. On the other hand, those inserted in tap water withered earlier in 4 to 5 days and as long as 7 to 10 days.

Next, an example in which the present invention is applied to rice cultivation will be described (experiment in Shinyama, Tomi, Ina, Nagano). 20 rice seedlings
At a point of ３０30 cm, in a paddy field where a high voltage was applied to a paddy field in which Ioishi was submerged, the bottom root was 120 to 150, and the growth length was:
120-130cm, Harvest: 3000-3600 tablets /
Strain, (mechanical planting of seedlings, average 3 to 4) No disease at the time of seedling growth is observed. In addition, the results for the weeds were much smaller than those for the normal paddy because the seedlings themselves were firm. Near the time of harvest, rice stalks are thick and fall very little. On the other hand, in a normal paddy field, the bottom root is 75 cm and the growing height is 110.
cm, yield: 2000 to 2400 grains / strain (mechanical planting of seedlings, average 3 to 4) Some disease or the like during seedling growth was observed.
Many rice plants fall during harvesting.

As described above, these connect the Ioishi to the plurality of protruding rod-shaped high-voltage discharge wires of the high-voltage application pole in the first, fourth, fifth, and sixth aspects of the present invention. A high-voltage-applied water obtained by applying a high voltage between a net-shaped high-voltage current collector intersected by a plurality of protruding rods and a plurality of protruding rod-shaped high-voltage discharge lines to discharge the high-voltage current. In both cases, after six months, one year, and two years after the high voltage applied discharge, the oxidation-reduction potential value (mv) of the water before the high voltage applied discharge was plus 247 compared to water to which no high voltage was applied. On the other hand, any of them becomes water showing a remarkable oxidation-reduction potential value of minus 30 or plus 100, and the use of the water obtained according to the present invention makes it possible to increase the redox potential of fish, shellfish, fruits, plants and the like during the growth process and after growth. Set the potential value to minus or It was able to hold a value close to Inasu.

[0030]

As described above, by applying the water obtained by the production apparatus of the present invention, the oxidation-reduction potential value of the growth process of fish and shellfish, plants, and the like and the post-growth oxidation-reduction potential value can be reduced to a larger or smaller absolute value. Values can be kept close to negative, so these seafood, livestock, vegetables,
When fruits, plants, and the like are used as food, it is possible to produce food with an extremely high effect of eliminating active oxygen in the body because it is not used for chemicals or the like, and to maintain a healthy state. It also helps preserve the living environment of animals, plants and humans on the planet.

When the high-voltage-applied water according to the present invention is applied to an affected area such as a human or an animal, it becomes possible to treat an affected area on the skin surface caused by mold, bacteria and the like.
When the high-voltage-applied water is applied to the skin surface of humans, animals, and the like, it is possible to prevent rough skin on the skin surface. And the high voltage applied water of the present invention has an oxidation-reduction potential value,
When the absolute value is a negative value or a value close to the negative value, oxidation is suppressed, and growth is promoted, thereby promoting hair of humans, animals, and the like.

[Brief description of the drawings]

FIG. 1 is a flowchart showing a method for utilizing manufactured water according to the present invention.

FIG. 2 is an explanatory diagram showing an example of a high-voltage-applied water production device circuit obtained by immersing Ioishi used in the present invention.

FIG. 3 is an explanatory diagram showing an example of a high-voltage-applied water production apparatus circuit obtained by immersing Io-ishi in a discharge wire connected to a high-voltage-applying electrode and connecting the discharge line.

FIG. 4 is an explanatory diagram showing an example of a high-voltage-applied water production apparatus circuit obtained by immersing Ioishi into a current collector connected to a high-voltage generator used in the present invention and connecting the same.

FIG. 5 shows an example of a high-voltage-applied water production device circuit obtained by immersing Ioishi into both the discharge wire of the discharge electrode and the current collector connected to the high-voltage generator used in the present invention, and connecting them. FIG.

FIG. 6 is an explanatory view of a high voltage application electrode and a discharge line of the high voltage application water production apparatus used in the present invention.

FIG. 7 is an explanatory view of a current collector plate of the high-voltage applied water production apparatus used in the present invention.

FIG. 8 is an overall view of a high voltage application electrode and a discharge wire installed at the center of the upper part of a water tank of the high voltage application water production apparatus used in the present invention, and current collector plates installed on both sides.

[Description of sign]

DESCRIPTION OF SYMBOLS 1 Water tank 2 High voltage application electrode 3 High voltage discharge wire 4 High voltage current collector 5 High voltage generator 6 High voltage application water obtained by immersing in water filled with Io stone and applying high voltage to discharge 7 Io stone Flooding 8 Ioishi flooded and connected to discharge wire 9 Ioishi flooded and connected to current collector

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) C02F 1/68 540 C02F 1/68 540E

Claims (8)

[Claims] A water tank filled with Ioishi is immersed in a water tank made of an insulating shield material, and a net-shaped high-voltage current collector intersected by a plurality of projecting rods and a plurality of high-voltage application electrodes are provided. Protruding rod-shaped high-voltage discharge lines are installed facing each other, high-voltage applied water obtained by applying a high voltage between the high-voltage current collector and the high-voltage discharge lines and discharging, or The high-voltage application water is filtered, heat-treated high-voltage application water is used to immerse humans and animals and plants, or the high-voltage application water is applied to the organisms, thereby allowing the organisms to grow and grow. An apparatus for producing water obtained by immersing in water filled with Ioishi and obtained by applying a high-voltage discharge, wherein the oxidation-reduction potential value is maintained at a negative value or a value close to a negative value having a larger absolute value. 2. The high-voltage current collector plate according to claim 1, wherein the high-voltage current collector plate is intersected by a plurality of protruding rods and has a net shape. Production equipment and its use. 3. The method according to claim 1, wherein the high-voltage discharge wire as the high-voltage application electrode has a plurality of protruding rods, wherein the high-voltage discharge wire is immersed in water filled with Ioishi and obtained by high-voltage application discharge. Equipment and its uses. 4. A current collector plate and a discharge electrode are installed in a water tank filled with Ioishi in a water tank made of an insulating shield material according to claim 1. Ioishi is connected to the discharge wire serving as the discharge electrode to form a discharge electrode. Applying a high voltage between the current collector plate and the discharge electrode to discharge it and applying high voltage to obtain clear water whose oxidation-reduction potential value has a larger absolute value or is close to minus An apparatus for producing water obtained by immersion in water filled with Ioishi and discharging by applying a high voltage, and its use. 5. An insulated shield material tank according to claim 1, which is immersed in water filled with Ioishi, and a current collector and a discharge electrode are installed facing each other, and Iioishi is connected to the current collector, Applying a high voltage between the current collector plate and the discharge electrode to discharge it and applying high voltage to obtain clear water whose oxidation-reduction potential value has a larger absolute value or is close to minus An apparatus for producing water obtained by immersion in water filled with Ioishi and discharging by applying a high voltage, and its use. 6. A current tank and a discharge electrode are installed in a water tank of an insulating shield material according to claim 1 by immersing the tank in water filled with Ioishi. Ioishi is connected to the discharge wire serving as the discharge electrode to form a discharge electrode. Iodo stone is also connected to one of the current collectors, and the high voltage applied water obtained by applying a high voltage between the current collector and the discharge electrode to discharge the battery makes the oxidation-reduction potential value higher than the absolute value. An apparatus for producing water obtained by immersion in water filled with Ioishi, which is obtained by applying a high voltage and discharging, characterized in that the water is a large minus or close to minus clear water. 7. The water tank to which a high voltage is applied according to claim 1, 2, 3, 4, 5, or 6, is a pool-sized large container capable of storing more than 10 l and exceeding 10 l. For producing water obtained by high-voltage discharge by immersion in immersed water and its use 8. The high voltage in the manufacturing according to claim 1, 2, 3, 4, 5, 6, 7, or 8 is a power supply 100 for general household use.
An apparatus for producing water obtained by immersing in water filled with Ioishi, which is obtained by applying a high voltage and discharging the water, wherein the water exceeds 100 V and is infinite from 100 V to infinity.