JPH08224577A - Water purifying material and water storage tank using the same and control of water quality in the storage tank - Google Patents

Abstract

PURPOSE: To prevent water in a static state from becoming rotten and make the water safe in ecology by producing a purifying material from a porous ceramic obtained by sintering a fossil deposited under ground. CONSTITUTION: Porous ceramics 1 are formed by sintering a fossil deposited under ground and shaped into rectangular parallelepiped bodies by an inorganic binder 2, which is for example gypsum mixed with a filling agent to give water purifying materials. As the fossil, minerals (a fossil stone) of oceanic rotten materials may be used. The water purifying materials suppress water molecules from gathering and becoming large clusters by rotating, expanding and contracting, and vibrating water molecules in stored water in a static state based on magnetic function, keep the movement of water molecules in a high energy state, and prevent water from becoming rotten. Together with the magnetic function, the functions of electromagnetic waves, far infrared rays of the water purifying materials affect water molecules and, at the same time, the water purifying effect is heightened due to dissolution of mineral components of the porous ceramics into water.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water purification material which prevents corrosion of the water storage in a water storage tank, preserves the water storage sanitarily, and is safe for the ecosystem. And the water quality control method in the water tank.

[0002]

2. Description of the Related Art Conventionally, for example, in order to prevent corrosion of stored water in a water storage tank, a method of dissolving a sterilizing agent in the water storage or an aeration facility provided in the water storage tank is used to blow air into the stored water to anaerobic bacteria. The method of sterilizing and preventing the corrosion of water was taken. In addition, in a small water tank,
A method of agitating or heating the stored water to prevent corrosion of the stored water has been conveniently used. On the other hand, various types of water purification materials are known. For example, a large amount of alumina silicate sodium salt called zeolite produced from mineral resources is used as a softening agent for water. Activated carbon has been used to remove certain organic substances dissolved in water, and pumice, crushed stone, pebbles, sand, etc. have been used as a filter medium for water. However, conventionally, there has been no purification material that is insoluble in water, prevents the corrosion of water in a stationary state in the water tank, and is safe for the ecosystem. In addition, there was no water tank using this purification material or a water quality control method in the water tank.

[0003]

A method of introducing a sterilizing agent, such as sodium hypochlorite, into the water stored in the water tank to prevent water corrosion is a rapid-acting sterilization method. Sodium chlorate has a problem that it is very dangerous to the living body and environment, that is, the ecosystem. The organic sterilizer also has a problem that it has the same danger. The method of blowing air into the stored water has a problem that sludge is generated, and therefore it is necessary to dispose of it. The method of stirring or heating the stored water in the water storage tank has a problem of consuming energy. Zeolite is used as a softening agent for water in a large amount due to its immediate effect, but there is a problem that it has no sterilizing effect. In addition, activated carbon, pumice stone, etc. are used as a purification material for certain purposes, but they have a problem that they have no sterilizing effect. If the above-mentioned sterilization method is not adopted, there is a problem that the water stored in the water storage tank will soon rot. Recently, for example, in each block of office buildings or in each tap water consumer or independent house in an apartment house, a water purification material capable of storing and storing water sanitarily for a long time in a water tank for emergency. , There was a problem that a water tank using this water purification material and a water quality control method in the water tank were required.

The inventors of the present application first noticed that, when constructing the water purification material of the present invention, the state of aggregation of water molecules in the stored water changes over a long period of time. That is, if the water stored in the water tank remains stationary for a long time, water molecules will aggregate with each other,
Forming large clusters (aggregates of multiple water molecules),
It becomes dead water in a very low energy state, and the stored water gradually corrodes due to the generation of bacteria such as bacteria. To prevent this corrosion, the water stored in the reservoir should not be dead water, which means keeping the water molecules at a high energy level.

The above-mentioned actions are performed in the natural world.
That is, when rainwater infiltrates the soil and comes into contact with magnetic crystalline aggregates (fossils) in the soil, the water molecules of the rainwater repeatedly rotate, expand and contract, vibrate, etc. The energy state is atomized into spring water. In order to reproduce this principle of nature in the water stored in the water tank, the main raw material is minerals (fossil), which is an ancient marine corrosive substance that slept deep in the ground and was eluted by crustal movements. I tried to construct a water purification material by using alumina silicate-based porous ceramics. The water purification material, electromagnetic waves between the porous ceramics, by the action of the far infrared rays and the action of the above magnetic, to reduce the cluster of water molecules in the water tank, to prevent the growth of bacteria in the water in a high energy state,
For the purpose of preventing dead water by giving activity to water by extracting the mineral component which is the material of the porous ceramics,
I tried to construct a water tank using this.

In order to solve the above-mentioned problems and problems, the present invention provides a water purification material which is safe for the ecosystem and which prevents corrosion of static water by utilizing the above-mentioned natural principle. At the same time, it is an object to provide a water tank using this water purification material and a water quality control method in the water tank.

[0007]

In order to achieve the above-mentioned object, a water purification material of the present invention and a water storage tank and a water quality control method in the water storage tank using the water purification material are porous obtained by firing fossil deposited in the ground. The water purification material was made of high quality ceramics. The above-mentioned porous ceramics is characterized by being a calcined alumina silicate-based porous body.

A water purification material was constituted by suspending the above-mentioned porous ceramics in an organic coating composition or an inorganic coating composition.
The above-mentioned porous ceramics was molded with an inorganic binder or encapsulated with a synthetic resin to form a water purification material. A water purification material formed by suspending the above-mentioned porous ceramics in an organic coating composition or an inorganic coating composition is applied to a water tank depending on the material forming the water tank. Mold the porous ceramics with an inorganic binder, or
A water purification material that is encapsulated with a synthetic resin is placed in a water tank.

[0009]

Since the purifying material of the present invention is made of porous ceramics obtained by burning fossil deposited in the ground,
Due to the magnetic action of the water purification material magnetized by the earth's magnetism and the action of electromagnetic waves and far infrared rays, water molecules repeat molecular motions such as rotation, expansion and contraction, vibration, etc. Prevents the stored water in the water tank from corroding because it does not become dead water. The water storage tank and the water quality control method in the water storage tank using the above-mentioned purification material of the present invention hygienically store the water stored in the water storage tank by the above-mentioned action.

[0010]

【Example】

[Example 1] Table 1 shows the main components of porous ceramics obtained by burning fossils deposited in the ground. When this fossil is fired, the fossil changes into porous ceramics with many fine pores open on the surface. Furthermore, this porous ceramic has appropriate hardness and strength as a water purification material. The component table of Table 1 shows the inorganic component names of the porous ceramics and the content of each component.

Table 1 Main ingredients of porous ceramics ─────────────────── Component content (wt%) ───────────── ─────── Silicic anhydride 50.000 Alumina 12.500 Iron oxide 4.200 Calcium 4.000 Magnesium 1.700 Potassium 0.700 Titanium 0.180 Phosphorus 0.060 Cobalt 0.060 Sodium 0.058 Manganese 0.050 Nickel 0.002 Copper 0.001 ─────────────────── Total 73.511 ───────────────── ─── In the table, 73.5% including 11 kinds of mineral components such as iron oxide is 50% of silicic acid anhydride and 12.500% of alumina as the main component of the porous ceramics. . This porous ceramic is obtained by firing a mineral (fossil) which is an ancient marine corrosive substance. The hard part of this marine corrosive substance replaces alumina silicate, which is the main component of soil, into the above fossil for a vast number of years, and contains 4% or more of iron oxide. This iron has been magnetized for a vast number of years. As described above, this porous ceramic is an alumina silicate-based porous body, which contains a large number of minerals and the like, and has a porous complex structure in which a large number of fine pores are opened on the surface thereof. It is also magnetized, albeit slightly. The water purification material was composed of this porous ceramics.

The water purification material having the above-mentioned structure suppresses the water molecules from rotating, stretching, and vibrating to aggregate into large clusters by the action of magnetism in the stationary water storage. Keep your exercises in a high energy state to prevent water corrosion. Further, the action of electromagnetic waves and far-infrared rays between the water purification materials cooperates with the action of the above-mentioned magnetism. Furthermore, the mineral component, which is the material of the porous ceramics, is dissolved in water to enhance the water purification effect. Further, when the magnetic field generated by the water purifying material acts on the cells in the stored water, the cell membrane of bacteria is changed due to the magnetic field by changing its position or direction, and cell division does not occur, so that there is a bactericidal effect. The porous ceramics are not limited to those obtained by burning fossils of marine corrosive substances, and may be, for example, those obtained by burning fossils of terrestrial animals and plants.

[Example 2] The porous ceramic having the above-described structure is powdered, and the powdered porous ceramic is suspended in each of the organic coating composition and the inorganic coating composition to form a water purification material. did. Table 2 shows the composition of the water purification material of this organic coating composition, and Table 3 shows the composition of the water purification material of the inorganic coating composition.

The water purifying material for the organic coating composition is obtained by adding 3 to 10 parts by weight of zircon powder as a pigment to an organic coating composition containing 100 parts by weight of an epoxy resin and 50 parts by weight of an amine-based curing agent. Porous ceramics 3 to 2
It was composed by blending 0 parts by weight (Table 2). Table 2 Composition of water purification material of organic paint composition ────────────────────── Composition Composition amount (parts by weight) ───────── ─────────────── Epoxy resin 100 Amine curing agent 50 Zircon powder 3-10 Porous ceramics 3-20 ───────────────── —————————————————————————————————————————————————————————————————————————————————————————————————————————————— The composition of the coating film on the inner surface of this water tank is the same as the composition in Table 2. This water purification material is suitable for use in a water tank made of metal or synthetic resin, but can also be used in a water tank made of concrete or tile.

The water purifying material for the inorganic coating composition is cement 1
100 parts by weight to 200 parts by weight of water as a curing agent is added to a mixture of 00 parts by weight and 3 to 5 parts by weight of the alkaline chemical conversion material,
Mix 3 to 10 parts by weight of zircon powder as a pigment,
3 to 20 parts by weight of powdered porous ceramics was mixed therein (Table 3). Table 3 Composition of water purification material of inorganic coating composition ─────────────────────── Composition Composition amount (parts by weight) ──────── ──────────────── Cement 100 Alkali conversion material 3-5 Water 100-200 Zircon powder 3-10 Porous ceramics 3-20 ──────────── ──────────── A water purification tank of the inorganic coating composition was coated on the inner surface of the water tank to form a water tank using the water purification agent. The composition of the coating film on the inner surface of this water tank is the same as the composition in Table 3. This water purification material is suitable for use in water tanks made of concrete or tile.

In the water storage tank having the above-mentioned water purification material applied on its inner surface, the magnetism of the water purification material causes water molecules in the water storage tank to rotate, expand and contract, vibrate, etc., and to which electromagnetic waves and far infrared rays are added. The stationary water in the water tank is kept in a high energy state and does not corrode. When water is stored in this water storage tank, it is not necessary to stir or heat the water, so that the water can be stored sanitarily without consuming energy.

[Embodiment 3] FIGS. 1 and 2 show a water purification material formed by molding the above-mentioned porous ceramics with an inorganic binder and a water purification material encapsulated by a synthetic resin. The water purification material of this inorganic binder is an inorganic binder 2 obtained by adding an appropriate amount of filler to gypsum, and an appropriate amount of porous ceramics is added as it is to form a rectangular block shape and then cut into a thick plate. Configured. Porous ceramics 1 are exposed in the form of large and small circles on the surface (FIG. 1). In the water quality control method in the water tank using the water purification material of this inorganic binder in the water tank, the water molecules in the water tank are caused to rotate, expand, contract, vibrate, etc. by the above-mentioned action, and Prevent corrosion. At the same time, the water molecules kept in a high-energy state by this magnet come into contact with the surface of the water purifying material, and the mineral components are slightly eluted into the stored water to enhance the water purifying effect. Further, according to this method of managing water quality in the water storage tank, since it is not necessary to stir or heat the water storage, the water quality can be managed hygienically without consuming energy. If the water storage tank is provided with a solid-liquid separation device, a filtration device, etc., the porous ceramics may be directly put into the water storage tank as a purifying material.

The water purifying material covered with synthetic resin has a shape of a cuboid in which the porous ceramics 1 is covered with synthetic resin 3 (FIG. 2). In this case, since the porous ceramics 1 is covered with the synthetic resin 3, the porous ceramics 1 does not come into direct contact with water. In addition,
Here, a polyurethane resin was used.

[0019]

Since the water purification material of the present invention is made of porous ceramics obtained by burning fossil deposited in the ground, the kinetic energy of water molecules of water in a stationary state is By keeping it at a high level, it has the effect of preventing this water from becoming a dead water state and preventing corrosion. Since the mineral components in the water purification material are eluted into water, it has the effect of improving the quality of this water.

A water tank using the water purification material of the present invention is a water tank coated with a water purification material of an organic coating composition or a water purification material of an inorganic coating composition which is formed by suspending the above-mentioned porous ceramics. Since it is configured as described above, it has the effect of preventing the stored water from corroding without consuming energy and maintaining the water quality in a sanitary manner. The water quality control method in a water tank using the water purification material of the present invention is a water purification material formed by molding the above-mentioned porous ceramics with an inorganic binder or a water purification material formed by encapsulating with a synthetic resin into a water tank. Therefore, the water quality of the stored water in the water storage tank can be maintained sanitarily without consuming energy.

[Brief description of drawings]

FIG. 1 is a perspective view showing the appearance of a water purification material obtained by molding the porous ceramics of the present invention with an inorganic binder.

FIG. 2 is a partially cutaway perspective view showing the appearance of a water purification material encapsulated with a synthetic resin.

[Explanation of symbols]

 1 Porous Ceramics 2 Inorganic Binder 3 Synthetic Resin

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Toshio Yoshida 4-43-10 Omorihigashi, Ota-ku, Tokyo Eposol Co., Ltd.

Claims (12)

[Claims] 1. A water purification material composed of porous ceramics obtained by burning fossil deposited in the ground. 2. The water purification material according to claim 1, wherein the porous ceramics is a calcined alumina silicate-based porous body. 3. The water purification material according to claim 1 or 2, wherein the porous ceramics is suspended in an organic coating composition to form a water purification material. 4. The water purification material according to claim 1, wherein the porous ceramics is suspended in an inorganic coating composition to form a water purification material. 5. The water purification material according to claim 1, wherein the porous ceramics is molded with an inorganic binder to form a water purification material. 6. The water purification material according to claim 1, wherein the porous ceramics is covered with a synthetic resin to form a water purification material. 7. A water purification material characterized in that a water purification material constituted by suspending porous ceramics obtained by burning fossil deposited in the ground in an organic coating composition is applied to a water tank. The water tank used. 8. The water purifier according to claim 7, wherein a water purifying material constituted by suspending the porous ceramics in an inorganic paint composition instead of the organic paint composition is applied to a water storage tank. Water tank using wood. 9. The water storage tank using the water purification material according to claim 7, wherein the porous ceramics is a porous body of calcined alumina silicate. 10. A water storage using a water purification material, wherein a water purification material formed by molding porous ceramics obtained by burning fossil deposited in the ground with an inorganic binder is placed in a water storage tank. How to control water quality in tank. 11. The water purifying material according to claim 10, wherein a water purifying material formed by encapsulating the porous ceramics with a synthetic resin is placed in a water storage tank instead of being molded with an inorganic binder. Method for controlling water quality in a water tank using. 12. The water quality control method in a water tank using a water purification material according to claim 10, wherein the porous ceramics is a calcined alumina silicate-based porous body.