CN1343630A - Activatinjg method of water and appts. thereof - Google Patents

Abstract

To provide a method for enhancing an activation degree of water by allowing magnetic forces and electrons to act on water in a water pass pipe, and a device for the purpose. In the activation method of water, at least one pair of permanent magnets with a north pole and a south pole confronted with each other are arranged across the water pipe, and a pair of nonmagnetic conductive metallic plates are arranged to face each other, at the position facing to magnetic flux between the permanent magnets and also across the water pass pipe, and by shutting off an electric field generating in the orthogonally crossed direction with respect to the directions of the magnetic flux and flowing water by passage of water into the water pass pipe with a nonmagnetic conductive metallic plate, leakage of electrons is prevented and the electrons are allowed to act on the flowing water in the water pass pipe, and also water is treated with the magnetic forces of the permanent magnets. The activation device of water is provided with the permanent magnets, the water pass pipe, the non-magnetic conductive metallic plates and a housing for housing the said parts.

Description

Water activation method and apparatus therefor

Technical Field

The present invention relates to a method for activating water and a device used therefor, and more particularly to a method for activating water and a device used therefor, which can activate water suitably used as drinking water, domestic water, water for plant cultivation, water for hydroponic cultivation, drinking water for dairy livestock, water for food processing, industrial washing water, and the like.

Background

A method of activating water by reducing the water concentration, that is, the water aggregation, by the magnetic force action is now widely known. Although various devices have been proposed as a device used in this method, basically, at least one pair of permanent magnets is disposed through a water pipe, and the configuration includes two types, i.e., an S pole and an N pole are disposed to face each other and an S pole is disposed to face each other.

The present inventors have developed, together with other inventors, a method for activating water by arranging at least a pair of permanent magnets having N and S poles facing each other with a water pipe therebetween, arranging a pair of nonmagnetic conductive metal plates facing each other with the water pipe therebetween at positions facing magnetic fluxes between the permanent magnets, communicating a part of the pair of metal plates with the inside of the water pipe, and introducing an induced current (starting current) generated in a direction perpendicular to the directions of the magnetic fluxes and the water flow into the nonmagnetic conductive metal plates by passing water through the water pipe, thereby causing electrons to act on the flowing water in the water pipe and treating the flowing water by the magnetic force of the permanent magnets, and an apparatus for carrying out the method (see japanese patent application laid-open No. 11-138173).

Problems to be solved by the invention and objects of the invention

These conventional water activating apparatuses have only a structure in which permanent magnets are arranged to face each other with a water passage pipe interposed therebetween, and in such apparatuses, means for improving the effectiveness thereof is only to use strong magnets, but since they are only subjected to magnetic force, the degree of activation of water, that is, the degree of activation thereof, is low, which is a problem. On the other hand, the device disclosed in the above-mentioned patent publication has a high activation force for water, but in order to communicate the nonmagnetic conductive metal plate with the inside of the water pipe, it is necessary to provide an electrode rod (actually, a carbon rod) on the nonmagnetic conductive metal plate and to insert the electrode rod into a through hole formed in the water pipe, and thus, it is troublesome to connect the carbon rod to the nonmagnetic conductive metal plate and to perforate the water pipe.

Accordingly, an object of the present invention is to improve the device disclosed in the above-mentioned patent publication and to provide a device having an equal or higher effect in the activation capacity for water, and a method for activating water using the device.

Means for solving the problems

According to the present invention, there is provided a water activation method, comprising disposing at least one pair of permanent magnets having N and S poles facing each other through a water passage pipe, disposing a pair of nonmagnetic conductive metal plates at positions facing magnetic fluxes between the permanent magnets and facing each other through the water passage pipe, and interrupting an electric field generated in a direction perpendicular to the magnetic fluxes and a water flowing direction by the passage of water through the water passage pipe by the nonmagnetic conductive metal plates, thereby preventing leakage of electrons, and treating the electrons by magnetic forces of the permanent magnets while allowing the electrons to act on flowing water in the water passage pipe.

In another aspect, the present invention provides a water activation device, comprising: a water pipe, at least one pair of permanent magnets arranged with their N and S poles facing each other across the water pipe, a pair of non-magnetic conductive metal plates arranged with their N and S poles facing each other across the water pipe at positions facing magnetic flux between the permanent magnets, and a case for housing the water pipe, the permanent magnets, and the non-magnetic conductive metal plates.

That is, the invention disclosed in the above-mentioned patent laid-open publication has the non-magnetic conductive metal plate electrically connected to the inside of the water pipe, and the invention can obtain the intended effect without such electrical connection.

In the water activating device of the present invention, those metals having a potential higher than that of the hydrogen standard electrode are used as the material of the non-magnetic conductive metal plate. Examples of the metal material include copper, silver, and gold, and these may be a single metal plate, a composite plate formed by overlapping and joining different metal plates, or a plate formed of an alloy. In addition, instead of the above-described metal material, for example, a material formed by plating a metal having a high potential as described above on an aluminum plate may be used. However, it is important that the metal plate surface on the side of higher potential is used for the composite plate, or the surface plated with metal is positioned on the side of the water pipe, for example, in contact with the outer surface of the water pipe, in the case of the metal plate subjected to metal plating.

Brief description of the drawings

Fig. 1 is a perspective view showing the main components of the water activating device of the present invention.

Fig. 2 is a sectional view taken along line a-a in fig. 1.

Fig. 3 is a cross-sectional view of the water activation device of the present invention.

Fig. 4 is a schematic diagram showing an apparatus used in the test example.

Description of the symbols

10-internal structure of water activation device;

12A, 12B-permanent magnets;

14-water pipe;

16A, 16B-non-magnetic conductive metal plate;

18-direction of magnetic flux;

18A — state of flux;

20-direction of flow;

22-direction of induced current;

24-direction of electron emission;

28-a housing;

28A, 28B-half of the housing;

30-a water activation device;

40-a water storage tank;

42-water to be treated;

44-piping;

46-water pump;

48-receiving sink.

Embodiments of the invention

The present invention will be described with reference to the drawings, wherein fig. 1 and 2 show the principle of the water activation method of the present invention, fig. 3 shows a longitudinal section of a device embodying the principle, in fig. 1, reference numeral 10 shows the internal structure of the water activation device of the present invention, 12A and 12B show two pairs of permanent magnets which are arranged in a state of facing each other on the N-pole side and the S-pole side and being kept at a certain distance from each other with a water passage pipe therebetween, and 16A and 16B show nonmagnetic conductive metal plates which are arranged facing each other at positions facing magnetic fluxes in the direction indicated by the arrow 18 between the permanent magnets and being arranged facing each other with the water passage pipe therebetween.

When the permanent magnets and the nonmagnetic conductive metal plates are arranged as described above, in the area surrounded by these members, when the water to be treated flows through the water pipe in the direction indicated by the arrow 20, an induced current is generated which flows in the direction perpendicular to the magnetic flux direction 18 and the direction 20 in which the water to be treated flows, that is, in the direction perpendicular to the surfaces of the nonmagnetic conductive metal plates 16A and 16B as indicated by the arrow 22.

The intensity of such an induced current is proportional to the magnetic flux density, the distance between the electrodes, and the flow velocity, and the relationship can be expressed by the following equation.

E＝K·B·d·V

Wherein, E: induced current, K: constant, B: magnetic flux density, d: inter-electrode distance, V: the flow rate of the water.

In order to prevent the induction charging of the non-magnetic conductive metal plates 16A and 16B arranged from causing a discharge loss of an induction current and to efficiently discharge electrons generated by the charging into flowing water (see an arrow 24 in fig. 2), a metal having a high potential, for example, a copper plate, is selected as a material of the non-magnetic conductive metal plates. In order to further improve the electron emission efficiency, a composite plate in which a metal plate having a high electric potential and a metal plate having a low electric potential are superposed and joined to each other may be used, and the metal plate surface on the side having a high electric potential may be disposed so as to face the water pipe side. The reason for this is that, because the metal having a high potential becomes "more expensive" and the metal having a low potential becomes "less expensive" due to the so-called "contact battery action", the emission of electrons is promoted, and because the electrons are reflected by the nonmagnetic conductive metal plate, the efficiency of introducing the electrons into the flowing water in the water passage pipe is improved. Further, since the non-magnetic conductive metal plate is a diamagnetic body and has a function of pressing and bending the magnetic flux 18 toward the central portion of the water pipe, the magnetic flux density at the central portion of the water pipe is increased (see a dotted line portion 18A in fig. 2), and the electromagnetic induction function by the flowing water is increased and the effect of releasing electrons into the flowing water is increased.

Due to the fact that the water molecule (H) is formed₂O) a portion of the oxygen is an electron acceptor, and therefore, is releasedElectrons released into the flowing water impart a charge to the oxygen in the water molecule, which increases the dipole properties of the water molecule. That is, the bond angle formed by two hydrogen atoms in the water molecule is increased, so that the concentration density between the water molecules is increased, the water becomes active water having a reducing power, and thus the oxidation-reduction potential of the water is lowered. Further, although the aggregation (bundling) of water molecules is a factor causing the formation of hydrogen bonds, when the water molecules are once in an electron-rich state, electrons entering into oxygen atoms of the water molecules have a strong repulsive action with the electrons, and thus the hydrogen bonds are cut off to make the water bundles finer, thereby allowing the water molecules to exhibit brownian motion.

At the same time, the electrons released into the running water can cause the water to be treated to undergo weak electrolysis ]Thus resulting in the formation of hydroxyl radicals, thereby making the water weakly alkaline.

As described above, the method of the present invention enables the water to be treated which has passed through to be subjected to the magnetic force known in the art and to the electrons, and activates the water due to the synergistic effect of these two effects.

The water pipe 14, the permanent magnets 12A and 12B, and the nonmagnetic conductive metal plates 16A and 16B described above are housed in a case 28, thereby constituting an actual water activating device 30 (see fig. 3). The case is composed of two halves 28A and 28B, but since the magnetic force of the permanent magnets 12A and 12B is strong, it is not necessary to bond the halves to each other with an adhesive or the like.

Test examples and comparative test examples

After water treatment was performed using the water activation apparatus 30 of the present invention shown in FIG. 3 and the procedure and equipment thereof shown in FIG. 4, the half width of nuclear magnetic resonance frequency, oxidation-reduction potential and pH of both the treated water and untreated water were measured.

That is, a tank 40 for storing 200 liters of tap water 42 as water to be treated, a polyvinyl chloride pipe 44 as a pipe, a pump 46 in the middle of the pipe, and the water activation apparatus 30 of the present invention are provided, and the aboveitems are measured by sampling raw water as a control, that is, raw water in the tank 40, and the treated water that has once passed through the water activation apparatus 30 of the present invention and reached the receiving tank 48 is sampled and measured in the same manner.

The conditions of the apparatus shown in FIG. 4 are shown in Table 1 below.

TABLE 1

	Material of	Capacity, etc
			Water tank	Polypropylene resin	200L
Pump and method of operating the same	Plastic impeller	33L/min
			Piping	Rigid polyvinyl chloride	Inner diameter: 20mm

The conditions of the water activating device 30 of the present invention are shown in table 2 below.

TABLE 2

Permanent magnet	Species of	A rare earth element; iron and boron (rare earth element is neodymium)
			Residual magnetic flux density	12300 Gauss
	Magnetic field	Planar magnetic field
			Number of uses	8 pieces (4 pairs)
	Distance between N-S magnetic poles	27mm
			Non-magnetic conductive metal plate	Metal species	Copper (Cu)
Distance between metal plates	27mm
		Water pipe		Kind of material	Rigid polyvinyl chloride
Size of	Inner diameter: 20mm
			Shell body	Material of	Hard polyurethane resin

The measurement results are shown in tables 3 to 5 below.

TABLE 3

	Half value width of nuclear magnetic resonance frequency (Hz)
		Untreated water	138
Once through treated water	109

TABLE 4

	Oxidation-reduction potential (mV)
		Untreated water	268
Once through treated water	218

TABLE 5

	pH
		Untreated water	6.9
Once through treated water	7.4

Investigation of

As shown in the tables 3 to 5, the untreated water was 138Hz in terms of the half width of the NMR frequency, whereas the corresponding value of the treated water was reduced to 109Hz by only one treatment with the water activation device of the present invention, which corresponds to only about 79% of the untreated water. The smaller the value of the nmr, the smaller the water concentration, which means the more active the movement of the molecule.

On the other hand, regarding the oxidation-reduction potential, the untreated water was 268mV, as opposed to 218mV, which corresponds to only about 81% of the untreated water, being able to be reduced by treatment with only onepass through the water activation device of the present invention. This is because, when water is treated using the apparatus of the present invention, the treated water absorbs electrons, which means that the reducing power of water is increased and the dipole property thereof is also increased.

In addition, as for the pH value, the pH of the untreated water was 7.32, in contrast to the water treated by the water activating apparatus of the present invention, the pH was 7.6, that is, changed to the alkaline side, which means that hydroxide radicals were generated in the water, that is, the degree of electrolysis of the water was increased.

ADVANTAGEOUS EFFECTS OF INVENTION

According to the present invention, water activation can be performed by utilizing the synergistic effect of magnetic force and electrons. Such activated water, although well known, has been found to have the physical, electrochemical and biological effects described below.

Physical effects

The density becomes smaller and the molecular arrangement becomes regular, thus becoming good in taste. In addition, the water boils faster due to the increased thermal conductivity.

Since the permeability is increased, the wetting phenomenon becomes remarkable, thereby improving the washing effect.

Effect of electrochemistry

Since the dipole property is increased to exhibit an effect similar to that of an anionic surfactant, a hydrophobic substance and a micelle are easily formed, and the hydrophobic substance can be emulsified.

Because of its reducing power and high energy, it can deprive the iron hydroxide which causes rust on the water supply pipe of hydrogen, and convert it into iron sesquioxide (Fe) which is a black strong iron oxide₂O₃) Ferroferric oxide (Fe)₃O₄) This stops the etching process. In addition, the calcium hydroxide and the magnesium hydroxide are also providedThe same effect is achieved, so that the function of preventing the water supply pipe from being blocked can be achieved.

Biological effects:

since the permeability into the semipermeable membrane of the living organism can be increased, the ability of the cell to absorb water can be improved, thereby promoting metabolism.

Since the permeability of the plant root system can be improved (osmotic pressure is increased), the growth of the plant is accelerated.

The absorption of food by the intestines and stomach is promoted because the digestion can be assisted by emulsifying the hydrophobic food.

Further, the closest prior art to the present invention is the device disclosed in japanese unexamined patent application publication No. 11-138173, and when comparing the present invention with the prior art device, it is found that the prior art needs to perforate the water pipe, and it is necessary to attach a carbon rod to a non-magnetic conductive metal plate and then insert the carbon rod into the above-mentioned opening of the water pipe, but the present invention does not need to perform these operations, thereby saving working time and simplifying assembly.

Claims (5)

1. A method of activating water, characterized in that at least one pair of permanent magnets having N and S poles facing each other are disposed through a water pipe, a pair of non-magnetic conductive metal plates are disposed at positions facing magnetic fluxes between the permanent magnets and facing each other through the water pipe, and an electric field generated in a direction perpendicular to the directions of the magnetic fluxes and the flowing water due to the flow of water through the water pipe is blocked by the non-magnetic conductive metal plates, thereby preventing leakage of electrons, and the electrons are acted on by the flowing water in the water pipe and are treated by the magnetic force of the permanent magnets.

2. A water activation device, comprising: a water pipe, at least one pair of permanent magnets arranged with their N and S poles facing each other across the water pipe, a pair of non-magnetic conductive metal plates arranged with their N and S poles facing each other across the water pipe at positions facing magnetic flux between the permanent magnets, and a case for housing the water pipe, the permanent magnets, and the non-magnetic conductive metal plates.

3. The water activating device as claimed in claim 2, wherein the non-magnetic conductive metal plate is made of a metal having a potential higher than a standard electrode potential of hydrogen.

4. The water activating device as claimed in any one of claims 2 and 3, wherein the non-magnetic conductive metal plate is: the metal plate is made of an alloy or a metal plated with a metal having a high electric potential, and the metal plate having a high electric potential is positioned on the water pipe side in the case of the composite plate, or the plated metal surface is positioned on the water pipe side in the case of the plated metal plate.

5. The water activating device as claimed in any one of claims 2 to 4, wherein the material for constituting the non-magnetic conductive metal plate is copper, silver or gold.