JPH11138173A - Activation method of water and device therefore - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for enhancing activity of water to be treated by utilizing a magnetic force of a magnet and besides making addition of a mechanism to other uses, and a simple device for attaining the method. SOLUTION: At least one pair of permanent magnets 1 and 1 opposed a N pole 1a to an S pole 1b are arranged at a distance from a water passage pipe, and an pair of nonmagnetic conductive metallic plates 2 and 2 opposed at a distance from the water passage pipe and also continued one portion of it with the inside of the water passage pipe are arranged at a position facing to a magnetic flux 3 between the permanent magnets 1, 1, and an electromotive current 5 which generates in the direction orthogonally crossed with the directions of the magnetic flux 3 and flow water 4 by passage of the water through the water passage pipe, is introduced into the nonmagnetic conductive metallic plates 2 and 2, thus such the activation method of the water that electrons 6 are exerted on the flow water 4 in the water passage pipe and also the magnetic force due to the permanent magnets 1, 1 is worked to activate the water, is provided and the activation device of water provided with a housing incorporating these, is arranged.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for activating water and an apparatus therefor, and is particularly suitable as drinking water, domestic water, plant growing water, hydroponic cultivation water, food processing water, industrial washing water and the like. The present invention relates to a method for activating water and an apparatus therefor.

[0002]

2. Description of the Related Art It has been widely known to activate water by splitting water clusters, that is, molecular aggregates of water, into smaller ones by the action of a magnetic force. Various devices using this method have been proposed. Basically, at least one pair of permanent magnets is arranged with a water pipe interposed therebetween, and the S pole and the N pole are arranged to face each other. , S
In this configuration, the poles are arranged to face each other.

[0003]

SUMMARY OF THE INVENTION In these conventional water activating devices, the only means for increasing the effectiveness is to use a powerful magnet. That is, there was a problem in that the degree of resurgence was low. Accordingly, an object of the present invention is to provide a method for improving the degree of activation of the water to be treated by adding a separate mechanism while utilizing the magnetic force of a magnet, and a simple device for carrying out the method. is there.

[0004]

According to the present invention, the above object is achieved by disposing at least one pair of permanent magnets having N poles and S poles facing each other with a water pipe interposed therebetween. A pair of non-magnetic conductive metal plates facing each other across the water pipe and partially conducting to the inside of the water pipe are disposed at a position facing the magnetic flux of, and water passes through the water pipe. The magnetic flux and the electromotive current generated in the direction perpendicular to the direction of the flowing water are guided to the non-magnetic conductive metal plate, thereby causing electrons to act on the flowing water in the water pipe and being processed by the magnetic force of the permanent magnet. And the above-mentioned object is achieved.

On the other hand, a water activating device according to the present invention comprises a water pipe, at least one pair of permanent magnets disposed with the water pipe being separated and having an N pole and an S pole opposed to each other; A pair of non-magnetic conductive metal plates which are disposed at positions facing the magnetic flux therebetween and opposed to each other with the water pipe being interposed therebetween, and a part of which is electrically connected to the inside of the water pipe, the water pipe, and a permanent magnet And a housing for accommodating the non-magnetic conductive metal plate.

In the apparatus according to the present invention, the non-magnetic conductive metal plate is made of a high-potential metal or is formed as a composite plate in which a high-potential metal plate and a low-potential metal plate are superposed and joined. In the case of this composite plate, a metal plate having a high potential is disposed so as to be located on the water pipe side.

In the apparatus according to the present invention, the conduction between the non-magnetic conductive metal plate and the inside of the water pipe is established by setting up an electrode rod on the non-magnetic conductive metal plate and fitting the electrode rod into a through hole formed in the water pipe. Can be performed.

[0008]

Next, the principle of the method for activating water according to the present invention will be described with reference to FIG. In FIG. 1, reference numerals 1 and 1 denote permanent magnets disposed in a state where an N-pole side 1a and an S-pole side 1b face each other and are separated from each other, and 2 and 2 denote permanent magnets 1 and 1, respectively. The non-magnetic conductive metal plates are shown in a position facing the magnetic flux in the direction indicated by the broken arrow 3 between them and separated from each other like the two permanent magnets.

In the case where the permanent magnet and the non-magnetic conductive metal plate are arranged as described above, when water to be treated flows in the direction surrounded by these members in the direction of the solid arrow 4, an electromotive current is generated. However, this electromotive force is perpendicular to the direction 3 of the magnetic flux and the direction 4 of the flow of the water to be treated, that is,
As shown by the arrow, it flows in a direction perpendicular to the plane of the nonmagnetic conductive metal plates 2 and 2.

The intensity of the electromotive current is proportional to the magnetic flux density, the electrode distance, and the flow velocity, and can be expressed by the following equation. E = K · BdV E: electromotive current, K: constant, B: magnetic flux density, d: electrode distance,
V: water flow rate

The electromotive force is induced to cause no discharge loss, and the electrons generated by the charging are efficiently released into flowing water (see arrows 6 and 6 in FIG. 1). Is a non-magnetic conductive metal plate described above, and accordingly, a single-layer plate of a metal having a high potential, for example, copper, is selected as a material. In order to further increase the electron emission efficiency, a high-potential metal plate and a low-potential metal plate are superposed and joined to form a composite plate, and the high-potential metal plate is arranged so as to face the flowing water. You. This is because, in this case, a metal with a higher potential becomes more noble and a metal with a lower potential becomes more noble due to the so-called "contact cell action", and thus the emission of electrons is promoted. In addition, as a combination of the metal which comprises such a composite board, copper (Cu) -aluminum (Al),
Silver (Ag) -nickel (Ni) can be exemplified.

The electrons released into flowing water are water molecules (H 2
O) because oxygen constituting a part of it is an electron acceptor,
This oxygen is charged to increase the dipolarity of water and widen the bonding angle of hydrogen atoms, thereby increasing the aggregation density between water molecules, reducing clusters and lowering the redox potential.

At the same time, the electrons emitted into the running water are electrolyzed [H 2 O → (H ++ e-) + O
H], thereby forming hydroxyl radicals and weakly alkalizing the water to be treated.

As described above, in the method of the present invention, a well-known magnetic force and an electron are applied to the flowing water to be treated, electrons are applied, and the water is activated by a synergistic action. .

[0015]

FIG. 2 (longitudinal longitudinal section) and FIG. 3 (transverse section) illustrating an embodiment of a water activating device according to the present invention. The invention will be specifically described. The water activating device 10 according to the present invention includes a housing 12, a water pipe 14 formed as an inner cylinder of the housing and having flanges at both ends, and a water gap between the housing and the water pipe. , Three pairs of permanent magnets 16 (16
a-16f) so as to face the gap between the housing and the water pipe similarly to the permanent magnet and across the water pipe, except that the permanent magnet 16 is in the vertical position in FIG. A pair of non-magnetic conductive metal plates 18 (18a and 18b) disposed at left and right positions. In this embodiment, each nonmagnetic conductive metal plate is configured as a composite plate in which a copper plate and an aluminum plate are overlapped and joined together, and the copper plate surface faces the water pipe 14 side.
1 (181 a and 181 b) are erected, and the carbon rods are fitted in through holes formed in the water pipe, and thus each non-magnetic conductive metal plate 18 is in conduction with the inside of the water pipe 14. .

Test Examples and Comparative Test Examples A water activation device (10) according to the present invention shown in FIGS. 2 and 3 and a commercially available magnetic water activation device incorporating a magnet having the same magnetic flux density as the device. Water treatment was carried out using the apparatus (X) and according to the procedures and equipment shown in FIG. 4, and the half width, the redox potential and the pH of the nuclear magnetic resonance frequency of the treated water were measured.

That is, the tap water 3 as the water to be treated is stored in the water tank 30.
2 is stored in a volume of 300 liters, and a polyvinyl chloride pipe 34 is piped. A pump 36 and a water activating device (10) according to the present invention or a commercially available magnetic water activating device (X) are provided in the pipe. The untreated water as a control, the untreated water that has been passed through the above-mentioned water activating device, and the treated water that has been circulated through the water activating device for 10 minutes are collected and measured for the above items. went.

The specifications of the equipment shown in FIG. 4 were as shown in Table 1 below.

The specifications of the water activating device 10 according to the present invention are as shown in Table 2 below.

The measurement results were as shown in Tables 3 to 5 below.

As shown in the above Tables 3 to 5, the half-width of the nuclear magnetic resonance frequency is only slightly reduced in the commercially available water activating device, but the water activity according to the present invention is reduced. According to the gasifier, only one pass reduced the frequency from 135 Hz to 92 Hz to about 68%.
2 Hz, which is about 54%. The smaller the numerical value related to the nuclear magnetic resonance oscillation, the smaller the cluster of water and the higher the molecular movement.

On the other hand, the oxidation-reduction potential hardly decreases with a commercially available water activating device, but according to the water activating device according to the present invention, it decreases from 261 mV to 211 mV in one pass to about 81%, and 96 mV when circulated for 10 minutes. About 37
%, Which means that the water to be treated absorbs the electrons and the reducing power is improved, and the bipolarity is increased.

Furthermore, the pH of the untreated water is 7.2, whereas that of the untreated water is 7.3-7.4 when treated with a commercially available water activating device, whereas the pH of the water activating according to the present invention is 7.2. When treated by the apparatus, the ratio is 7.6 to 7.7, which is further changed to an alkaline side, which means that the generation of hydroxyl radicals, that is, the degree of electrolysis of water is high.

[0024]

According to the present invention, water is activated by the synergistic action of magnetic force and electrons, and as a result, water having a much higher degree of activation than the activation method using only magnetic force is obtained. Will be. Activated water, as is well known per se,
It produces the following physical, electrochemical and biological effects.

Physical effects: The water is boiled quickly because of its low density, regular molecular arrangement, and therefore good taste, and improved thermal conductivity. The permeability is increased and the wetting phenomenon becomes more pronounced, thus increasing the cleaning effect.

Electrochemical effect: Since the bipolarity is increased, an effect similar to anionic surfactant is exhibited, so that it is easy to form micelles with a hydrophobic substance, thereby enabling emulsification of the hydrophobic substance. Since it has a reducing power and high energy, it deprives hydrogen of iron hydroxide, which causes red rust in water pipes, and dilutes ferrous oxide (Fe2O) which is a black solid iron oxide.
3) Stop the progress of corrosion because it is made of ferric tetroxide (Fe3O4). In addition, since calcium hydroxide and magnesium hydroxide have the same effect, the water pipe has an effect of preventing blockage.

Biological effect: Since the permeability of the living body to the semipermeable membrane is increased, the absorption of water into the cells becomes active and the metabolism is promoted. No good hair root penetration of plants (increased osmotic pressure)
We support growth. Emulsifies hydrophobic foods to aid digestion and promote gastrointestinal absorption.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram showing the principle of a method for activating water according to the present invention.

FIG. 2 is a longitudinal cross-sectional view of a water activation device according to the present invention.

FIG. 3 is a transverse sectional view taken along the line III-III in FIG.

FIG. 4 is a schematic diagram showing an outline of equipment used in a test example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Permanent magnet 1a N pole side 1b S pole side 2 Nonmagnetic conductive metal plate 3 Direction of magnetic flux 4 Direction of flowing water 5 Direction of electromotive current 6 Direction of emitting electrons 10 Water activating device 12 Housing 14 Water passage 16 Permanent Magnet 18 Non-magnetic conductive metal plate 181a, 181b Carbon rod 30 Water tank 32 Water to be treated 34 Piping 36 Pump X Commercial magnet type water activation device

 ──────────────────────────────────────────────────の Continued on the front page (72) Inventor Possession Tadashi 4-39-3 Oyabe, Yokosuka City, Kanagawa Prefecture

Claims (5)

[Claims] At least one of an N-pole and an S-pole is opposed to each other.
A pair of permanent magnets are disposed with the water pipe separated by a water pipe, and a pair of non-magnetic members facing the magnetic flux between the permanent magnets, facing each other across the water pipe, and a part of which is electrically connected to the inside of the water pipe. A conductive metal plate is provided, and the magnetic flux and the electromotive current generated in a direction orthogonal to the direction of flowing water by water passing through the water pipe are guided to the non-magnetic conductive metal plate, thereby causing electrons to flow in the water pipe. A water activation method, wherein the treatment is performed by magnetic force of the permanent magnet. 2. A water pipe, at least one pair of permanent magnets disposed with the water pipe separated and with an N pole and an S pole facing each other, and at a position facing a magnetic flux between the permanent magnets and A pair of non-magnetic conductive metal plates, which are disposed to face each other with a water pipe interposed therebetween and partially communicate with the inside of the water pipe, accommodate the water pipe, the permanent magnet, and the non-magnetic conductive metal plate. An apparatus for activating water, comprising a housing. 3. The water activating device according to claim 2, wherein the nonmagnetic conductive metal plate is made of a metal having a high electric potential. 4. The non-magnetic conductive metal plate is a composite plate in which metal plates having different potentials are overlapped and joined, and the metal plate having a higher potential is located on the water pipe side. 4. The water activation device according to 3. 5. The non-magnetic conductive metal plate is electrically connected to the inside of the water pipe through a rod electrode passing through the through hole formed in the water pipe. An apparatus for activating water according to any one of the preceding claims.