JPWO2015121896A1 - Potential fluctuation type material denaturing equipment - Google Patents

Abstract

The present invention exposes substances to be denatured such as water, liquid fuel, animals, fibers, plants, fish, soil, metals, etc., to a variable electric field, thereby reducing the consumption of various substances with less energy consumption without requiring a power supply device. Denature or improve physical properties with high efficiency. In the present invention, one output terminal of the LC resonance circuit is grounded, and the other non-grounded output terminal is connected to a conductive electrode plate that is insulated from the ground, and is induced to the LC resonance circuit by an external electromagnetic wave. The induced electromotive force v ′ is applied between the grounded output terminal and the non-grounded output terminal, the electric potential of the electrode plate made of the conductor is changed by the induced electromotive force v ′, and the electric field is changed. A substance to be modified placed in contact with or near a body electrode plate is exposed to the fluctuating electric field to denature its physical properties.

Description

  The present invention generates weak potential fluctuations and electric field fluctuations in a conductive electrode plate using external electromagnetic waves existing in space, and atoms and molecules of a substance brought into direct or indirect contact with the conductive electrode plate and The present invention relates to a novel power-less material modification method that changes the physical properties of substances by affecting the vibration and movement of electrons. Improvement of light conversion rate, improvement of emissivity of far-infrared radiation, water activation, liquid fuel reforming, gas activation, soil activation, fertilizer activation, durability of natural materials such as paper and wood The present invention relates to a non-power-source material modification method that can improve, improve the fermentation rate in brewing, prevent metal corrosion, prevent bad odor, and improve the stiffness and pain of the human body.

  It has been demonstrated that activating water can promote chemical reactions and organic matter decomposition, shorten brewing fermentation and ripening time, prevent food spoilage, promote plant growth, and improve food taste. The material modification (reforming) technique using the water activation technique is widely used in practice. Similarly, by modifying a low-quality fuel such as heavy oil or light oil (reforming treatment), the combustion performance and the calorific value can be improved, and this technology is widely put into practical use.

For example, the water activation technology includes (a) a device that absorbs far-infrared radiation emitted from a far-infrared radiator into water, (b) a device that magnetizes water using a magnetizing device, and (c) dissolves minerals in water. Then, an apparatus (Japanese Patent Laid-Open No. 5-337475) for applying an alternating electromagnetic field to the mineral-dissolved water has been developed.
Also, a device for reforming fuel to increase the heat generation amount by passing heavy oil or light oil into a high-frequency magnetic field or electric field and increasing the energy level of its constituent molecules or atoms (Japanese Patent Laid-Open No. Hei 5-98272, JP-A-8-187428, JP-A-2011-183377, etc.), an apparatus that generates a high-temperature multi-arc between the electrode and the processed material, and modifies and alters the substance by a vibration energy field that generates the multi-arc No. 6-55180) has been developed.

FIG. 5 shows an outline of the reformer using the multi-arc, in which the object to be treated (water) W is filled in the treatment tank T, and the multi-arc M is provided at the tip of the carbon electrode rod B. The object to be treated (water) W is modified by the action of the vibration energy of the multi-arc M and the electrons, carbon atoms, carbon ions, etc. emitted from the carbon electrode rod B.
In FIG. 5, T is a treatment tank body, W is an object to be treated (water), B is a carbon electrode, M is a multi-arc, P is a partition plate, L is a porous double-walled container, Q is an activated substance ( (Charcoal, activated carbon), Wi is a water inlet, Wo is a treated water outlet, and AC is a three-phase AC power source.

  However, the above-mentioned conventional material reforming techniques require a low material reforming level (for example, water activation level) and a large-capacity power supply facility and processing equipment. Problems remain, such as inability to perform reforming treatment, b) downsizing of equipment required for reforming, difficulty in reducing power and equipment costs, and long time required for reforming. Has been.

JP-A-5-337475 Japanese Patent Laid-Open No. 5-98272 JP-A-8-187428 JP 2011-183377 A JP-A-6-55180

  The present invention is intended to solve the above-described problems in the material modification (reformation) treatment apparatus such as the activation of water and the reforming of fuel oil. Highly efficient material modification (for example, water and liquid fuel modification, fiber modification, soil and air gas modification, food spoilage prevention and freshness retention modification, metal oxidation, etc.) The main object of the present invention is to provide a method for modifying a non-power source material having a simple structure so that modification of prevention can be performed.

  According to the first aspect of the present invention, one output terminal of the LC resonance circuit is grounded, and the other non-grounded output terminal is connected to a conductive electrode plate installed insulated from the ground, and the LC resonance circuit is externally connected. An induced electromotive force v ′ induced by an electromagnetic wave is applied between the ground side output terminal and the non-ground side output terminal, and the electric field fluctuation is generated by changing the potential of the conductive electrode plate by the induced electromotive force v ′. The basic constitution of the present invention is to modify the physical properties by exposing the substance to be modified placed on the electrode plate made of a conductor to the electric field fluctuation.

  According to a second aspect of the present invention, in the first aspect of the present invention, the rectification for preventing the flow of current from the LC resonant circuit side to the conductive electrode plate between the LC resonant circuit and the other non-grounded output terminal. An element is provided.

  According to a third aspect of the present invention, in the second aspect of the invention, the electrode plate made of a conductor from the ground side of the LC resonance circuit between the non-ground side output terminal side of the rectifying element and the ground side output terminal of the LC resonance circuit. A second rectifying element is provided to prevent current flow to the.

  The invention of claim 4 is the invention of claim 1, claim 2 or claim 3, wherein the LC resonance circuit is either an LC parallel resonance circuit or an LC series resonance circuit.

  The invention of claim 5 is the invention of claim 1, claim 2 or claim 3, wherein the conductive electrode plate is a conductive electrode plate made of rubber or plastic containing metal or metal powder.

  The invention of claim 6 is the invention of claim 1, claim 2 or claim 3, wherein the rectifying element is a PN diode.

  The invention of claim 7 is the invention of claim 1, claim 2 or claim 3, wherein the resonance frequency of the LC resonance circuit for the external electromagnetic wave is 2 kHz to 2000 kHz.

  The invention of claim 8 is the structure of the invention of claim 1, claim 2 or claim 3, wherein a far-infrared radiator layer is provided on the upper surface side of the conductive electrode plate.

  The invention of claim 9 is the invention of claim 8, wherein the far-infrared radiator layer is made of a ceramic sintered body or rubber or plastic mixed with ceramics.

  The invention of claim 10 is the invention of claim 1, claim 2 or claim 3, wherein the conductive electrode plate is supported and fixed by an insulating material.

  The invention of claim 11 is the invention of claim 1, claim 2 or claim 3, wherein the substance to be modified is water, fresh food, fish, meat, edible oil, fuel oil, engine oil, alcohol, liquor, fiber, Any one or more of wood, paper, clothing, plants and animals.

  In the present invention, one output terminal of the LC resonance circuit is grounded, and the other non-grounded output terminal is connected to a conductive electrode plate installed insulated from the ground, and induced to the LC resonance circuit by an external electromagnetic wave. The induced electromotive force v ′ is applied between the grounded output terminal and the non-grounded output terminal, the electric potential of the electrode plate made of the conductor is changed by the induced electromotive force v ′, and the electric field is changed. A substance to be modified placed in contact with a body electrode plate or disposed in the vicinity of a conductor electrode plate is exposed to the fluctuating electric field to denature its physical properties.

  That is, in the LC resonance circuit, a high-frequency electromotive force v ′ is induced by an external electromagnetic wave existing in the external space, and the induced electromotive force v ′ is applied to the conductive electrode plate, whereby the conductive electrode plate And the electric field on the surface of the conductive electrode plate and the vicinity thereof fluctuate, and the conductive electrode plate and the substance to be modified placed thereon are exposed to the variable electric field.

  Further, in the case where the rectifying element according to claim 2 or 3 is provided, a potential fluctuation in the negative direction is applied to the electrode plate made of the conductor, and electrons are supplied from the LC resonance circuit to the electrode plate made of the conductor. In addition, the number of electrons on the electrode plate made of conductor increases, and when no potential fluctuation in the negative direction is applied, a part of the electrons disappears due to discharge, thereby causing a potential fluctuation in the negative direction on the electrode plate made of conductor. become.

When the electric field fluctuates due to potential fluctuations in the electrode plate made of the conductor, fluctuations occur in the outer electron orbit of the atoms of the material constituting the electrode plate made of the conductor, and the quantum based on the proton (plus ion) vibration generated thereby. A wave will be emitted. As a result, the vibration of the molecules and atoms of the conductive electrode plate and the far-infrared radiator layer fixed to the electrode plate becomes intense.
Similarly, when the electric field in the vicinity of the electrode plate made of a conductor fluctuates due to potential fluctuation, the modified substance will be exposed to the fluctuating electric field, and the group of molecules and atoms constituting the modified substance repeatedly vibrate. In the case of water or liquid, the physical properties of the substance to be modified are modified (modified) due to the cluster becoming smaller.

Specifically, when the frequency of the induced electromotive force v ′ of the LC resonance circuit resonates with the vibration of the electrode plate made of a conductor or the molecule or atom of the substance to be modified, the modification of the substance to be modified, such as activation, is promoted. This modifies (modifies) the physical properties of the substance to be modified.
In addition, addition of electrons due to electric field fluctuations in the negative direction increases the reducibility of moisture and the like in the substance to be modified, and prevents oxidation of the substance.

  Furthermore, when a far-infrared radiator layer is provided on the upper surface of the electrode plate made of a conductor, the energy emissivity of the far-infrared radiator layer is increased to increase the amount of energy radiation, and the heat generated by absorption of far-infrared radiation energy. Due to the movement, the group of molecules and atoms composing the material to be modified is repeatedly vibrated. Thus, the far-infrared radiant energy is added in synergy with the electric field fluctuation, whereby the property modification (modification) action of the substance to be modified is enhanced.

For example, by adding electrons to the substance, the reducibility of the substance is increased, the oxidation of the substance is controlled, and the durability thereof is improved. As a result, the freshness of the substance can be kept high over a long period of time.
In addition, in the case of fuel oil and the like, double bonds and triple bonds of unsaturated aliphatic carbon are cleaved by addition of electrons, and hydrogen can be added to form a single bond. Complete combustion is possible.

Furthermore, in the case of water or the like, the oxidation-reduction potential can be easily reduced to the negative side by adding a large amount of free electrons, and a large amount of reduced water useful for health can be produced at low cost.
In addition, even natural materials such as paper, wood, and fibers can easily add electrons, thereby improving durability and heat retention.

By adding electrons to the plant, photosynthesis is promoted and the growth of the plant is accelerated, and oxidation is controlled, so that the freshness retention period and the storage period can be extended.
In addition, by adding electrons to animal meat, the progress of living aging of livestock and food animals is stagnated to improve health, and in the case of meat, the freshness of the meat can be maintained for a long time. it can.

  As described above, the non-powered substance modification method according to the present invention has a high modification action on any substance without requiring a power supply apparatus and even if the substance is solid, liquid, or gas. And its high utility has been confirmed by actual operation tests.

However, the theoretical analysis of the denaturation action of the power-less material modification method according to the present invention, that is, the modification or modification of the physical properties of the substance, has not been sufficiently performed.
Therefore, although there are many unclear points at present, there are many unclear points regarding the cause, action, and mechanism of substance modification or modification performed by the power-less substance modification method due to electric field fluctuations. The non-power-source type material modification method according to the present invention is practically used in practice and has high practical utility.

  Further, more effective modification or modification can be achieved by appropriately selecting the resonance frequency of the LC resonance circuit in accordance with the type of the substance to be modified and the type of physical property to be modified.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block system diagram showing a first embodiment of a non-powered substance modification method according to the present invention. It is explanatory drawing which shows 2nd Embodiment of this invention. It is explanatory drawing which shows 3rd Embodiment of this invention. It is explanatory drawing which shows 4th Embodiment of this invention. It is a general | schematic explanatory drawing of the conventional substance modification | denaturation apparatus (water activation processing apparatus).

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block system diagram showing a first embodiment of a power-less material modification method according to the present invention. Water, fresh food, fish, meat, edible oil, fuel oil, engine oil, alcohol, liquor, fiber , Wood, paper, clothing, plant, animal, one or more (hereinafter referred to as a substance to be modified) physical properties are modified or modified.

  Referring to FIG. 1, a non-powered material modification method according to the present invention includes an LC resonance circuit 10 corresponding to a transmitter that outputs an induced electromotive force of a predetermined frequency using spatial electromagnetic waves in an external space, a lead Using a material modification provided with a conductor electrode plate 4 connected to this via a wire 7, a modification (modification) treatment of the non-modified material is performed. In FIG. 1, the conductive electrode plate 4 is contacted and fixed to the modified material 8 by loading the modified material 8 on the upper surface side of the conductive electrode plate 4. The modified substance 8 may be disposed and fixed in the vicinity of the conductor electrode plate 4.

  One connection point 9a of the LC resonance circuit 10 is connected to the non-ground side output terminal 2a, and the other connection point 9b of the LC resonance circuit 10 is connected to the ground side output terminal terminal 2b. . The terminal 2b is grounded 6, and the LC resonance circuit 10 and the like are accommodated in a case 1a through which spatial electromagnetic waves can freely flow.

  The LC resonance circuit 10 resonates with an external electromagnetic wave existing in an external space having a frequency of 2 KHz to 2000 KHz by varying the capacitance C, and induces an alternating voltage v ′ having the resonance frequency. Then, an induced electromotive force (alternating voltage) v ′ having the resonance frequency is output between the non-ground side output terminal 2 a and the ground side output terminal terminal 2 b.

In FIG. 1, an LC parallel resonance circuit is used as the LC resonance circuit 10, but an LC series resonance circuit as shown by a dotted line in FIG. 1 may be used instead.
In FIG. 1, 1 is a transmitter mainly composed of an LC resonance circuit 10, 1a is a case, 4a is a terminal, 5 is a support made of an insulator, 6 is a grounding point, 7 is a lead wire, and 8 is a substance to be modified. , V ′ is an alternating voltage of the resonance frequency, i is a current caused by an induced electromotive force (alternating voltage) v ′, R is a safety resistance, and C ′ is a stray capacitance.

When the LC resonance circuit 10 is tuned, an induced electromotive force (alternating voltage) v ′ of the resonance frequency is generated between the terminals 2a and 2b, and through the lead wire 7, the conductor electrode plate 4, and the stray capacitance C ′, An alternating current i circulates.
In addition, when the alternating current i flows through the electrode plate 4 made of the conductor, the electric potential fluctuates and the electric field fluctuates. As a result, the physical properties of the substance to be modified 8 are modified such as activation as described above. Will receive.
It has been confirmed that the optimum resonance frequency of the LC resonance circuit 10 is about 2 KHz to 2000 KHz. Further, since the transmitter 1 itself mainly composed of the LC resonance circuit 10 is known, detailed description thereof is omitted here.

  FIG. 2 shows a second embodiment of the present invention, in which a PN diode 3 is provided between the connection point 9a of the LC resonance circuit 10 and the non-grounded output terminal 2a in FIG. The current i of a half-wave rectified waveform flows from the conductor electrode plate 4 to the LC resonance circuit 10 through the lead wire 7 so that no current flows from the lead wire 7 to the conductor electrode plate 4. Is.

  FIG. 3 shows a third embodiment of the present invention. Using two PN diodes 3, the current i flowing from the conductive electrode plate 4 to the LC resonance circuit 10 is converted into a full-wave rectified waveform. Only the points described above are different from the embodiment of FIG.

  In FIGS. 2 and 3, contrary to the flow direction of the current i, electrons e flow from the LC resonance circuit 10 to the conductive electrode plate 4 through the lead wire 7, and the conductive electrode plate 4. The amount of electrons (negative charge) fluctuates in the increasing direction, and thereby the negative potential of the electrode plate 4 made of the conductor fluctuates.

  Further, since the current flow is blocked by the PN-type diode 3, a part of the negative charge (electrons) disappears due to the discharge while the electrons e are not supplied to the conductor electrode plate 4 through the lead wires 7. Since the amount of electrons decreases, the negative potential of the conductor electrode plate 4 also varies.

  As described above, the fluctuation of the negative potential generated in the conductor electrode plate 4, that is, the fluctuation of the amount of electrons inevitably causes the potential fluctuation or electric field fluctuation of the conductor electrode plate 4. As a result, the conductive electrode plate 4 exposed to the variable electric field and the electron arrangement of atoms constituting the material to be modified 8 are affected and changed, and the addition of electrons as described above causes For example, in the case of moisture, the physical properties are denatured, the reducibility is increased and the oxidation of the substance is controlled, and as a result, the alteration and corrosion of the substance are prevented.

  Regarding the point that the electric potential fluctuation or electric field fluctuation of the electrode 4 made of the conductor denatures or modifies the physical properties of the substance 8 to be modified, as described above, it cannot be said that it has been theoretically completely clarified at present. is there. However, effects such as modification or modification of physical properties have been actually confirmed by tests and experiments.

  The LC resonance resonance circuit having a resonance frequency of 2 Khz to 2000 Khz and a maximum transmission output of 2 watts is used, and the conductive electrode plate 4 is made of a rubber plate kneaded with metal powder (150 mm × 300 mm × 10 mm (thickness)). On top of this, 2000 cc of water was placed in a synthetic resin bag and loaded horizontally, and after 60 minutes of denaturation treatment, the progress of water decay was investigated. The average power was 1.5 watts.

  As a result of comparing the progress of decay between the water subjected to the above modification treatment and the water not subjected to the modification treatment, a slight odor or turbidity appears within 5 to 10 days in the latter (non-denatured treated water). In contrast, the former (denatured water) has been confirmed to have no abnormality in odor and turbidity even after 10 to 20 days. The raw water used for the test is the same tap water.

The LC resonance resonance circuit having a resonance frequency of 2 Khz to 2000 Khz and a maximum transmission output of 2 watts is used, and the conductive electrode plate 4 is made of stainless steel (300 mm × 300 mm × 100 mm (depth), which is 30 mm in diameter and long It was horizontally supported using four mica insulator gantry 5 having a thickness of 300 mm, and 2000 cc of heavy fuel oil A was put into the conductor support 4 and subjected to modification treatment for about 40 minutes. The average output of the LC resonant resonance circuit 10 in the middle was 1.5 watts.
After completion of the modification treatment, the calorific values of the treated A heavy oil and the unmodified A heavy oil were measured. As a result, it was confirmed that the calorific value of A heavy oil was improved by about 0.4 to 0.6% by the reforming treatment.

  FIG. 4 shows a fourth embodiment of the present invention, in which the conductor electrode plate 4 in FIG. 1 is disposed on the one surface side (upper surface side) of the titanium alloy metal plate electrode 4 with a far-infrared ray separator layer. 4b is formed. In addition, the other structure of the said 4th Embodiment is completely the same as that of the case of 1st Embodiment except the structure of the electrode plate made from a conductor. Of course, the electrode plate 4 of the fourth embodiment may be applied to the second to third embodiments.

  When the electrode 4 on which the far-infrared radiator layer 4b is formed is used, the so-called far-infrared effect due to the activation of the far-infrared radiator layer itself is caused by the exposure of the electrode 4 to the variable electric field. As a result, the denaturing action on the substance to be modified is further promoted and a high degree of denaturation can be obtained.

  As described above, the present invention can efficiently modify or modify the physical properties of any substance to be modified 8 by generating potential fluctuations or electric field fluctuations in the electrode 4 made of the conductor, and has excellent practical utility. It is.

  The present invention is applicable not only to water and food products but also to all industrial fields such as agriculture, livestock industry, brewing industry, textile industry, metal industry, chemical industry, pharmaceutical industry, fuel industry, medical industry, etc. is there.

DESCRIPTION OF SYMBOLS 1 Transmitter 1a Case 2a Non-ground side output terminal 2b Ground side output terminal 3 PN type diode 4 Conductor electrode plate 4a Terminal 4b Far-infrared radiator layer 5 Insulator support base 6 Grounding point 7 Lead wire 8 Modified substance 9a connection point 9b connection point 10 LC resonance circuit (LC parallel resonance circuit or LC series resonance circuit)
e Electron i Current v 'Induced electromotive force C Capacitance C' Stray capacity L Coil R Safety resistance

  The present invention generates weak potential fluctuations and electric field fluctuations in a conductive electrode plate using external electromagnetic waves existing in space, and atoms and molecules of a substance brought into direct or indirect contact with the conductive electrode plate and The present invention relates to a novel power-less material modification method that changes the physical properties of substances by affecting the vibration and movement of electrons. Improvement of light conversion rate, improvement of emissivity of far-infrared radiation, water activation, liquid fuel reforming, gas activation, soil activation, fertilizer activation, durability of natural materials such as paper and wood The present invention relates to a non-power-source material modification method that can improve, improve the fermentation rate in brewing, prevent metal corrosion, prevent bad odor, and improve the stiffness and pain of the human body.

  It has been demonstrated that activating water can promote chemical reactions and organic matter decomposition, shorten brewing fermentation and ripening time, prevent food spoilage, promote plant growth, and improve food taste. The material modification (reforming) technique using the water activation technique is widely used in practice. Similarly, by modifying a low-quality fuel such as heavy oil or light oil (modification treatment), combustion performance and calorific value can be increased, and it is widely put into practical use.

For example, the water activation technology includes (a) a device that absorbs far-infrared radiation emitted from a far-infrared radiator into water, (b) a device that magnetizes water using a magnetizing device, and (c) dissolves minerals in water. Then, an apparatus (Japanese Patent Laid-Open No. 5-337475) for applying an alternating electromagnetic field to the mineral-dissolved water has been developed.
Also, a device for reforming fuel to increase the heat generation amount by passing heavy oil or light oil into a high-frequency magnetic field or electric field and increasing the energy level of its constituent molecules or atoms (Japanese Patent Laid-Open No. Hei 5-98272, JP-A-8-187428, JP-A-2011-183377, etc.), an apparatus that generates a high-temperature multi-arc between the electrode and the processed material, and modifies and alters the substance by a vibration energy field that generates the multi-arc No. 6-55180) has been developed.

FIG. 4 shows an outline of the reformer using the multi-arc. The processing tank (T) is filled with an object to be treated (water) W, and the multi-arc M is provided at the tip of the carbon electrode rod B. The object to be treated (water) W is modified by the action of the vibration energy of the multi-arc M and the electrons, carbon atoms, carbon ions, etc. emitted from the carbon electrode rod B.
In FIG. 4 , T is a treatment tank body, W is an object to be treated (water), B is a carbon electrode, M is a multi-arc, P is a partition plate, L is a porous double-walled container, and Q is an activated substance ( (Charcoal, activated carbon), Wi is a water inlet, Wo is a treated water outlet, and AC is a three-phase AC power source.

  However, the above-mentioned conventional material reforming techniques require a low material reforming level (for example, water activation level) and a large-capacity power supply facility and processing equipment. Problems remain, such as inability to perform reforming treatment, b) downsizing of equipment required for reforming, difficulty in reducing power and equipment costs, and long time required for reforming. Has been.

JP-A-5-337475 Japanese Patent Laid-Open No. 5-98272 JP-A-8-187428 JP 2011-183377 A JP-A-6-55180

  The present invention is intended to solve the above-described problems in the material modification (reformation) treatment apparatus such as the activation of water and the reforming of fuel oil. Highly efficient material modification (for example, water and liquid fuel modification, fiber modification, soil and air gas modification, food spoilage prevention and freshness retention modification, metal oxidation, etc.) It is a main object of the present invention to provide a simple power-less material modification method having a structure capable of performing modification of prevention).

According to the first aspect of the present invention, there is provided an LC parallel circuit having a resonance frequency of 2 kHz to 2000 kHz with one output terminal grounded, and one end connected in series to the other non-ground side terminal of the LC parallel circuit. A rectifying element for blocking outflow of current, and connecting a lead wire to an output terminal of a power supply device that outputs an induced electromotive force v ′ induced in the LC parallel circuit by an external electromagnetic wave with the other end of the rectifying element as an output terminal. A conductor support made of stainless steel or titanium alloy, which is contact-fixed to the material to be treated, and a conductor support by applying an output voltage from the power supply device to the conductor support The electric potential of the body is changed to a negative potential to generate a fluctuating electric field, and the outer shell electrons of the atoms constituting the denatured substance are exposed to the fluctuating electric field by exposing the support made of the conductor and the denatured substance in contact with the support. Giving a change in electronic way varied the amount of electrons, by strengthening the vibrations of molecules and atoms constituting the target modified material with the addition of electrons to be modified substance, the denaturing the physical properties of the substance to be treated This is a basic configuration of the invention.

The invention of claim 2 is the invention of claim 1 , wherein the rectifier element is a PN type diode.

According to a third aspect of the present invention, in the first aspect of the invention, a far-infrared radiator layer is provided on the surface of the conductive electrode plate facing the substance to be modified.

According to a fourth aspect of the present invention, in the first aspect of the invention, the conductive electrode plate is supported and fixed by an insulating material.

The invention of claim 5 is the invention of claim 1 , wherein the substance to be modified is water, fresh food, fish, meat, edible oil, fuel oil, engine oil, alcohol, liquor, fiber, wood, paper, clothing, plant, One of the animals.

In the present invention, an LC parallel circuit having a resonance frequency of 2 kHz to 2000 kHz with one output terminal grounded, and one end connected in series to the other non-ground side terminal of the LC parallel circuit, current flows out of the LC parallel circuit The output terminal of the power supply apparatus that outputs the induced electromotive force v ′ induced in the LC parallel circuit by an external electromagnetic wave with the other end of the rectifier element as an output terminal is connected to the output terminal of the power supply device via a lead wire. By connecting a support made of stainless steel or titanium alloy, which is fixed in contact with the treatment substance, and applying the output voltage from the power supply device to the support made of conductor, the potential of the support made of conductor A negative electric potential that fluctuates, generates a fluctuating electric field, and exposes the conductive support and the substance to be modified in contact with the electric conductor to the fluctuating electric field to form the outer electron orbit of atoms constituting the substance to be modified Giving change in the electron varying the amount of electrons, by strengthening the vibrations of molecules and atoms constituting the target modified material with the addition of electrons to be modified substances, so that denature the physical properties of the substance to be treated .

That is, in the LC parallel circuit, a high-frequency electromotive force v ′ is induced by an external electromagnetic wave existing in the external space, and a rectified voltage (negative potential) of the induced electromotive force v ′ is applied to the conductor electrode plate. As a result, the electric potential of the conductive electrode plate fluctuates slightly and the electric field on the surface of the conductive electrode plate and the vicinity thereof fluctuate. Will be exposed.
In addition, when a negative potential fluctuation is applied to the conductive electrode plate, electrons are supplied from the LC parallel circuit to the conductive electrode plate, the number of electrons on the conductive electrode plate increases, and a negative potential fluctuation occurs. When the voltage is not applied, a part of the electrons disappears due to the discharge, which causes a negative potential fluctuation in the conductive electrode plate.

When the electric field fluctuates due to potential fluctuations in the electrode plate made of the conductor, fluctuations occur in the outer electron orbit of the material atoms that make up the electrode plate made of the conductor, and quantum waves based on proton (plus ion) vibrations generated by this change. Will be emitted. As a result, the vibration of the molecules and atoms of the conductive electrode plate and the far-infrared radiator layer fixed to the electrode plate becomes intense.
Similarly, when the electric field in the vicinity of the electrode plate made of a conductor fluctuates with potential fluctuation, the modified substance is also exposed to the fluctuating electric field, and the group of molecules and atoms constituting the modified substance repeatedly vibrate, for example, In the case of water or liquid, the physical properties of the substance to be modified are modified (modified) due to the cluster becoming smaller.

Specifically, when the frequency of the induced electromotive force v ′ of the LC parallel circuit resonates with the vibration of the conductive electrode plate or the molecule or atom of the substance to be modified, the modification of the substance to be modified, for example, activation is promoted. This modifies (modifies) the physical properties of the substance to be modified.
In addition, addition of electrons due to electric field fluctuations in the negative direction increases the reducibility of moisture and the like in the substance to be modified, and prevents oxidation of the substance.

  Furthermore, when a far-infrared radiator layer is provided on the upper surface of the electrode plate made of a conductor, the energy emissivity of the far-infrared radiator layer is increased to increase the amount of energy radiation, and the heat generated by absorption of far-infrared radiation energy. Due to the movement, the group of molecules and atoms composing the material to be modified is repeatedly vibrated. Thus, the far-infrared radiant energy is added in synergy with the electric field fluctuation, whereby the property modification (modification) action of the substance to be modified is enhanced.

For example, by adding electrons to the substance, the reducibility of the substance is increased, the oxidation of the substance is controlled, and the durability thereof is improved. As a result, the freshness of the substance can be kept high over a long period of time.
In addition, in the case of fuel oil and the like, double bonds and triple bonds of unsaturated aliphatic carbon are cleaved by addition of electrons, and hydrogen can be added to form a single bond. Complete combustion is possible.
Furthermore, in the case of water or the like, the oxidation-reduction potential can be easily reduced to the negative side by adding a large amount of free electrons, and a large amount of reduced water useful for health can be produced at low cost.
In addition, even natural materials such as paper, wood, and fibers can easily add electrons, thereby improving durability and heat retention.
By adding electrons to the plant, photosynthesis is promoted and the growth of the plant is accelerated, and oxidation is controlled, so that the freshness retention period and the storage period can be extended.
In addition, by adding electrons to animal meat, the progress of aging of livestock and edible animals is slowed and the health condition is improved, and in the case of meat, the freshness of the meat is maintained for a long time. Can do.

As described above, the power- less material modification method according to the present invention does not require a power source and exhibits a high modification action on all materials even if the material is solid, liquid, or gas. Yes, its high utility has been confirmed by actual operation tests.
However, the theoretical analysis of the denaturation action of the non-power-source type substance modification method according to the present invention, that is, the modification or modification of the physical properties of the substance has not been sufficiently performed yet.
Accordingly, there are many unclear points at present regarding the cause, action, and mechanism of the denaturation or modification of the substance produced by the non-powered substance modification method due to electric field fluctuations. However, the power-less material modification method according to the present invention has a high practical utility in practice.

  Further, more effective modification or modification can be achieved by appropriately selecting the resonance frequency of the LC parallel circuit according to the type of the substance to be modified and the type of physical property to be modified.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block system diagram showing a first embodiment of a non-powered substance modification method according to the present invention. It is explanatory drawing which shows 2nd Embodiment of this invention. It is explanatory drawing which shows 3rd Embodiment of this invention. It is a general | schematic explanatory drawing of the conventional substance modification | denaturation apparatus (water activation processing apparatus).

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block system diagram showing a first embodiment of a power-less material modification method according to the present invention. Water, fresh food, fish, meat, edible oil, fuel oil, engine oil, alcohol, liquor, fiber , Wood, paper, clothing, plant, animal, one or more (hereinafter referred to as a substance to be modified) physical properties are modified or modified.

  Referring to FIG. 1, a non-powered material modification method according to the present invention includes an LC parallel circuit 10 corresponding to a transmitter that outputs an induced electromotive force of a predetermined frequency using spatial electromagnetic waves in an external space, and a lead Using a substance denaturing apparatus provided with a conductor electrode plate 4 connected thereto via a wire 7, a denaturing (modifying) treatment of the non-denaturing substance is performed. In FIG. 1, the conductive electrode plate 4 is contacted and fixed to the modified material 8 by loading the modified material 8 on the upper surface side of the conductive electrode plate 4. The modified substance 8 may be disposed and fixed in the vicinity of the conductor electrode plate 4.

  One connection point 9a of the LC parallel circuit 10 is connected to the non-ground side output terminal 2a, and the other connection point 9b of the LC parallel circuit 10 is connected to the ground side output terminal 2b. The terminal 2b is grounded 6, and the LC parallel circuit 10 and the like are accommodated in a case 1a through which spatial electromagnetic waves can freely flow.

The LC parallel circuit 10 resonates with an external electromagnetic wave existing in an external space having a frequency of 2 KHz to 2000 KHz by varying the capacitance C, and induces an alternating voltage v ′ having the resonance frequency. Then, an induced electromotive force (alternating voltage) v ′ having the resonance frequency is output between the non-ground side output terminal 2a and the ground side output terminal 2b.
In FIG. 1, 1 is a transmitter mainly composed of an LC parallel circuit 10, 1a is a case, 4a is a terminal, 5 is an insulating support, 6 is a grounding point, 7 is a lead wire, and 8 is a substance to be modified. , V ′ is an alternating voltage at the resonance frequency, i is a current caused by an induced electromotive force (alternating voltage) v ′, R is a safety resistance, C ′ is a stray capacitance, and R0 is a ground resistance.

When the LC parallel circuit 10 is tuned, an induced electromotive force (alternating voltage) v ′ of the resonance frequency is generated between the terminals 2a and 2b, and the lead wire 7, the conductor electrode plate 4, the stray capacitance C ′ and the grounding are generated. An alternating current i flows through the resistor R0 and the like .
In addition, when the alternating current i flows through the electrode plate 4 made of the conductor, the electric potential fluctuates and the electric field fluctuates. As a result, the physical properties of the substance to be modified 8 are modified such as activation as described above. Will receive.
It has been confirmed that the optimum resonance frequency of the LC parallel circuit 10 is about 2 KHz to 2000 KHz. Further, since the transmitter 1 itself mainly composed of the LC parallel circuit 10 is known, a detailed description thereof is omitted here.

FIG. 2 shows a second embodiment of the present invention, in which a PN diode 3 is provided between the connection point 9a of the LC parallel circuit 10 and the non-grounded output terminal 2a in FIG. The current i of the half-wave rectified waveform flows from the conductor electrode plate 4 to the LC parallel circuit 10 through the lead wire 7 so that no current flows from the lead wire 7 through the lead wire 7 to the conductor electrode plate 4. Is.
Needless to say, the current i flowing from the conductive electrode plate 4 to the LC parallel circuit 10 may be made into a full-wave rectified waveform by using two PN diodes 3.

In FIG. 2 , contrary to the flow direction of the current i, electrons e flow from the LC parallel circuit 10 to the conductor electrode plate 4 through the lead wire 7, and the amount of electrons in the conductor electrode plate 4. (Negative charge) fluctuates in the increasing direction, whereby the negative potential of the electrode plate 4 made of the conductor fluctuates.

  Further, since the current flow is blocked by the PN-type diode 3, a part of the negative charge (electrons) disappears due to the discharge while the electrons e are not supplied to the conductor electrode plate 4 through the lead wires 7. Since the amount of electrons decreases, the negative potential of the conductor electrode plate 4 also varies.

  As described above, the fluctuation of the negative potential generated in the conductor electrode plate 4, that is, the fluctuation of the amount of electrons inevitably causes the potential fluctuation or electric field fluctuation of the conductor electrode plate 4. As a result, the conductive electrode plate 4 exposed to the variable electric field and the electron arrangement of atoms constituting the material to be modified 8 are affected and changed, and the addition of electrons as described above causes For example, in the case of moisture, the physical properties are denatured, the reducibility is increased and the oxidation of the substance is controlled, and as a result, the alteration and corrosion of the substance are prevented.

  Regarding the point that the electric potential fluctuation or electric field fluctuation of the electrode 4 made of the conductor denatures or modifies the physical properties of the substance 8 to be modified, as described above, it cannot be said that it has been theoretically completely clarified at present. is there. However, effects such as modification or modification of physical properties have been confirmed by tests and experiments.

  The LC parallel circuit having a resonance frequency of 2 Khz to 2000 Khz and a maximum transmission output of 3 watts is used, and the conductive electrode plate 4 is a rubber plate (150 mm × 300 mm × 10 mm (thickness)) kneaded with metal powder. 2000 cc of water was placed in a synthetic resin bag and loaded horizontally, and after 60 minutes of denaturation treatment, the progress of water decay was investigated. Was wat.

  As a result of comparing the progress of decay between the water subjected to the above modification treatment and the water not subjected to the modification treatment, a slight odor or turbidity appears within 5 to 10 days in the latter (non-denatured treated water). In contrast, the former (denatured water) has been confirmed to have no abnormality in odor and turbidity even after 10 to 20 days. The raw water used for the test is the same tap water.

An LC parallel circuit having a resonance frequency of 2 Khz to 2000 Khz and a maximum transmission output of 3 watts is used, and the conductive electrode plate 4 is made of stainless steel (300 mm × 300 mm × 100 mm (depth), which has a diameter of 30 mmΦ · length It was supported horizontally using four 300 mm mica insulator pedestals 5. Then, 2000 cc of heavy fuel oil A was put into the conductor support 4 and subjected to modification treatment for about 40 minutes. The average output of the LC parallel resonant circuit 10 was 1.5 watts.
After completion of the modification treatment, the calorific values of the treated A heavy oil and the unmodified A heavy oil were measured. As a result, it was confirmed that the calorific value of A heavy oil was improved by about 0.4 to 0.6% by the reforming treatment.

FIG. 3 shows a third embodiment of the present invention, a conductor made of electrode plates 4 in FIG. 1, the far-infrared election emitting layer on one surface side of the metal plate electrode 4 made of titanium alloy (upper side) 4b is formed. Note that the remaining structure of the third embodiment is identical to that of the first embodiment, or may be applied to the electrode plate 4 of the third embodiment to the second to the second embodiment Of course.

When the electrode 4 on which the far-infrared radiator layer 4b is formed is used, the so-called far-infrared effect due to the activation of the far-infrared radiator layer itself is caused by the exposure of the electrode 4 to the variable electric field. As a result, the denaturing action on the substance to be modified is further promoted and a high degree of denaturation can be obtained.

  As described above, the present invention can efficiently modify or modify the physical properties of any substance to be modified 8 by generating potential fluctuations or electric field fluctuations in the electrode 4 made of the conductor, and has excellent practical utility. It is.

  The present invention is applicable not only to water and food products but also to all industrial fields such as agriculture, livestock industry, brewing industry, textile industry, metal industry, chemical industry, pharmaceutical industry, fuel industry, medical industry, etc. is there.

DESCRIPTION OF SYMBOLS 1 Transmitter 1a Case 2a Non-ground side output terminal 2b Ground side output terminal 3 PN type diode 4 Conductor electrode plate 4a Terminal 4b Far-infrared radiator layer 5 Insulator support base 6 Grounding point 7 Lead wire 8 Modified substance 9a connection point 9b connection point 10 LC parallel circuit e electron i current v 'induced electromotive force C electrostatic capacity C' stray capacitance L coil R safety resistance R0 grounding resistance

Claims (11)

  One of the output terminals of the LC resonance circuit is grounded, and the other non-grounded output terminal is connected to a conductive electrode plate that is insulated from the ground, and the LC resonance circuit is induced by an external electromagnetic wave. Electric power v ′ is applied between the ground-side output terminal and the non-ground-side output terminal, and the electric potential fluctuation is caused by the induced electromotive force v ′ to change the electric potential of the electrode plate made of the conductor. A method of denaturing a non-power-source material, comprising subjecting a substance to be modified to contact with or disposed in the vicinity thereof to the fluctuating electric field to denature its physical properties.   2. The non-power source according to claim 1, wherein a rectifying element is provided between the LC resonance circuit and the other non-grounded output terminal to prevent a current from flowing from the LC resonance circuit side to the conductive electrode plate. Formula substance modification method.   Between the non-ground side output terminal side of the rectifier element and the ground side output terminal of the LC resonance circuit, a second rectifier element for blocking current flow from the ground side of the LC resonance circuit to the conductive electrode plate is provided. The non-power-source-type substance modification method according to claim 2, wherein the power-source device is used.   The non-power-source type material modification method according to claim 1, 2 or 3, wherein the LC resonance circuit is an LC parallel resonance circuit or an LC series resonance circuit.   The non-power-supply type substance modification method according to claim 1, 2, or 3, wherein the conductive electrode plate is a conductive electrode plate made of metal or rubber containing metal powder or plastic.   The non-power-source type material modification method according to claim 1, wherein the rectifying element is a PN diode.   The non-power-source-type substance modification method according to claim 1, wherein the resonance frequency of the LC resonance circuit with respect to the external electromagnetic wave is 2 kHz to 2000 kHz.   The non-power-source-type substance modification method according to claim 1, 2 or 3, wherein a far-infrared radiator layer is provided on the upper surface side of the conductive electrode plate.   The non-power-source type material modification method according to claim 8, wherein the far-infrared radiator layer is a ceramic sintered body or a rubber or plastic mixed with ceramics.   The non-power-source type material modification method according to claim 1, 2, or 3, wherein the conductive electrode plate is supported and fixed by an insulating material.   The substance to be modified is water, fresh food, fish, meat, edible oil, fuel oil, engine oil, alcohol, liquor, fiber, wood, paper, clothing, plant, animal, or two or more. The non-power-source-type substance modification method according to claim 1, claim 2, or claim 3.

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