JP2006194230A - Internal combustion engine and engine body using energy by electrolysis of water - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an internal combustion engine and engine body using energy by electrolysis of water which increase a generating amount of hydrogen and oxygen by leaps and bounds by making both positive/negative electrodes be structure of spongy capable of taking front surface much in such a manner that both the positive/negative electrodes are arranged in an electrolyte cell in a state of being separated by a shielding plate. <P>SOLUTION: The internal combustion engine, which houses a water added by electrolyte and forms two spaces by preparing the shielding plate formed by insulator inside the electrolyte cell so that lower sides may be common, and arranges electrodes formed in porous object or spongy in each space, comprises: an electrode means for applying positive potential to one side electrode and negative potential to the other side electrode between these electrodes; a hydrogen extraction means for taking out hydrogen generated from an electrode applied by the above-mentioned positive potential; a hydrogen supplying means for supplying the hydrogen extracted from the above-mentioned hydrogen extraction means to a combustion chamber of the internal combustion engine; and a burning means for burning the hydrogen supplied from the above-mentioned hydrogen supplying means in the combustion chamber. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an internal combustion engine and an engine body using energy generated by electrolysis of water, and more specifically, water that is directly supplied to an engine without storing oxygen and hydrogen generated by electrolysis of water and used as a power source. The present invention relates to an internal combustion engine using energy generated by electrolysis and an engine body including the internal combustion engine.

It is a well-known fact that oxygen and hydrogen are generated by electrolysis of water in the prior art, which is based on Faraday's law of electrolysis.
Since pure water does not conduct electricity, an electrolyte such as sodium hydroxide is usually added to water, and the anode side electrode and the cathode side electrode are impregnated in the water to which this electrolyte is added. Then water electrolysis begins. The fact that electricity flows by electrolysis of water means that electrons flow out from the negative side of the battery, and this electron reacts with water at the cathode side electrode immersed in water to generate hydrogen. When this hydrogen is stored and brought close to fire, it explodes with a sudden noise. When this reaction is written in a chemical formula, the following formula 1 is obtained.
2H ₂ O (water) + 2e ⁻ (electrons) → H ₂ (hydrogen) + 2OH ⁻ (hydroxide ion) Formula 1

At the other electrode on the anode side, the reaction shown in the following formula 2 occurs, water, oxygen and electrons are generated. The generated electrons are passed to the anode and flow to the positive electrode of the battery through the electric wire. When oxygen is generated at the anode electrode and the fire is brought close, it burns.
2OH ⁻ (hydroxide ion) → H ₂ O (water) + (1/2) O ₂ (oxygen) + 2e ⁻ (electron).

The sum of these reaction formulas (1) and (2) is a reaction formula that represents electrolysis of the following formula. .
H ₂ O (water) → H ₂ (hydrogen) + (1/2) O ₂ (oxygen) (formula 3)

  As described above, when both positive and negative electrodes are impregnated in water and positive and negative electricity is passed, water decomposes and hydrogen and oxygen are generated.

Various techniques using the generated hydrogen as fuel for the engine using this principle have been disclosed.
JP-A-11-257206 (page 4, Fig. 2)

However, even if the method of generating oxygen and hydrogen by electrolysis of water described in the prior art is used, there is a problem with that method, and it is not possible to generate the amount of hydrogen or oxygen actually supplied to the engine. There is a problem that it is not practical.
Therefore, it is necessary to use Faraday's electrolysis law to effectively generate hydrogen and oxygen, and to use the generated hydrogen and oxygen to burn an existing internal combustion engine. There is a problem that must not be.

  In order to solve the above problems, an internal combustion engine and an engine body using energy generated by electrolysis of water according to the present invention are configured as follows.

(1) An internal combustion engine that uses energy obtained by electrolysis of water has heater means attached to the bottom of an electrolytic solution tank in which water to which an electrolyte is added is stored, and the electrolyte is added at an upper position of the heater means. A plurality of electrode means arranged in a state where both of the yin and yang electrodes are appropriately spaced so as to be impregnated in water, a dc power supply means for applying a voltage to both the yin and yang electrodes of the electrode means, and the dc power supply means When a voltage is applied to both the positive and negative electrodes of the electrode means, a mixed gas supply means for supplying a mixed gas of hydrogen and oxygen generated from both negative and positive electrodes to the combustion chamber of the internal combustion engine, and the mixed gas Combustion means for burning a mixed gas of hydrogen and oxygen supplied by the supply means in the combustion chamber.
(2) The internal combustion engine using energy generated by electrolysis of water according to (1) further comprises magnetic means for applying a magnetic field to both the positive and negative electrodes arranged in the electrolyte bath. An internal combustion engine that uses the energy of electrolysis of water.
(3) The energy generated by the electrolysis of water according to (2), wherein the magnetic force means includes a plurality of permanent magnets arranged along the outer periphery or inner periphery of the electrolytic solution tank at predetermined intervals. Internal combustion engine using
(4) The internal combustion engine using energy obtained by electrolysis of water according to (1), wherein the distance between the two electrodes of the yin and yang is on the order of millimeters.

(5) The engine body is an engine body provided with a driving means by an internal combustion engine, the heater means attached to the bottom of the electrolyte tank in which the water to which the electrolyte is added is stored, and the upper position of the heater means and A plurality of electrode means arranged in a state in which both electrodes of the yin and yang are appropriately spaced so as to be impregnated in the water to which the electrolyte is added; and a DC power source means for applying a voltage to both the yin and yang electrodes of the electrode means; The gas supply means for supplying a mixed gas of hydrogen and oxygen generated from both the positive and negative electrodes to the combustion chamber of the internal combustion engine when a voltage is applied to both the positive and negative electrodes of the electrode means by the DC power supply means And an internal combustion engine that uses energy generated by electrolysis of water, and a combustion unit that combusts a mixed gas of hydrogen and oxygen supplied by the mixed gas supply unit in a combustion chamber.
(6) The internal combustion engine using energy generated by electrolysis of water constituting the engine body of (5) further includes magnetic force means for applying a magnetic field to both the positive and negative electrodes arranged in the electrolyte bath. An organization characterized by that.
(7) The engine according to (6), wherein the magnetic force means includes a plurality of permanent magnets arranged along the outer periphery or inner periphery of the electrolytic solution tank at a predetermined interval.
(8) The engine body according to (5), wherein a distance between both electrodes of the yin and yang is on the order of millimeters.

(9) An internal combustion engine using energy generated by electrolysis of water is provided with a shielding plate formed of an insulator so that the lower side is shared in a sealed electrolytic solution tank in which water to which an electrolyte is added is stored. An electrode that forms two spaces and installs a porous or sponge-like electrode in each space, and applies a positive potential to one of these electrodes and a negative potential to the other electrode. Means, hydrogen extraction means for extracting hydrogen generated from the electrode to which the positive potential is applied, hydrogen supply means for supplying the hydrogen extracted by the hydrogen extraction means to the combustion chamber of the internal combustion engine, and the hydrogen supply means Combustion means for burning the hydrogen supplied by the combustion chamber in the combustion chamber.
(10) The internal combustion engine using energy generated by electrolysis of water according to (9), wherein the electrode is formed of an iron member or a platinum member.
(11) Oxygen extraction means for extracting oxygen generated from the electrode to which the negative potential is applied is provided, and the combustion is performed by mixing the oxygen extracted by the oxygen extraction means with the hydrogen supplied to the combustion chamber by the hydrogen supply means. The internal combustion engine using energy generated by electrolysis of water according to (9), characterized by being supplied to a chamber.

(12) The engine body is an engine body provided with a driving means by an internal combustion engine, and is formed of an insulator so that the water is added with electrolyte and the lower side is shared inside the sealed electrolyte bath. A shield plate is provided to form two spaces, and a porous body or sponge-like electrode is placed in each space. One of these electrodes has a positive potential and the other electrode has a negative potential. Electrode means for applying a potential; hydrogen extracting means for extracting hydrogen generated from the electrode to which the positive potential is applied; and hydrogen supply means for supplying hydrogen extracted by the hydrogen extracting means to a combustion chamber of an internal combustion engine. An engine body equipped with an internal combustion engine using energy obtained by electrolysis of water, comprising combustion means for burning hydrogen supplied by the hydrogen supply means in a combustion chamber.
(13) The engine according to (12), wherein the electrode is formed of an iron member or a platinum member.
(14) Oxygen extracting means for extracting oxygen generated from the electrode to which the negative potential is applied is provided, and the combustion is performed by mixing the oxygen extracted by the oxygen extracting means with the hydrogen supplied to the combustion chamber by the hydrogen supplying means. The engine according to (12), wherein the engine is supplied to a chamber.

(15) An internal combustion engine that uses energy generated by electrolysis of water is provided with a shielding plate formed of an insulator so that the lower side is shared inside a sealed electrolyte bath that contains water to which an electrolyte has been added. An electrode that forms two spaces and installs a porous or sponge-like electrode in each space, and applies a positive potential to one of these electrodes and a negative potential to the other electrode. A hydrogen extraction means for extracting hydrogen generated from the electrode to which the positive potential is applied; an oxygen extraction means for extracting oxygen generated from the electrode to which the negative potential is applied; and the hydrogen extraction means. A gas mixing unit that mixes hydrogen and oxygen extracted by the oxygen extraction unit; and a predetermined liquid that passes through the gas mixture of hydrogen and oxygen mixed in the gas mixing unit. A mixed gas pressure supply unit that supplies a predetermined pressure by the mixed gas pressure supply unit, a mixed gas supply unit that supplies the mixed gas pressurized by the mixed gas pressure supply unit to the combustion chamber of the internal combustion engine, and the mixed gas supply unit. And a combustion means for burning the supplied mixed gas in the combustion chamber.
(16) The mixed gas pressure supply unit includes a second container in which the same liquid is filled in the first container containing the liquid so that the opening is immersed in the liquid and the container is filled with the same liquid. An internal combustion using energy from electrolysis of water as described in (15), wherein a mixed gas is supplied to two containers via a liquid, and the supplied mixed gas is taken out at a constant pressure via the liquid. organ.
(17) The internal combustion engine using energy generated by electrolysis of water according to (15), wherein the electrode is formed of an iron member, a platinum member, or a stainless steel member.

(18) The engine body is an engine body provided with a driving means by an internal combustion engine, and is formed of an insulator so that the water is added with electrolyte and the lower side is common inside the sealed electrolyte bath. A shield plate is provided to form two spaces, and a porous body or sponge-like electrode is placed in each space. One of these electrodes has a positive potential and the other electrode has a negative potential. Electrode means for applying a potential; hydrogen extraction means for extracting hydrogen generated from the electrode to which the positive potential is applied; oxygen extraction means for extracting oxygen generated from the electrode to which the negative potential is applied; and the hydrogen A gas mixing unit that mixes the hydrogen extracted by the extraction unit and the oxygen extracted by the oxygen extraction unit, and a predetermined liquid that passes through the mixed gas of hydrogen and oxygen mixed in the gas mixing unit A mixed gas pressure supply unit that supplies the mixture gas under a predetermined pressure, a mixed gas supply unit that supplies the mixed gas pressurized by the mixed gas pressure supply unit to the combustion chamber of the internal combustion engine, and the mixed gas supply unit. And an internal combustion engine using energy generated by electrolysis of water, and a combustion means for burning the mixed gas supplied by the means in the combustion chamber.
(19) The mixed gas pressure supply unit includes a second container in which a liquid is stored in a first container that is filled with the same liquid so that the opening is immersed in the liquid. The engine according to (18), wherein the mixed gas is supplied to the two containers via the liquid, and the supplied mixed gas is taken out at a constant atmospheric pressure via the liquid.
(20) The engine according to (18), wherein the electrode is formed of an iron member, a platinum member, or a stainless steel member.

According to this proposal, by installing a heater means inside the electrolyte bath, hydrogen and oxygen are generated by electrolysis in a state where water molecules are activated by raising water to a certain temperature. Efficiency improves dramatically.
In addition, a structure that seals the electrolyte bath containing water containing electrolyte and forms positive and negative electrodes separated by a shielding plate inside it in the form of a porous body or spongy structure to take as much surface area as possible By doing so, the generation amount of hydrogen and oxygen can be drastically improved.

  Next, embodiments of an internal combustion engine and an engine body using energy by electrolysis of water according to the present invention will be described below with reference to the drawings.

As shown in FIG. 1, an engine body 10 equipped with an internal combustion engine using energy obtained by electrolysis of water according to the first embodiment of the present invention utilizes Faraday's electrolysis law described in the prior art. An internal combustion engine that generates hydrogen and oxygen and explodes by supplying the generated hydrogen and oxygen to the combustion chamber is provided.
The structure is mounted on the bottom of the electrolyte bath 11 in which magnetic means 14 for applying a magnetic field to both the positive and negative electrodes 12 and 13 arranged in the electrolyte bath 11 and the water 15 to which the electrolyte is added are housed. A heater means 16; and an electrode means 17 in which a plurality of Yin-Yang electrodes 12 and 13 are arranged at appropriate intervals so as to be impregnated in the water 11 to which the electrolyte is added at an upper position of the heater means 16. When the voltage is applied to both the positive and negative electrodes 12 and 13 of the electrode means 17 by the DC power supply means 18, the voltage is applied to both the positive and negative electrodes 12 and 13 of the electrode means 17. A mixed gas supply means 23 for supplying a mixed gas of hydrogen and oxygen generated from the yin and yang electrodes 12 and 13 to the combustion chamber 19 provided with the piston 23 of the internal combustion engine 22, and supplied by the mixed gas supply means 23 A combustion section 20 for combusting the combustion chamber 19 the mixed gas of hydrogen and oxygen has a structure equipped with.
The magnetic force means 14 has a configuration in which a plurality of permanent magnets 21 shaped along the outer periphery or inner periphery (in the embodiment, the outer periphery) of the electrolyte bath 11 are arranged at a predetermined interval. When arranged at a predetermined interval in this way, a magnetic field is obtained by each permanent magnet 21 and the water 15 containing the electrolyte in the electrolytic solution tank 11 performs fluid motion, and the decomposition current from the electrodes 12 and 13. It is possible to increase the gas generation amount with respect to. That is, when a single cylindrical permanent magnet is arranged along the outer periphery of the electrolytic solution tank 11 as in the prior art, a magnetic field generated from the cylindrical end is used, and the intermediate position of the cylinder is used. Since the magnetic field from is extremely small, the action on the electrode is extremely small. If this defect is separated as in the present invention and a plurality of permanent magnets are arranged, each permanent magnet generates a magnetic field, so that a magnetic field can be generated in the entire electrolyte bath.
In the embodiment, the magnetic force means 14 may not be attached.
The water 15 containing the electrolyte may be water other than pure water, and may be sodium hydroxide or ordinary tap water as the electrolyte.
The distance between the yin and yang electrodes 12 and 13 is on the order of millimeters, and in the embodiment, the distance is set to about 4 mm. A plurality of the yin and yang electrodes 12 and 13 are arranged, and the number thereof is not limited.

In an internal combustion engine having such a configuration but using energy generated by electrolysis of water, first, the water 15 containing electrolyte is heated by the heater means 16 to activate water molecules. Then, by supplying positive and negative potentials from the DC power source means 18 to the negative and positive electrodes 12 and 13, a decomposition current flows through the water 15, hydrogen is generated from the negative electrode 12, and oxygen is generated from the positive electrode 13. appear. These generated hydrogen and oxygen are mixed to form a mixed gas, which is sent to the internal combustion engine 22 by the mixed gas supply means 23. In the internal combustion engine 22, this mixed gas is sent to the combustion chamber 19 and ignited by an ignition means (not shown) to cause an explosion and move the piston 23, thereby acting as a power source (not shown).
Thus, if it functions as a power source, it can be used as a so-called automobile such as charging the DC power source means 18 or driving the vehicle to move the engine 10 to a desired position. It is.
As described above, the engine body 10 only needs to be capable of mounting an internal combustion engine, and can be applied to, for example, automobiles, motorcycles, ships, equipment equipped with an internal combustion engine, for example, lawn mowers, chainsaws, and the like. .

  Next, an engine body equipped with an internal combustion engine using the energy of water electrolysis according to the second embodiment will be described with reference to FIG.

The engine body 30 equipped with the internal combustion engine using the energy obtained by electrolysis of water according to the second embodiment of the present invention uses the Faraday electrolysis law described in the prior art as in the first embodiment. Thus, an internal combustion engine that generates hydrogen and oxygen and explodes by supplying the generated hydrogen and oxygen to the combustion chamber is provided.
As shown in FIG. 2, the engine body 30 includes a shielding plate 33 formed of an insulator so that the water 31 containing the electrolyte is accommodated and the lower part side is common inside the sealed electrolyte tank 32. Two spaces are formed, and a porous body or a sponge-like electrode 34, 35 is installed in each space, and one of the yin-yang electrodes 34, 35 is placed on one positive electrode 34. An electrode means 36 for applying a positive potential and a negative potential to the other negative electrode 35, a hydrogen extraction means 37 for extracting hydrogen generated from a positive electrode 34 to which a positive potential is applied, and a hydrogen extraction means 37. A hydrogen supply means 40 for supplying the extracted hydrogen to the combustion chamber 39 of the internal combustion engine 38, a combustion means 41 for burning the hydrogen supplied by the hydrogen supply means 40 in the combustion chamber 39, and a negative potential are applied. An oxygen take-out means 42 for taking out oxygen generated from the electrode 35, and a gas mixing section 44 for mixing the oxygen taken out by the oxygen take-out means 42 with the hydrogen supplied to the combustion chamber 39 by the hydrogen supply means 40 and supplying it to the combustion chamber 39. And.

  Since the electrolytic solution tank 32 is sealed, the generated hydrogen and oxygen are pressurized against the atmospheric pressure, so that the pressure becomes strong. The electrolytic solution tank 32 is provided with a water replenishing port 47 for replenishing water so that, for example, tap water other than pure water is replenished appropriately.

  The water 31 containing the electrolyte may be water other than pure water, and may be sodium hydroxide or ordinary tap water as the electrolyte.

  The yin and yang electrodes 34 and 35 are formed of an iron member, a platinum member, or a stainless steel member, and as described above, are formed in a porous body or a sponge shape so as to increase the surface area. Is made by compressing iron cotton into a solid form.

  The shielding plate 33 is an insulator and is used to separate the yin and yang electrodes 34 and 35, and electricity flows through water in a common space below the shielding body 33.

The hydrogen taken out by the hydrogen take-out means 37 is supplied to a hydrogen damper 45 made of a cylinder containing water. This hydrogen damper 45 prevents the back flow of hydrogen.
The oxygen taken out by the oxygen take-out means 42 is supplied to an oxygen damper 46 formed of a cylindrical body containing water. The oxygen damper 46 prevents backflow of oxygen.

  The hydrogen that has passed through the hydrogen damper 45 and the oxygen that has passed through the oxygen damper 46 are mixed by the gas mixing portion 44 and sent to the combustion chamber 39 of the internal combustion engine 38 to burn, thereby driving the piston 43.

  Of course, the magnetic means and heater means shown in the first embodiment may be appropriately added to the above-described configuration.

  Next, an engine body on which an internal combustion engine using energy obtained by electrolysis of water according to a third embodiment is mounted will be described with reference to FIG.

An engine body equipped with an internal combustion engine using the energy of electrolysis of water according to the third embodiment of the present invention uses the Faraday electrolysis law described in the prior art, as in the first embodiment. Thus, an internal combustion engine that generates hydrogen and oxygen and explodes by supplying the generated hydrogen and oxygen to the combustion chamber is provided.
As shown in FIG. 3, the structure of the engine body 30 includes a shielding plate 33 formed of an insulator so that the water 31 containing the electrolyte is accommodated and the lower part is common inside the sealed electrolyte bath 32. Two electrodes are formed, and electrodes 34 and 35 formed in a porous body or a spongy shape are installed in each space, and one of these electrodes (positive electrode) 34 has a positive potential, An electrode means 36 for applying a negative potential to the other electrode (negative electrode) 35, a hydrogen extracting means 37 for taking out hydrogen generated from the positive electrode 34 to which a positive potential is applied, and a negative potential are applied. An oxygen extraction means 42 for extracting oxygen generated from the negative electrode 35; a gas mixing section 44 for mixing hydrogen extracted by the hydrogen extraction means 37 and oxygen extracted by the oxygen extraction means 42; The mixed gas pressure supply unit 50 supplies a predetermined pressure by passing a predetermined liquid (water in the embodiment) through the mixed gas of hydrogen and oxygen mixed in 44, and the mixed gas pressure supply unit 50 performs pressure. Water provided with a mixed gas supply means 51 for supplying the mixed gas to the combustion chamber 39 of the internal combustion engine 38 and a combustion means 41 for burning the mixed gas supplied by the mixed gas supply means 51 in the combustion chamber 39 It has a configuration in which an internal combustion engine using energy generated by electrolysis is mounted.

The mixed gas pressure supply unit 50 includes a second container 53 in which the same liquid is filled in the first container 52 containing the liquid (water in the embodiment) so that the opening is immersed in the liquid. The mixed gas from the gas mixing unit 44 is supplied to the second container 53 filled with the liquid via the liquid, and the supplied mixed gas is received by the second container 53 and stored. In the mixed gas supply means 51, the mixed gas stored in the second container 53 is taken out at a constant atmospheric pressure via the liquid and sent to the internal combustion engine 38 to be burned, and the piston 43 can be driven. The mixed gas supply means 51 is provided with a check valve 56 to prevent the mixed gas from flowing back.
The yin and yang electrodes 34 and 35 are formed of an iron member, a platinum member or a stainless steel member, and are formed in a porous body or a spongy shape so as to increase the surface area. What was compressed into a solid state is used.

  The second container 53 includes an upper water level sensor 54 at an upper position, and a lower water level sensor 55 is attached at a lower position than the upper water level sensor 54. The upper water level sensor 54 detects the amount of water stored in the second container 53. If the upper water level sensor 54 is on, the electrolysis in the electrolytic solution tank 32 is continued. When the lower water level sensor 55 is turned on, it indicates that the amount of hydrogen and oxygen generated in the electrolyte bath 32 has increased too much, and the electrolysis is controlled by temporarily stopping or stopping the electrolysis in the electrolyte bath 32. It is configured to do. .

Electricity of water that can be electrolyzed in a state where the water molecules containing the electrolyte are activated by electrically arranging both the positive and negative electrodes in the electrolyte bath and having a heater means at the bottom. An internal combustion engine and an engine body using energy generated by decomposition are provided.
In addition, the generation of hydrogen and oxygen is dramatically increased by keeping the yin and yang electrodes separated from each other by an insulating shielding plate in the electrolyte bath and making the electrodes spongy so as to increase the surface area. An internal combustion engine and an engine body using energy obtained by electrolysis of water are provided.

  It is explanatory drawing which showed the engine body provided with the internal combustion engine using the energy by the electrolysis of the water of 1st Example of this invention.   It is explanatory drawing which showed the engine body provided with the internal combustion engine using the energy by the electrolysis of the water of 2nd Example of this invention.   It is explanatory drawing which showed the engine body provided with the internal combustion engine using the energy by the electrolysis of the water of 3rd Example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10; Engine body, 11; Electrolyte tank, 12; Negative electrode, 13; Positive electrode, 14: Magnetic means, 15: Water containing electrolyte, 16; Heater means, 17; Electrode means, 18; Means, 19; Combustion chamber, 20; Combustion means, 21; Permanent magnet, 22; Internal combustion engine, 23; Mixed gas supply means, 30; Engine body, 31; Water containing electrolyte, 32; Electrolyte tank, 33; Shielding plate, 34; positive electrode, 35; negative electrode, 36; electrode means, 37; hydrogen extraction means, 38; internal combustion engine, 39; combustion chamber, 40; hydrogen supply means, 41; Extraction means, 43; piston, 44; gas mixing section, 45; hydrogen damper, 46; oxygen damper, 47; water supply port, 50; mixed gas pressure supply section, 51; mixed gas supply means, 52; 53; second container, 54; upper water level sensor, 5 ; Lower water level sensor, 56; check valve.

Claims (20)

Heater means attached to the bottom of the electrolyte tank in which the electrolyte-added water is stored;
A plurality of electrode means arranged in an upper position of the heater means and in a state where both electrodes of Yin Yang are appropriately spaced so as to be impregnated in the water added with the electrolyte;
DC power supply means for applying a voltage to both positive and negative electrodes of the electrode means;
A mixed gas supply means for supplying a mixed gas of hydrogen and oxygen generated from both the positive and negative electrodes to the combustion chamber of the internal combustion engine when a voltage is applied to both the positive and negative electrodes of the electrode means by the DC power supply means; ,
An internal combustion engine using energy generated by electrolysis of water, comprising combustion means for burning a mixed gas of hydrogen and oxygen supplied by the mixed gas supply means in a combustion chamber. An internal combustion engine using energy generated by electrolysis of water according to claim 1 further comprises:
An internal combustion engine using energy obtained by electrolysis of water, comprising magnetic means for applying a magnetic field to both electrodes of the yin and yang arranged in the electrolyte bath.   3. The energy of electrolysis of water according to claim 2, wherein the magnetic force means includes a plurality of permanent magnets arranged along the outer periphery or inner periphery of the electrolyte bath at predetermined intervals. Internal combustion engine.   2. The internal combustion engine using energy generated by electrolysis of water according to claim 1, wherein a distance between the two electrodes of the yin and yang is on the order of millimeters. An engine body provided with driving means by an internal combustion engine,
Heater means attached to the bottom of the electrolyte tank in which the electrolyte-added water is stored;
A plurality of electrode means arranged in an upper position of the heater means and in a state where both electrodes of Yin Yang are appropriately spaced so as to be impregnated in the water added with the electrolyte;
DC power supply means for applying a voltage to both positive and negative electrodes of the electrode means;
A mixed gas supply means for supplying a mixed gas of hydrogen and oxygen generated from both the positive and negative electrodes to the combustion chamber of the internal combustion engine when a voltage is applied to both the positive and negative electrodes of the electrode means by the DC power supply means; ,
An engine body equipped with an internal combustion engine using energy obtained by electrolysis of water, comprising combustion means for burning a mixed gas of hydrogen and oxygen supplied by the mixed gas supply means in a combustion chamber. An internal combustion engine using energy generated by electrolysis of water constituting the engine body of claim 5 is further provided.
An engine body comprising magnetic means for applying a magnetic field to both the positive and negative electrodes arranged in the electrolyte bath.   The engine according to claim 6, wherein the magnetic force means includes a plurality of permanent magnets arranged along the outer periphery or inner periphery of the electrolytic solution tank at predetermined intervals.   The engine body according to claim 5, wherein a distance between both of the yin and yang electrodes is on the order of millimeters. A shield plate made of an insulating material is provided inside the sealed electrolyte bath containing water to which electrolyte is added and sealed so as to have a common lower part, and two spaces are formed. An electrode means for setting a sponge-like electrode, applying a positive potential to one of these electrodes and a negative potential to the other electrode;
Hydrogen extracting means for extracting hydrogen generated from the electrode to which the positive potential is applied;
Hydrogen supply means for supplying hydrogen extracted by the hydrogen extraction means to a combustion chamber of an internal combustion engine;
Combustion means for burning the hydrogen supplied by the hydrogen supply means in a combustion chamber;
An internal combustion engine using energy generated by electrolysis of water.   The internal combustion engine using energy generated by electrolysis of water according to claim 9, wherein the electrode is formed of an iron member or a platinum member. Comprising oxygen extracting means for extracting oxygen generated from the electrode to which the negative potential is applied;
The energy obtained by electrolysis of water according to claim 9, wherein hydrogen supplied to the combustion chamber by the hydrogen supply means is mixed with oxygen extracted by the oxygen extraction means and supplied to the combustion chamber. Internal combustion engine. An engine body provided with driving means by an internal combustion engine,
A shield plate made of an insulating material is provided inside the sealed electrolyte bath containing water to which electrolyte is added and sealed so as to have a common lower part, and two spaces are formed. An electrode means for setting a sponge-like electrode, applying a positive potential to one of these electrodes and a negative potential to the other electrode;
Hydrogen extracting means for extracting hydrogen generated from the electrode to which the positive potential is applied;
Hydrogen supply means for supplying hydrogen extracted by the hydrogen extraction means to a combustion chamber of an internal combustion engine;
Combustion means for burning the hydrogen supplied by the hydrogen supply means in a combustion chamber;
An engine body equipped with an internal combustion engine using energy obtained by electrolysis of water.   The engine according to claim 12, wherein the electrode is formed of an iron member or a platinum member. Comprising oxygen extracting means for extracting oxygen generated from the electrode to which the negative potential is applied;
The engine according to claim 12, wherein the hydrogen supplied to the combustion chamber by the hydrogen supply means is mixed with the oxygen extracted by the oxygen extraction means and supplied to the combustion chamber. A shield plate made of an insulating material is provided inside the sealed electrolyte bath containing water to which electrolyte is added and sealed so as to have a common lower part, and two spaces are formed. An electrode means for setting a sponge-like electrode, applying a positive potential to one of these electrodes and a negative potential to the other electrode;
Hydrogen extracting means for extracting hydrogen generated from the electrode to which the positive potential is applied;
Oxygen extracting means for extracting oxygen generated from the electrode to which the negative potential is applied;
A gas mixing section for mixing hydrogen extracted by the hydrogen extraction means and oxygen extracted by the oxygen extraction means;
A mixed gas pressure supply unit that supplies a predetermined pressure by passing a predetermined liquid through a mixed gas of hydrogen and oxygen mixed in the gas mixing unit; and
A mixed gas supply means for supplying the mixed gas pressurized by the mixed gas pressure supply unit to the combustion chamber of the internal combustion engine;
Combustion means for burning the gas mixture supplied by the gas mixture supply means in a combustion chamber;
An internal combustion engine using energy generated by electrolysis of water.   The mixed gas pressure supply unit includes a second container in which a liquid is stored in a first container in which the same liquid is filled in the container so that the front opening is immersed in the liquid, and the second container in which the liquid is filled 16. The internal combustion engine using energy obtained by electrolysis of water according to claim 15, wherein a mixed gas is supplied through a liquid, and the supplied mixed gas is taken out at a constant pressure through the liquid.   The internal combustion engine using energy generated by electrolysis of water according to claim 15, wherein the electrode is formed of an iron member, a platinum member, or a stainless steel member. An engine body provided with driving means by an internal combustion engine,
A shield plate made of an insulating material is provided inside the sealed electrolyte bath containing water to which electrolyte is added and sealed so as to have a common lower part, and two spaces are formed. An electrode means for setting a sponge-like electrode, applying a positive potential to one of these electrodes and a negative potential to the other electrode;
Hydrogen extracting means for extracting hydrogen generated from the electrode to which the positive potential is applied;
Oxygen extracting means for extracting oxygen generated from the electrode to which the negative potential is applied;
A gas mixing section for mixing hydrogen extracted by the hydrogen extraction means and oxygen extracted by the oxygen extraction means;
A mixed gas pressure supply unit that supplies a predetermined pressure by passing a predetermined liquid through a mixed gas of hydrogen and oxygen mixed in the gas mixing unit; and
A mixed gas supply means for supplying the mixed gas pressurized by the mixed gas pressure supply unit to the combustion chamber of the internal combustion engine;
Combustion means for burning the gas mixture supplied by the gas mixture supply means in a combustion chamber;
An engine body equipped with an internal combustion engine using energy obtained by electrolysis of water.   The mixed gas pressure supply unit includes a second container in which a liquid is stored in a first container in which the same liquid is filled in the container so that the front opening is immersed in the liquid, and the second container in which the liquid is filled 19. The engine body according to claim 18, wherein a mixed gas is supplied through a liquid, and the supplied mixed gas is taken out at a constant pressure through the liquid.   The engine according to claim 18, wherein the electrode is formed of an iron member, a platinum member, or a stainless steel member.

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