JPH062622A - Highly combustive processing unit of hydrocarbon fuel - Google Patents

Abstract

PURPOSE:To improve the extent of three combustive efficiencies by using such a means as giving a physicocheamical action to hydrocarbon fuel jointly in addition to a fact that a magnetic field is impressed on this hydrocarbon fuel. CONSTITUTION:Hydrocarbon fuel is passed through a homopolar space between two polar projections 7a and 14a where magnetic flux of an optional pole of a permanent magnet 4 is focused, while it is made contact with a material 16 with an electrode set up in space between these opposed polar projections and simultaneously it is further contacted with a far infrared emissive material 8, whereby a physicochemical action in the hydrocarbon fuel is accelerated, and thus an improvement in combustion efficiency is well promote. The material 16 with the electrode raises energy order in the hydrocarbon fuel and works to improve the extent of horsepower, and the far infrared emissive material 8 filters impurities in the hydrocarbon fuel run past, while the physicochemical action of this hydrocarbon fuel is yet more accelerated by means of an oscillatory wave by dint of far infrared radiation.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high combustion treatment apparatus for improving the combustion efficiency of hydrocarbon fuels such as gasoline and light oil used as fuels for internal combustion engines such as automobiles and ships.

[0002]

2. Description of the Related Art For example, Japanese Patent Laid-Open No. 60-25976 discloses that combustion efficiency can be improved by passing a hydrocarbon fuel in a magnetic field space immediately before it is burned in an internal combustion engine.
No. 1 and JP-A-63-108112 disclose the facts. FIG. 4 shows Japanese Patent Laid-Open No. 63-108112.
4 shows a configuration of a magnetic field passage device for fuel oil disclosed in Japanese Patent Publication No. JP-A No. 2004-187242, in which four permanent magnet sets 34 are formed by connecting different polarities of a plurality of ring-shaped permanent magnets 33 with a magnetic force.
And a collar portion 31 interposed between two homopolar members of the permanent magnet assembly 34 and an inner hole formed by the permanent magnet assembly 34, a collection of two homopolar materials integrally formed on the collar portion 31. A magnetic member 35, and a fuel oil passage hole 37 is formed in the two magnetic flux collecting members 35 in the direction of the central axis of the inner hole, and the two magnetic flux collecting members 35 each have a pole projection. The portion 36 is formed, and the fuel oil supplied from the oil passage hole 37 of the one magnetism collecting member 35 is passed between these pole protrusions 36 and discharged from the oil passage hole 37 of the other magnetism collecting member 35.
According to the above configuration, the magnetic forces of the plurality of ring-shaped permanent magnets 33 are aggregated in the permanent magnet group 34, and the permanent magnet group 3
Since the magnetic force of 4 is collected by the magnetism collecting member 35, a strong magnetic field is generated from the pole protrusions 36 formed at the ends of the magnetism collecting member 35 facing each other, and passes between these pole protrusions 36. A physico-chemical action is applied to the fuel oil that is used to improve the combustion efficiency in the internal combustion engine.

[0003]

However, the improvement of the combustion efficiency of the hydrocarbon fuel by applying the magnetic field is limited, and there is a problem that the combustion efficiency cannot be sufficiently improved. The present invention has been made in view of the above problems, and in addition to applying a magnetic field to hydrocarbon fuel,
It is an object of the present invention to provide a high combustion treatment device capable of improving combustion efficiency and reducing exhaust gas concentration by using a means for exerting a physicochemical action on a hydrocarbon fuel.

[0004]

In order to achieve the above-mentioned object, the means adopted by the present invention is a combustion efficiency by passing a hydrocarbon fuel into the magnetic field space of a magnetic field generator installed in a cylindrical casing. In the apparatus for increasing the combustion of hydrocarbon fuel, the magnetic field generating device is provided in the cylindrical housing, wherein the magnetic pole magnetic flux of the permanent magnet is converged. At least one pair are arranged facing each other in the same direction in the passage direction of the fuel, and a substance having an electrode is arranged in the magnetic field space where the same poles face each other, and far infrared rays are provided in the passage of the hydrocarbon-based fuel in the cylindrical casing. It is configured as a high combustion processing apparatus for hydrocarbon fuel, which is characterized in that a radiant substance is arranged.

[0005]

According to the present invention, the fed fuel oil is brought into contact with the far-infrared radiation substance, and then the pole projections of the permanent magnets, which are focused on the magnetic flux, are placed in the magnetic field in which the poles are opposed to each other. By allowing the fuel oil to pass through and at the same time contacting the substance having the electrodes arranged between the pole protrusions, the physicochemical action of the hydrocarbon fuel is promoted, and the combustion efficiency is improved. The substance having the electrode acts to raise the energy rank of the hydrocarbon-based fuel and improve the horsepower, and the far-infrared emitting substance filters impurities of the hydrocarbon-based fuel passing therethrough, and at the same time, includes the wavelength in the microwave region. The physicochemical action of the hydrocarbon fuel is further promoted by the vibration wave of infrared rays. Therefore, in addition to the magnetic field application to the hydrocarbon fuel, the physicochemical action on the hydrocarbon fuel is promoted by the action of the substance having the above electrode and the far-infrared radiation substance, so that only the action of the conventional magnetic field is applied. It is possible to improve the combustion efficiency, which is superior to the above, and to reduce the exhaust gas concentration.

[0006]

Embodiments of the present invention will be described below with reference to the accompanying drawings for the understanding of the present invention. The following embodiments are examples of embodying the present invention and do not limit the technical scope of the present invention. Here, FIG. 1 is a cross-sectional view showing the configuration of a hydrocarbon-based fuel high-combustion treatment apparatus according to a first embodiment of the present invention, and FIG. 2 is a hydrocarbon-based fuel according to a second embodiment of the present invention. FIG. 3 is a sectional view showing the structure of a combustion processing apparatus, and FIG. 3 is a sectional view showing the structure of a hydrocarbon-based fuel high combustion processing apparatus according to a third embodiment of the present invention. Figure 1
The combustion enhancement treatment apparatus 1 shown in FIG. 1 is mainly configured for gasoline, and is disposed inside a cylindrical casing 2 having an intake port 11 and an exhaust port 12 at both ends thereof in order of passage direction of fuel oil. A far-infrared radiation substance storage unit 9, a first magnetic field generation device 3, a substance storage unit 5 having an electrode, and a second magnetic field generation device 6 are arranged. The far-infrared radiation substance storage unit 9 includes alumina, between the meshes 10a and 10b made of a non-magnetic material,
A far-infrared radiation material 8 containing a mixture of ceramic such as silica (silicon oxide) and platinum is contained. The far-infrared radiation substance 8 is a substance that radiates far-infrared rays including wavelengths in the microwave region at room temperature. It gives a physicochemical effect to the fuel oil passing through it to improve combustion efficiency and use a fine mesh. For example, it also acts as a filter for filtering impurities from fuel oil. The first magnetic field generator 3 has a first collar-shaped disk 7 made of a ferromagnetic material sandwiched between the same poles of the ring-shaped permanent magnets 4a and 4b, and the magnetic force of the permanent magnets 4a and 4b is They are collected and focused on the first pole projection 7a formed on the first collar-shaped disc 7. Similarly, the second magnetic field generator 6
A second collar-shaped disc 14 made of a ferromagnetic material is sandwiched between the same poles of the ring-shaped permanent magnets 13a, 13b, and the magnetic force of the permanent magnets 13a, 13b is collected to collect the second collar-shaped disc 14
It is focused on the second pole protrusion 14a formed on the. The first magnetic field generator 3 and the second magnetic field generator 6 are arranged with the first pole projection 7a and the second pole projection 14a facing each other with the same pole, and an electrode is provided between them. A substance container 5 is arranged. The substance containing portion 5 having electrodes is made of the substance 16 having granular electrodes between the non-magnetic meshes 15a and 15b.
Is housed. The substance 16 having an electrode is a polar crystal (such as tourmaline) that is generated under high pressure or high temperature when magma (lava) is ejected, or a substance that is generated under similar artificial conditions (artificial gem, etc.) Therefore, it has a permanent electrode and is passing a small current. Between the first magnetic field generating device 3 and the second magnetic field generating device 6, a strong repulsive magnetic field in which the first and second pole projecting portions 7a, 14a have the same pole facing each other is applied, and Since the substance 16 having the electrode is arranged, the fuel oil flowing in from the oil passage hole 7b formed in the first collar-shaped disc 7 comes into contact with the substance 16 having the electrode to improve the energy rank. At the same time, it is subjected to a physicochemical action by a strong repulsive magnetic field, flows out from the oil passage hole 14b formed in the center of the second flanged disk 14, and is supplied from the discharge port 12 to an internal combustion engine (not shown).

The fuel oil supplied from the suction port 11 as described above passes through the far-infrared radiation substance 8, receives the magnetic field applied by the first magnetic field generator 3 and the second magnetic field generator 6, and , Material 16 with electrodes arranged in the magnetic field space
When it comes into contact with the fuel cell, it is subjected to a physicochemical action and the energy level is raised, so that the combustion efficiency is improved and the fuel is supplied from the exhaust port 12 to the internal combustion engine. Far-infrared radiation substance storage unit 9, the first magnetic field generation device 3, which is arranged in the housing 2 described above.
The substance containing portion 5 having electrodes and the second magnetic field generator 6 are housed in the housing 2 by being attached to a non-magnetic inner cylinder 18 made of a synthetic resin or an alkali metal which is mounted on the inner wall of the housing 2. To be done. Next, a second embodiment of the present invention shown in FIG. 2 will be described. The elements common to the first embodiment are designated by the same reference numerals, and the description thereof will be omitted. The high combustion processing apparatus 20 according to the present embodiment is configured for a diesel engine (for light oil), and a substance having electrodes in a repulsive magnetic field space is arranged in two stages. In the order of passage of the fuel oil from the inlet 11, the far-infrared radiation substance storage unit 9, the first magnetic field generator 3, the substance storage unit 21 having the first electrode, the substance storage unit 23 having the second electrode, the second The magnetic field generator 6 of the
It is attached to the inner cylinder 25 mounted inside. The configuration of the first magnetic field generator 3 and the second magnetic field generator 6 and the configuration of the substance containing portion 21 having the first electrode and the substance containing portion 23 having the second electrode are the same as those of the first embodiment. Is the same as. In the present embodiment, between the first magnetic field generation device 3 and the second magnetic field generation device 6, the substance containing portion 21 having the first electrode and the second magnetic field generation device 6 are provided.
And the substance containing portion 23 having the electrode of 2) are arranged so as to act in two steps. According to the above configuration, the fuel oil supplied from the injection port 11 is subjected to the physicochemical action of the far-infrared radiation substance 8 in the far-infrared radiation substance storage unit 9, and then the first magnetic field generator 3 and the second magnetic field generation device 3 Combustion efficiency is improved by the application of a magnetic field to and from the magnetic field generator 6 and the action of the substance 16 having an electrode to improve the physicochemical action and the energy level. Is supplied to. Next, a third embodiment of the present invention shown in FIG. 3 will be described. The apparatus of this embodiment is configured for gasoline and diesel. In FIG. 3, the suction port 2
The fuel oil supplied from 8 enters the outer space of the high-combustion treatment device 30 formed in a double structure, contacts the far-infrared radiation substance 29 arranged on the passage, and undergoes a physicochemical action. . The combustion oil reaching the bottom of the outer space enters the internal space through the oil passage 31 that connects the external space to the internal space.
By passing through the repulsive magnetic field space in which the substance 34 having an electrode is arranged between the first magnetic field generator 32 and the second magnetic field generator 33, the physicochemical action of the magnetic field and the substance having an electrode is received. , Is supplied from the discharge port 35 to the internal combustion engine.

[0008]

As described above, according to the present invention, the hydrocarbon fuel is allowed to pass while the pole projections of the permanent magnets, which have the magnetic fluxes of arbitrary poles focused, are made to face each other at the same time, and at the same time the pole projections are passed. The physicochemical action of the hydrocarbon-based fuel is promoted by bringing it into contact with the substance having the electrodes arranged between the electrodes and the far-infrared radiation substance, and the combustion efficiency is improved. The substance having the electrode acts to raise the energy level of the hydrocarbon-based fuel and improve the horsepower, and the far-infrared emitting substance filters impurities of the hydrocarbon-based fuel passing through, and at the same time, the hydrocarbons are oscillated by the vibration wave of far-infrared radiation It further promotes the physicochemical action of system fuels. Therefore, in addition to the magnetic field application to the hydrocarbon fuel, the physicochemical action on the hydrocarbon fuel is promoted by the action of the substance having the above electrode and the far-infrared radiation substance, so that only the action of the conventional magnetic field is applied. It is possible to improve the combustion efficiency superior to

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing the configuration of a hydrocarbon-based fuel high-combustion treatment apparatus according to a first embodiment of the present invention.

FIG. 2 is a sectional view showing the configuration of a hydrocarbon-based fuel high-combustion treatment apparatus according to a second embodiment of the present invention.

FIG. 3 is a cross-sectional view showing the configuration of a hydrocarbon fuel light combustion treatment apparatus according to a third embodiment of the present invention.

FIG. 4 is a cross-sectional view showing a configuration of a fuel oil magnetic field passage device according to a conventional example.

[Explanation of symbols]

 1,20,30 ... High combustion processing apparatus 2, 24, 36 ... Housing 3, 32 ... First magnetic field generator 4a, 4b, 13a, 13b, ... Permanent magnet 5, 21, 23 ... Substance having electrodes Housing portion 6, 33 ... Second magnetic field generating device 7 ... First collar-shaped disk 7a ... First pole projection portion 8, 29 ... Far-infrared emitting material 9 ... Far-infrared emitting material housing portion 14 ... Second collar Disk 14a ... Second pole protrusion 16,34 ... Substance with electrode 21 ... Substance with first electrode 23 ... Substance with second electrode

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Shizaki Ohara 8-31 Minamikannoncho, Nishi-ku, Hiroshima City (72) Inventor Iwa Kitayama 1 of 94 Yawata, Okayama City

Claims (1)

[Claims] 1. A high-combustion treatment apparatus for a hydrocarbon-based fuel, which allows a hydrocarbon-based fuel to pass through a magnetic field space provided by a magnetic field generator disposed in the cylindrical housing to improve combustion efficiency. At least one pair of magnetic field generators having pole projections for concentrating an arbitrary pole magnetic flux of a permanent magnet are disposed in the body so that the pole projections have the same poles facing each other in the passage direction of the hydrocarbon fuel, and the poles facing each other. A material having an electrode is placed in the magnetic field space, and a far-infrared emitting material is placed in the passage of the hydrocarbon-based fuel in the cylindrical casing, so that combustion of the hydrocarbon-based fuel is enhanced. Processing equipment.