JP2001201042A - Toxic substance processing equipment out of exhaust gas - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide the toxic substance processing equipment out of exhaust gas enabling to reduce the toxic substance, such as carbon monoxide and hydrocarbons in exhaust gas, to improve a fuel consumption rate, to drastically improve torque and maximum output and to reduce the amount of engine exhaust. SOLUTION: The equipment is provided with a pair of permanent magnets 7 and 7-1 forming perpendicular magnetic field to the flow of fuel oil and a far infrared radiation processing means A2 for processing the magnetically processed fuel oil by a magnetic processing means A1 with the far infrared radiation treatment, and the far infrared processing means A2 has the structure accommodating a fuel catalyst 53 provided with a plurality of ceramic balls 51 inside a pipe body 50 in which the fuel flows.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to carbon monoxide (CO) and hydrocarbons (HC) in exhaust gas emitted from automobiles and the like.
The present invention relates to a device for treating harmful substances of exhaust gas, which reduces harmful substances such as nitrogen oxides (NOX) and black smoke.

[0002]

2. Description of the Related Art It is known that magnetic processing can be used for improvement in a wide range of fields such as improvement of fuel efficiency by fuel oil reforming.

[0003] The reason for application to the above applications is that in the flow of fuel oil containing hydrocarbon compound molecules, a so-called Lorentz force is generated by applying a magnetic field at right angles, and this Lorentz force is neutral. Since it does not act on certain fuel oil molecules but only on charged particles, the fuel oil molecules and charged particles will cause relative motion and even collisions, and therefore the structure such as the arrangement and distribution of various atoms in the fuel oil Changes in the properties of the fuel oil, causing various effects, such as an increase in density, surface tension, viscosity, dielectric constant, electrolyte dissolution rate, etc., or a decrease in electrical conductivity, gas solubility, etc. This is because the molecules of the hydrogen compound are ionized and subdivided.

[0004] As a conventional magnetic processing apparatus for forming and applying a magnetic field perpendicular to the flow of fuel oil containing hydrocarbon compound molecules, there are techniques disclosed in FIGS. 10 and 11.

[0005] The disclosed technique is based on the first and second divided bodies 50.
A, 50B, and the first divided body 50A has a case 51 made of synthetic resin, and semicircular grooves 52 are formed in mutually facing surfaces of the case 51. A permanent magnet 53 is fixed to the bottom of the case 51.

The second divided body 50B has a case 54 made of synthetic resin, and a semicircular groove 55 is formed on the surface of the case 54 facing each other. Has a permanent magnet 56 fixed thereto.

[0007] Then, the first divided body 50A and the second divided body 50B are sandwiched by a metal pipe (fuel pipe) 60 through which a fuel oil to be treated flows (first and second pipes). The pipe 6 is inserted into a circular hole formed by the grooves 52 and 55 of the divided bodies 50A and 50B.
0 is inserted).

[0008]

However, in the above-described conventional magnetic processing apparatus, the permanent magnets 53, 56
Since the cases 51 and 54 for holding are made of synthetic resin,
The permanent magnets 53 and 56 are simply faced to each other,
Even if the lines of magnetic force run from 3 toward the permanent magnet 56, the first divided body 50A and the second divided body 50B do not form a magnetic circuit. Because of this, the magnetic field lines escaped outside,
Lines of magnetic force are not converged.

Further, since the first divided body 50A and the second divided body 50B are connected to each other with the metal tube 60 interposed therebetween, the metal tube 60 is used. The magnetic field of the magnetic field of the fuel oil is not generated in the inside, the magnetic treatment of the fuel oil is not performed smoothly, and harmful substances such as carbon monoxide (CO) and hydrocarbon (HC) in the exhaust gas cannot be reduced. However, there is a problem that the fuel consumption rate cannot be improved.

The present invention has been made to solve the above-mentioned conventional problems. It is an object of the present invention to provide a strong magnetic force which penetrates the flow of fuel oil at right angles, and almost eliminates leakage of magnetic field lines. It can smoothly perform magnetic treatment of fuel oil, reduce harmful substances such as carbon monoxide (CO) and hydrocarbon (HC) in exhaust gas, and improve fuel consumption rate. It is an object of the present invention to provide a device for treating harmful substances of exhaust gas, which can greatly improve the torque and the maximum output and can reduce the engine displacement.

[0011]

In order to achieve the above object, an apparatus for treating harmful substances of exhaust gas according to the first aspect of the present invention comprises a pair of magnetic fields which form a magnetic field in a direction perpendicular to the flow of fuel oil. A magnetic processing unit having a permanent magnet, and a far-infrared processing unit for performing a far-infrared processing on the fuel oil magnetically processed by the magnetic processing unit.

With this configuration, the magnetic lines of force generated in the magnetic processing means penetrate the fuel oil and form and apply a magnetic field perpendicular to the flow of the fuel oil. Therefore, when a magnetic field is applied at right angles to the flow of the fuel oil containing hydrocarbon compound molecules, a so-called Lorentz force is generated, and the hydrocarbon compound molecules can be ionized and fragmented. That is, the hydrocarbon compounds of the fuel oil are magnetically reacted to subdivide the carbon clusters.

[0013] The far-infrared effect of the far-infrared processing means lowers the oxidation-reduction potential of trace metal ions (charged particles) of carbon and hydrogen in the hydrocarbon compound of the fuel oil, and reduces the monoxide in the exhaust gas. Carbon (CO), hydrocarbon (H
C) and other harmful substances can be reduced by a factor of about 100, the fuel consumption rate can be improved, the torque and the maximum output can be greatly improved, and the engine displacement can be reduced. can do.

According to another aspect of the present invention, there is provided an exhaust gas harmful substance processing apparatus according to claim 1, wherein the magnetic processing means comprises: One magnetic processing body in which one permanent magnet is housed in one magnet holding case made of a magnetic material, and the other permanent magnet is housed in the other magnet holding case made of a magnetic material, and the other magnet holding case is A magnetically attracted one magnet holding case at the joint thereof and another magnetic processing body connected to the one magnetic processing body, wherein non-magnetic fuel oil flows at the joint of the one and the other magnet holding cases. In addition to providing a hose insertion portion that inserts a body-made fuel hose, one and the other magnet holding case magnetically attracted to each other at the joint are configured as a part of a magnetic circuit, and the far-infrared ray processing means includes: Postal oil is the configuration that houses a fuel catalyst having a ceramic in the passage to flow.

[0015] With this configuration, the one magnetic processing body and the other magnetic processing body are magnetically attracted to each other at the joints of the one and the other magnet holding cases and connected to each other, and the fuel hose is connected to the hose holding portion by the hose holding portion. It is sandwiched. Therefore,
One permanent magnet of one magnetic processing body and the other permanent magnet of the other magnetic processing body face each other with a fuel hose made of a non-magnetic material therebetween, and the opposite end of one permanent magnet faces the S pole. The opposite end of the other permanent magnet becomes an N pole.

In this case, the magnet holding case forms a continuous frame, and this frame forms a part of a so-called magnetic circuit. That is, the facing end (S
A magnetic field having a high magnetic flux density (about 6000 gauss) is formed from the (pole) to the opposite end (north pole) of the other permanent magnet, and the magnetic field lines F pass through the fuel hose, pass through the frame, and pass through the permanent magnet. Is formed.

The lines of magnetic force generated in the magnetic circuit penetrate the fuel oil and form and apply a magnetic field perpendicular to the flow of the fuel oil. Therefore, when a magnetic field is applied at right angles to the flow of the fuel oil containing hydrocarbon compound molecules, a so-called Lorentz force is generated, and the hydrocarbon compound molecules can be ionized and fragmented. That is, the hydrocarbon compounds of the fuel oil are magnetically reacted to subdivide the carbon clusters.

When the fuel oil flows into the pipe, the fuel oil is oxidized and reduced by the far-infrared effect of the ceramics of the fuel catalyst due to a small amount of metal ions (charged particles) of carbon and hydrogen in the hydrocarbon compound. The potential is lowered, and harmful substances such as carbon monoxide (CO) and hydrocarbons (HC) in the exhaust gas can be reduced to about 1/100.
Further, the fuel consumption rate can be improved, the torque and the maximum output can be significantly improved, and the engine displacement can be reduced.

In the exhaust gas harmful substance treating apparatus according to the first aspect of the present invention, since a magnetic field is generated by facing a pair of permanent magnets, the flow of fuel oil is reduced. The magnetic force penetrating through at right angles is strong, and the leakage of the magnetic field lines is almost eliminated, so that the magnetic treatment of the fuel oil can be performed smoothly, and the adverse effect due to the leakage of the magnetic field lines can be suppressed as much as possible.

According to another aspect of the present invention, there is provided an exhaust gas harmful substance processing apparatus including a pair of permanent magnets for forming a magnetic field in a direction perpendicular to the flow of fuel oil. Magnetic processing means, and a far-infrared processing means containing a fuel catalyst body having ceramics in a passage through which the fuel oil magnetically processed by the magnetic processing means flows, wherein the magnetic processing means is incorporated in the passage. .

With this configuration, the lines of magnetic force generated in the magnetic circuit penetrate the fuel oil and form and apply a magnetic field perpendicular to the flow of the fuel oil. Therefore, when a magnetic field is applied at right angles to the flow of the fuel oil containing hydrocarbon compound molecules, a so-called Lorentz force is generated, and the hydrocarbon compound molecules can be ionized and fragmented. That is, the hydrocarbon compounds of the fuel oil are magnetically reacted to subdivide the carbon clusters.

When the fuel oil flows into the pipe, the fuel oil is oxidized and reduced by the far-infrared effect of the ceramics of the fuel catalyst due to a small amount of metal ions (charged particles) of carbon and hydrogen in the hydrocarbon compound. The potential is lowered, and harmful substances such as carbon monoxide (CO) and hydrocarbons (HC) in the exhaust gas can be reduced to about 1/100.
Further, the fuel consumption rate can be improved, the torque and the maximum output can be significantly improved, and the engine displacement can be reduced.

In particular, since the magnetic processing means is incorporated in the passage of the far-infrared processing means in which the fuel oil magnetically processed by the magnetic processing means flows, the apparatus for treating harmful substances of exhaust gas can be reduced in size and unitized. As a result, it can be easily mounted on a fuel supply device of a vehicle.

According to another aspect of the present invention, there is provided an exhaust gas harmful substance treating apparatus in which a fuel catalyst body having ceramics is accommodated in a pipe made of a magnetic material through which fuel oil flows. A pair of permanent magnets that form a magnetic field in a direction perpendicular to the flow of fuel oil is arranged on the inlet side of the pipe, and the pipe is made a part of a magnetic circuit.

With this configuration, the same function and effect as the above-described third embodiment can be obtained.

[0026]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is an explanatory view of a configuration of an apparatus for treating harmful substances of exhaust gas according to the present invention (Embodiment 1), FIG. 2 is a longitudinal sectional view of far-infrared ray means of the apparatus for treating harmful substances of exhaust gas, FIG.
FIG. 4 is a sectional view taken along the line XX of FIG. 1, FIG. 4 is a front view of a magnetic processing body in the exhaust gas harmful substance processing apparatus, and FIG. 5 is a perspective view of the magnetic processing body.

The apparatus A for treating harmful substances of exhaust gas according to the present invention is a combination of a magnetic processing means A1 and a far infrared processing means A2.

As shown in FIGS. 4 and 5, the magnetic processing means A1 includes one magnetic processing body 1 and the other magnetic processing body 2, and includes one magnetic processing body 1 and the other magnetic processing body 2. Has the same configuration. The one magnetic processing body 1 has a box-shaped magnet holding case 3 made of a soft iron material. The magnet holding case 3 has a bottom surface 3A, left, right surfaces 3B, 3C, front and rear surfaces 3D. , 3E. Further, semicircular grooves 6 are formed at the edges of the front and rear surfaces 3D and 3E.
Is formed. Then, the bottom portion 3 of the magnet holding case 3
A rectangular columnar permanent magnet 7 is fixed to the inner surface of A, and a filler 8 made of a non-magnetic synthetic resin, for example, an epoxy resin is filled in the magnet holding case 3. The permanent magnet 7 is exposed at the center of the filler 8.
In this case, the corner of the magnet holding case 3 has a bending angle of 56 degrees.
It has a radius of more than one degree to prevent magnetic leakage.

The other magnetic processing body 2 is one magnetic processing body 1
Although the configuration is the same as that described above, different reference numerals are given for convenience of explanation.
That is, the other magnetic processing body 2 has a box-shaped magnet holding case 3-1 made of a soft iron material, and the magnet holding case 3-1 has a bottom surface 3A-1 and a left and right surface 3B-. 1, 3C-1 and front and rear surface portions 3D-1 and 3E-1. Further, semicircular grooves 6-1 are formed in the peripheral portions of the front and rear surfaces 3D-1 and 3E-1. And
A quadrangular prism-shaped permanent magnet 7-1 is fixed to the inner surface of the bottom surface portion 3A-1 of the magnet holding case 3-1. The magnetic filler 8-1 is filled, and the permanent magnet 7-1 is exposed at the center of the non-magnetic filler 8-1.

The magnetic processing means A1 connects one magnetic processing body 1 and the other magnetic processing body 2 to each other, as described later.
A fuel hose 56 made of a flexible synthetic resin or rubber, through which fuel oil to be treated flows, is used while being connected to each other with a fuel hose 56 interposed therebetween.

The far-infrared ray processing means A2 holds a plurality of ceramic balls 51 as shown in FIGS.
The fuel catalysts 53 are arranged in a straight line with the fuel catalysts 53 interposed therebetween. The ceramic balls 51 contain an appropriate metal element.

As shown in FIG. 2, the holding means 52 winds a metal wire 52A in a coil shape, and alternates a large-diameter ball accommodating portion 52B and a small-diameter connecting portion 52C between the ball accommodating portions 52B. The ceramic ball 51 is formed in the ball receiving portion 52B.

The far-infrared ray processing means A2 is not limited to the fuel catalyst 53 in which a plurality of ceramic balls 51 are linearly arranged via the holding means 52, and may be a ceramic rod. Alternatively, a large number of ceramic granules may be wrapped in a net.

The fuel catalyst 53 is housed in a tube 50. An inlet-side pipe joint 54 is provided at the tip of the tube 50, and an outlet-side pipe joint is provided at the rear end of the tube 50. 55 are attached respectively.

The magnetic processing means A1 is used by connecting one magnetic processing body 1 and the other magnetic processing body 2 to each other with the fuel hose 56 interposed therebetween. The end 56a is connected to the inlet-side pipe joint 54 of the pipe 50 having the far-infrared ray processing means A2. That is, the magnetic processing means A1 is provided on the upstream side of the flow of the fuel oil to be treated, and the far-infrared processing means A2 is provided on the downstream side.
Are arranged respectively. Incidentally, 57 and 58 are fastening belts.

A fuel supply device for a gasoline engine of an automobile is a device for mixing fuel with air and supplying the fuel into a cylinder. As shown in FIG. 6, the fuel supply device includes a fuel tank 21 and a fuel supply pump 2 having a suction side connected to the fuel tank 21 via a fuel hose 22.
3 and a carburetor 25 connected to the discharge side of the fuel supply pump 23 and mounted on the suction manifold 26A.
Gasoline is drawn from a fuel tank 21 through a fuel hose 22 to a fuel supply pump 23, and gasoline, which is fuel oil discharged from the fuel supply pump 23, is sent to a carburetor 25, where After being atomized into a mist and mixed with the air cleaned by the air cleaner 26A, the air is supplied to the cylinder through the suction manifold 26.

The fuel supply device of this gasoline engine has:
The exhaust gas harmful substance processing apparatus A is mounted. That is, a fuel hose 56 made of synthetic resin is connected to the discharge side of the fuel supply pump 23, and a rear end portion 56a of the fuel hose 56 is connected to an inlet-side pipe joint of the tube 50 of the far-infrared ray processing means A2. 54 is connected, and another fuel hose 2 is connected to the outlet side pipe joint 55 of the pipe body 50.
The fuel hose 24 is connected to a carburetor 25.

As a fuel supply device for a gasoline engine of an automobile, there is a fuel supply device using a fuel injection for supplying a mixture instead of a carburetor.
This fuel injection uses fuel (gasoline)
The combination of an injector, which is a nozzle with an electromagnetic valve that blows air into the intake manifold, and a fuel supply pump that applies a predetermined pressure to the fuel oil,
The fuel oil injection amount is determined.

The above-mentioned harmful substance treating apparatus A for exhaust gas is mounted on this fuel supply apparatus. That is, as shown in FIG. 7, a fuel tank 31, a fuel supply pump 33 having a suction side connected to the fuel tank 31 via a fuel hose 32, and a suction manifold 36 connected to the discharge side of the fuel supply pump 33 And an injector 35 attached to the fuel oil (gasoline).
Is sucked from a fuel tank 31 through a fuel hose 32 to a fuel supply pump 33, and the fuel oil discharged from the fuel supply pump 33 is sent to an injector 35, where the fuel oil is blown into a suction manifold 36, air·
After being mixed with the air cleaned by the cleaner, the air is supplied to the cylinder 37 through the suction manifold 36.

The exhaust gas harmful substance processing apparatus A is mounted on the fuel supply apparatus. That is, the fuel hose 56 is connected to the discharge side of the fuel supply pump 33, and the rear end 56a of the fuel hose 56 is connected to the inlet-side pipe joint 54 of the tube 50 included in the far-infrared ray processing means A2. Another fuel hose 34 is connected to the outlet-side pipe joint 55 of the pipe body 50.
4 is connected to the injector 35.

As shown in FIG. 8, a fuel supply system for a diesel engine of an automobile comprises a fuel tank 40, a fuel supply pump 42 having a suction side connected to the fuel tank 40 via a fuel hose 41, Supply pump 42
And a spray nozzle 47 connected to the distributor 45 via a spray pipe 46. 48 is a fuel filter, and 49 is a return line.

The exhaust gas harmful substance treatment apparatus A is mounted on the fuel supply system of the automobile diesel engine. That is, a fuel hose 56 is connected to the discharge side of the fuel supply pump 42, and the rear end portion 56 a of the fuel hose 56 has a pipe 5
0 inlet side pipe joint 54 is connected,
Another fuel hose 56 ′ is connected to the outlet side pipe joint 55, and this fuel hose 56 ′ is connected to the distributor 45.

One magnetic processing body 1 and the other magnetic processing body 2
Are joined at the joints (edges) 3a, 3a-1 of the magnet holding cases 3, 3-1. The fuel hose 56 penetrates a circular hole that is a hose pinching portion J formed by the semicircular grooves 6 and 6-1.
The permanent magnet 7 and the permanent magnet 7-1 of the other magnetic processing body 2 face each other with the fuel hose 56 interposed therebetween. End 7a
-1 is the N pole.

In this case, the magnet holding cases 3 and 3-1 constitute a continuous frame, and this frame forms a part of a so-called magnetic circuit. That is, one magnetic processing body 1
From the opposite end (S-pole) 7a of the permanent magnet 7
A magnetic field having a high magnetic flux density (about 6000 gauss) is formed toward the opposite end (north pole) 7a-1 of the magnetic field line F.
A magnetic circuit which penetrates the fuel hose 56, passes through the frame body 10, and is focused on the permanent magnet 7 is formed.

In the case of this magnetic circuit, the magnet holding case 3,
Since the corners of 3-1 have a bending angle of 56 degrees or more, the magnetic efficiency is improved by eliminating magnetic leakage and forming a closed circuit.

The lines of magnetic force F generated in the magnetic circuit penetrate the fuel hose 56 and form a magnetic field perpendicular to the flow of the fuel oil to be processed flowing through the fuel hose 56 and apply the magnetic field.

Therefore, when a magnetic field is applied at right angles to the flow of fuel oil containing molecules of hydrocarbon compounds,
A so-called Lorentz force is generated, and the molecules of the hydrocarbon compound can be ionized and fragmented. That is, the hydrocarbon compounds of the fuel oil are magnetically reacted to subdivide the carbon clusters.

As described above, the flow of the fuel oil to be processed is magnetically processed by the magnetic processing means A1 on the upstream side as described above, and then processed by the far-infrared processing means A2 on the downstream side.

The far-infrared effect of the far-infrared processing means A2 is based on the fact that the plurality of ceramic balls 51 emit an absorption wavelength of about 10 μm to excite the resonance of the object,
Generates energy and enhances the activation and redox powers with e- emitted radiation.

Therefore, when the fuel oil flows into the tube 50, the fuel oil is subjected to the far-infrared effect by the plurality of ceramic balls 51 of the fuel catalyzer 53, thereby causing a small amount of metal ions of carbon and hydrogen in the hydrocarbon compound. (Charged particles) has a low oxidation-reduction potential, and carbon monoxide (C
O), harmful substances such as hydrocarbons (HC)
To reduce.

Further, since the magnetic field is generated by facing the pair of permanent magnets 7 and 7-1, the magnetic force penetrating the flow of the fuel oil at a right angle is strong, and the leakage of the magnetic force lines is almost eliminated. In addition, the magnetic treatment of the fuel oil can be smoothly performed, and the adverse effect due to the leakage of the magnetic field lines can be suppressed as much as possible.

Also, one and the other magnet holding case 3,
3-1 are magnetically attracted to each other at joints 3a and 3a-1, and one and the other magnetic processing bodies 1 and 2 are attached to the fuel hose 56, so that one of the magnetic processing bodies 1 and The other magnetic processing body 2 includes the joints 3a, 3a of the one and the other magnet holding cases 3, 3-1.
a-1 only, they are attracted to each other by magnetic force and do not separate, and one and the other magnetic processing bodies 1 and 2 can be attached to the fuel hose 56 with one touch. .

Further, as shown in FIGS. 9A and 9B, the apparatus A for treating harmful substances of exhaust gas according to the present invention includes a magnetic processing means A1 in a tube 50 of a far infrared processing means A2. You may incorporate and comprise. In this case, the tube 50 is made of a soft iron material (magnetic material).

That is, the tube 5 of the far-infrared ray processing means A2
0, and behind the inlet-side pipe joint 54,
A pair of permanent magnets 7 and 7-1 are mounted facing each other. Then, the facing end 7a of the permanent magnet 7 has the S pole,
The facing end 7a-1 of the permanent magnet 7-1 is an N pole.

In this case, the tube 50 forms a continuous frame, and this frame forms a part of a so-called magnetic circuit. That is, the opposite end (S pole) of one permanent magnet 7
A magnetic field having a high magnetic flux density (approximately 6000 gauss) is formed from the end 7a toward the opposite end (N pole) 7-1a of the permanent magnet 7-1, and the magnetic field lines F penetrate the fuel oil to be treated, and A magnetic circuit is formed which passes through the body 50 and is converged on the permanent magnet 7.

The lines of magnetic force F generated in the magnetic circuit penetrate the fuel oil and form and apply a magnetic field perpendicular to the flow of the fuel oil. Therefore, by applying a magnetic field at right angles to the flow of fuel oil containing hydrocarbon compound molecules,
A so-called Lorentz force is generated, and the molecules of the hydrocarbon compound can be ionized and fragmented. That is, the hydrocarbon compounds of the fuel oil are magnetically reacted to subdivide the carbon clusters.

Then, when the fuel oil flows into the pipe 50, the fuel oil is subjected to a far-infrared effect by the plurality of ceramic balls 51 of the fuel catalyst 53, and a small amount of metal ions of carbon and hydrogen in the hydrocarbon compound is formed. (Charged particles) has a low oxidation-reduction potential, and carbon monoxide (C
O), harmful substances such as hydrocarbons (HC)
To reduce.

(Example 1) In an automobile (Nissan Laurel HC-33 RB20, gasoline) without the exhaust gas harmful substance treatment apparatus A according to the present invention, the vehicle was driven at a speed of 80 km / h using a chassis dynamo. Five minutes after stopping the running, the CO and HC in the exhaust gas were measured. As a result, CO: 0.51% vol, HC: 216 ppmv
ol. In addition, using a chassis dynamo, running at a maximum speed of 180 km / h, a maximum output of 121.9 PS,
Five minutes after the generation of the maximum torque of 18.4 Kg-m, CO and HC in the exhaust gas were measured. As a result, CO: 0.26% v
ol, HC: 110 ppmvol.

Vehicle (Nissan Laurel HC-33 RB20, Nissan Laurel HC-33 RB20) equipped with the exhaust gas harmful substance treatment apparatus (two magnetic treatment means A1 and 10 ceramic balls in the far infrared treatment means A2) A according to the present invention. Gasoline), using a chassis dynamo, speed 80 km /
h, and 5 minutes after the stop of the traveling, CO in the exhaust gas
And HC were measured, CO: 0.01% vol, H
C: 5 ppmvol. In addition, using a chassis dynamo, it runs at a maximum speed of 180 km / h and has a maximum output of 1
5 minutes after 23.3 PS and a maximum torque of 18.7 Kg-m were generated, CO and HC in the exhaust gas were measured.
O: 0.01% vol, HC: 1 ppm vol. Also, the fuel consumption rate could be improved by about 50%. When used for diesel vehicles, the fuel consumption rate is 5
It was able to be improved by about a percentage.

As a result of the test, when the apparatus A for treating harmful substances of exhaust gas according to the present invention (two magnetic processing means A1 and 10 balls in the far-infrared ray processing means A2) A was mounted, the emission according to the present invention was measured. CO and HC were significantly reduced (about 1/100) as compared with the case where the gas harmful substance treatment apparatus A was not installed.

[0062]

As described above, according to the apparatus for treating harmful substances of exhaust gas according to the present invention, magnetic processing means having a pair of permanent magnets for forming a magnetic field in a direction perpendicular to the flow of fuel oil. And, by having far-infrared ray processing means for performing far-infrared ray processing on the fuel oil magnetically processed by the magnetic processing means, the magnetic field lines generated in the magnetic processing means penetrate the fuel oil,
A magnetic field perpendicular to the flow of fuel oil is formed and applied. Therefore, when a magnetic field is applied at right angles to the flow of the fuel oil containing hydrocarbon compound molecules, a so-called Lorentz force is generated, and the hydrocarbon compound molecules can be ionized and fragmented. That is, the hydrocarbon compounds of the fuel oil are magnetically reacted to subdivide the carbon clusters.

The oxidation-reduction potential of a small amount of metal ions (charged particles) of carbon and hydrogen in the hydrocarbon compound of the fuel oil is lowered by the far-infrared effect of the far-infrared processing means, and the monoxide in the exhaust gas Carbon (CO), hydrocarbon (H
Hazardous substances such as C) can be reduced to about 1/100.

Further, the fuel consumption rate can be improved, the torque and the maximum output can be greatly improved, and the engine displacement can be reduced.

Further, since a magnetic field is generated by facing a pair of permanent magnets, the magnetic force penetrating the flow of the fuel oil at a right angle is strong, and the leakage of the lines of magnetic force is almost eliminated. Processing can be performed smoothly, and adverse effects due to leakage of lines of magnetic force can be minimized.

According to the apparatus for treating harmful substances of exhaust gas according to the present invention, the magnetic processing means includes a pair of permanent magnets for forming a magnetic field in a direction perpendicular to the flow of fuel oil. Equipped with far-infrared treatment means containing ceramics in the passage in which the magnetically treated fuel oil flows, and by incorporating the magnetic treatment means in the passage, the exhaust gas harmful substance treatment device can be miniaturized and unitized Thus, it can be easily mounted on the fuel supply device of the automobile.

[Brief description of the drawings]

FIG. 1 is a configuration explanatory view of an exhaust gas harmful substance treatment apparatus (Embodiment 1) according to the present invention.

FIG. 2 is a longitudinal sectional view of a far-infrared ray means of the exhaust gas harmful substance treatment apparatus.

FIG. 3 is a cross-sectional view taken along line XX of FIG.

FIG. 4 is a front view of a magnetic processing body in the exhaust gas harmful substance processing apparatus.

FIG. 5 is a partially omitted perspective view of the magnetic processing body.

FIG. 6 is an explanatory diagram of a configuration of a fuel supply device for a gasoline engine of an automobile.

FIG. 7 is an explanatory diagram of a configuration of another fuel supply device of a gasoline engine of an automobile.

FIG. 8 is an explanatory diagram of a configuration of a fuel supply device for a diesel engine of an automobile.

FIG. 9 is a longitudinal sectional view of an exhaust gas harmful substance treating apparatus (Embodiment 2) according to the present invention. (2) is Y-
It is sectional drawing which follows the Y line.

FIG. 10 is a perspective view of a conventional exhaust gas harmful substance processing apparatus.

FIG. 11 is an exploded perspective view of a magnetic processing body in the exhaust gas harmful substance processing apparatus.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 One magnetic processing body 2 The other magnetic processing body 3 One magnet holding case 3-1 The other magnet holding case 3a Seam 3a-1 Seam 7 One permanent magnet 7-1 The other permanent magnet 50 Tube 51 Ceramic ball (including an appropriate metal element) 52 Holding means 53 Fuel catalyst 54 Inlet side joint 55 Outlet side joint 56 Fuel hose A Harmful substance treatment device for exhaust gas A1 Magnetic treatment means A2 Far infrared treatment means J Hose insertion part

Claims (4)

[Claims] 1. A magnetic processing means comprising a pair of permanent magnets for forming a magnetic field in a direction perpendicular to the flow of fuel oil, and a far-infrared processing means for performing far-infrared processing on the fuel oil magnetically processed by the magnetic processing means. An apparatus for treating harmful substances of exhaust gas, comprising: an infrared processing means. 2. The magnetic processing means according to claim 1, wherein the one permanent magnet is accommodated in one magnet holding case made of a magnetic material, and the one permanent magnet is held in one magnet holding case made of a magnetic material. And the other magnet holding case is housed in the case and the other magnet holding case is magnetically attracted to the other magnet holding case at the joint thereof and connected to the one magnetic processing body. A hose insertion portion for inserting a non-magnetic fuel hose through which the fuel oil flows is provided at a joint of the magnet holding cases, and the one and the other magnet holding cases magnetically attracted to each other at the joint are provided by a magnetic circuit. 2. The exhaust system according to claim 1, wherein the far-infrared ray processing unit is configured to house a fuel catalyst body having ceramics in a passage through which the fuel oil flows. 3. Scan toxic substances processing device. 3. A magnetic processing means having a pair of permanent magnets for forming a magnetic field in a direction perpendicular to the flow of fuel oil, and a ceramic in a passage in which the fuel oil magnetically processed by the magnetic processing means flows. And a far-infrared ray processing unit containing a fuel catalyst body having the following structure: wherein the magnetic processing unit is incorporated in the passage. 4. A pair of magnetic catalyst bodies containing ceramics are accommodated in a pipe made of a magnetic material through which fuel oil flows, and a magnetic field in a direction perpendicular to the flow of the fuel oil is formed at an inlet side of the pipe. Wherein the permanent magnet is disposed and the tube is part of a magnetic circuit.