JP2006105443A - Fuel petroleum magnetic treatment device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device for saving energy with improved fuel economy and preventing harmful exhaust gas by carrying through a magnetic field fuel petroleum to be supplied into a combustion device such as an internal combustion engine or a boiler and giving magnetic treatment thereto for efficient combustion, using a means for efficiently magnetizing the fuel petroleum with stronger lines of magnetic force. <P>SOLUTION: A magnet for magnetic treatment is an electromagnet which has a DC power source, a solenoid coil 11 and a core 12 combined. The fuel petroleum is carried perpendicularly to the magnetic field of the strong electromagnet in which a set current flows with proper applied voltage, and it is supplied to the combustion device 8 after magnetic treatment is given thereto. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  In the present invention, fuel used in a combustion apparatus (8) such as a gasoline engine, a diesel engine, or a boiler is subjected to magnetic treatment by passing through a magnetic field space to improve fuel consumption rate and exhaust gas. The present invention relates to a magnetic processing apparatus.

Improvement of fuel characteristics is performed by magnetically processing fuel (gasoline, kerosene, light oil, heavy oil, etc.) of an internal combustion engine or a combustion apparatus (8).
This magnetic treatment of fuel is considered to improve the fuel characteristics in combination with the improvement of fine particle characteristics by activating hydrocarbons in the fuel components.
As this type of fuel magnetic processing apparatus, for example, a plurality of annular permanent magnets are arranged in a stacked manner, and a flow path is formed around the magnet to allow fuel to pass in the axial direction. There is known an apparatus for improving the fuel characteristics by magnetically processing the fuel passing therethrough.
And in these magnetic processing apparatuses, the device of how strong magnetic force is made to act on the fuel which passes is made | formed.
However, all the conventional magnetic processing apparatuses magnetize the fuel that passes by the lines of magnetic force of permanent magnets, and their actions and effects are fixed and strong magnetization cannot be achieved.

  The present invention effectively magnetizes fuel oil with stronger magnetic field lines than conventional magnetizing devices using permanent magnets, strengthening the magnetic field lines to be supplied and raising the fuel oil to an appropriate temperature just before combustion. It is an object of the present invention to provide a magnetic processing device that is warmed and enables more efficient combustion than conventional devices.

  The present invention is a fuel oil improving apparatus using an outer casing (2) and an electromagnet group (32), and hydrocarbon group particles flowing from the fuel filler port (3), that is, fuel oil, are separated from the inner surface of the outer casing (2) and the electromagnet group ( 32), the fuel oil flow path in the gap with the air travels upward in the direction of the arrow.

In the electromagnet group (32), since the adjacent single electromagnets face each other like N and N and S and S, they repel each other and become an alternating magnetic field, resulting in a high magnetic flux density.
At that time, the fuel oil particles are given electrical energy by cutting the magnetic flux of the alternating magnetic field constituted by the electromagnet group (32).
By repeating this function, the electric energy received by the fuel molecules is increased and ionization is promoted.

In addition, the solenoid coil (11) itself and the core (12) generate heat due to the current flowing through the solenoid coil (11) of the electromagnet, and the fuel atomic groups (molecules) are heat-conducted and heated, so that the combustion device (8 in the internal combustion cylinder, boiler, etc.) ) Is injected. The carbon atoms of the fuel molecules in contact with the air easily bind to oxygen and efficiently promote the oxidation action, so that the combustion is remarkably improved.
Further, harmful combustion gases such as CO, NOX, HC and black smoke are reduced by the complete combustion.

  By efficiently magnetically processing the fuel oil supplied to the internal combustion engine and the boiler via the magnetic processing apparatus (1) of the present invention, the fuel efficiency is improved and the energy saving effect is achieved, and the complete combustion is achieved. CO, HC, NOX and black smoke are reduced.

  Since the magnetic processing apparatus (1) of the present invention is forcibly excited by current as compared with the conventional magnetic processing using permanent magnets, it is possible to generate stronger magnetic lines of force, and the above-described powerful effect. I can expect.

  Further, since the present invention is excitation by an electromagnet, the current value can be easily adjusted and set, and the intensity of excitation can be adjusted and set according to the type of fuel oil.

  In addition, since the present invention uses excitation by an electromagnet, the current value can be easily adjusted and set, and the temperature of fuel oil is raised using the heat generated by the electromagnet and supplied to the combustion device at an appropriate temperature. Is possible.

Embodiments of the present invention will be described below with reference to the drawings. However, the following examples illustrate one mode for embodying the technical idea of the present invention, and the present invention is not limited to the examples.
Further, in this specification, for easy understanding of the claims, the numbers corresponding to the members shown in the embodiments are designated as “the column of claims” and “the column of means for solving the problems”. It is appended to the members shown in. However, the members shown in the claims are not limited to the members of the embodiments.

FIG. 1 is a bird's-eye view of an embodiment of the magnetic processing apparatus (1) of the present invention. A battery (5) serving as a power source for applying a DC voltage to a sealed main body casing (2) and an electromagnetic solenoid coil (11) to be described later is supplied. An electric wire (19) is shown.
FIG. 2 shows that fuel oil is supplied from a fuel tank (9) to a bottom fuel filler (3) by a feed pump (15) and magnetized by an electromagnet group (32) in the casing (2). The flow path which supplies to combustion apparatuses (8), such as an internal combustion engine and a boiler, from the oil discharge port (4) of this through a supply valve (18) is shown.
A circuit is also provided for returning the fuel from the oil discharge port (4) to the original fuel tank (9) via the recirculation valve (20) and the recirculation path (25).
In this method, fuel oil is supplied to the combustion device (8), part of it is returned to the fuel tank (9) via the reflux path (25), supplied again to the electromagnet group, and magnetized again. This is because a stronger magnetization process can be performed by flowing the reflux of the liquid.
The amount of fuel oil recirculated is determined by adjusting the opening of the recirculation valve (20) and the supply valve (18). Further, the check valve (24) from the fuel tank (9) to the feed pump (15) is for supplying the fuel oil to be recirculated immediately to the feed pump (15) instead of the fuel tank (9).

The electromagnet group (32) is a combination of a plurality of single electromagnets for supplying strong lines of magnetic force to the fuel oil, and has the following configuration.
1 and 2, the electromagnet alone (10) is formed by a ring-shaped core (12) and a solenoid coil (11) arranged outside thereof.
2, the core (12) is assembled by applying an insulating paint on both sides of a ring-shaped thin soft iron plate (31) as shown in Fig. 7A and laminating many sheets concentrically. is there.

  3, the solenoid coil (11) is formed by winding a wire material many times in a certain direction and bundling it as shown in FIG. 3, and is energized through a variable resistor (28) from a DC power source such as a battery (5). Magnetic field lines are generated according to the law.

  4, the electromagnet group (32) shown in FIG. 2 has a large number of the above-mentioned electromagnets (10) concentrically stacked, and in the meantime, it is integrated with a fixed shaft (13) via a spacer (14) made of nonmagnetic metal. It is assembled.

  5, the winding direction of the solenoid coil (11) as shown in FIG. 3 is such that adjacent electromagnets (10) to be overlapped have the same polarity as N and N and S and S with the spacer (14) in between. The right-handed coil (17) and the left-handed coil (16) are adjacent to each other. The solenoid coils (11) are connected in parallel from the DC power supply battery (5) through the variable resistor (28), and a constant current flows to generate magnetic lines of force. This magnetic field line excites the concentric core (12) inside the solenoid coil (11) to form an efficient and powerful single electromagnet (10).

  6, The poles of the adjacent electromagnets are the same as N and N and S and S, repel each other, and the magnetic lines of force converge locally at that portion.

7 and FIG. 2, the cross section of X1 and X2 is shown in FIG. A cross section of Y1 and Y2 is shown in FIG.
FIG. 6 is a bird's-eye view showing a situation where a plurality of electromagnets are combined concentrically.
Spacers (14) are arranged on the upper and lower ends of the electromagnet group, and a large number of electromagnets are sandwiched between the upper and lower spacers (14), and fixed with a fixed shaft (13) with screws engraved on both ends and tightened with nuts. Yes.

8, 2 and 3, the lead wire (30) for energizing the solenoid coil (11) of the electromagnet is connected via the terminal (26) as shown by the dotted line in the figure, and is connected from the casing (2) to the outside. The feed line (19) is drawn out in a sealed state using the oil seal gland (6).
It is not preferable that the terminal (26) is electrically exposed although it has a low voltage. Therefore, after the lead wire (30) is connected, the entire electromagnet group (32) has insulation resistance and heat resistance. It is better to infiltrate and fix.

9. The electromagnet group (32) fixed integrally as described above is accommodated in the casing (2) having a sealed structure, and the upper opening of the casing (2) has an oil discharge port (4) and an oil seal gland (6). It is sealed with a perforated lid (23).
The short tube spacer (14) at the upper end of the fixed shaft (13) prevents and fixes the entire electromagnet group (32) in the upward direction.

  During operation of a combustion apparatus such as an automobile engine or boiler, the switch (29) to the coil is closed and a DC voltage is applied, and the feed pump (15) is operated to supply fuel oil in the fuel tank (9) to the bottom of the casing (2). To the magnetic processing device (1) from the oil filler opening (3).

Fuel oil moves upward in the casing (2) as indicated by an arrow, but is excited by receiving the lines of magnetic force generated by each single electromagnet in a direction perpendicular to the moving direction.
As the fuel oil passes through the electromagnet group (32), hydrocarbons in its components are activated, and the characteristics as a fuel are improved in combination with the improvement of the fine particle characteristics.

  The fuel oil supplied from the oil discharge port (4) at the upper part of the casing (2) to the combustion device (8) through the supply valve (18) is completely combusted in the combustion device to improve the fuel efficiency and exhaust. The harmful components of gas are reduced.

Part of the fuel oil discharged from the oil discharge port (4) flows to the return path (25) through the return valve (20), is supplied again to the feed pump (15), and is again supplied by the magnetic processing device (1). Magnetized.
By adjusting the opening degree of the supply valve (18) and the reflux valve (20), the amount of fuel oil to be remagnetized can be set.

The value of the current flowing through the coil is determined by the value of the variable resistor (28) connected in series with the power battery (5). As the current value increases, the excitation force increases, but the heat generation of the electromagnet coil and core (12) increases and the temperature rises.
There is an appropriate temperature depending on the type of fuel oil, and the appropriate temperature is set by adjusting the value of the variable resistance (28). However, the variable resistance (28) is not frequently adjusted. If the current value at which the oil temperature is appropriate is found, the variable resistance (28) may be fixed at the resistance value at that time, and may be substantially a fixed resistance.
The stronger the electromagnet, the greater the magnetizing action and the better the magnetizing efficiency. However, there is an appropriate oil temperature depending on the type of fuel, that is, gasoline, light oil, and heavy oil, and the oil temperature must be set within the upper limit of the allowable range.

  The present invention is applied to automobiles, ships, power plants, internal combustion engines that use the thermal energy of fuel oil, and external combustion machines, that is, boilers and other combustion devices, to promote effective use of energy and reduce harmful exhaust gases. The contribution to the industry is immeasurable.

The bird's-eye view of the appearance of the magnetic processing apparatus and power supply unit of the present invention. A sectional view of a magnetic processing device and a circuit diagram of fuel oil. An electrical circuit diagram and a bird's-eye view of a coil. FIG. 3 is a cross-sectional view taken along Y1 and Y2 in FIG. X1, X2 sectional drawing of FIG. An assembly bird's-eye view of a single electromagnet. C is a single soft iron plate, B is a soft iron plate in which two sheets are stacked, and A is a bird's-eye view of the core assembly.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Magnetic processing apparatus 2 ... Casing 3 ... Oil supply port 4 ... Oil discharge port
5 ... Battery
6 ... Sealed oil ground
7 ... resistor
8 ... Combustion device
9 ... Fuel tank 10 ... Electromagnet alone
11 ... Solenoid coil
12 ... Core
13 ... Fixed shaft
14 ... Spacer
15 ... Feed pump
16 ... Left-handed coil 17 ... Right-handed coil 18 ... Supply valve
19 ... Feed line
20 ... Reflux valve
22 ... O-ring
23 ... Lid
24 ... Check valve 25 ... Recirculation path 26 ... Terminal 27 ... Mounting leg 28 ... Variable resistance 29 ... Switch 30 ... Lead wire 31 ... Soft iron plate 32 ... Electromagnet group

Claims (3)

  The fuel oil supply circuit for supplying the fuel oil to the combustion device (8) from the fuel tank (9) is arranged so that the magnetic lines of force generated by opposing the magnetic poles of different polarities by the electromagnet are perpendicular to the flow of the fuel oil. Fuel oil magnetic processing equipment.   2. The fuel oil according to claim 1, wherein the electromagnet includes a resistor (7) arranged in series with the DC power source, and the current value is changed by changing the resistance value of the resistor to change the magnetic processing capacity. Magnetic processing equipment. 2. A fuel oil magnetism according to claim 1, further comprising a reflux path (25) for branching immediately before supplying the fuel oil magnetically processed by the electromagnet to the combustion device (8) and magnetically processing it again. Processing equipment.

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