JP2000000574A - Apparatus for magnetic treatment of fluid - Google Patents

Abstract

PROBLEM TO BE SOLVED: To expose a fluid to a line of magnetic force to treat the same. SOLUTION: A fluid magnetic treatment apparatus is equipped with magnetic units 12 having yokes 15 made of a magnetic material so that permanent magnets 13 are positioned on one side and the acting parts 14 being in contact with a pipeline 11 through which a fluid flows are positioned on the other one side and a plurality of the magnetic units 12 are arranged so that magnetic poles N, S appearing in the acting parts 14 are alternately arranged along the moving route of the fluid. Pref., there is the arranging part of the permanent magnets 13 on one side of the yokes 15 and there is the arranging part of the pipeline on the other one side of the yokes 15.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for applying magnetism to a fluid moving in a pipeline to perform magnetic treatment of the fluid.

[0002]

BACKGROUND OF THE INVENTION Certain devices of this type are known as devices for preventing skeletal deposits on the inner walls of conduits, see, for example, U.S. Pat. No. 5,074,998. Can be. The invention of the same publication has a configuration in which a solenoid type electric coil is arranged along or outside of such a pipeline along a pipe, and the skeleton is exposed to a magnetic field generated by energizing the electric coil, and the magnetic field is changed. .

In the above invention, a flow converter is provided on a pipe, which is connected to a power supply to control the strength of the output of the electric coil. For this reason, unless it is a part where the above-mentioned device can be installed, the thing of the above-mentioned invention cannot be used, and it becomes a restriction.

Further, the above-mentioned invention has a frequency conversion means, which adjusts the energizing signal current of the coil to the frequency inherent in the skeletal material. In other words, if the frequency shifts, resonance does not occur, and the desired effect cannot be obtained. In particular, in the above invention, it is considered that the fluid is exposed only once to the electromagnetic field, and no further effect can be expected even if it can prevent skeletal adhesion.

[0005]

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and has as its object to reduce the restrictions on installation and to apply kinetic energy based on magnetic force to a fluid moving through a pipeline. The point is that you can do it.

Another object of the present invention is to facilitate removal of a fluid containing a component such as a skeleton-forming material by changing the roughness (structural roughness) of the component. And a kinetic energy change based on magnetic force is exerted on the fluid, thereby modifying the physical properties of the fluid.

[0007]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention provides a magnetic processing apparatus for a fluid, in which a permanent magnet is located on one side, and an action portion in contact with a pipeline in which the fluid moves is located on another side. And a magnetic unit having a yoke made of a magnetic material located at a position, and arranged by arranging a plurality of magnetic units so that magnetic poles appearing in the action portion are alternately arranged N and S along a moving path of the fluid. It is a means of doing it.

The above-mentioned magnetic unit is a conceptual constitutional unit, and includes an independent unit. However, it does not mean that the magnetic unit must be independent as an article. A plurality of units arranged in series constitute the apparatus of the present invention.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A fluid magnetic processing apparatus 10 according to the present invention performs magnetic processing on a fluid moving through a pipeline 11 by applying magnetism to the fluid.

This device 10 has a magnetic unit 12 as a basic constituent unit. The magnetic yoke 12 is a yoke 1 made of a magnetic material in which a permanent magnet 13 is located on one side and an action part 14 in contact with a conduit 11 through which a fluid moves is located on another side.
I have five. That is, a magnetic circuit is formed between the yoke 15 and the permanent magnet 13.

The yoke 15 in the illustrated embodiment is formed by laminating a large number of thin plate-shaped magnetic bodies. A so-called iron core is suitable for the yoke 15 in the present invention. On one side of the yoke 15, there is an arrangement part 16 for the permanent magnet 13, and on the other side there is an arrangement part 17 for the conduit 11. The illustrated pipeline arrangement section 17 surrounds the pipeline 11 so as to sandwich the pipeline 11 from both sides.
6 sandwiches the permanent magnet 13 from both sides.
5 comprises two parts 15a, 15b for convenience.

The magnetic unit 12 is arranged so that the north pole and the south pole are alternately arranged in the working section 14 along the moving path of the fluid. See FIG. In other words, the magnetic units 12 are reversely arranged so that the polarity of the permanent magnet 13 changes several times to NS, SN, NS, and SN.

A spacer 18 can be interposed between the units. The spacer 18 does not need to be made of a magnetic material. Therefore, the unit 12 includes the spacer 18 made of a non-magnetic material, and becomes an integrated device by fixing means such as bolting. The illustrated spacer 18 is a yoke 2 portion 15a, 15
b. 19 shows the bolt hole.

In response to a change in the polarity of the permanent magnet 13, a large kinetic energy, which cannot be obtained by unipolar inversion by a coil or the like, is generated. This can be easily understood by recalling that in a rotary generator, the higher the magnetism and the higher the rotation speed, the larger the amount of power generation. This large kinetic energy acts on the fluid flowing through the conduit 11 (including the components contained therein). This energy is due to the reversal of the poles and extends throughout the passing fluid.

One of the effects is a change in the roughness of the fluid and the substance dissolved therein (described above), and the substance subjected to this action is larger than the crystal formed by the ordinary crystallization process. It is a substance with different shapes, shapes and properties. The reason for this is that crystallization is accelerated by the kinetic energy of the permanent magnet before the normal crystallization process takes place, and the crystal is smaller because it is crystallized with more nuclei than the number of crystal nuclei in the normal process. It is presumed that this is because the crystallinity changes into a square or lump due to a change in the roughness, and it is difficult to form needles, so that the bonding force is reduced.

The fact that the crystal is difficult to grow largely means that it is difficult to generate skeleton on the tube wall or the like. In the present invention, an AC magnetic field having a high apparent gain is created for the fluid by utilizing the flow velocity of the fluid moving through the conduit 11, which can be said to be a great feature.

[0017] One of the uses of the present invention is reforming of liquid fuel. For example, when light oil fuel was reformed and used in the present apparatus, it was found that NOX in the exhaust gas component of the reformed fuel was significantly reduced.

In addition, the apparatus 10 according to the present invention changes the roughness of the liquid flowing through the conduit 11 to improve the permeability of the liquid and suppress the foaming by the action of improving the defoaming speed of the liquid. The effect, the effect of preventing the crystallized substance from adhering, and the like were recognized. In the present invention, since the frequency of the polarity conversion is apparently proportional to the flow velocity of the fluid, the frequency can be converted by adjusting the flow velocity.

[0019]

Since the present invention is constructed and operates as described above, it is possible to apply kinetic energy based on reversal of magnetic force to a fluid moving in a pipeline, and as a result, squelch the fluid. When a component such as a forming substance is contained, there is an effect that the physical properties of the fluid can be modified by means and action such as causing a change in roughness of the component to facilitate removal. .

[Brief description of the drawings]

FIG. 1A is a side view showing an embodiment of a magnetic unit in a fluid magnetic treatment apparatus according to the present invention. (B) Front view of the magnetic unit corresponding to the left side surface of FIG.

FIG. 2 is a front view showing a use form of the device of the present invention.

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[Procedure amendment]

[Submission date] April 12, 1999 (1999.4.1
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[0007]

SUMMARY OF THE INVENTION In order to solve the above problems, the present invention provides a magnetic processing apparatus for a fluid, in which a permanent magnet is located on one side, and an action portion in contact with both sides of a pipe through which the fluid moves is another. one underground lifting yokes made of a magnetic material which is positioned on one side, and the yoke
The magnetic unit includes a magnetic unit having a yoke made of a magnetic material positioned on the other side, and a magnetic pole that appears in the operating unit is arranged along a movement path of the fluid. , N, S are arranged by arranging a plurality of magnetic units so as to be alternately arranged.

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[Procedure amendment]

[Submission date] September 22, 1999 (September 9, 1999
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[0007]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention is an apparatus for applying a magnetic force to a fluid moving through a pipeline to perform magnetic treatment of the fluid, comprising one permanent magnet and two permanent magnets.
And one yoke made of a magnetic material, one side of each yoke being positioned at each magnetic pole of the permanent magnet , and the other side of each yoke
To the working parts located on both sides of the conduit through which the fluid moves .
By Rukoto, comprising a magnetic unit which constitutes a magnetic circuit between the yoke and the permanent magnet, the magnetic poles appearing on the acting portion along a movement path of the fluid, N, so as to line up in S alternately, a plurality of magnetic units Are arranged by arranging the.

Claims (4)

[Claims] Claims: 1. A magnet acting on a fluid moving in a pipeline,
An apparatus for performing magnetic processing of a fluid, comprising: a magnetic unit having a yoke made of a magnetic material in which a permanent magnet is located on one side, and an action unit in contact with a pipeline in which the fluid moves is located on another side. A magnetic processing apparatus for a fluid, wherein a plurality of magnetic units are arranged so that magnetic poles appearing in the action section are alternately arranged N and S along a moving path of the fluid. 2. A permanent magnet is disposed on one side of the yoke, and a conduit is disposed on another side of the yoke, forming a magnetic circuit between the yoke and the permanent magnet. A magnetic processing apparatus for a fluid according to claim 1. 3. The magnetic processing apparatus for a fluid according to claim 2, wherein the pipeline arrangement portion surrounds the pipeline so as to sandwich the pipeline from both sides. 4. The fluid magnetic processing apparatus according to claim 1, wherein the magnetic unit includes a spacer interposed between adjacent units.