KR100383576B1 - Process for preparation of magnet having an inclined magnetic force line and power plants utilizing them - Google Patents

Abstract

By magnetizing the magnetic force line of the magnet deflected to produce a power device such as a magnet motor, acceleration such as centrifugal force action or nozzle phenomenon caused by the magnetic force line deflected in addition to the original magnetic force of the magnet has an effect of doubling the amount of power.

Description

Manufacturing method of magnet with deflected magnetic lines and power device using the magnetic force {PROCESS FOR PREPARATION OF MAGNET HAVING AN INCLINED MAGNETIC FORCE LINE AND POWER PLANTS UTILIZING THEM}

In general, magnets have magnetic lines of magnetism in which the N and S poles are magnetized in the vertical direction. Therefore, the magnetic field is formed only in the linear direction of the N and S poles and in the left and right radial directions thereof.

Therefore, in a power device such as a motor operated by magnetic force, the stator and the rotor of the power device by magnetic force, whether natural or artificial magnets or electromagnets, should be mounted to be the same poles facing each other. In the same power unit, there was a limit to double the propulsion force by the rotational acceleration.

For example, in order to manufacture a motor-driven device with magnets having magnetic lines in either the vertical or horizontal direction, the same pole, for example N, N or S, whose entire outer circumferential surface of the stator and rotor are mutually exclusive in each other in the vertical or horizontal direction It had to be installed so that it had a S pole.

However, such a power unit by a magnet having a magnetic field line formed only in the vertical direction as described above relies solely on mutually exclusive repulsive forces of the same pole regardless of artificial magnets, natural magnets, or electromagnets, and thus the driving force due to the rotational acceleration of the device. Because of the lack of energy consumption, the magnetic power consumption is weak, but the power is weak.For example, in the case of electromagnets, when the electric power is suddenly disconnected, the power device itself has no acceleration, and thus the power device is suddenly stopped.

The present application improves the shortcomings of a power device such as a motor using a magnetic force of a magnet having a conventional vertical magnetic force line as described above. In particular, the same pole is installed to face the same pole of a magnet magnetized to be deflected (inclined). A method of manufacturing a magnet in which the rotational force due to the exclusive self-repulsion force of and the acceleration generated by the rotational force in the deflected direction of the magnet having the deflected magnetic force line are combined to have the rotational force much accelerated than the rotational force caused by the magnetic force and the magnet. As to provide a magnet motor that is a power device used as described in detail with reference to the accompanying drawings as follows.

The present invention relates to a method of manufacturing a magnet magnetized so that magnetic lines of force are deflected, i.e., inclined, and a power device by the magnet.

Fig. 1 (a) is an overall cross-sectional view of a magnet having a deflected magnetic force line and a state of charging and magnetizing iron powder to magnetize.

Fig. 1 (b) is a partial cross-sectional view of the line B-B 'of Fig. 1 (a). Fig. 1 (c) is a cross-sectional view of a magnet motor using a disc magnet manufactured by the method of Fig. 1 (a). ) Is a side view of the motor shown in FIG.

Fig. 2 (a) is a side view of a cylindrical magnet motor made of a large and small cylindrical magnet having both ends of the stator and the rotor formed in the same pole;

(B) is sectional drawing in the XX 'line | wire of (a).

Figure 3 (a) is a side view of a cylindrical magnet motor made of a cylindrical magnet and both ends formed of the same pole coupled to a number of arc-shaped fragment magnets. Figure 3 (b) is a cross-sectional view taken along line D-D 'of Figure 3 (a).

* Explanation of the symbols for the main parts in the drawings * 1a, 2a: North and South poles 3a, 4a, 5a: Disk magnet 6 ': Center axis 6a, 7a: Spacing 9, 9a, 9b: Center 9', 9a ', 9b' : Mold Fa ₁ , Fa ₂ : Disc magnet M ₁ , M ₂ , M ₃ , M ₄ : Cylindrical magnet Se, Se ': Split piece Ra: Disc-shaped rotor Fa: Disc-shaped stator Ra ₁ , Ra ₂ : Circle Plate magnet FB: Cylindrical stator RB: Cylindrical rotor FC: Cylindrical stator RC: Cylindrical rotor

As shown in the cross-sectional view of Fig. 1 (a) (b), disk magnets 3a, 4a and 5a are formed in which the magnetic lines of the north and south poles S, N, 1a and 2a are formed in the vertical direction. Place and fix the disc-shaped magnets 3a, 4a, 5a at their centers 9, 9a, 9b at intervals 6a, 7a equal to the thickness of the disc magnet being lost. Are alternately arranged in the molds 9 ', 9a' and 9b ', and the magnets for manufacturing magnetite are filled in the gaps 6a and 7a so that the iron magnets are magnetized. (3a) (4a) (5a) are arranged so as to be arranged in a direction opposite to the N, S poles facing up and down alternately with respect to the centers (9) (9a) (9b) of the center, and then compressed to the top and bottom of the disc N, S Or to make a disk-shaped magnet (Fa ₁ ) (Fa ₂ ) for a power unit, which is magnetized by a normal magnetization method so as to become S and N poles, so that magnetic force lines are deflected up and down; Or the upper part of the cylindrical magnet in which the iron ore powder is arranged to be deflected in the horizontal direction by a conventional magnet manufacturing method, as referred to in the side view of Fig. 2 (a) and the cross-sectional view taken along the line C-C 'of Fig. 2 (b). Is magnetized with only one pole of the north pole or the south pole, and the entire lower portion of the magnet is magnetized with only one pole of the south pole or the south pole opposite to the upper pole, so that the magnetic force line is deflected in the horizontal direction. Create a cylindrical magnet M ₁ (M ₂ ) for the power unit; Alternatively, as shown in a side view of FIG. 3 (a) and a cross-sectional view taken along the line D-D 'of FIG. 3 (b), the cylindrical magnet is divided into a plurality of cylinders in the height direction of the cylinder, and the cylindrical magnet M ₁ (M) ₂ ) to form a cylindrical magnet form by joining a plurality of divided pieces (Se) (Se ') arranged in the horizontal direction deflected iron powder, and then in the manufacture of the cylindrical magnet (M ₁ ) (M ₂ ) As described above, the entire upper portion of the cylindrical magnet form is magnetized with only one pole of the N pole or the S pole, and the entire lower portion of the magnet form is magnetized with only one pole of the S pole or the N pole which is opposite to the upper pole. To make a large and small cylindrical magnet M ₃ (M ₄ ) magnetized to deflect in the direction.

A power device manufactured using a magnet having a deflected magnetic force line manufactured as described above will be described below. A disk-shaped magnet magnetized such that the magnetic force lines as shown in Figs. When a disk-shaped power unit is made of Fa ₁ ) (Fa ₂ ), as shown in FIGS. 1 (c) and 1 (d), two disk magnets Fa having magnetic lines of force deflected in the vertical direction are formed. ₁ ) A plurality of disc-shaped stators Fa formed by interlocking (Fa ₂ ) to form a magnetic force line in a V-shape are intermittently fixed at regular intervals 11 around the axis 10, and then the other two circles A plurality of disk-shaped rotors Ra formed by engaging plate magnets Fa ₁ and Fa ₂ so as to form a V-shaped magnetic force line in a direction opposite to that of the stator Fa between the predetermined intervals 11. Mounted so as to rotate on the same axis (10) as the stator Fa The plate-shaped rotor (Ra) are configured such that the power unit exclusively rotated by a beveled (deflected) the lines of magnetic force of the same poles of the disk-shaped stator (Fa) or; Or when a cylindrical power unit is made of a large-sized cylindrical magnet M ₁ (M ₂ ) magnetized such that the lines of magnetic force are deflected in the horizontal direction, as shown in Figs. As shown in (b), the cylindrical stator (FB) has a large diameter cylindrical magnet (M ₁ ) magnetized so that the N, S poles are formed up and down and the magnetic force lines are deflected in the horizontal direction by a conventional magnet manufacturing method. The cylindrical rotor MB having the same diameter as the large diameter cylindrical magnet M ₁ manufactured in the same manner as the large diameter cylindrical magnet M ₁ is a cylindrical rotor RB, and the cylindrical rotor RB is the cylindrical stator. (FB) is fixedly mounted on the central axis 6 ', and the upper and lower N, S poles of the cylindrical rotor (RB) and the upper and lower N, S poles of the cylindrical stator (FB) are fixed so that the same poles are close to each other on the same side. The repulsive force of the N, N and S, S poles, the upper and lower equal poles of the large diameter cylindrical stator (FB) and the small diameter cylindrical rotor (RB) Configure a cylindrical power unit so that the rotor (RB) rotates exclusively; Or a plurality of divided pieces Se (Se ′), such as a plurality of cylindrical magnets as shown in Figs. 3 (a) (b) divided into a plurality of cylindrical magnets in the height direction, and the magnetic force lines are deflected in the horizontal direction. When a cylindrical power unit is made of magnetized large and small diameter cylindrical magnets M ₃ and M ₄ , the iron ore powders are arranged to be deflected in the horizontal direction, as shown in FIGS. The upper and lower portions in the form of a cylindrical magnet formed by joining a plurality of divided pieces Se and Se 'are magnetized to N and S poles in the same manner as the cylindrical power unit shown in Fig. 2 (a) and (b). a cylindrical magnet (M ₃₎ a cylindrical stator (FC) to the cylindrical magnet of the large-diameter (M ₃₎ a cylindrical magnet (M ₄₎ with the smaller diameter of the same type prepared in the same way of the large-diameter cylindrical rotor ( RC) to fix the cylindrical rotor RC to the central axis 6 "in the cylindrical stator FC. The power unit may be configured to be mounted in the same manner as the mounting method of the cylindrical stator (FB) and the cylindrical rotor (RB) of the cylindrical power unit.

As described above, in the power unit according to the present invention, the magnet is magnetized to be deflected so that the same N pole or S pole is exclusively engaged in the left, right, up and down directions, and the like, so that power is generated by the repulsive force of the magnet itself. Of course, the centrifugal force is generated by the deflected (inclined) magnetic lines of the nozzle type generated at the point where the stator and the rotor are in contact with each other, and the magnetization in the vertical direction only because the acceleration is added by the original magnetic and centrifugal force of the magnet. It is possible to generate much more energy (power) than the power generated by magnetic force.

In conclusion, a power device such as a magnet motor using a magnet having a deflected magnetic force line of the present invention has an effect of obtaining a large amount of power with a small force due to the acceleration by the centrifugal force of the deflected magnetic force line.

Claims (8)

delete delete Arrange and fix the discs 6a and 7a by the thickness of the disc-shaped magnets to be made the disc-shaped magnets 3a, 4a and 5a in which the magnetic lines of the north and south poles 1a and 2a are formed in the vertical direction. The disc magnets 3a, 4a and 5a are arranged in molds 9 ', 9a' and 9b 'with their centers 9, 9a and 9b staggered respectively. The gaps 6a and 7a are filled with a magnet-made iron ore powder so that the iron ore powder is staggered up and down relative to the centers 9, 9a and 9b of the magnets 3a, 4a and 5a. A disk magnet magnetized so as to be deflected in the direction of the N and S poles facing each other, and then pressed and magnetized by a normal magnetization method so that the top and bottom of the disc become N, S, or S, N poles. A method of manufacturing a disk-shaped magnet for a power unit having a deflected magnetic force line, characterized by obtaining Fa ₁ ) (Fa ₂ ). A plurality of disk-shaped stators (Fa) formed by engaging two disk-shaped magnets (Fa ₁ ) (Fa ₂ ) having magnetic lines formed to be deflected up and down in a V-shape so as to form magnetic lines of force at a predetermined interval about the axis (10). After intermittent fixation with (11), a plurality of circles in which two other disk-shaped magnets Fa ₁ and Fa ₂ are interlocked to form a V-shaped magnetic force line in a direction opposite to that of the stator Fa. A plate-shaped rotor Ra is mounted to be rotated coaxially with the stator Fa between the predetermined intervals 11 so that the disc-shaped rotors Ra are on the same polarized magnetic force line of the disc-shaped stators Fa. Disc-shaped power unit using a magnet having a deflected magnetic force line, characterized in that configured to rotate exclusively by. delete The large-diameter cylindrical magnet M ₁ , in which the N and S poles are formed up and down and the magnetic lines of force are deflected in the horizontal direction, is a cylindrical stator FB, and the large-diameter cylindrical magnet M is formed by a conventional magnet manufacturing method. ₁ ) The same shape of the small diameter cylindrical magnet (M ₂ ) manufactured by the same method as the cylindrical rotor (RB), the cylindrical rotor (RB) of the central axis (6 ') in the cylindrical stator (FB) It is fixed to the upper and lower, the upper and lower N, S pole of the cylindrical rotor (RB) and the upper and lower N, S pole of the cylindrical stator (FB) is fixed so that the same poles close to each other on the same side, large diameter cylindrical stator (FB) and small diameter A cylindrical power unit using a magnet having a deflected magnetic line, characterized in that the rotor (RB) is configured to rotate exclusively by the repulsive force of the N, N pole and S, S poles of the upper and lower poles of the cylindrical rotor (RB). The cylindrical magnet is divided into a plurality of cylinders in the height direction of the cylinder, and a plurality of split pieces Se (Se '), in which the iron ore powder is arranged to be deflected in the horizontal direction, are joined to form a cylindrical magnet shape. Manufacture of cylindrical magnets for power devices with deflected magnetic lines, characterized in that the upper and lower parts are magnetized to be N, S poles in a conventional manner to obtain cylindrical magnets M ₃ and M ₄ with the magnetic force lines deflected in the horizontal direction. Way. Large diameter cylindrical magnet (M) formed by magnetizing the upper and lower portions of cylindrical magnets formed by joining a plurality of divided pieces Se (Se ') in which iron ore powders are arranged to be deflected in the horizontal direction to N and S poles in a conventional manner. ₃ ) The cylindrical stator (FC) and the cylindrical magnet (M ₄ ) of the same shape and manufactured in the same manner as the large diameter cylindrical magnet (M ₃ ) of the cylindrical rotor (RC) to the cylindrical rotor The electron RC is fixedly mounted to the central axis 6 "in the cylindrical stator FC, but the upper and lower N, S poles of the cylindrical rotor RC and the upper and lower N, S poles of the cylindrical stator FC are the same. The rotor RC is exclusively rotated by the repulsive force of N, N pole and S, S pole, which are upper and lower poles of the large diameter cylindrical stator FC and the small diameter cylindrical rotor RC by fixing the poles close to each other on the same side. Cylindrical power unit using a magnet having a deflected magnetic force line, characterized in that configured to.