KR19990068325A - Process for preparation of magnet having an inclined magnetic force line and magnetic motor utilizing it - Google Patents

Abstract

By magnetizing the magnetic force lines 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 lines deflected in addition to the original magnetic force of the magnet is effective to double the amount of power.

Description

Method for manufacturing deflected magnetic field magnet and magnet motor using the magnet {{PROCESS FOR PREPARATION OF MAGNET HAVING AN INCLINED MAGNETIC FORCE LINE AND MAGNETIC MOTOR UTILIZING IT}

The present invention provides a method of manufacturing a magnet that is magnetized so that a magnetic force line is deflected, that is, formed to be inclined, and to provide a magnet motor by the magnet.

Conventional magnets have magnetic lines of magnetism symmetrically magnetized in the vertical direction in both the N and S directions, and thus act only in the left and right radial directions of the magnetic fields N and S poles in the linear and linear directions. When manufacturing the same power unit, the stator and the rotor of the power unit, whether natural magnets, artificial magnets or electromagnets, should be mounted so that mutually opposite poles are the same poles exclusively facing each other. There was a structural limitation in manufacturing a power unit such as a motor.

For example, to make a motor-driven device with magnets with magnetic lines of force only in either the vertical or horizontal direction, the same poles, in which the opposing surfaces of the stator and the rotor are mutually exclusive in the vertical direction, eg N, N or S, S poles Since the inner circumferential surface of the stator and the entire outer circumferential surface of the rotor had to be spaced apart, it was necessary to install the same pole in the vertical direction.

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 this lack of self-consumption but weak power. For example, in the case of electromagnets, when the electromagnetic force is rapidly disconnected, the power unit itself has no acceleration and propulsion at all, and thus it is rapidly stopped.

The present application excludes the drawbacks 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, and magnetizes the magnetic force line to be deflected (inclined) to be in addition to the rotational force by the exclusive self-repulsive force of the same pole. Once the rotation starts by the magnetic force in the deflected direction by the magnetic field lines, the acceleration by centrifugal force is added to manufacture the magnet so that the rotational force is much stronger than the rotational force by its own magnetic force. It will be described in detail with reference to the accompanying drawings as to provide as follows.

Figure 1 (a) is a high-height cylindrical existing magnet of the present invention and a magnet to magnetize

Flat schematic.

Figure 1 (b) is a cross-sectional view taken along the line AA 'of Figure 1 (a).

Figure 2 is a side of a cylindrical motor using a magnet manufactured in the same manner as in Figure 1 (a)

Cross-section.

Figure 3 (a) is a longitudinal section of the disc-shaped existing magnet and the magnet to magnetize according to the present invention

Diagram.

Figure 3 (b) is a cross-sectional view taken along the line B-B 'of Figure 2 (a).

Fig. 4 (a) is a side view of a magnet motor using a disc magnet manufactured by the method of Fig. 3 (a).

Cross-section.

Figure 4 (b) is a side view of the motor of Figure 4 (a).

Figure 5 (a) is the upper and lower ends of the stator and the rotor in the cylindrical magnet motor to the same pole

Side view of an example formed.

(B) is sectional drawing along the C-C 'line | wire of (a).

Figure 6 is a plurality of arc-shaped cylindrical magnet motors having the upper and lower ends of the same pole

Side view formed by combining fragment magnets.

* Explanation of symbols for main parts of the drawings

1,1a; Antarctica (S) 2,2a; Arctic (N)

3; Large-diameter cylindrical magnet 4; Small diameter cylindrical magnet

3a, 4a, 5a; Cylindrical vertical magnet 5; interval

6a, 7a; Interval 6; shaft

8,8a; Center 9,9a, 9b; center

10; Axis 11; interval

F, Fa; Stator R; Rotor

The south pole (S) and the north pole (N) (2) are magnetized repeatedly throughout the circumference to make a large diameter cylindrical magnet (3). The shaft 6 is made of the same small diameter cylindrical magnet 4 that is magnetized so that the north and south poles 1 'and 2' are repeated in the same manner as the large diameter cylindrical magnet while maintaining the interval 5 as much as the thickness of the shaft 6. The center of the north and south poles (1) and (2) of the large diameter cylindrical magnet (3) and the center of the north and south poles (1 ') and (2') of the small diameter cylindrical magnet (4). ) And the iron ore (ferrite) powder for the magnet is filled in the space 5 between the large diameter cylindrical magnet 3 and the small diameter cylindrical magnet 4 in a state in which they are staggered from each other. It is magnetized so that the NS magnetic lines are deflected by compression, so that the poles are opposite to each other in the inner and outer surfaces of the cylinder, and the adjacent poles in the circumferential direction Obtain a cylindrical magnet composed of a plurality of repeating magnets having magnetic lines of opposition opposite to each other, or a disk-shaped magnet in which magnetic lines of the north and south poles (1a) and (2a) are formed in a vertical direction as shown in FIG. The disc magnets 3a, 4a and 5a are placed and fixed at intervals 6a and 7a corresponding to the height of the disc magnets to be made between 3a, 4a and 5a, The centers 9, 9a, and 9b of the disc magnets 3a, 4a, and 5a are staggered, respectively, to fill iron gaps for magnets in the gaps 6a, 7a. Pressed by a magnet manufacturing method to produce a disc-shaped low-magnet magnet magnetized so that the vertical NS magnetic line is deflected.

As described above, the upper part of the cylindrical magnet magnetizes only one of the poles of either the north pole or the south pole, and the lower end of the magnet is either the pole of the south pole or the north pole which is opposite to the upper pole. Magnetize the bay, but each of the same N pole or S pole magnetizes the magnetic force lines to be deflected, or a plurality of divided pieces obtained by dividing a plurality of cylindrical magnets having N and S poles formed in the upper and lower portions of the cylinder in the height direction of the cylinder. It can also be joined to form a cylindrical magnet.

As described above, when a power motor is manufactured using a magnetized magnet in which a magnetic force line manufactured according to the present invention is deflected, a large diameter cylindrical magnet magnetized such that the south pole 1 and the north pole 2 are repeated throughout the circumference. 3) as the stator (F) and the magnetized magnetism line is deflected so that the magnetic poles of which magnetic poles are opposite to each other in the inner and outer surfaces of the cylinder and opposite poles in the circumferential direction are repeated. In the large-diameter cylindrical magnet (3), a small diameter cylindrical magnet consisting of a rotor R is used so that the stator (F) of the large diameter cylindrical magnet and the rotor (R) of the small diameter cylindrical magnet are at regular intervals. The rotor (R) is mounted around the shaft (60) to form a magnetic power unit (see Fig. 2), or as referred to in Fig. 4 (a) longitudinal section, A plurality of disc-shaped stators (Fa), in which two disc-shaped magnets (Fa ₁ + Fa ₂ ) are engaged to form a magnetic force line in a shape, are intermittently fixed with a certain interval (11) about an axis (10). Next, the disc-shaped rotor Ra, which engages _two disc-shaped magnets Ra ₁ + Ra ₂ to form a magnetic force line in a U-shape at the interval 11, is mounted to rotate on the same axis as the stator Fa. The inclined (deflected) magnetic lines of the stator Fa and the rotor Ra are positioned in the same direction of the same pole so as to be exclusively rotated to constitute a power unit by magnetic force, or as shown in FIG. 5, the N and S poles. It is formed by a magnetic force by mounting the stator (Fb) and the rotor (Rb) made of a large and small diameter cylindrical magnet magnetized to be inclined (deflected) at the same pole and formed at the same pole as described above. Or the upper and lower sides are N, S poles The stator and the rotor may be formed by combining a plurality of divided pieces of large and small diameter cylindrical magnets in the height direction in a power unit formed by a stator and a rotor having a large diameter cylindrical magnet. It consists of things.

As described above, by arranging and arranging the magnets in which the magnetic force lines are magnetized so as to deflect the present invention, the same poles of N and S are exclusively engaged in left, right, up and down, horizontal directions, and the like, thereby manufacturing a power device by a magnetic force such as a magnet motor. Power is generated by the repulsive force by its own magnetic force, and at the point where the same pole of the stator and the rotor are in contact, the deflected (inclined) magnetic line is in the form of a nozzle, so that centrifugal force is generated. Because of this added acceleration, it generates much more energy (power) than by the magnetic force magnetized only in the vertical direction.

The present invention has the effect of obtaining a large amount of power with a small force as well as the acceleration of centrifugal force of a power device such as a magnet motor using a magnet having a deflected magnetic force line, as well as the magnetic force is completely exhausted or the electromagnetic force is not disconnected. The effect is that it can generate power almost infinitely.

Claims (2)

The south pole (S) and the north pole (N) (2) are magnetized repeatedly throughout the circumference to make a large diameter cylindrical magnet (3). The shaft 6 is made of the same small diameter cylindrical magnet 4 that is magnetized so that the north and south poles 1 'and 2' are repeated in the same manner as the large diameter cylindrical magnet while maintaining the interval 5 as much as the thickness of the shaft 6. The center of the north and south poles (1) and (2) of the large diameter cylindrical magnet (3) and the center of the north and south poles (1 ') and (2') of the small diameter cylindrical magnet (4). ) And the iron ore (ferrite) powder for the magnet is filled in the space 5 between the large diameter cylindrical magnet 3 and the small diameter cylindrical magnet 4 in a state in which they are staggered from each other. It is magnetized so that the NS magnetic lines are deflected by compression, so that the poles are opposite to each other in the inner and outer surfaces of the cylinder, and the adjacent poles in the circumferential direction Obtain a cylindrical magnet composed of a plurality of repeating magnets having magnetic lines of opposition to each other, or a disk-shaped magnet 3a (4a) having magnetic lines of magnetic north and south poles (1a) and (2a) in a vertical direction in a similar manner. The disc-shaped magnets 3a, 4a and 5a are disposed and fixed at intervals 6a and 7a corresponding to the height of the disc-shaped magnets to be made between 5a), but the disc-shaped magnets 3a The centers 9, 9a, and 9b of the 4a and 5a are alternately arranged so that the iron iron powder for the magnets is filled in the gaps 6a and 7a, and then compressed by a normal magnet manufacturing method to be vertical. A method of manufacturing a deflected magnetic line magnet, characterized in that for producing a disk-shaped magnet magnetized so that the NS magnetic line is deflected. The large-diameter cylindrical magnet 3 magnetized to repeat the south pole (1) and the north pole (2) throughout the circumference as a stator (F) and the NS magnetic lines are magnetized to deflect so that the poles are opposite to each other in the inner and outer surfaces of the cylinder. Stator (F) of the large-diameter cylindrical magnet (3) using a small-diameter cylindrical magnet consisting of a plurality of repeating magnets with magnetic lines of force opposite to each other in the circumferential direction, the rotor (R) And a rotor (R) mounted around the shaft (60) in the large diameter cylindrical magnet (3) so that the rotor (R) of the small diameter cylindrical magnet is at regular intervals. Many disc-shaped stators (Fa), which engage _two disc-shaped magnets (Fa ₁ + Fa ₂ ) having magnetic lines in their own shape, are intermittently fixed at regular intervals (11) about an axis (10). Stator by mounting a disk-shaped rotor (Ra) which is engaged with two disk-shaped magnets (Ra ₁ + Ra ₂ ) to form a magnetic force line in the U-shape 11 to rotate on the same axis as the stator (Fa) (Fa) and the inclined (deflected) magnetic lines of the rotor (Ra) are positioned in the same direction of the same pole to be exclusively rotated to form a power unit by the magnetic force, or the N and S poles are formed up and down In the same manner, the stator (Fb) and the rotor (Rb) made of large and small diameter cylindrical magnets in which magnetic lines of force are magnetized to be inclined (deflected) are mounted in the same manner as described above to form a power device by magnetic force, or Large diameter circle with N and S poles Characterized in that the stator and the rotor may be configured by combining the divided pieces divided into a plurality of cylindrical magnets of large and small diameters in the height direction in the power unit by the magnetic force composed of the stator and the rotor as a magnet Magnet motor with magnet.