JP2004120818A - Power generating device with magnet - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a power generating device which rotates a rotator in which a permanent magnet is incorporated by a repulsion of a magnet. <P>SOLUTION: A rotating shaft is provided with a plurality of discs. A rotator in which multiple permanent magnets are fixed with a constant interval is formed at the outer periphery of the disc. A see-saw comprising a box is provided near the rotator. A permanent magnet is fitted to both ends of the see-saw with the same polar plane as the rotator magnet. The see-saw is vertically moved by a drive motor to repeatedly cause repulsion against the rotator magnet, thus giving the rotator a rotational force. The see-saw continuously performs alternating action under the control of the drive motor, so that the rotator is given a stable and continuous rotational force. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a power generation device using a magnet that obtains power by a repulsive action of a rotating body and a seesaw magnet using a magnetic force of a magnet.
[0002]
[Prior art]
It is widely used as a conventional motive power, such as electric motive power and fuel-powered motive power, and has reached a technically high standard.It has limitations in energy conversion efficiency and cost, and is safe in nuclear power generation. In recent years, there has been a frequent problem of conversion to natural energy, such as safe photovoltaic power generation and wind power generation.
[0003]
[Problems to be solved by the invention]
The conventional power source has a completely new natural-circulation type of power generation, which has a problem of pollution such as heat release and exhaust gas, and has departed from fossil fuel use because of its inefficient output and high operating cost. The purpose is to complete the device.
[0004]
[Means for Solving the Problems]
In order to achieve the above object, in the power generating apparatus using magnets according to claim 1, a plurality of disks are installed at predetermined positions on a rotating shaft, and a large number of permanent magnets are installed at equal intervals on the outer periphery of the disk to fix the permanent magnets. The seesaw is set at a predetermined position, and the seesaw is moved up and down by the auxiliary motor, and repulsion with the disk magnet is repeated to give a rotational force to the disk.
[0005]
[Means for Solving the Invention]
FIG. 12 is a view showing the properties of the anisotropic permanent magnet used in the present invention. The fact that the upper surface and the lower surface of the magnetic material are in a horizontal line and have different polarities is utilized in the repulsion diagram 13 of the magnets, and In the state of repulsion, the sides attract each other by applying the characteristic of attracting each other to the action of the magnet of the disk and the seesaw, and the disk magnet advances by the attractive force of the seesaw magnet, but the magnetic field on the side is compared with the plane magnetic field. Because of its small size, the disk magnet is characterized in that it escapes from the attraction magnetic field and enters the repulsive magnetic field for a while, and is propelled in the traveling direction to apply a rotational force to the disk so as to slip through.
[0006]
The disc magnet and the repelled seesaw are pushed down and separated from the repelling magnetic field, but the opposite side is flipped up by the recoil, and the next traveling magnet of the disc magnet and the seesaw magnet repeat the above operation alternately and rotate continuously to the rotating body. The power is applied, but a stable and continuous rotational force is obtained by the control of the drive motor and the regular interaction of the seesaw.
[0007]
【Example】
An embodiment of the present invention will be described in detail with reference to the drawings.
[0008]
FIG. 1 is a perspective view of an embodiment of a power generation device using magnets according to the present invention.
[0009]
In FIG. 1, a plurality of rotating disks 8 are installed at predetermined positions on a vertical shaft 10, and a large number of magnets 9 are fixed to the disks at equal intervals to form a rotating body. A seesaw 4 constituted by a seesaw box 6 is installed at a predetermined position in a part and a lower part, a magnet 5 is fixed to the seesaw, a seesaw is connected by a connecting rod 7, and a driving motor 1 is connected via a crank 2 and a transmitting rod 3. The seesaw 4 is moved up and down to repel the disc magnet 9 repeatedly to generate a rotating force on the rotating disc 8.
[0010]
FIGS. 2 to 10 are displacement relationship diagrams of the rotating disc magnet and the seesaw magnet. In FIG. 3, at 45 ° of rotation, the seesaw left magnet is pushed down by repulsion with the disc magnet, and the seesaw right jumps up by a reaction. The disc magnet in progress at 4 ° revolves 90 ° with the right side magnet of the seesaw and is pushed down on the right side of the seesaw, and the left side of the seesaw jumps up by the reaction, and the rotating body is propelled in the rotational direction by the repulsion of the seesaw by the above continuous action, Get rotational force.
[0011]
FIG. 11 is a diagram showing a magnet mounting positional relationship between the rotating disk and the seesaw. At the outer edge of the disk, four 120 ° square magnets are installed, while four 90 ° square magnets are installed at the outer edge of the disk, and the magnets attract and repel each other. A time difference is provided between the motors, so that stable rotation power can be generated by smoothing and smoothing the rotation.
[0012]
FIG. 12 shows the properties of anisotropic permanent magnets and the lines of magnetic force (magnetic field). The general magnet has vertical and left and right magnetic poles, whereas the anisotropic permanent magnet used in the present invention has magnetic properties. Since the magnetic poles are divided above and below the horizontal line, the sides of the rotating disk 8 are attracted when the magnets repel each other, and when the magnet 9 of the rotating disk 8 approaches the seesaw magnet 5, the disk is accelerated by the seesaw magnet. .
[0013]
Using the rectangular shape of the anisotropic permanent magnet of FIG. 12, the ratio of the side area to the plane area of the magnet is about 1: 5 to facilitate separation from the attraction force of the above-mentioned side faces, and the repulsion of the disc magnet and the seesaw magnet quickly. During the operation, the disk magnet generates a rotational force by escaping from the repulsive magnetic field of the seesaw, and a rotating force is given to the rotating body by continuously performing such an operation. Are provided in a multi-stage manner to improve the rotational force.
[0014]
In the present invention, a large number of disks with magnets fixed to the rotating shaft are installed, and this is used as a rotating body, the seesaw is moved up and down by a drive motor, and the magnet attached to the seesaw and the magnet of the rotating body are repelled and rotated to the rotating body. A mechanism that generates force.The rotating shaft can be designed vertically and horizontally, and the rotating direction of the rotating body can also be changed left and right.Also, to reduce the operating force of the seesaw, the operation of the operating side by leverage The extension is longer.
[0015]
【The invention's effect】
The present invention does not use fossil fuel in the above description, and is a power generation device utilizing the magnetic force of a permanent magnet, and can be expected to have sufficient effects in terms of safety, mediocreness, cost, etc.
[Brief description of the drawings]
FIG. 1 is a perspective view of a power generation device according to an embodiment of the present invention.
FIG. 2 is a diagram showing a 0 ° displacement relationship between a disk and a seesaw magnet during rotation.
Fig. 3 Same as above 45 °
FIG. 4 Same as above 90 °
FIG. 5: 135 °
FIG. 6: 180 °
FIG. 7: 225 °
FIG. 8: 270 °
FIG. 9: 315 °
FIG. 10: 360 °
FIG. 11 is a diagram showing the relationship between a rotating disk and a seesaw magnet.
FIG. 12 is a diagram illustrating properties of anisotropic magnets and lines of magnetic force.
FIG. 13 is a diagram of lines of magnetic force at the time of repulsion of an anisotropic magnet.
[Explanation of symbols]
1 Driving motor
2 Crank 3 Transmission rod 4 Seesaw 5 Anisotropic magnet 6 Seesaw box 7 Connecting rod 8 Rotating disk 9 Anisotropic magnet 10 Vertical axis

Claims (2)

A plurality of disks are installed on the rotating shaft, a rotating body having a large number of magnets installed at equal intervals on the outer periphery of the disk, a seesaw is installed near the rotating body, and the magnet is rotated on the seesaw in the same plane as the rotating magnet. A power generation device characterized in that the seesaw is alternately moved by a mounting motor and driven repeatedly to repeatedly repel the rotating body magnet to apply a rotating force to the rotating body. One or a plurality of disks are installed on the vertical axis, a number of magnets are installed around the disk at the same interval, and a rotor is used as a rotating body, and a seesaw is installed near the rotating body. A power generator characterized in that it is mounted on an extreme surface, the rotating body is rotated by a drive motor, and rebounds repeatedly with the magnet of the seesaw to give the seesaw an upward and downward movement force.

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