JPH1066365A - Permanent engine using magnet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a permanent engine which is so constructed as to transfer a heavy object to a higher position by using permanent magnets and which can take out an energy by turning the engine automatically without supplying an external energy. SOLUTION: Main movable rods 8 are moved upward by the actions of arms 6 and arm gears 7 which are induced by a fixed magnet 4 and movable magnets 5. By these movements, the main movable rods 8 are dispersed on the outside of the left half of a disc and the weight is applied to the left side. To the contrary, in the lower part of the disc, the rods 8 are moved to the center part and converged. Therefore, the weight balance of the disc is lost and the disc is turned to the left little by little and hence the movable magnets 5 are turned to the right in the same way and the same movement is successively and automatically repeated, so that the disc keeps on rotating. At the position of a fixed magnet 12 for pins, the main movable rod 8 does not fall by the repulsion of a movable magnet 11 for pins. In the range where the fixed magnet 12 for pins does not exist, the magnetic force does not exist and the pin falls off and the main movable rods 8 are set free.

Description

DETAILED DESCRIPTION OF THE INVENTION

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for moving a weight rod attached to a disk with potential energy obtained by the magnetic force of a permanent magnet in one direction of the disk and continuously generating a difference in gravity between the rods for a long time. This is a permanent engine designed and designed to rotate continuously. There are the following rules. 1 Rotating condition of disk = difference in gravity between left and right of disk> total of attractive force between main magnets 2 Output energy = difference in right and left gravity of rotating disk-total of attractive force between main magnets

[0002]

2. Description of the Related Art Heretofore, it has been considered that a perfect permanent engine is not possible.

[Problems to be Solved by the Invention] Solid, fluid and liquefied fuels on earth have a limit of depletion, nuclear power generation has many problems, and there is a further danger in the case of nuclear fusion reaction. For the peace of mankind and for the preservation of the global environment, research on such eternal institutions and research and development on clean energy will be necessary.

[0003]

[Means for solving the problems] Light, temperature, buoyancy, gravity,
Many alternative energy sources such as attractive force, wave force, magnetic force, etc. are conceivable, but this time we examined the combination of magnet and gravity, but the magnets need to have a certain separation distance because they interfere with each other. However, it is too large and there are difficulties in putting it to practical use. In order to prevent the main movable rod 8 from dropping, it is necessary to temporarily fix it, but a method such as a cam or a stopper pin can be used for this part. Here, a method using magnet attraction was adopted.

[0004]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A disk 1 is mounted on a shaft 14 and a bearing 15 on a shaft 15 and a disk attachment 2 has an arm 6 to which one is fixed, into which a movable magnet 5 is incorporated. The arm 6 incorporates a semicircular arm gear 7. The arm gear 7 is combined with a main movable bar gear 9, and the main movable bar 8 moves up and down by moving the movable magnet 5 up and down by magnetic force. Structure.
An arm stopper 13 is provided to keep a fixed distance between the fixed magnet 4 and the movable magnet 5.

When the disk 1 rotates and approaches the fixed magnet 4, the movable magnet 5 moves upward. In conjunction with this, the main movable rod 8 rises to the upper part. The movable magnet 11 moves into the cylinder 10 for rods by the repulsive force of the fixed magnet 12 for pins. Even if the attraction of the fixed magnet 4 is lost by the movement of the disk, the main movable rod 8 does not fall, When the position deviates from the position of the fixed magnet 12, the main movable bar 8 can move freely.

At the same time, the relationship below the disk will be explained. When the disk 1 rotates and the movable magnet 5 approaches the fixed magnet 4B, the movable magnet 5 rises due to the repulsive force, and the main movable rod 8 interlocked with this moves closer to the center of the disk 1; The pin movable magnet 11 operates in the same manner as described above by the magnet 12B, and the main movable rod 8 is supported. Thus, in the left half circle of the disk 1, the main movable rod 8 is shifted to the left, the right half circle is shifted to the center, and the center of gravity of the disk is shifted to the left, and the disk rotates counterclockwise and does not stop and is permanently rotated. Continue.

[0007]

We hope that this invention patent will be useful as a permanent organization for the peace of mankind and for the preservation of the global environment.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view showing an embodiment of the present invention.

FIG. 2 is a schematic view of a main movable bar according to the embodiment of the present invention.

[Explanation of symbols]

1 disk, 2 disk attachment table, 3 units, 4 fixed magnets, 5 movable magnets, 6 arm, 7 arm gear, 8 main movable rod, 9 main movable rod gear, cylinder for 10 rod, movable magnet for 11 pin, 12
Pin fixed magnet, 13 arm stopper, 14 shaft, 15 bearing, 16 output gear, 4B lower fixed magnet, 12B pin lower fixed magnet

Claims (4)

[Claims] An energy is obtained by the attractive force between the main magnets, but the force for overcoming the attractive force is increased by increasing the number of magnets and the main movable rods 8, and considering the diameter of the disk 1, gravity overcomes the attractive force and the disk 1 was made to rotate. The disk attachment table 2 is fixed to the disk 1, and one of the arms 6 is movably fixed thereto, and the movable magnet 5 is fixed to the arm 6. The movable magnet 5 is added to the disk 1 and an attractive force is generated between the movable magnet 5 and the fixed magnet 4. To rise. At the lower part of the disk 1, a repulsive force is generated between the movable magnet 5 and the fixed magnet 4B, so that the main movable rod 8 is raised by the arm 6, the arm gear 7, and the main movable rod gear 9. This means that the main movable bar 8 is located closer to the left in the left half circle of the disk 1 and closer to the center in the right half circle. As a whole, the main movable rods 8 attached to the disk 1 cause the weight to be offset in the disk, and the disk rotates to the left. 2. The relation between the force of the fixed magnet 4 and the force of the movable magnet 5 depends on the magnetic force, distance and weight, so that the range of movement of the main movable rod 8 is expanded by adjusting the length of the arm 6 and gearing.
In order to adjust the main magnetic force, the attractive force is adjusted by finely adjusting the position of the fixed magnet 4 up and down. 3. A pin is attached to the tip of the movable magnet to prevent the main movable rod 8 from descending. When the pin movable magnet 11 approaches close to the fixed magnet 12, the rod cylinder 10 is repelled by a repulsive force. To prevent the main movable rod 8 from descending. The movable magnet 11 for the pin is the fixed magnet 1
When it deviates from a certain position, the repulsive force of the magnet disappears, and the movable magnet for pin 11 comes off the cylinder for rod 10 by the repulsive force of the spring, so that the main movable rod 8 can slide freely. The mechanism below the disk repeats the same operation as described above. The power of the disk 1 is extracted from the shaft 14 by the output gear 16 to extract extra energy to supply the energy to the rotation stabilizing device and the load device. The necessary time is given, which stabilizes the rotation speed by stabilizing the relationship between the magnetic force and the rotation. [0001]