JPH0365080A - Method of generating magnetic power - Google Patents

Abstract

PURPOSE: To generate a permanent power from a magnetic ring by an arrangement wherein two kinds of force, i.e., attracting and repelling forces, are produced for the powerful permanent magnet of each unit of a specific magnetic ring between the opposite ends of a single pole magnetic area. CONSTITUTION: Magnetic force at the outlet end 22 of a single pole magnetic area 2 is weakened appropriately stepwise, i.e., the unit magnets 42 at the outlet end is decreased sequentially. Since the attraction is decreased gradually, a magnetic ring 1 is not offset through the operating force of 11A, 11A1, 11B, 11B1 and two kinds of force, i.e., attracting and repelling forces, are varied significantly for the magnetic ring 1 in the single pole magnetic area 2. Consequently, the magnetic ring 1 is moved permanently in the direction shown by an arrow when it is set in the single pole magnetic area 2.

Description

[Detailed description of the invention]

INDUSTRIAL APPLICATION The present invention relates to the use of the principle of magnetic repulsion to cause a magnetic ring to enter a monopolar magnetic area and generate a permanent power in the magnetic ring. BACKGROUND OF THE INVENTION Conventional magnetic power requires one set of equipment to provide magnetic pole changes. [Problems to be Solved by the Invention] The present application has been made in view of the above-mentioned problems of the prior art, and its purpose is to provide a device that can do the following: It is something. The present invention is a method of generating magnetic power, and general magnetic power generation involves changing the polarity of both magnetic poles by changing the magnetic poles,
Provides power generation. [Means for Solving the Problems] In order to achieve the above object, the present invention is as follows. That is, the present invention utilizes a large number of unitary strong magnets with the same magnetic direction and the same size, and is fixed at the same spacing to form a magnetic ring, which can pass through the monopolar magnetic area. The area between the two ends of the monopolar magnetic area has two types of pushing force, pulling and repelling, against the strong permanent magnets of each unit of the magnetic ring, so it becomes a permanent moving power that circulates in the magnetic ring. .

[Effect]

I will explain it along with the effects. [Embodiments of the Invention] Examples will be described with reference to the drawings. FIG. 2 shows a structural diagram of the unipolar magnetic area 2 of the north pole. All the magnets 41 are wrapped in a non-magnetically conductive cylindrical shape 4, and all the N poles are directed outside the range, and the S poles are all directed into the range, so that the inner part is always the monopolar magnetic area 2 with the N pole. I can do it. On the other hand, if all the magnets 41
If all the south poles of the magnetic field are directed outside the range, and the north poles are directed into the range, a monopolar magnetic area 2 of south poles will be created. As shown in FIG. 1, many unit magnets 11 are connected to form a magnetic ring 1, and the unit magnets 1 provided in the magnetic ring 1 are
1 all have the same magnetic direction and the same magnetic force, and are arranged at intervals of half the length of the magnet. A magnetic ring 1 is arranged to pass through a monopolar magnetic zone 2, and the magnetic ring 1 includes two ends, one of which is an entry end 21 and the other an exit end 22. , the magnetism of the unit magnet 11 of the magnetic ring l is such that the entrance end 21 of the unipolar magnetic area of the north pole is the north pole, and the exit end 22 is the south pole.
Since they are polar, different polarities generate a magnetic force that attracts each other to the unit magnet 11 that is about to enter. Then, the unit magnet 11 that entered the N-pole monopolar magnetic area 2
The closer it gets to the exit end, the stronger the two types of pulling and repelling forces of the magnet become. Therefore, the two types of pulling and repelling forces that the unit magnet 11 receives are always 11A>118>I I
The situation becomes C>LID>IIH. However, even though llAl and IIBI have already left the N-pole monopolar magnetic area 2, the S-pole different poles at the exit end 22 of the monopolar magnetic area 2 attract each other, so they are attracted by the generated magnetic force. , relatively gives considerable strength to llAl, IIBI. However, the magnetic force equivalent to llAl, IIBI is IIA
, IIB, 11C, 11D. It is smaller than the power of 11E. Therefore, IIA and llA1. The power and magnetic force of IIB and 11B1 cancel each other out, and what remains is IIC, which has two types of pushing force, pulling and repelling. Since only the power is in the monopolar magnetic area 2 such as 11 D, l I E, . . . , the magnetic ring 1 moves in the direction of the arrow as before. However, since such a mutually canceling phenomenon is contrary to economic principles, the inventor arranges the magnetic force at the outlet end 22 of the monopolar magnetic region 2 step by step to weaken it appropriately. Next, as shown in FIG. 4, the magnetic force at the outlet end 22 of the monopolar magnetic area 2 is arranged step by step and suitably weakened, that is, the unit magnets 42 at the outlet end are made smaller one by one, and then, Since the attracting magnetic force gradually decreases, the magnetic ring 1 is 11A.
11A1, IIB and 11B1 do not cancel each other out, and the pulling and repelling forces of the monopolar magnetic area 2 against the magnetic ring 1 change noticeably. In other words, as shown in FIG. 5, the monopolar magnetic area 2 has a force A of different polarity with respect to the magnetic ring 1, and the monopolar magnetic area 2 has a repulsive force B of the same polarity with respect to the magnetic ring 1. be. Therefore, when the magnetic ring 1 is placed in the monopolar magnetic area 2, it moves permanently along the direction of the arrow. As shown in FIG. 6, the monopolar magnetic areas 2 are arranged at intervals, and the magnetic ring 1 is a continuously circulating band. This magnetic ring 1 can pass through each monopolar magnetic area 2, and each monopolar magnetic area 2 generates two types of actuation forces, pulling and repelling, to the magnetic ring 1, so that the magnetic ring l rotates and circulates. It becomes a permanent power that generates endless power. If the unipolar magnetic area 2 can be divided into upper and lower main bodies, if it is separated upwardly, the unipolar magnetic area 2 will not be formed, and therefore the rotation of the magnetic ring 1 will stop and it will not be able to move. It will no longer be possible and no power will be generated. [Effects of the Invention] Since the present invention is configured as described above, it produces the following effects. The principles of the invention utilize a continuous magnetic ring arranged to enter one or more unipolar magnetic zones, so that the magnetic ring permanently rotates into the unipolar magnetic zone. Of course, the shape of the unipolar magnetic area is not limited, but if the magnetic ring can pass through the unipolar magnetic area, the magnetic ring will move into the unipolar magnetic area, and the movement is continuous. If it circulates, it can generate a permanent power, which is its greatest feature.

[Brief explanation of drawings]

Figure 1 is a diagram of the operating principle of magnetic force. Figure 2 is a cross-sectional view of the N-pole magnetic area. Figure 3 is a cross-sectional view of the 13-pole magnetic area; FIG. 4 is a magnetic force operation diagram of the present invention, Figure 5 is an enlarged view of Figure 4. FIG. 6 is a detailed explanatory diagram of the present invention. 1, ga sex ring, 11, unit magnet, 291. monopolar magnetic area, 21, , approach end, 221. exit end, ４１、、、Magnet、 42,, unit magnet. Second figure

Claims (1)

[Claims] By using many unit magnets with the same magnetic direction and the same size,
Magnetic rings fixedly arranged at the same distance with half the length of the unit magnets are arranged so as to pass through one or more unipolar magnetic areas, and the magnetic rings are arranged in the unipolar magnetic area. A method for generating magnetic power, which is characterized in that it becomes a permanent power that circulates.