JPS60212677A - Motive power generating method and device thereof - Google Patents

Abstract

PURPOSE:To produce energy without employing natural resource as the power source by utilizing the magnetic force as the power source then functioning the magnetic force in one desired direction and moving a movable chip through cancellation control of magnetic force. CONSTITUTION:Upon rotation of a rotary chip 10 located near the center line (a) slightly in the direction (m), said chip 10 is rotated near to the center line (b) through repellence between the permanent magnets 8-1, 8-3 and 12-1, 12-2. At the same time, clockwise rotary force is produced through magnetic attraction between the magnets 8-2, 8-4 and 12-1, 12-2 to position the rotary chip 10 near the center line (c). Here, a magnetic member 16 is inserted between a fixed chip 4 and the rotary chip 10 through inserting/removing means (not shown) to cancel the magnetic attractions between the magnets 8-2, 8-4 and 12-1, 12-2 thus to rotate the rotary chip 10 clockwise through inertia and to continue rotation through repitation of same function.

Description

[Detailed Description of the Invention] [Technical Field of the Invention] The present invention relates to a method and device for generating a motive force, and particularly to a motive force generation method that uses magnetic force as a power source to generate mechanical energy such as rotational motion or linear motion. METHODS AND APPARATUS THEREOF.

[Technical background of the invention] In a prime mover, coal, oil, water power, wind power, geothermal power, tidal power, nuclear power, etc. are used as a power source, and these power sources are used to generate steam engines, internal combustion engines, water turbines, wind turbines, and geothermal power generation. They are broadly classified into engines, tidal power engines, nuclear power engines, etc.

There are also electric motors that are powered by electricity generated by hydroelectric power generation, thermal power generation, or nuclear power generation.

In this way, naturally stored energy is converted into engine energy, which drives various machines and contributes to industrialization.

(2) [Problems with Background Art] By the way, conventional prime movers use natural resources as a power source to generate mechanical energy.

However, natural resources, such as coal, oil, uranium, etc., are limited, making it difficult to secure them permanently and causing pollution problems such as air pollution during conversion work.

Furthermore, in devices powered by natural resources such as water power and wind power, there are disadvantages in that the device is large and the equipment cost is high.

[Object of the Invention] Therefore, in order to eliminate the above-mentioned disadvantages, the object of the present invention is to reduce the amount of magnetism by using magnetic force as a power source and applying the magnetic force in a desired direction to move the mover. By controlling it, there is no need to use natural resources as a power source,
To realize a motive power generation method and device that can generate useful mechanical energy, avoid pollution problems such as noise and air pollution, have a simple configuration, and be inexpensive.

[Structure of the Invention] In order to achieve this object, the present invention consists of a first means having magnets having alternate polarities and a second means having one polarity, and the minus means of both said means are fixed. A configuration in which the other means is used as a moving element, and the amount of magnetism between the two means is controlled to be reduced so as to cause the magnetic force acting on both the means to act in a desired direction to move one of the means. It is characterized in that it is characterized by a first means in which the two polarities of the magnets are arranged alternately, and a second means in which the magnets have one of the two polarities, and the negative means in these two means is connected to the stator. and the other means is a mover, and in order to cause the magnetic force acting between the two means to act in a desired direction and move one of the means, the stator is moved in both states of the same polarity and between different polarities. In order to prevent movement of the mover in a certain direction due to the magnetic force of the mover, the reverse magnetic force between the mover and the stator is reduced and controlled to move the mover in a certain direction. shall be.

(4) [Embodiments of the invention] Examples of the invention will be described in detail below based on the drawings.

1 to 8 show a first embodiment of the present invention.

In FIGS. 1 to 8, reference numeral 2 represents a motive force generating device using a permanent magnet, such as a motor. This motor 2 includes a first means, such as a stator 4, which has both magnetic N and S poles, and a second means, such as a mover 6, which has one of its polarities as an N pole. In other words, the stator 4 is
For example, four first permanent magnets 8-1.8-2.8-3.8
-4 equally spaced in the circumferential direction! The first permanent magnets 8 are formed so that their N poles and S poles are alternately directed in the circumferential direction and inwardly.

Further, the mover 6 is a rotatable rotor 10, and this rotor 10 is formed by two second permanent magnets 12-1, 12-2 and a rotating shaft 14, and one polarity, for example, the N pole, is The structure is such that it is directed outward toward the stator 4 side.

As a result, the stator 4 has four first permanent magnets 8-1, N pole, S pole, N pole, S pole, every 90' around the (5) rotating shaft 14 of the rotor 10. .8-2.8-3.
8-4 is arranged.

Further, a magnetic body 16 is provided which controls the magnetic force to be reduced by changing the amount of magnetism so that the magnetic force acts in one desired direction, and this magnetic body 16 is connected to the first permanent magnets 8-2 and 8-3. -4
and 8-1, the cross section perpendicular to the axis is formed into an arc shape using a mild steel material, and this magnetic body 16 is inserted between the stator 4 and the rotor 10 by insertion/extraction means (not shown). Provided via.

Note that the symbol a is the center line of the stator 4, and b-%-i is the center line when this center line a is rotated clockwise by 45 degrees with respect to the center O.

When the motor 2 is driven to rotate, as shown in FIG. , the first permanent magnet 8-1 and the second permanent magnet 1
2-1, the second permanent magnet 12-1 of the rotor 10 is positioned near the center line, as shown in FIG. Note that at this time, the first permanent magnet 8-2 and the second permanent magnet 12-
1, an attractive force as a positive magnetic force is generated, and this attractive force generates a rotational force in the direction of the hour hand, as shown in Fig. 3.
The second permanent magnet 12-1 of the rotor 1o is located near the center line C. Then, by inserting the magnetic body 16 between the stator 4 and the rotor 10 by an insertion/extraction means (not shown), an attraction resulting from the opposite magnetic force between the first permanent magnet 8-2 and the second permanent magnet 12-1 is generated. The force is controlled to be reduced, and the inertial force of the rotor 10 causes the second permanent magnet 12-1 of the rotor 10 to be located near the center line d, as shown in FIG. A repulsive force, which is a reverse magnetic force, is generated between the first permanent magnet 8-3 and the second permanent magnet 12-1 near the center line d, but since it is controlled to be reduced by the magnetic body 16,
Due to the inertial force of the rotor 10, as shown in FIG.
The second permanent magnet 12-1 of the rotor 10 can be moved to the vicinity of the center line e.

When the second permanent magnet 12-1 of the rotor 10 is located near the center (7) line e, by removing the magnetic body 16, the rotor 1° is slightly moved in the direction of the arrow m by the inertial force. While rotating, the first permanent magnet 8-3 and the second
The rotor 1o is rotated again by the repulsive force, which is a positive magnetic force, with the permanent magnet 12-1. At the same time, as shown in FIG. 6, an attractive force is generated between the first permanent magnet 8-4 and the second permanent magnet 12-1, as in the case of the first permanent magnet 8-2. As shown in FIG. 7, the second permanent magnet 12-1 of the rotor 1o is positioned near the center line g.

Also, the second permanent magnet 1 of the rotor 10 is located near this center line g.
By inserting the magnetic body 16 between the stator 4 and the rotor 10 when the rotor 2-1 is positioned, the attractive force and the repulsive force can be controlled to be reduced. As a result, as shown in FIG. 8, the second permanent magnet 12-1 of the rotor 1° is moved near the center line by the inertial force, and then reaches near the center line i, which is the center line a, as shown in FIG. let

The second permanent magnet 12-1 of the rotor 10 is located near this center line a.
By removing the magnetic body 16 (8) when the first permanent magnet 8-1 is located, as described above, the first permanent magnet 8-1
The rotor 10 starts a second rotational movement due to the repulsive force generated between the first permanent magnet 8-2 and the second permanent magnet 12-1, and the attractive force generated between the first permanent magnet 8-2 and the second permanent magnet 12-1. It is something that makes you

As a result, by inserting and removing the magnetic body 16, magnetic force can be applied in a certain direction, and the reverse magnetic force can be controlled to reduce and control the rotational movement of the rotor to continue. It is possible to obtain rotational force, which is mechanical energy, from the shaft.

FIG. 9 shows a second embodiment of the invention. In this second embodiment, parts that perform the same functions as those in the first embodiment described above are given the same reference numerals and will be explained.

The feature of this second embodiment is that the rotor 10 is
The point is that the second permanent magnets 12 are formed by a plurality of second permanent magnets 12. That is,
Four first permanent magnets 8-1, 8-2 forming stator 4
．． For example, the N poles of 8-3.8-4 are arranged so as to all point toward the center O direction.

This not only provides the same effects as the first embodiment described above, but also simplifies the rotor configuration (9) and contributes to cost reduction.

Note that the present invention is not limited to the above-described embodiments, and various modifications can be made.

For example, in the embodiment of the present invention, the amount of magnetism is controlled to be reduced by inserting and removing two magnetic bodies each having an arc-shaped cross section.
It is also possible to form a magnetic material or a material made of a magnet into a cylindrical shape and use an insertion/removal method or a fixed method.Furthermore, it is possible to wind a coil around the permanent magnet of the stator and apply a current to the coil to create a permanent magnet. It is also possible to adopt a configuration in which the magnetic force is controlled to be reduced by generating a magnetic pole that repels the magnetic pole and changing the amount of magnetism.

Further, although the first means and the second means have been described as, for example, rotors, they can also be applied to a linear moving device if they are movable elements that can be moved in the horizontal direction.

Furthermore, in the embodiment of the present invention, the stator 4 uses four first permanent magnets 8, and the rotor 10 uses two second permanent magnets 12 (10). As shown in the figure, the stator 4 can be formed by eight first permanent magnets 8 and the rotor can be formed by four permanent magnets, or other quantities of permanent magnets can be used to form the stator and rotor. It is also possible to form

Furthermore, in the first embodiment of the present invention, about 2/3 of the permanent magnet is covered with the magnetic material, and the rotor 10 performs the insertion/extraction operation of the magnetic material near each center line c, e, g. However, the ratio of the permanent magnet coating can be changed in various ways, and the start timing of the insertion/extraction operation of the magnetic material can be varied depending on the rotational speed of the rotor and other factors. It can also be operated by

[Effects of the Invention] As explained in detail above, according to the present invention, magnetic force is used as a power source, the magnetic force is applied in one desired direction to move the mover, and the amount of magnetism is changed to generate the magnetic force. Since it is configured to reduce and control the power, there is no need to use natural resources as a power source, and it has the remarkable effect of generating useful energy. Furthermore, the device has a simple configuration and can reduce costs.

Furthermore, there is no emission of harmful factors or noise during use, and pollution problems can be avoided.

[Brief explanation of the drawing]

1 to 8 show an embodiment of the present invention, and each of FIGS. 1 to 8 is a schematic plan view showing a state in which the rotor is sequentially rotated by 45 degrees. FIG. 9 is a schematic plan view showing a second embodiment of the invention. FIG. 10 is a schematic plan view showing another embodiment of the invention. In the figure, 2 is a motor, 4 is a stator, 8 is a first permanent magnet, 10 is a rotor, 12 is a second permanent magnet, 14 is a rotating shaft, 16 is a magnetic body, and a % i is a center line. Agent Patent Attorney Yoshimi Saigo Patent Attorney Yukio Harada (12) Figure 3 Figure 5 Figure 4 Figure 6 Figure 7 Figure 9 Figure 8 Figure 10 Procedure Neiichisho (self-proposal) 1978 June 1, 2016 Kazuo Wakasugi, Commissioner of the Japan Patent Office 1, Indication of the case, Patent Application No. 59-66779 2, Name of the invention, Method for generating motive force and its device 3, Person making the amendment Relationship with the case Patent applicant address: Shizuoka 2 Name of 403 Senba, Kakeyo City, Prefecture Koushin Kogyo Co., Ltd. Representative: Rikuo Shinba 4, Agent: 1057n 03-438-224
1 (Representative) Address: 3-4-17 Toranomon, Minato-ku, Tokyo
No. Rokutomo Building 3, 4th floor Name (8005) Patent attorney West Germany ■ Minomi (and 1 other person) 5. ? ii Date of formal order Voluntary order 6. Subject of amendment Drawings (no change in content) 7. Contents of amendment Submit official drawings. Procedural amendment (June 13, 1980, own ship, Director General of the Patent Office, Kazuo Wakasugi, 1, Indication of the incident, Patent Application No. 59-66779, 2, Name of the invention, Method and device for generating motive power, 3, Person making the amendment) Relationship to the incident Patent applicant address 403 Senba, Kakeyo City, Shizuoka Prefecture 2 Names Koushin Kogyo Co., Ltd. Representative Rikuo Shinba 4, Agent Address 105 03-438-224
1. (Representative) Address: 3-4-1 Toranomon, Minato-ku, Tokyo
No. 7 Katomo 3rd Building 4th Floor Name (8005) Patent Attorney Nishio Toyomi (and 1 other person) (2) Column for brief explanation of drawings in the specification +31 1D Surface 7, Contents of amendment (11 Specification Page 5, gliJ, lines 6-7, "A motive power generating device...This motor 2 is" is corrected to [a motive power generating device. This motive power generating device 2 is]. (2) Specification, page 6 In line 15, "the motor 2" is corrected to [the motive force generating device 2]. (3) In the 11th page of the specification, in the 16th line, "2 is the motor" is corrected to "2 is the motive power generating device." (4) Correct the drawings Figures 1 to 10 as shown in the attached sheet. Figure 1 δ-3 Figure 3 Figure 2 Figure 4 Figure 5 Figure 7 Chikuji Figure

Claims (1)

[Claims] 1. Consisting of a first means having alternately polarized magnets and a second means having one polarity, the negative means among the two means is a stator and the other means is a mover. A driving force characterized in that the amount of magnetism between the two means is controlled to be reduced in order to cause the magnetic force acting on both the means to act in a desired direction to move one of the means. Generator. 2. It consists of a first means in which the two polarities of magnets are alternately arranged and a second means in which one of the two polarities is arranged, and among these two means, the negative means is a stator and the other means is a mover. In order to cause the magnetic force acting between the two means to act in a desired direction and move one of the means, the magnetic force of the stator causes the mover to move in both the same polarity state and the different polarity state. (1) Generation of motive power characterized by moving the mover in a fixed direction by controlling to reduce the reverse magnetic force between the mover and the stator to prevent movement in the fixed direction from being blocked. Method.