JPH118961A - Magnet-type rotating machine - Google Patents
Magnet-type rotating machineInfo
- Publication number
- JPH118961A JPH118961A JP20822297A JP20822297A JPH118961A JP H118961 A JPH118961 A JP H118961A JP 20822297 A JP20822297 A JP 20822297A JP 20822297 A JP20822297 A JP 20822297A JP H118961 A JPH118961 A JP H118961A
- Authority
- JP
- Japan
- Prior art keywords
- magnet
- force
- disk
- electromagnet
- rotating machine
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Permanent Magnet Type Synchronous Machine (AREA)
Abstract
Description
【発明の詳細な説明】 この発明は磁石同志の自然の反発力を利用して円板を浮
上させて回転時の摩擦損失が少なくなるようにし、その
円板に磁石を円状に配置し、その磁石と吸引、反発する
ように円状に電磁石を固定したものである.電磁石のス
イッチをON,OFFとくりかえすことによって円板の
磁石と電磁石の吸引力と反発力で円板が回転するように
し、その回転力で発電機を回転させて発電したり、電磁
石のスイッチをOFFにする時に誘導される起電力や電
磁石のスイッチがOFFの状態で近づいてくる磁石によ
って誘導される起電力を電気エネルギーとして取り出す
ようにした磁石回転機械である.さらに円板上に回転に
使用する磁石以外で他の磁石を設置し、コイルは円板外
へ固定し円板の回転によって磁石が近づいたり、遠のい
たりすることによって起電力を誘導する磁石回転機械で
ある。これを図面で説明すると、図1において、円板1
に磁石5,6,7,8,910,11,12,を取り付
ける.そして円状に設置した浮上用磁石列2,3によっ
て円板1を浮上させる.円板1の回転中心は中心軸4に
て支える.尚円板に回転軸を取り付け固定台に軸受を設
置する方法もある。次に電磁石13,14,15,1
6,17,18,19,20,21,22,23,2
4,25,26,27,28,29,30,31,3
2,を円板1の磁石と吸引、反発するように円状に配置
し固定する。円板が回転するしくみを図2,図3で説明
すると、図2において円板上の磁石6,は電磁石16と
反発している状態にあり、電磁石15の鉄心とは吸引す
る状態にある.従って円板には矢印イの方向へ回転しよ
うとする力が働く.そして磁石5,は電磁石13と反発
状態にあるが磁石6,が矢印イの方向へ回転しようとす
るので磁石5,も矢印イの方向へ動かされ磁石5,と電
磁石13,との間の反発力も矢印イの方向へ強く働く、
そして円板1が矢印イの方向へ回転することによって磁
石5,6,は図3の位置になる。図3においては磁石
6,は電磁石15の鉄心に完全に吸引され磁石5は電磁
石13とは反発状態であり、電磁石32とは吸引状態と
なる。そして磁石6が電磁石15の鉄心に完全に吸引さ
れた瞬間に電磁石15のスイッチをONの状態にすれ
ば、磁石6と電磁石15は反発し合う.そうすれば磁石
5,の矢印イ方向への回転力によって磁石6,電磁石1
5との間の反発力は矢印イ方向へ働き磁石6は矢印イ方
向へ回転する.この時点で電磁石16のスイッチはOF
Fの状態になる。以上のように磁石が電磁石の鉄心に吸
引された瞬間に電磁石のスイッチをONにして磁石と反
発させるようにしたものである。このように電磁石のス
イッチのON,OFFをくりかえすことによる磁石と電
磁石との間に生じる吸引力と反発力を利用して回転力を
得ようとするものである.この回転機械の基本的な原理
は磁石と鉄心はエネルギーを導入しなくても自然に吸引
される性質がある.その吸引する力を利用すると共に吸
引された磁石と鉄心を引き離す為に鉄心を電磁石として
利用し、磁石との間に反発力を生じさせて引き離すよう
にしたものである.以上のごとく原理を利用して磁石と
電磁石との間の吸引力と反発力を回転力に変換しようと
するものである。次に感知器による電磁石のスイッチの
ON,OFFのしくみを図5において説明すると、感知
器34を電磁石のスイッチと接続する.円板1に感知器
の光又は赤外線等を反射あるいは遮断する板33を取り
付ける.こうして感知器34から反射される光又は赤外
線等が反射あるいは遮断される瞬間にスイッチがONと
なりその状態が継続されている間はONの状態を保つ.
そして反射あるいは遮断の状態が終了した時点で電磁石
のスイッチがOFFの状態になるようなしくみにする.
こうすると円板の回転と電磁石のスイッチのON,OF
Fのタイミングを合わせることができる.しかも回転体
と感知器及びスイッチが直接、接触することがないので
摩擦熱も発生せず摩擦損失は0である。磁石回転機械の
特長は次のようなものである。DETAILED DESCRIPTION OF THE INVENTION The present invention utilizes a natural repulsion force of magnets to float a disk so that friction loss during rotation is reduced, and magnets are arranged on the disk in a circular shape. An electromagnet is fixed in a circular shape to attract and repel the magnet. By turning the switch of the electromagnet ON and OFF repeatedly, the disc is rotated by the attraction and repulsion of the magnet and the electromagnet of the disc, and the rotating power is used to rotate the generator to generate electricity. This is a magnet rotating machine that extracts the electromotive force induced by turning off the electromotive force and the electromotive force induced by the approaching magnet when the electromagnet switch is off as electric energy. In addition, a magnet other than the magnet used for rotation is installed on the disk, the coil is fixed to the outside of the disk, and a magnet rotating machine that induces electromotive force when the magnet approaches or moves away by rotation of the disk. It is. This will be described with reference to the drawings.
Attach the magnets 5, 6, 7, 8, 910, 11, 12 to. The disk 1 is levitated by the levitating magnet rows 2 and 3 installed in a circular shape. The center of rotation of the disk 1 is supported by the central axis 4. Note that there is also a method in which a rotating shaft is attached to a disk and a bearing is installed on a fixed base. Next, the electromagnets 13, 14, 15, 1
6,17,18,19,20,21,22,23,2
4,25,26,27,28,29,30,31,3
2 are arranged and fixed in a circular shape so as to attract and repel the magnet of the disk 1. The mechanism of the rotation of the disk will be described with reference to FIGS. 2 and 3. In FIG. 2, the magnet 6 on the disk is in a state of repelling the electromagnet 16 and is in a state of being attracted to the core of the electromagnet 15. Therefore, a force acting on the disk in the direction of arrow A acts. Although the magnet 5 is in a state of repulsion with the electromagnet 13, the magnet 5 is also moved in the direction of arrow A because the magnet 6 is about to rotate in the direction of arrow A, and the repulsion between the magnet 5 and the electromagnet 13 is made. The force also works strongly in the direction of arrow A,
Then, as the disk 1 rotates in the direction of arrow A, the magnets 5, 6 are brought to the positions shown in FIG. In FIG. 3, the magnet 6 is completely attracted to the core of the electromagnet 15, and the magnet 5 is in a state of repulsion with the electromagnet 13 and in the state of attraction with the electromagnet 32. If the switch of the electromagnet 15 is turned on at the moment when the magnet 6 is completely attracted to the iron core of the electromagnet 15, the magnet 6 and the electromagnet 15 repel each other. Then, the magnet 6, the electromagnet 1 is driven by the rotational force of the magnet 5, in the direction of arrow a.
The repulsive force between the magnet 5 and the magnet 5 acts in the direction of arrow a, and the magnet 6 rotates in the direction of arrow a. At this time, the switch of the electromagnet 16 is turned off.
The state becomes F. As described above, at the moment when the magnet is attracted to the iron core of the electromagnet, the switch of the electromagnet is turned on to repel the magnet. In this way, a rotational force is obtained by utilizing the attractive force and the repulsive force generated between the magnet and the electromagnet by repeatedly turning on and off the switch of the electromagnet. The basic principle of this rotating machine is that magnets and iron cores are naturally attracted without introducing energy. The core is used as an electromagnet to separate the attracted magnet from the iron core by using the attracting force, and a repulsive force is generated between the magnet and the core to separate the core. As described above, the attraction force and the repulsion force between the magnet and the electromagnet are converted into the rotational force by utilizing the principle. Next, the ON / OFF mechanism of the electromagnet switch by the sensor will be described with reference to FIG. 5. The sensor 34 is connected to the electromagnet switch. A plate 33 for reflecting or blocking light or infrared light from the detector is attached to the disk 1. The switch is turned on at the moment when the light or infrared ray reflected from the sensor 34 is reflected or cut off, and the switch is kept on while the state is continued.
Then, the switch of the electromagnet is turned off when the reflection or cutoff state ends.
In this way, the rotation of the disk and the ON / OFF of the electromagnet switch
The timing of F can be adjusted. In addition, since the rotating body does not directly contact the sensor and the switch, no frictional heat is generated and the friction loss is zero. The features of the magnet rotating machine are as follows.
1.磁石が電磁石の鉄心に吸引される時の入力エネルギ
ーは不要である。1. No input energy is required when the magnet is attracted to the core of the electromagnet.
2.吸引した磁石と電磁石の鉄心とを引き離す為にエネ
ルギーが必要であるがその時にも反発力という力が発生
する。2. Energy is needed to separate the attracted magnet from the iron core of the electromagnet, but at that time, a repulsive force is generated.
3.磁石回転機械は力を発生させる為に化学反応を起こ
させる必要がない.故に排気ガスは排出されないので大
気汚染の心配がない。3. A rotating magnet machine does not need to cause a chemical reaction to generate a force. Therefore, there is no concern about air pollution because no exhaust gas is emitted.
4.円板を浮上させているので回転板と回転中心軸との
間の摩擦損失は非常に小さい.しかも円板を浮上させる
為の入力エネルギーは不要である。4. The friction loss between the rotating plate and the center axis of rotation is very small because the disk is levitated. In addition, no input energy is required to levitate the disk.
5.円板の回転力を利用して発電機を回転させて発電す
ること以外に電磁石によって次の2つの方法で発電でき
る.それは磁石が鉄心に吸引される時と電磁石のスイッ
チをOFFにする時に起電力が誘導される.さらに円板
上に磁石を配置して発電することもできるし、円板側の
浮上用磁石も発電に利用することができる。5. In addition to rotating the generator using the rotational force of the disk to generate power, electromagnets can be used to generate power in the following two ways. The electromotive force is induced when the magnet is attracted to the iron core and when the electromagnet is turned off. Further, a magnet can be arranged on the disk to generate power, and a floating magnet on the disk side can be used for power generation.
6.図4のごとく電磁石を円板上の磁石の内側にも配置
すれば、より強い回転力が得られる。6. If the electromagnet is also arranged inside the magnet on the disk as shown in FIG. 4, a stronger rotating force can be obtained.
7.磁石回転機械において電気エネルギーを取り出す部
分は回転部を通過しないので接触部は生じないし、さら
に電磁石のスイッチのON,OFFのタイミングは光セ
ンサー、赤外線センサーなどを利用すれば回転による接
触部が生じない.故に磁石回転機械は真空容器内で使用
できる.そうすれば回転する場合に生じる空気抵抗もな
くなり効率がよくなる。7. In the magnet rotating machine, the portion where the electric energy is taken out does not pass through the rotating portion, so that no contact portion is generated. Further, the ON / OFF timing of the switch of the electromagnet does not generate the contact portion due to rotation if an optical sensor or an infrared sensor is used. . Therefore, the magnet rotating machine can be used in a vacuum vessel. By doing so, the air resistance generated when rotating is eliminated and the efficiency is improved.
【図1】磁石回転機械の平面図と断面図FIG. 1 is a plan view and a sectional view of a magnet rotating machine.
【図2】円板が回転するしくみを説明する図FIG. 2 is a diagram illustrating a mechanism in which a disk rotates.
【図3】円板が回転するしくみを説明する図FIG. 3 is a diagram illustrating a mechanism in which a disk rotates.
【図4】電磁石を内側にも配列した平面図FIG. 4 is a plan view in which electromagnets are also arranged inside.
【図5】感知器を配置した図FIG. 5 is a diagram in which sensors are arranged.
1は円板.2,3は円状の浮上用磁石列 4は円板の回
転中心軸。5,6 7,8,9,10,11,12,は
磁石.13,14,15,16,17,18,19,2
0,21,22,23 24,25,26,27,2
8,29,30,31,32,は電磁石 33,は反射板又は遮断板 34は感知器 イは回転方向を示す矢印1 is a disk. Reference numerals 2 and 3 denote a circular floating magnet row 4 denotes a rotation center axis of the disk. 5,67,8,9,10,11,12 are magnets. 13, 14, 15, 16, 17, 18, 19, 2
0, 21, 22, 23 24, 25, 26, 27, 2
8, 29, 30, 31, 32, are electromagnets 33, are reflectors or blocking plates 34 are detectors.
Claims (5)
石の鉄心との吸引力を電磁力のスイッチをON,OFF
にすることによって発生させ、その反発力と吸引力を回
転力に変換するようにした磁石回転機械。An electromagnetic force switch is turned on and off by a repulsive force between a magnet and an electromagnet and an attraction force between the magnet and an iron core.
And a magnet rotating machine that converts the repulsive and attractive forces into torque.
回転させて発電するようにした磁石回転機械。2. A magnet rotating machine in which a generator is rotated by a rotating force of a disk on which a magnet is mounted to generate power.
力が誘導される.円板上の磁石が電磁石に近づく時に起
電力が誘導される.双方の起電力を電気エネルギーとし
て利用するようにした磁石回転機械。3. An electromotive force is induced when the electromagnet switch is turned off. An electromotive force is induced when the magnet on the disk approaches the electromagnet. A magnet rotating machine that uses both electromotive forces as electric energy.
設置し、コイルは円板外に固定して磁石の回転によって
コイルに起電力を誘導するようにした磁石回転機械.4. A magnet rotating machine wherein a magnet other than a magnet used for rotation is installed on a disk, and a coil is fixed outside the disk to induce an electromotive force in the coil by rotation of the magnet.
せ回転時の摩擦損失が少なくなるようにした磁石回転機
械。5. A magnet rotating machine in which a disk is levitated by utilizing the repulsive force of magnets to reduce friction loss during rotation.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP20822297A JPH118961A (en) | 1997-06-16 | 1997-06-16 | Magnet-type rotating machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP20822297A JPH118961A (en) | 1997-06-16 | 1997-06-16 | Magnet-type rotating machine |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH118961A true JPH118961A (en) | 1999-01-12 |
Family
ID=16552701
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP20822297A Pending JPH118961A (en) | 1997-06-16 | 1997-06-16 | Magnet-type rotating machine |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH118961A (en) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US7116028B2 (en) | 1999-05-28 | 2006-10-03 | Sanshiro Ogino | Motor utilizing basic factor and having generator function |
| KR101015171B1 (en) * | 2009-03-13 | 2011-02-22 | 허동석 | Power generating device using electromagnet and permanent magnet |
| JP2014132170A (en) * | 2013-01-04 | 2014-07-17 | Miyuki Ono | Gravity engine |
| JP5956700B1 (en) * | 2016-01-22 | 2016-07-27 | 幸 小野 | Rotating arm power generator |
-
1997
- 1997-06-16 JP JP20822297A patent/JPH118961A/en active Pending
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US7116028B2 (en) | 1999-05-28 | 2006-10-03 | Sanshiro Ogino | Motor utilizing basic factor and having generator function |
| KR101015171B1 (en) * | 2009-03-13 | 2011-02-22 | 허동석 | Power generating device using electromagnet and permanent magnet |
| JP2014132170A (en) * | 2013-01-04 | 2014-07-17 | Miyuki Ono | Gravity engine |
| JP5956700B1 (en) * | 2016-01-22 | 2016-07-27 | 幸 小野 | Rotating arm power generator |
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