JPS62221861A - Rotational power feeder - Google Patents
Rotational power feederInfo
- Publication number
- JPS62221861A JPS62221861A JP6305386A JP6305386A JPS62221861A JP S62221861 A JPS62221861 A JP S62221861A JP 6305386 A JP6305386 A JP 6305386A JP 6305386 A JP6305386 A JP 6305386A JP S62221861 A JPS62221861 A JP S62221861A
- Authority
- JP
- Japan
- Prior art keywords
- magnets
- magnetic pole
- same
- disc unit
- disk body
- 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
- 230000000694 effects Effects 0.000 description 3
- 230000033001 locomotion Effects 0.000 description 3
- 230000001133 acceleration Effects 0.000 description 2
- 230000005540 biological transmission Effects 0.000 description 2
- 229910052770 Uranium Inorganic materials 0.000 description 1
- 239000003245 coal Substances 0.000 description 1
- JFALSRSLKYAFGM-UHFFFAOYSA-N uranium(0) Chemical compound [U] JFALSRSLKYAFGM-UHFFFAOYSA-N 0.000 description 1
Landscapes
- Dynamo-Electric Clutches, Dynamo-Electric Brakes (AREA)
Abstract
Description
【発明の詳細な説明】
(産業上の利用分野)
本発明は、磁石のもつ反撥力又は吸引力を利用して回転
力を得、これを諸機械に回転動力として供給する電磁気
的な力による回転動力供給装置に関するものである。Detailed Description of the Invention (Industrial Field of Application) The present invention utilizes the repulsive force or attractive force of a magnet to obtain rotational force and supplies this to various machines as rotational power using electromagnetic force. This invention relates to a rotary power supply device.
(従来の技術)
従来より電磁気的な力のみを利用した機関(永久運動機
関)は物理学の分野におけるエネルギー保存の法則によ
り絶対不可能とされていた。(Prior Art) Conventionally, an engine using only electromagnetic force (perpetual motion engine) has been considered absolutely impossible due to the law of conservation of energy in the field of physics.
(発明の解決しようとする問題点)
しかし、磁石の持つ磁力および磁石相互間に作用する反
撥力や吸引力は、明らかに運動のエネルギーであり、回
転体に適正に磁石を配置し、該エネルギーを回転エネル
ギーに変換して動力として利用すれば、回転体に一度外
力を加えるのみで長期にわたり回転を持続するものであ
る。(Problem to be solved by the invention) However, the magnetic force of the magnets and the repulsive and attractive forces that act between the magnets are clearly kinetic energy. If the rotational energy is converted into rotational energy and used as motive power, a rotating body can continue to rotate for a long period of time by applying an external force only once.
(問題点を解決するための手段)
本発明は前記の構想に基づくもので、同一軸上に適間隔
をへだで・、互に連動し、すれ違い回転する如く並設し
た一対の円盤体の、片側円盤体の内側面の軸中心より等
距離の円周上に、複数の磁石を同極磁極面(N極面又は
S極面)を前記内側面に沿わせて等配設すると共に、他
側円盤体の内側面に、前記磁極面の磁力作用範囲内で、
該磁極面と同極磁極面(又は異極磁極面)が近接して対
向する如く、同数の磁石を同方向に同一角度で傾斜して
配設したもので以下その構成を図に示す実施例によって
説明する。(Means for Solving the Problems) The present invention is based on the above-mentioned concept, and consists of a pair of disk bodies arranged side by side on the same axis with an appropriate distance between them so that they interlock with each other and rotate past each other. , a plurality of magnets are arranged equidistantly on the circumference from the axial center of the inner surface of the disk body on one side, with the same magnetic pole surfaces (N-pole surface or S-pole surface) aligned equally along the inner surface, On the inner surface of the other disk body, within the range of magnetic force of the magnetic pole surface,
An embodiment in which the same number of magnets are arranged tilted in the same direction at the same angle so that the magnetic pole surface and the same polar magnetic pole surface (or different polar magnetic pole surface) are closely opposed to each other, and the configuration is shown in the figure below. This is explained by
第1図乃至第5図は本発明の第1実施例を示すもので、
第1図乃至第4図より主軸(1)に回転自在に挿嵌する
軸管(2)を中心に設けた片側円盤体(3)は、内側面
(4)の軸中心より等距離の円周上に同極磁極面(5)
[図はS極磁極面の場合を示す1を該内側面(4)に沿
う如く、複数個1図は8個の場合を示す1の磁石(6L
(6)・・・・・・を配設する。1 to 5 show a first embodiment of the present invention,
From Figures 1 to 4, the one-sided disc body (3) provided around the shaft tube (2) that is rotatably inserted into the main shaft (1) is a circle equidistant from the shaft center of the inner surface (4). Same polar magnetic pole surface on the circumference (5)
[The figure shows the case of S-pole magnetic pole 1, and the figure shows the case of 8 magnets (6L) along the inner surface (4).
(6) Arrange...
Mj記の片側円盤体(3)と同径で、該円盤体(3)の
細管(2)の外周に嵌合する細管(7)を有する他側円
盤体(8)は、細管(7)の他端外周にスプロケット(
9)を並設する如く一体に成形し、該円盤体(8)の内
側面(10)に、前記の片側円盤体(3)に設けた磁石
(6)、(6)・・・・・・と対応し、かつ該磁石(6
)、(6)・・・・・・の各磁極面(5)、(5)・・
・・・・の磁力作用範囲内で、該磁極面(5)、(5)
・・・・・・と同極の磁極面(11) r図はSli磁
極面の場合を示す1か対向する如く同数の磁石(12)
、(12)・・・・・・を同方向に同一角度で傾斜して
配設する。The other side disk body (8) has the same diameter as the one side disk body (3) described in Mj and has a thin tube (7) that fits on the outer periphery of the thin tube (2) of the disk body (3). A sprocket (
9) are integrally molded so as to be arranged side by side, and the magnets (6), (6) provided on the one side of the disk body (3) are placed on the inner surface (10) of the disk body (8).・and corresponding to the magnet (6
), (6)... Each magnetic pole surface (5), (5)...
Within the magnetic action range of..., the magnetic pole faces (5), (5)
The magnetic pole surface with the same polarity as ・・・・・・r (11) The figure shows the case of Sli magnetic pole surface. 1 or the same number of magnets facing each other (12)
, (12)... are arranged in the same direction and inclined at the same angle.
片側円盤体(3)の軸管(2)に主軸(1)を挿通して
該円盤体(3)を主軸(1)の所定位置に回転自在に軸
設すると共に、片側円盤体(3)の内側面(4)と、他
側円盤体(8)の内側面(10)が対向し、夫々に設け
た磁石(6)、(6)・・・・・・と磁1?’1(12
)、(+2)・・・・・・が対向した状態で、磁極面(
5)、(5)・・・・・・と磁極面(11)、(II)
・・・・・・間が適間隙(1)をへだで)近接する如く
片側円盤体(3)の細管(2)の外周に他側円盤体(8
)の軸管(7)を回転自在に軸設し、片側円盤体(3)
の細管(2)の先端外周に歯車(13)を嵌着して主軸
(1)の両側部を軸受金具(14)、(14)により固
定し、主軸(1)に平行して設けた回転軸(15)に、
前記歯車(13)に噛合う歯車(16)と、前記スプロ
ケット(9)に対応するスプロケット(17)を嵌着し
、該スプロヶッ) (9)、(17)間をチェノ(18
)により連絡して、片側円盤体(3)と、他側円盤体(
8)が互にすれ違い方向に連動して回転する本発明の回
転動力供給装置(A)を構成するものである。The main shaft (1) is inserted into the shaft tube (2) of the one-sided disc body (3) to rotatably set the disc body (3) at a predetermined position on the main shaft (1), and the one-sided disc body (3) The inner surface (4) of the disc body (8) and the inner surface (10) of the other disc body (8) face each other, and the magnets (6), (6), and the magnet 1? '1(12
), (+2)...... are facing each other, and the magnetic pole face (
5), (5)... and magnetic pole surface (11), (II)
. . . Attach the other side disk body (8) to the outer periphery of the thin tube (2) of the one side disk body (3) so that they are close to each other with an appropriate gap (1) between them.
) shaft tube (7) is rotatably installed, and one side disk body (3)
A gear (13) is fitted to the outer periphery of the tip of the thin tube (2), and both sides of the main shaft (1) are fixed with bearing fittings (14), (14), and a rotating shaft is provided parallel to the main shaft (1). On the axis (15),
A gear (16) meshing with the gear (13) and a sprocket (17) corresponding to the sprocket (9) are fitted, and a chino (18) is inserted between the sprockets (9) and (17).
), one side of the disk body (3) and the other side of the disk body (
8) constitute the rotary power supply device (A) of the present invention, which rotates in conjunction with each other in mutually passing directions.
(作 用)
本発明の動力供給装置(A)は最初片側円盤体(3)に
矢印(+R)方向が、又は他側円盤体(8)に矢印(−
R)方向の回転力を与えれば、磁石(6)、(6)・・
・・・・と磁石(12)、(12)・・・・・・の磁極
面(5)、(5)・・・・・・と、磁極面(11>、(
II)・旧・・の反撥力により磁極面(II)、(II
)・・・・・・が磁極面(5)、(5)・・・・・・の
中間部を通過して後急速に加速を生じ、以後この作用が
繰返され、加速に上り生ずる回転力と、該回転力の慣性
により該円盤体(3)、(8)に蓄積された回転エネル
ギーにより、片側円盤体(3)と、他側円盤体(8)は
連動してすれ違い方向に回転し、すれ違い回転により反
撥力は加速されて円盤体(3L(8)は、連続回転する
ものであり、片側回転体(3)の軸管(2)よりベル)
(19)伝達等により諸機械(M)に回転動力を供給
する。(Function) In the power supply device (A) of the present invention, the direction of the arrow (+R) is initially directed to the disc body (3) on one side, or the direction of the arrow (-) is directed to the disc body (8) on the other side.
If a rotational force in the R) direction is applied, magnets (6), (6)...
...and the magnetic pole faces (5), (5)... of the magnets (12), (12)..., and the magnetic pole faces (11>, (
Due to the repulsive force of the magnetic pole faces (II) and (II)
)...... passes through the middle part of the magnetic pole faces (5), (5)... and then rapidly accelerates, and this action is repeated thereafter, resulting in acceleration and rotational force. Due to the rotational energy accumulated in the disc bodies (3) and (8) due to the inertia of the rotational force, the disc body (3) on one side and the disc body (8) on the other side rotate in conjunction with each other in the direction of passing each other. , the repulsive force is accelerated by the rotation passing each other, and the disk body (3L (8) is one that rotates continuously, and the bell from the shaft tube (2) of the one-sided rotating body (3))
(19) Supply rotational power to the machines (M) by transmission or the like.
即ち、本発明(A)は片側円盤体(3)と、他側円盤体
(8)のすれ違い回転により反撥作用が有効に働き、回
転速度及び回転力を大きくすることが出来、更に片側磁
石(1(6)・・・・・・の磁極面(5)、(5)・・
・・・・を広くして、有効反撥移動距離を大きくするか
、又は他側円盤体(8)の磁石(12)、(12)・・
・・・・の磁極面(+1)、(It)・・・・・・を小
さくし、取付角度を大ト<シて、無効反撥力を減少させ
有効回転力を増大することが出来る。That is, in the present invention (A), the repulsion effect works effectively due to the rotation of the disk body (3) on one side and the disk body (8) on the other side, and the rotational speed and rotational force can be increased. 1 (6)... Magnetic pole face (5), (5)...
. . . to increase the effective repulsion movement distance, or the magnets (12), (12) . . . of the other disc body (8).
By making the magnetic pole faces (+1), (It), etc. smaller and increasing the mounting angle, it is possible to reduce the ineffective repulsive force and increase the effective rotational force.
第5図は第1実施例による本発明の回転動力供給装置(
A)において、片側円盤体(3)の内側面(4)の軸中
心より等距離の円周にに、同極磁極面(5)、(5)・
・・・・・が該内側面(4)に沿う如く複数の磁石(6
)、(6)町・・を等配設し、他側円盤体(8)の内側
面(10)に、前記磁石(6)、(6)・・・・・・の
各磁極面(5)、(5)・・・・・・の磁力作用範囲内
の適位置に相互の間隔をずらして前記磁極面(5)、(
5)・・・・・・と同極磁極面(11)、(11)町、
、が近接して対応する如く同数の磁石(12)、(12
)・旧・・を同方向に同一角度で傾斜して配設したもの
で、回転力を増大し回転速度を均一化するものである。FIG. 5 shows the rotary power supply device (
In A), the same polar magnetic pole faces (5), (5),
A plurality of magnets (6) are placed along the inner surface (4).
), (6)... are arranged equally, and the magnetic pole faces (5) of the magnets (6), (6)... ), (5)... The magnetic pole faces (5), (
5) ...... and the same polar magnetic pole face (11), (11) town,
The same number of magnets (12), (12
), old... are arranged tilted in the same direction at the same angle, increasing the rotational force and making the rotational speed uniform.
第6図乃至第10図は本発明の第2実施例を示すもので
、第6図乃至第9図より、主軸(1)に回転自在に挿嵌
する軸管(2′)を中心に設けた片側円盤体(3′)は
、内側面(4′)の軸中心より等距離の円周上に、同極
磁極面(5)1図はS極磁極面の場合を示す]を該内側
面(4′)に沿う如く、複数個[図は8個の場合を示す
1の磁石(6’)、(6)・・・・・・を配設する。6 to 10 show a second embodiment of the present invention, and from FIGS. 6 to 9, a shaft tube (2') rotatably inserted into the main shaft (1) is provided at the center. The one-sided disk body (3') has a same-polarity magnetic pole surface (5) on the circumference equidistant from the axial center of the inner surface (4'). A plurality of magnets (one magnet (6'), (6), the figure shows eight magnets) are arranged along the side surface (4').
前記の片側円盤体(3′)と同径で、該円盤体(3′)
の細管(2′)の外周に嵌合する軸管(7)を有する他
側円盤体(8′)は、軸管(7)の池端外周にスプロケ
ッ)(9’)を並設する如く一体に成形し、該円盤体(
8′)の内側面(10′)に、前記の片側円盤体(3′
)に設けた磁石と対応し、かつ該磁石(6)、(6′)
・・・・・・の各磁極面(5’)、(5’)・・・・・
・の磁石作用範囲内で該磁極面(5′)、(5′)・・
・・・・と異極の磁極面1図はN極磁極面の場合を示す
]が対向する如く同数の磁石(12′)、(12’)・
・・・・・を同方向に同一角度で傾斜して配設する。The disc body (3') has the same diameter as the one-sided disc body (3') described above.
The other side disk body (8') has a shaft tube (7) that fits on the outer periphery of the thin tube (2'), and the other side disk body (8') is integrated with the sprocket (9') arranged in parallel on the outer periphery of the end of the shaft tube (7). The disk body (
The one-sided disk body (3') is attached to the inner surface (10') of the disk (3').
), and the magnets (6), (6')
Each magnetic pole face (5'), (5')...
・Within the magnetic action range of the magnetic pole face (5'), (5')...
The same number of magnets (12'), (12'),
... are arranged in the same direction and at the same angle.
片側円盤体(3′)の軸管(2′)に主軸(1′)を挿
通して、該円盤体(3′)を主軸(1′)の所定位置に
回転自在に軸設すると共に、片側円盤体(3’)の内側
面(4′)と、他側円盤体(8′)の内側面(10’)
が対向し、夫々に設けた磁石(6′)、(6′)・・・
・・・と磁石(1i)、(12′)・・・・・・が対向
した状態で、磁極面(5′)、(5′)・・・・・・と
、磁極面(11′)、(1r)・・・・・・間が適間隙
(t′)をへだで)近接する如く、片側円盤体(3′)
の軸管(2′)の外周に他側円盤体(8′)の細管(7
′)を回転自在に軸設し、片側円盤体(3′)の細管(
2′)の先端外周に歯車(13’)を嵌着して主軸(1
′)の両側噛合う歯車(16′)と、前記スプロケット
(9’)に対応するスプロケット(17’)を嵌着し、
該スプロケッ) (9’)、(17’)間をチェ2(1
8′)により連絡して、片側円盤体(3′)と他側円盤
体(8′)が互にすれ違い方向に連動して回転する本発
明の回転動力供給装置(A′)を構成するものである。The main shaft (1') is inserted through the shaft tube (2') of the one-sided disc body (3'), and the disc body (3') is rotatably installed at a predetermined position on the main shaft (1'), The inner surface (4') of the disk body (3') on one side and the inner surface (10') of the disk body (8') on the other side
are facing each other, and magnets (6'), (6')...
... and the magnets (1i), (12')... are facing each other, and the magnetic pole face (5'), (5')... and the magnetic pole face (11') are facing each other. , (1r)...... one side disk body (3') so that they are close to each other with an appropriate gap (t') between them.
On the outer periphery of the shaft tube (2'), there is a thin tube (7
′) is rotatably installed on the shaft, and the thin tube (
Fit the gear (13') on the outer circumference of the tip of the main shaft (1
') and a sprocket (17') corresponding to the sprocket (9'),
Connect sprocket 2 (1) between (9') and (17').
8') to constitute the rotary power supply device (A') of the present invention, in which the disc body (3') on one side and the disc body (8') on the other side rotate in conjunction with each other in the direction of passing each other. It is.
(作 用)
本発明の動力供給装置(A′)は、最初片側円盤体(3
)に矢印(−R)方向か、又は他側円盤体(8)に矢印
(+R)方向の回転力を与えれば、磁石(6′)、(6
′)・・・・・・と磁石(12)、(12)・・・・・
・の磁極面(5)、(5)・・・・・・と磁極面(11
)、(11)の吸引力により磁極面(11)、(11)
・・・・・・が、磁極面(5)、(5)・・・・・・の
中間部を通過して後急速に加速を生じ、以後この作用が
繰返され、加速により生ずる回転力と、該回転力の慣性
により該円盤体(3′)、(8)に蓄積された回転エネ
ルギーにより、片側円盤体(3′)と、他側円盤体(8
′)は連動してすれ違い方向に回転し、すれ違い回転に
より吸引力は加速されて円盤体(3′)、(8′)は連
続回転するものであり、片側回転体(3)の軸管(2′
)よりベルト(19)伝達等により諸機械(M′)に回
転動力を供給する。(Function) The power supply device (A') of the present invention initially consists of one side disk body (3
) in the direction of the arrow (-R) or the other disc (8) in the direction of the arrow (+R), the magnets (6'), (6
')...and magnet (12), (12)...
・Magnetic pole face (5), (5)... and magnetic pole face (11
), (11) magnetic pole faces (11), (11)
After passing through the middle part of the magnetic pole faces (5), (5)..., it rapidly accelerates, and this action is repeated thereafter, and the rotational force caused by the acceleration and , due to the rotational energy accumulated in the disc bodies (3') and (8) due to the inertia of the rotational force, the disc body (3') on one side and the disc body (8) on the other side
') are interlocked and rotate in the direction of passing each other, and the suction force is accelerated by the rotation of passing each other, and the disk bodies (3') and (8') rotate continuously. 2'
) supplies rotational power to various machines (M') through belt (19) transmission or the like.
即ち、本発明(A′)は、片側円盤体(3)と、他側円
盤体(8′)のすれ違い回転により吸引作用が有効に働
外、回転速度及び回転力を大きくすることが出来、更に
片側磁石(6′)、(6′)・・・・・・の磁極面(5
′)、(5′)・・・・・・を広くして有効吸引移動距
し、取付角度を大きくして無効吸引力を減少させ有効回
転力を増大することが出来る。That is, in the present invention (A'), the suction action is effectively disabled by the rotation of the disk body (3) on one side and the disk body (8') on the other side, and the rotational speed and rotational force can be increased. Furthermore, the magnetic pole face (5) of one side magnet (6'), (6')...
'), (5')... can be widened to increase the effective suction movement distance, and the mounting angle can be increased to reduce the ineffective suction force and increase the effective rotational force.
第10図は第2実施例による本発明(A)において、片
側円盤体(3′)の内側面(4)の軸中心より等距離の
円周上に、同極磁極面(5)、(5)・・・・・・が該
内側面(4)に沿う如く複数個の磁石(6)、(6′)
・・・・・・を等配設腰他側円盤体(8′)の内側面(
16)に、前記磁石(6)、(6)・・・・・・の各磁
極面(5′)、(5’)・・・・・・の磁石作用範囲内
の適位置に相互の間隔をずらして前記磁極面(5′)、
(5′)・・・・・・と異極磁極面(11’)、(tt
)・・・・・・が近接して対応する如く同数の磁石(1
2)、(12)・・・・・・を同方向に同一角度で傾斜
して配設したもので、回転力を増大し、かつ回転速度を
均一化したものである。FIG. 10 shows that in the present invention (A) according to the second embodiment, homopolar magnetic pole faces (5), ( 5) A plurality of magnets (6), (6') along the inner surface (4).
・・・・・・Evenly spaced on the inner surface of the other side of the disc body (8') (
16), each of the magnetic pole faces (5'), (5'), etc. of the magnets (6), (6)... are placed at appropriate positions within the magnetic action range and spaced apart from each other. by shifting the magnetic pole face (5'),
(5')...and different magnetic pole faces (11'), (tt
)...... correspond to the same number of magnets (1
2), (12), etc. are arranged so as to be inclined in the same direction at the same angle, thereby increasing the rotational force and making the rotational speed uniform.
(効 果)
本発明は、磁石相互間に作用する反撥力及び吸引力のエ
ネルギーのみを利用し、最初に外力を与えることにより
連続して回転力を得ること=10−
が出来るもので、無限の発展性があり、石油、石炭、ウ
ラン等の代替としてエネルギー源となる等優れた効果を
有するものである。(Effect) The present invention utilizes only the energy of the repulsive force and attractive force acting between magnets, and by first applying an external force, it is possible to continuously obtain rotational force = 10-, which is infinite. It has great potential for development and has excellent effects such as being used as an energy source as an alternative to oil, coal, uranium, etc.
第1図乃至第5図は本発明の第1実施例を示すもので、
第1図は本発明の概要を示す縦断面図、第2図、第3図
は夫々片側円盤体と他側円盤体の対向する内側面を表わ
す側面図、第4図は片側円盤体と他側円盤体の磁石取付
関係を示す部分展開図、第5図は片側円盤体に取付けた
磁石に対応する他側円盤体の磁石取付位置をずらせた状
態の磁石取付関係を示す部分展開図である。
第6図乃至第10図は本発明の第2実施例を示すもので
、第6図は本発明の概要を示す縦断面図、第7図、第8
図は夫々片側円盤体と他側円盤体の対向する内側面を表
わす側面図、第9図は片側円盤体と他側円盤体の磁石取
付関係を示す部分展開図、第10図は片側円盤体に取付
けた磁石に対応する他側円盤体の磁石取付位置をずらせ
た状態の磁石取付関係を示す部分展開図である。
以−1−1 to 5 show a first embodiment of the present invention,
FIG. 1 is a longitudinal cross-sectional view showing an overview of the present invention, FIGS. 2 and 3 are side views showing opposing inner surfaces of one side disk body and the other side disk body, respectively, and FIG. 4 is a side view showing the one side disk body and the other side disk body. FIG. 5 is a partial exploded view showing the magnet attachment relationship of the side disk body, and FIG. . 6 to 10 show a second embodiment of the present invention, and FIG. 6 is a vertical sectional view showing an outline of the present invention, and FIGS.
The figures are side views showing the opposing inner surfaces of the disk on one side and the disk on the other side, FIG. 9 is a partially exploded view showing the magnet mounting relationship between the disk on one side and the disk on the other side, and FIG. 10 is the disk on one side. It is a partial development view showing the magnet attachment relationship in a state where the magnet attachment position of the other side disk body corresponding to the magnet attached to is shifted. More-1-
Claims (1)
する如く並設した一対の円盤体の、片側円盤体の内側面
の軸中心より等距離の円周上に、複数の磁石を同極磁極
面を該内側面に沿わせて等配設すると共に、他側円盤体
の内側面に前記磁極面の磁力作用範囲内で該磁極面と同
極磁極面(又は異極磁極面)が近接して対向する如く同
数の磁石を同方向に同一角度で傾斜して配設したことを
特徴とする回転動力供給装置。A plurality of magnets are placed on the circumference of a pair of disks arranged at appropriate intervals on the same axis so that they interlock and rotate past each other, on the circumference of the inner surface of one side of the disk at an equal distance from the center of the axis. Polar magnetic pole surfaces are equally arranged along the inner surface, and the same polar magnetic pole surface (or different polar magnetic pole surface) as the magnetic pole surface is provided on the inner surface of the other disk body within the magnetic force acting range of the magnetic pole surface. A rotary power supply device characterized in that the same number of magnets are arranged in the same direction and inclined at the same angle so as to face each other closely.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP6305386A JPS62221861A (en) | 1986-03-20 | 1986-03-20 | Rotational power feeder |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP6305386A JPS62221861A (en) | 1986-03-20 | 1986-03-20 | Rotational power feeder |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPS62221861A true JPS62221861A (en) | 1987-09-29 |
Family
ID=13218206
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP6305386A Pending JPS62221861A (en) | 1986-03-20 | 1986-03-20 | Rotational power feeder |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS62221861A (en) |
-
1986
- 1986-03-20 JP JP6305386A patent/JPS62221861A/en active Pending
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