JP2005039979A - Two-step motor drive method and power generation method, and device thereof - Google Patents
Two-step motor drive method and power generation method, and device thereof Download PDFInfo
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高速回転駆動モーター及び発電及び軸受けHigh-speed rotation drive motor and power generation and bearing
従来の電動モータの回転数は早くても毎秒1000回転どまりである、又発電も火力発電のように入力エネルギーの半分止まりの効率か、あるいは一足飛びに核力による原子力発電である。又回転軸を保持するベアリングも毎秒1000回転止まりである。又核融合に由るエネルギー発生も爆弾止まりである。重力から核力に至るエネルギーを自在に取り出す技術は無い。The speed of the conventional electric motor is as fast as 1000 revolutions per second at the earliest, and the power generation is the efficiency of half of the input energy as in the case of thermal power generation, or the nuclear power generation using nuclear power in a single step. Also, the bearing that holds the rotating shaft stops at 1000 revolutions per second. Also, the generation of energy due to nuclear fusion has stopped the bomb. There is no technology to freely extract energy from gravity to nuclear power.
本発明は重力から核力に至るエネルギーの発生を高速回転モーターに拠り自在にコントロールすることを課題としている。又高速回転軸受けの摩擦を0にすることを課題としている。重力場の回転を超える弱い力の場の高速回転駆動力を重力場で得ることを課題としている。二段モーターの駆動装置の構造を単純簡単にすることを課題としている。大型発電機を小さく簡単にすることを課題としている。重力の力で、核力までの力を電磁気力で得ることを課題としている。電磁モーターが駆動すると同じモーター内で発電も起こり、電流の流れ方向が逆流し、回転子が無動力で等速運動するのを抵抗している。この抵抗である発電電流を取り除くことを課題としている。無限に加速回転する回転子を等速回転にすることを課題としている。余剰エネルギーを電力に変えることを課題としている。An object of the present invention is to freely control the generation of energy from gravity to nuclear force using a high-speed rotating motor. Another object is to reduce the friction of the high-speed rotary bearing to zero. The problem is to obtain a high-speed rotational driving force in the field of weak force exceeding the rotation of the gravity field. The problem is to simplify the structure of the drive device for the two-stage motor. The challenge is to make the large generator small and simple. The subject is to obtain the force of gravity up to the nuclear force by electromagnetic force. When the electromagnetic motor is driven, power generation occurs in the same motor, the current flow direction reverses, resisting the rotor from moving at constant speed without power. The problem is to remove the generated current, which is this resistance. The problem is to make the rotor that rotates indefinitely at a constant speed. The challenge is to convert surplus energy into electric power.
発電機を駆動する駆動用モーターを同軸上二段にすることにより互いの回転数と時間を掛け合わせる容易な高速回転モーターを得ることが出来る。弱い力の場である二段モーターを重力場から眺めると時間が二乗と多い、これがエネルギー構成部分である光速の時間×距離の片割れであるから核力に至るエネルギーを重力場で得ることになる。モーター本体と回転子のベアリング部の摩擦は在来技術である、一段目の回転子と回転数で一体である二段目の本体と二段目の回転子とのベアリング部での摩擦も在来技術でよい、これにより一段目回転数と時間の積を二乗する回転数まで在来のベアリングで引出すことが可能である。又逆転する多段モーターを同軸向かい合わせにすることにより、高速回転ベアリング部を同回転数とすることが出来摩擦柢抗0を容易に具現することが出来る。多段モーターを駆動するエネルギーはそれぞれ各段のモーター駆動エネルギーの和である、回転数も在来の概念では同じく各段の回転数の和である。しかしながら、これをベアリングとの回転数である等速運動にいたる加速度運動として捉えると、それぞれ各段のモーターの回転数はそれぞれの段が次元となり、各段のモーター回転数×時間のN段乗である。これを等速運動状態にすると高速回転部の時間の遅れは回転トルクとして、重力場であるモーター本体に核力に至る力を印加する。
ひらたく言えば、モーターの回転はベアリングの摩擦抵抗と駆動モーター内自身で発生する発電に拠る起電力が電流を逆流させ回転に対する内部抵抗となる、これを防げば、いくらでも回転数は上がり、等速運動とすれば二段目以降は消費電力0となる。高速回転でまわる発電機の回転子に対する効率は加速度系であるから速度の二乗である。回転速度が速ければ速いほど効率は爆発的によい。これを実現する多段モーターは駆動モーターの内部発電電流の方向を逆向きにそして磁束方向を逆むきにする、すなわちモーターを駆動する方向に向けることにより具現した。これにより一段目と多段目の回転数の比を重力から核力に至るまでのエネルギーとして容易に引き出すことが遠心力による物質の破壊内に於いて可能となり、多段モーターを駆動するエネルギー和と高速回転部の発電量との差が重力から核力に至る新しいエネルギー源として具現した。By making the driving motor for driving the generator two stages on the same axis, it is possible to obtain an easy high-speed rotating motor that multiplies each other's rotational speed and time. Looking at the two-stage motor, which is a field of weak force, from the gravitational field, there are many times squared, this is the energy component part of the speed of light × the half of the distance, so the energy up to the nuclear force will be obtained in the gravitational field . Friction between the motor body and the rotor bearing is a conventional technology, and there is friction at the bearing between the first stage rotor and the second stage rotor, which is integrated at the rotation speed, and the second stage rotor. It is possible to use a conventional bearing, and it is possible to draw out with a conventional bearing up to a rotational speed that squares the product of the first rotational speed and the time. In addition, by making the multi-stage motor to be rotated coaxially face each other, the high-speed rotation bearing portion can have the same rotation speed, and the friction resistance 0 can be easily realized. The energy for driving the multistage motor is the sum of the motor drive energy of each stage, and the rotational speed is also the sum of the rotational speeds of each stage in the conventional concept. However, if this is regarded as an acceleration motion that leads to a constant velocity motion that is the number of rotations with the bearing, the number of rotations of each stage of the motor is a dimension of each stage, and the number of rotations of the motor of each stage multiplied by N steps of time. It is. When this is in a constant speed motion state, the time delay of the high-speed rotating part applies a force that reaches the nuclear force to the motor body that is a gravitational field as a rotational torque.
Speaking openly, the rotation of the motor is caused by the frictional resistance of the bearing and the electromotive force generated by the power generation generated in the drive motor itself, causing the current to flow backward and causing internal resistance to rotation. If it is an exercise, the power consumption is zero after the second stage. The efficiency of the generator rotating at high speed is the square of the speed because it is an acceleration system. The faster the rotation speed, the better the efficiency. The multi-stage motor that realizes this is realized by turning the direction of the internal generated current of the drive motor in the opposite direction and the direction of the magnetic flux in the opposite direction, that is, in the direction of driving the motor. This makes it possible to easily extract the ratio of the number of rotations at the first stage and the multistage as the energy from gravity to nuclear force, within the destruction of the substance due to centrifugal force, and the sum of energy driving the multistage motor and high speed The difference with the amount of power generated by the rotating part was realized as a new energy source from gravity to nuclear power.
多段モーターは容易に駆動モーターの内部発電抵抗を、コイルの巻き方行と回転体の組み合わせに拠り、電流と磁束の方向を逆転させ、回転を上げる方向に向けることができ、これにより爆発的に回転を上げるることが出来る。回転数毎秒1000回転のモーターは既存の技術である。これを親モーターとして回転数毎秒1000回転で回転している子モーターの本体を親モーターが回転させると、子モーターの回転子回転数は1000×1000となり、たとえば10段迄の回転数に物質引っ張り力が耐えられるとすると10の30乗の回転数を得ることが出来る、その上時間の段数乗倍の回転を積数として得ることが出来る。多段先端モーター発電機が一段の状態で1ワットである時その段数乗倍の出力を得ることが出来る。各段のベアリング部毎秒1000回転はエアーベアリングで可能ですが、多段の高速回転はそれぞれ各段の外側をベアリング部として逆回転同回転数のベアリング部を接することにより摩擦抵抗0のベアリング部を具現した。Multi-stage motors can easily direct the internal power generation resistance of the drive motor in the direction of increasing the rotation by reversing the direction of current and magnetic flux, depending on the combination of the winding direction of the coil and the rotating body. You can increase the rotation. A motor with a rotational speed of 1000 revolutions per second is an existing technology. If the parent motor rotates the main body of the child motor rotating at 1000 rpm per second with this as the parent motor, the rotor rotation speed of the child motor will be 1000 x 1000, for example, pulling the substance to 10 rpm If the force can withstand, a rotation speed of 10 to the 30th power can be obtained, and further, a rotation that is a multiple of the power of the number of stages can be obtained as the product number. When the multi-stage tip motor generator is 1 watt in a single stage, an output that is a multiple of that stage can be obtained. Air bearings can perform 1000 revolutions per second of the bearing part, but multi-stage high-speed revolutions can be achieved by using the outer part of each stage as a bearing part and contacting the bearing part of the reverse rotation and the same number of revolutions. did.
一段の回転数が毎分6万回転するモーターの多段が二段である回転子に遠心分離機を装着すると毎分360000万回転の遠心分離機が具現する。時間の遅れ1/60を考慮しても毎秒1.000.000回転出せる。ナノメーターの分離も容易である。二段目の永久磁石回転子の外側に鉄心に巻いたコイルを具備し発生する電気をエネルギー出力側とする。磁石とコイルが逆でも可能。When a centrifuge is mounted on a rotor having a multi-stage motor with two stages of 60,000 revolutions per minute, a centrifuge with 360 million revolutions per minute is realized. Even considering a time delay of 1/60, it is possible to output 1.000.000 revolutions per second. Nanometer separation is also easy. A coil wound around an iron core is provided outside the second stage permanent magnet rotor, and electricity generated is defined as an energy output side. Magnets and coils can be reversed.
同軸で互いに逆転する多段モーター、図の同軸二段モーター二機のみでも先端高速回転子の軸を2重の軸として中心を出力回転軸とすることも可能、高速回転部をフライホイールとすることによりベアリング部摩擦抵抗0の高速回転オートジャイロを具現することが出来た。 二機の二段モーターの間にフライホイールを具備し、その上に磁石を具備し、その外側に鉄心に巻いたコイルを具備し重力から核力に至る高出力発電を可能とした。二段一軸一機でも高出力発電は可能である。It is possible to use a multi-stage motor that is coaxial and reverse to each other, or only two coaxial two-stage motors shown in the figure, with the axis of the high-speed rotor at the tip as a double axis and the center as the output rotary axis, and the high-speed rotary part as a flywheel By this, a high-speed rotation autogyro with zero bearing frictional resistance was realized. A flywheel is provided between two two-stage motors, a magnet is provided on the flywheel, and a coil wound around an iron core is provided on the outer side of the two-stage motor, enabling high power generation from gravity to nuclear power. High output power generation is possible even with a two-stage single-shaft machine.
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JP3960360B1 (en) * | 2006-03-03 | 2007-08-15 | 由次 近藤 | Rotating system |
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JP3960360B1 (en) * | 2006-03-03 | 2007-08-15 | 由次 近藤 | Rotating system |
WO2007102190A1 (en) * | 2006-03-03 | 2007-09-13 | Yoshiji Kondo | Rotation system |
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