JP7291910B1 - Power generator using centrifugal force, gravity, and magnetic force - Google Patents
Power generator using centrifugal force, gravity, and magnetic force Download PDFInfo
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- JP7291910B1 JP7291910B1 JP2022578806A JP2022578806A JP7291910B1 JP 7291910 B1 JP7291910 B1 JP 7291910B1 JP 2022578806 A JP2022578806 A JP 2022578806A JP 2022578806 A JP2022578806 A JP 2022578806A JP 7291910 B1 JP7291910 B1 JP 7291910B1
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Abstract
【課題】遠心力、重力、磁力を用いた発電装置の提供を目的とする。【解決手段】歯車を使った装置例として、図3の装置例に示す様に水平軸を回転軸とする回転歯車A1に回転歯車B2を取り付け、回転歯車A1が1回転する間に、回転歯車B2が半回転する時、回転歯車B2に直線移動する可動おもり磁石C3を回転歯車B2の中心が回転歯車A1上の最下点で垂直下方に移動する様に取り付ける事で、遠心力と重力の作用のために垂直下方への移動エネルギーを最大化させた可動おもり磁石C3が発電用ソレノイド5の中を高速移動する事で、誘導電流を連続して発生させる発電装置を考案した。【選択図】図3An object of the present invention is to provide a power generator using centrifugal force, gravity, and magnetic force. As an example of a device using gears, as shown in the device example of FIG. 3, a rotating gear B2 is attached to a rotating gear A1 whose rotation axis is a horizontal axis, When B2 rotates half a turn, a movable weight magnet C3 that moves linearly is attached to rotating gear B2 so that the center of rotating gear B2 moves vertically downward at the lowest point on rotating gear A1. We devised a power generation device that continuously generates an induced current by moving the movable weight magnet C3, which maximizes the energy of moving vertically downward for action, in the power generation solenoid 5 at high speed. [Selection drawing] Fig. 3
Description
本発明は、特許文献1に記載の推進力発生技術と重力、磁力を利用した発電装置に関する。
TECHNICAL FIELD The present invention relates to a power generator using the propulsive force generation technology described in
従来の技術において遠心力、重力、磁力を利用した発電装置は現在まで実現していない。 In the conventional technology , no power generating device using centrifugal force, gravity, or magnetic force has been realized up to now.
本発明は、地球温暖化の軽減に重要である二酸化炭素を減らすゼロエミッションの課題やSDGsの目標7、エネルギーの安価かつ信頼できる持続可能な近代的エネルギーへのアクセスを確保し、目標13気候変動、気候変動及びその影響を軽減するための緊急対策、などを解決するエネルギー革命を課題とする。
The present invention addresses the issue of zero emissions to reduce carbon dioxide, which is important for mitigating global warming, goal 7 of the SDGs, ensuring access to affordable, reliable, sustainable and modern energy, and
図3の装置例に示す様に特許文献1に記載の推進力発生技術を活かして水平軸を回転軸とする回転歯車A1に回転歯車B2を取り付け、回転歯車A1が1回転する間に、回転歯車B2を半回転させ、回転歯車B2に直線移動する可動おもり磁石C3を、回転歯車B2の中心が回転歯車A1上の最下点で垂直下方に移動する様に取り付ける事で、遠心力と重力の作用のため垂直下方への移動エネルギーを最大化させた可動おもり磁石C3が発電用ソレノイド5の中を高速移動して誘導電流を発生させる。As shown in the device example of FIG. 3, a rotating gear B2 is attached to a rotating gear A1 having a horizontal axis as a rotation axis by utilizing the propulsive force generation technology described in
エネルギーの減衰が小さく変換効率の優れた磁力と重力に加えて、特許文献1に記載の推進力発生技術を活かして遠心力と重力の作用のため垂直下方への移動エネルギーを最大化させた可動おもり磁石C3が発電用ソレノイド5の中を高速で移動する事で、遠心力、重力、磁力のエネルギーを誘導電流に変換する。In addition to the magnetic force and gravity, which have small energy attenuation and excellent conversion efficiency, the propulsion generation technology described in
誘導電流を大きくする方法は広く知られている様に3つある。1.磁石をより速く動かす。一定時間に磁界が変化する割合が大きくなるため、誘導電流も大きくなる。2.磁石を磁力の強いものに変える。磁界の変化が大きくなるので、誘導電流も大きくなる。3.ソレノイドの巻き数を多くする。巻き数を2倍にすると、生じる電圧も2倍になり誘導電流は大きくなる。As is widely known, there are three ways to increase the induced current. 1. Make the magnet move faster. Since the rate at which the magnetic field changes in a given period of time increases, the induced current also increases. 2. Change the magnet to one with strong magnetic force. As the change in the magnetic field increases, so does the induced current. 3. Increase the number of turns of the solenoid. Doubling the number of turns doubles the voltage produced and increases the induced current.
よって回転歯車A1、回転歯車B2の直径を大きくし回転速度を上げ、可動おもり磁石C3の磁力の大きさと重量を増し、発電用ソレノイド5の巻き数を多くして、回転歯車B2と可動おもり磁石C3を組み合わせたユニットの数量などを増やす事で、より大きな誘導電流を連続して発生させることが可能となる。Therefore, the diameters of the rotary gears A1 and B2 are increased to increase the rotational speed, the magnitude and weight of the magnetic force of the movable weight magnet C3 are increased, the number of turns of the
回転歯車A1、回転歯車B2の直径を大きくし回転速度を上げ、可動おもり磁石C3の磁力の大きさと重量を増し、発電用ソレノイド5の巻き数を多くし、回転歯車B2と可動おもり磁石C3を組み合わせたユニットの数量などを増やす事でThe diameters of the rotary gears A1 and B2 are increased to increase the rotational speed, the magnitude and weight of the magnetic force of the movable weight magnet C3 are increased, the number of turns of the power generating
最大に連続して発生させた誘導電流を家庭で日常消費する電気や産業上の電力だけでなく孤立集落、被災地域、世界各地の未開発地域の電源として利用しながらゼロエミッションやSDGsの目標達成を推進する。Achieving zero emissions and SDGs goals while using the maximum continuous induced current not only for daily consumption at home and industrial power, but also as a power source for isolated villages, disaster areas, and undeveloped areas around the world. to promote
図3に示す歯車を使った装置例では特許文献1に記載の推進力発生技術を活かして水平軸を回転軸とする回転歯車A1に回転歯車B2を取り付け、回転歯車A1が1回転する間に、回転歯車B2を半回転させ、回転歯車B2に直線移動する可動おもり磁石C3を、回転歯車B2の中心が回転歯車A1上の最下点で垂直下方に移動する様に取り付ける事で、遠心力と重力の作用のため垂直下方への移動エネルギーを最大化させた可動おもり磁石C3が発電用ソレノイド5の中を移動し誘導電流を連続して発生させる。In an example of a device using gears shown in FIG. 3, a rotating gear B2 is attached to a rotating gear A1 having a horizontal axis as a rotation axis by utilizing the propulsive force generation technology described in
エネルギーの減衰が小さく変換効率の優れた磁力と重力に加えて、特許文献1に記載の推進力発生技術を活かして遠心力と重力の作用のため垂直下方への移動エネルギーを最大化させた可動おもり磁石C3が発電用ソレノイド5の中を高速で移動する事で、誘導電流を発生させる。In addition to the magnetic force and gravity, which have small energy attenuation and excellent conversion efficiency, the propulsion generation technology described in
図3の装置例の回転歯車A1、回転歯車B2の直径を大きくし回転速度を上げ、可動おもり磁石C3の磁力の大きさと重量を増し、発電用ソレノイド5の巻き数を多くして、回転歯車B2と可動おもり磁石C3を組み合わせたユニットの数量などを増やす事で、特許文献1に記載の推進力発生技術を活かして最大化した誘導電流を連続して発生させる。By increasing the diameter of the rotary gear A1 and the rotary gear B2 in the device example of FIG. By increasing the number of units that combine B2 and movable weight magnet C3, the propulsive force generation technology described in
本明細書及び特許請求の範囲で使用している用語と表現は、あくまでも説明上のものであって、なんら限定的なものではなく、本明細書及び特許請求の範囲に記述された特徴およびその一部と等価の用語や表現を除外する意図はない。The terms and expressions used in the specification and claims are for the purpose of description only and should not be regarded as limiting the features described and claimed herein. There is no intention to exclude some equivalent terms or expressions.
また、本発明の技術思想の範囲内で、種々の変形態様が可能であるということは言うまでもない。Moreover, it goes without saying that various modifications are possible within the scope of the technical idea of the present invention.
図3に示す装置例では特許文献1に記載の推進力発生技術を活かして水平軸を回転軸とする回転歯車A1に回転歯車B2を取り付け、回転歯車A1が1回転する間に、回転歯車B2を半回転させ、回転歯車B2に直線移動する可動おもり磁石C3を、回転歯車B2の中心が回転歯車A1上の最下点で垂直下方に移動する様に取り付ける事で、エネルギーの減衰が小さく変換効率の優れた磁力と重力に加えて、 特許文献1に記載の推進力発生技術を活かした遠心力と重力の作用のため垂直下方への移動エネルギーを最大化させた可動おもり磁石C3が発電用ソレノイド5の中を高速で移動する事で誘導電流を連続して発生させる。In the device example shown in FIG. 3, a rotating gear B2 is attached to a rotating gear A1 whose rotation axis is the horizontal axis by utilizing the propulsive force generation technology described in
回転歯車A1、回転歯車B2の直径を大きくし回転速度を上げ、可動おもり磁石C3の磁力の大きさと重量を増し、発電用ソレノイド5の巻き数を多くして、回転歯車B2と可動おもり磁石C3を組み合わせたユニットの数量などを増やす事で、特許文献1に記載の推進力発生技術を活かして、最大化した誘導電流を連続して発生させる。The diameters of the rotary gears A1 and B2 are increased to increase the rotational speed, the magnitude and weight of the magnetic force of the movable weight magnet C3 are increased, the number of turns of the
図3に示す装置例では可動おもり磁石C3が略渦巻運動をするため装置の振動が考えられるが、特許文献3に記載の技術を活用して、逆回転させた本発明装置と組み合わせることで振動や騒音を軽減する。 In the example of the device shown in FIG. 3, the movable weight magnet C3 is in a substantially spiral motion, so that the device may vibrate. and reduce noise.
オイルやガスの外部エネルギーを動力源とする発電機等に取って代わり、eV自動車やVTOLの電源として長距離、長時間使用を可能にすることや、孤立集落の電源、被災地域や世界各地の未開発地域の電源として利用しながらゼロエミッションやSDGsの目標達成を推進する。 It can be used as a power source for eV vehicles and VTOL for long distances and for long periods of time, replacing power generators that use external energy such as oil and gas as a power source. Promote the achievement of zero emissions and SDGs while using it as a power source for undeveloped areas.
1 回転歯車A
2 回転歯車B
3 可動おもり磁石C
4 固定歯車D
5 発電用ソレノイド
6 可動おもり磁石Cの移動運動線
7 可動おもり磁石Cの移動方向
8 回転歯車Aと固定歯車Dの軸
9 回転歯車Bの軸
10 回転歯車Aの回転方向
11 回転歯車Bの回転方向
12 回転歯車Bの半径 2r
13 固定歯車Dの半径 r
1 rotating gear A
2 Rotating gear B
3 Movable weight magnet C
4 Fixed gear D
5 Solenoid for power generation
6 Movement line of movable weight magnet C
7 Moving direction of movable weight magnet C
8 Axis of rotary gear A and fixed gear D
9 Axis of
13 Radius of fixed gear D r
Claims (2)
As an example of a device using gears, a rotating gear B2 is attached to a rotating gear A1 whose rotation axis is the horizontal axis. By attaching the movable weight magnet C3 so that the center of the rotating gear B2 moves vertically downward at the lowest point on the rotating gear A1, the energy of the vertically downward movement is maximized due to the action of centrifugal force and gravity. Since the movable weight magnet C3 moves at high speed in the power generation solenoid 5, the power generation device efficiently and continuously converts the energy of centrifugal force, gravity, and magnetic force into an induced current.
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JP2003003946A (en) | 2001-04-17 | 2003-01-08 | Akifumi Hoshino | Gyro apparatus with propulsion function |
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JP2003003946A (en) | 2001-04-17 | 2003-01-08 | Akifumi Hoshino | Gyro apparatus with propulsion function |
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