JP3136661U - Centrifugal and gravity driven power engines - Google Patents
Centrifugal and gravity driven power engines Download PDFInfo
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- JP3136661U JP3136661U JP2006008198U JP2006008198U JP3136661U JP 3136661 U JP3136661 U JP 3136661U JP 2006008198 U JP2006008198 U JP 2006008198U JP 2006008198 U JP2006008198 U JP 2006008198U JP 3136661 U JP3136661 U JP 3136661U
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Abstract
【課題】自己回復する電源で繰り返し使える機械を提供する。
【解決手段】発電機としても使える直流モ−タ−の軸心に、対称的で慣性モ−メントのある程度大きな物を付け、2個の蓄電器を直列に繋ぎ、これを回転させる事によって、回転が早くなった分だけより大きな電力を得、蓄電器の電圧を大きくさせる直流電気機関。
【選択図】図1A machine that can be used repeatedly with a self-healing power supply is provided.
A DC motor shaft that can also be used as a generator has a symmetrical large moment of inertia, and two capacitors are connected in series and rotated to rotate them. A direct current electric engine that obtains more electric power and increases the voltage of the battery as much as it becomes faster.
[Selection] Figure 1
Description
本考案は回転力増幅作用のある動力機関、又直流モ−タ−の特殊性を利用して蓄電器等を使って電気機関を構成するものである。The present invention constitutes an electric engine using a power storage device having a rotational force amplifying function or a capacitor or the like using the special characteristics of a DC motor.
デスクグラインダ−等のユニバ−サルモ−タ−に各種の回転力増幅作用のある機構を組み込み、又直流モ−タ−が回転を増加させる機構があれば交流モ−タ−と異なって回転数が増加すれば電力も増加させる性能があるという基礎技術がある。If a universal motor such as a desk grinder incorporates a mechanism that amplifies various rotational forces, and if there is a mechanism that increases the rotation of the DC motor, the rotational speed is different from that of the AC motor. There is a basic technology that has the ability to increase power as the power increases.
この考案が解決しようとする課題は、いかにして自然界に存在する力、機械等を利用して繰り返しの効く電気機関を開発するかという点にある。The problem to be solved by this invention is how to develop an electric engine that works repeatedly by utilizing the forces, machines, etc. existing in nature.
ここでは各種回転力増幅機構を利用し、又一方で直流モ−タ−の発電作用を利用した。Here, various rotational force amplifying mechanisms were used, and on the other hand, the power generation action of a DC motor was used.
この電気機関を利用して増幅された電力を得、また蓄電器で使用された以上の電気が充電され蓄電器の電圧も回転前より高くなった。Using this electric engine, the amplified electric power was obtained, and more electricity than that used in the battery was charged, and the voltage of the battery became higher than before the rotation.
コンパクトで機械的、電気的にも丈夫な構造が望ましい。A compact, mechanically and electrically durable structure is desirable.
図1に示す構造の電気機関に依って電力を得た。ここでも請求項2の改良もなされた。Electric power was obtained by an electric engine having the structure shown in FIG. Here too, the improvement of claim 2 was made.
図2に示す構造の電気機関に依って電力を得た。ここでも請求項2の改良もなされた。Electric power was obtained by an electric engine having the structure shown in FIG. Here too, the improvement of claim 2 was made.
図3に示す構造の電気機関に依って電力を得た。ここでも請求項2の改良もなされた。Electric power was obtained by an electric engine having the structure shown in FIG. Here too, the improvement of claim 2 was made.
図4に示す構造の電気機関に依って電力を得た。ここでも請求項2の改良もなされた。Electric power was obtained by an electric engine having the structure shown in FIG. Here too, the improvement of claim 2 was made.
図5に示す構造の電気機関に依って電力を得た。ここでも請求項2の改良もなされた。Electric power was obtained by an electric engine having the structure shown in FIG. Here too, the improvement of claim 2 was made.
図6に示す構造の電気機関に依って電力を得た。ここでも請求項2の改良もなされた。Electric power was obtained by an electric engine having the structure shown in FIG. Here too, the improvement of claim 2 was made.
図7に示す構造の電気機関に依って電力を得た。ここでも請求項2の改良もなされた。Electric power was obtained by an electric engine having the structure shown in FIG. Here too, the improvement of claim 2 was made.
図8に示す構造の電気機関に依って電力を得た。ここでも請求項2の改良もなされた。Electric power was obtained by an electric engine having the structure shown in FIG. Here too, the improvement of claim 2 was made.
図9に示す構造の電気機関に依って電力を得た。ここでも請求項2の改良もなされた。Electric power was obtained by an electric engine having the structure shown in FIG. Here too, the improvement of claim 2 was made.
図10に示す構造の電気機関に依って電力を得た。ここでは電気的入力24ボルト、6アンペアで電気的出力24ボルト8アンペアの電力で約1.3倍の出力を得た。Electric power was obtained by an electric engine having the structure shown in FIG. Here, an electric input of 24 volts, 6 amps, and an electric output of 24
蓄電器を2個用意し、直列に結線し、概略12.0ボルトの直流電圧で作動させ、蓄電器の総電圧24.35ボルト、で直流モ−タ−を作動させ、結果的に蓄電器の総電圧は24.38ボルトとなり、作動に依って電圧を上げた。Prepare two capacitors, connect them in series, operate with a DC voltage of approximately 12.0 volts, operate the DC motor with a total voltage of 24.35 volts, resulting in a total voltage of the capacitor Became 24.38 volts, and the voltage was increased depending on the operation.
この直流電気機関は繰り返しが効く電源なので、汎用性が高く市場も大きいと思われる。Since this DC electric engine is a power source that works repeatedly, it seems to be highly versatile and has a large market.
▲1▼直径30センチメ−トル程度の円盤
▲2▼デスクグラインダ−等のユニバ−サルモ−タ−
▲3▼直流モ−タ−
▲4▼バッテリ−
▲5▼カップリング部
▲6▼電流、電圧スイッチ
▲7▼プ−リ−
▲8▼たすき掛けベルト
▲9▼支持台
▲10▼遠心力及び重力駆動型動力機関
▲11▼入力アンペアメ−タ−
▲12▼出力アンペアメ−タ−
▲13▼直流モ−タ−
▲14▼対称的で慣性モ−メントのある程度大きい物
▲15▼接合部
▲16▼12ボルト蓄電器
▲17▼固定台
▲18▼スイッチ1
▲19▼数オ−ムの負荷抵抗
▲20▼バイパス回路
▲21▼スイッチ2(1) Disc with a diameter of about 30 centimeters (2) Universal motor such as a desk grinder
(3) DC motor
(4) Battery
(5) Coupling section (6) Current and voltage switch (7) Pulley
(8) Hanging belt (9) Support stand (10) Centrifugal force and gravity driven power engine (11) Input amperometer
(12) Output ampere meter
(13) DC motor
(14) Symmetrical and somewhat large inertia moment (15) Joint (16) 12-volt capacitor (17) Fixing base (18) Switch 1
(19) Load resistance of several ohms (20) Bypass circuit (21) Switch 2
本考案は回転力増幅作用のある動力機関、又直流モ−タ−の特殊性を利用して蓄電器等を使って電気機関を構成するものである。The present invention constitutes an electric engine using a power storage device having a rotational force amplifying function or a capacitor or the like using the special characteristics of a DC motor.
直流モ−タ−に各種の回転力増幅作用のある機構を組み込み、又直流モ−タ−が回転を増加させる機構があれば交流モ−タ−と異なって回転数が増加すれば電力も増加させる性能があるという基礎技術がある。Various mechanisms for amplifying rotational force are built into the DC motor, and if the DC motor has a mechanism that increases the rotation, the power increases as the rotational speed increases unlike the AC motor. There is basic technology that there is performance to let you.
この考案が解決しようとする課題は、いかにして自然界に存在する力、機械等を利用して長持ちのする電気機関を開発するかという点にある。The problem to be solved by the present invention is how to develop a long-lasting electric engine using the power, machines, etc. existing in nature.
ここでは各種回転力増幅機構を利用し、又一方で直流モ−タ−の発電作用を利用した。Here, various rotational force amplifying mechanisms were used, and on the other hand, the power generation action of a DC motor was used.
この電気機関を利用して蓄電器に電気が充電され蓄電器の電圧も回転前より高くなった。Using this electric engine, electricity was charged in the battery, and the voltage of the battery became higher than before the rotation.
コンパクトで機械的、電気的にも丈夫な構造が望ましい。A compact, mechanically and electrically durable structure is desirable.
図1に示す構造の電気機関に依って電力を得た。Electric power was obtained by an electric engine having the structure shown in FIG.
図2に示す構造の電気機関に依って電力を得た。Electric power was obtained by an electric engine having the structure shown in FIG.
蓄電器を2個用意し、直列に結線し、概略12.0ボルト2個合計24.0ボルトの電圧で作動させ、蓄電器の総電圧24.35ボルト、で直流モ−タ−を作動させ、結果的に蓄電器の総電圧は24.38ボルトとなり、作動に依って電圧を上げた。Prepare two capacitors, connect them in series, operate approximately 12.0 volts with a total voltage of 24.0 volts, and operate the DC motor with a total voltage of 24.35 volts. Therefore, the total voltage of the capacitor was 24.38 volts, and the voltage was raised depending on the operation.
この直流電気機関は長持ちのする電源なので、汎用性が高く市場も大きいと思われる。バッテリ−充電機にもなる。 Since this DC electric engine is a long-lasting power supply, it seems to be highly versatile and has a large market. It can also be a battery charger.
▲1▼直流モ−タ−
▲2▼バッテリ−
▲3▼電流、電圧スイッチ
▲4▼支持台
▲5▼遠心力及び重力駆動型動力機関
▲6▼入力アンペアメ−タ−
▲7▼出力アンペアメ−タ−
▲8▼接合部
▲9▼12ボルト蓄電器
▲10▼スイッチ1
▲11▼負荷抵抗
▲12▼バイパス回路
▲13▼スイッチ2
▲14▼ベクトル変換型動力機関
▲15▼重り(1) DC motor
(2) Battery
(3) Current / voltage switch (4) Support stand (5) Centrifugal force and gravity drive type power engine (6) Input amperometer
(7) Output ampere meter
(8) Junction (9) 12-volt battery (10) Switch 1
(11) Load resistance (12) Bypass circuit (13) Switch 2
▲ 14 ▼ Vector conversion power engine ▲ 15 ▼ Weight
本考案はデスクグラインダ−及びスライドトランスを使用し、又駆動源の基礎として遠心力及び重力の合力を使用してエネルギ−効率の良い動力機関を作るものである。The present invention uses a desk grinder and a slide transformer, and uses a resultant force of centrifugal force and gravity as the basis of a drive source to make an energy-efficient power engine.
力には自然に存在する重力、表面張力、静電気による力、磁気力等、又は物体の運動に伴って現れる遠心力、コリオリの力等が数々あるがここでは、そのうち重力及び遠心力の双方を利用して動力機関の基礎とするものである。There are many natural forces such as gravity, surface tension, electrostatic force, magnetic force, or centrifugal force and Coriolis force that appear along with the movement of an object. It is used as the basis of power engines.
この考案が解決しようとする課題はいかにして自然界に存在する力を利用して動力、エネルギ−として利用するかという点にある。The problem to be solved by this invention is how to use the power existing in the natural world as power and energy.
ここではすでに自然界に存在している重力及び遠心力と言う古来からある物理法則の組み合わせに依ってこの問題を解決した。Here, this problem was solved by a combination of ancient physical laws of gravity and centrifugal force that already exist in nature.
動力機関としてエネルギ−効率が従来の2倍から3倍効率の良いものが出来た。As a power engine, energy efficiency of 2 to 3 times that of the conventional engine has been improved.
回転体は中心が十分に出ていないと効率が下がるので注意しなければならない。It must be noted that the rotating body will be less efficient if the center is not fully out.
図1の如く、効率利用用構造物をデスクグラインダ−で強制回転を始めると効率利用構造部の両翼にある平板が回転と同時に遠心力を持ち初め、作動棒を全面進行方向に押し出して行き、又、装置全体が斜め勾配を持っているので重力の作用で左に来た時は作動棒に重力が働き、右に来た時は重力は働かないで慣性モ−メントも小さくなる。
この様にして効率の良い動力機関が出来た。As shown in Fig. 1, when the structure for efficiency utilization is forced to rotate with a desk grinder, the flat plates on both wings of the structure for efficiency utilization begin to have centrifugal force simultaneously with the rotation, and the operating rod is pushed out in the entire traveling direction. In addition, since the entire apparatus has an oblique gradient, gravity acts on the operating rod when it comes to the left due to the action of gravity, and gravity does not work when it comes to the right, and the inertia moment is reduced.
In this way, an efficient power engine was created.
図2の如く、この動力機関にプ−リ−を付け他の回転体を回転させた時も、遠心力及び重力の作用に依って、効率の良い形態が他の回転体にも現れた。As shown in FIG. 2, when the power engine was attached with a pulley and another rotating body was rotated, an efficient form appeared in the other rotating bodies due to the action of centrifugal force and gravity.
熱的、機械的に拡大された効率の良い動力機関はモ−タ−、コンプレッサ−等の動力源として省エネルギ−、省電力効果が期待される。An efficient power engine that has been expanded thermally and mechanically is expected to have an energy saving and power saving effect as a power source for motors, compressors and the like.
▲1▼細長平板
▲2▼中心軸
▲3▼先端平板
▲4▼先端回転中心
▲5▼作動棒
▲6▼半固定用ゴム
▲7▼デスクグラインダ−
▲8▼スライドトランス
▲9▼100ボルト、50、60ヘルツ電源
▲10▼小直径プ−リ−
▲11▼ベルト
▲12▼中直径プ−リ−
▲13▼モ−タ−、デスクグラインダ−、コンプレッサ−、ポンプ等。(1) Elongated flat plate (2) Central axis (3) Tip flat plate (4) Tip rotation center (5) Actuator bar (6) Semi-fixing rubber (7) Desk grinder
▲ 8 ▼ Slide transformer ▲ 9 ▼ 100V, 50, 60Hz power supply ▲ 10 ▼ Small diameter pulley
▲ 11 ▼ Belt ▲ 12 ▼ Medium diameter pulley
(13) Motors, desk grinders, compressors, pumps, etc.
Claims (3)
スイッチをオンにすると直流モ−タ−が回転すると同時に蓄電器の端子に直流モ−タ−から発生する電力が入りつつ回転速度を上げ蓄電器の最高プラスの先端極から出て行くプラス電荷よりも、直流モ−タ−に慣性モ−メントのある程度大きな物を駆動させ直流をいくらか増幅して得た、プラス電荷を2つ直流に繋いだ初めの最低プラスの電極に入れると2つの蓄電器群の電圧はいくらか増加するが、オンの時間を5から10秒程度にし、オフの時間を20分から1時間として、オン、オフはスイッチ1、及びスイッチ2で行なうが、両スイッチはほとんど同時にオン、オン、又はオフオフと作動させ、るが、普段オフ、オフにしておき、蓄電器の電圧を上げようとするとき一時的にオンにする。又特に直流モ−タ−の入出力を蓄電器群のプラス電極同士で行なう事、又直流モ−タ−に慣性モ−メントのいくらか大きな物を設備した物を作動させた時、回転増幅作用で回転速度が大きくなりその時出力電流が増加するが、同時に蓄電器から入力電流も引っ張り込むのでそその引っ張り電流の一部を元の方から半分程度直流モ−タ−を介さないで後ろの列の蓄電器のプラス電極に数オ−ムの負荷抵抗を付けてバイパス的に戻す配線をした事を特徴とする請求項1の直流電気機関。Connect the input of the DC motor in series to two 12 volt capacitors, and install it in the axis of the DC motor.
When the switch is turned on, the DC motor rotates, and at the same time the electric power generated from the DC motor enters the terminal of the battery, the rotation speed is increased and the positive charge coming out from the highest positive tip of the battery, When a DC motor is driven to a certain degree of inertial moment and some DC is amplified, the voltage of the two capacitors is obtained when it is inserted into the first lowest positive electrode connected with two positive charges. Although it increases somewhat, the ON time is set to about 5 to 10 seconds, the OFF time is set to 20 minutes to 1 hour, and ON and OFF are performed by switch 1 and switch 2, but both switches are ON, ON, Alternatively, it is turned off and off, but it is usually turned off and off, and temporarily turned on when trying to increase the voltage of the capacitor. Also, especially when the DC motor input / output is performed between the positive electrodes of the capacitor group, or when a DC motor equipped with a somewhat large inertial moment is operated, the rotation amplification action The rotation speed increases and the output current increases at the same time, but at the same time, the input current is also pulled from the capacitor, so a part of the pulling current is about half from the original one without passing through the DC motor. 2. A DC electric engine according to claim 1, wherein said positive electrode is provided with a load resistance of several ohms and returned in a bypass manner.
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JP2006008198U JP3136661U (en) | 2005-03-13 | 2006-09-09 | Centrifugal and gravity driven power engines |
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JP2005349927 | 2005-11-03 | ||
JP2005381207 | 2005-12-24 | ||
JP2005381302 | 2005-12-26 | ||
JP2006026293 | 2006-01-04 | ||
JP2006033061 | 2006-01-14 | ||
JP2006041613 | 2006-01-22 | ||
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JP2006073500 | 2006-02-17 | ||
JP2006103619 | 2006-03-06 | ||
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