JP2000324786A - Unified body type single-pole induction generator of plurality divided magnetic conductors - Google Patents

Unified body type single-pole induction generator of plurality divided magnetic conductors

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Publication number
JP2000324786A
JP2000324786A JP11161485A JP16148599A JP2000324786A JP 2000324786 A JP2000324786 A JP 2000324786A JP 11161485 A JP11161485 A JP 11161485A JP 16148599 A JP16148599 A JP 16148599A JP 2000324786 A JP2000324786 A JP 2000324786A
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conductor
conductors
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magnetic
brush
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Jiro Ikeda
二郎 池田
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Jiro Ikeda
二郎 池田
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Abstract

PROBLEM TO BE SOLVED: To provide a generator for improving the low voltage of 0.6-0.7 V which is a defect of the conventional single-pole induction generator, and can obtain a large current by a small device which is the advantage of this generator. SOLUTION: This generator has a plurality of sliding pivoting brushes, wherein a plurality of insulated disks or divided conductors are fixed on both side surfaces of a rotor (disk) 1 of a single-pole induction generator, to contact and rotate with suitable pressure accompanying the rotation of a pivoting member (unified body of a center conductor and the divided conductors) around the conductor 1 and the divided conductors, and lead out electricity from the center part by using contact brushes. These respective conductors are composed of magnetic conductor (metal magnet), and all the divided conductors are connected in series with the conductor 1. Thereby all generated voltages are added and turn into a high voltage. By changing a magnet for excitation of an electromagnet or a superconducting magnet and installing liquid metal brushes, a large current can be used in a small-sized apparatus.

Description

【発明の詳細な説明】 DETAILED DESCRIPTION OF THE INVENTION

【0001】 [0001]

【産業上の利用の分野】この発明は単極誘導発電機に関するものである。 [Field of use of the Invention This invention relates to a single-pole induction generator.

【0002】 [0002]

【従来の技術】この単極誘導発電機は1832年にマイケル ファラデーにより最初に検討されたものである。 BACKGROUND OF THE INVENTION unipolar generator is one that is considered first by Michael Faraday in 1832.
統一された磁場のなかに置かれた導体(円盤)を回動させると円盤の周縁部と中心部の間に電圧が生じる。 It rotates the laid conductors (disc) Some unified field voltage between the peripheral portion and the central portion of the disk occurs. 接触ブラシを周縁部と中心部に設け接続し負荷を掛けると電流が流れる。 Connect provided contact brush in the peripheral portion and the central portion imposing a load when current flows. 電流の流れはN極面から見て右回転の場合、中心部にプラスが現れ周縁部にマイナスの極性が現れる。 For current flow clockwise as viewed from the N pole face, a negative polarity appears at peripheral portions appear positive at the center. 逆回転ではその極性は中心部にマイナスが周縁部にプラスの極性が現れる。 The reverse rotation polarity is negative is positive polarity appears at the periphery to the center. 導体と共に磁石を回動しても磁石を固定し導体だけを回動しても発生電圧に変化はない。 There is no change in generated voltage be fixed pivots only conductors magnet also rotates the magnet together with the conductor. 導体を固定し磁石だけを回動しても電圧は発生しない。 Even if only a rotating magnet fixed to conductor voltage does not occur. 発生電圧の大きさは回動導体の半径の二乗と回動導体を貫く磁力線の数と回動速度に比例する。 The magnitude of the generated voltage is proportional to the number and the rotation speed of the magnetic field lines passing through the radius of the square and turning conductor of the rotating conductor.

【0003】 [0003]

【発明が解決しょうとする課題】上記の単極誘導発電機は発生電流は大きいのであるが、発生電圧が低い。 THE INVENTION It'll solve the object of the unipolar generator above is generated current is greater, the generated voltage is low.
(0.6V〜0.7V) 回動導体の回動速度が速く周縁部に接触ブラシを配置し電圧を取り出す段階で、ブラシの摩擦熱による電圧降下が著しく扱が非常に難しく、 (0.6V~0.7V) at the stage of taking out the contact brush rotation speed is high the periphery of the rotating conductor disposed voltage, the voltage drop is significantly Koga very difficult due to the frictional heat of the brush,
使用範囲が限定され現在では殆ど使われていないのが現状である。 The range of use is limited hardly used at present is the present situation. この発明で解決しょうとする課題はこの単極誘導発電機の持っている大きな潜在能力の大きな電流を引き出すために電圧を上げることと、回動導体の周縁部回動速度に対する摩擦熱による電圧降下を抑制し得るブラシの考案である。 Problem to be cane resolved in this invention and to increase the voltage in order to draw a large current of great potential that has of this unipolar induction generator, a voltage drop due to frictional heat against the periphery rotational speed of the rotating conductor it is devised brush capable of suppressing.

【0004】 [0004]

【課題を解決するための手段】本発明を、図面について説明すれば、単極誘導発電機のローター(1)の材質を金属磁石(アルニコマグネット係)にし、その両側面に絶縁導体円盤か絶縁磁性導体円盤もしくは分割し絶縁した導体か絶縁磁性導体(金属磁石)(2〜13)を複数固着する。 The present invention, in order to solve the problems], will describe the drawings, the material of the rotor (1) of the unipolar generator to metal magnet (Alnico engagement), insulated or insulated conductor disc on both sides thereof magnetic conductive disc or divided insulated conductors or insulated magnetic conductive (metal magnet) (2-13) a plurality of anchoring. (以降分割導体とする)分割導体と中心導体の周縁部には接触しながら回転しその中心部より接触ブラシ(20)(21)にて電圧を取り出すようにした円形導体か円形磁性導体(金属磁石)で成る摺動回動型磁性導体ブラシ(A〜L)(M1〜M3)を複数配置する。 (And later divided conductors) divided conductor and the center conductor of the contact brushes (20) from its center rotates while in contact with the peripheral edge (21) round conductors to extract a voltage at or circular magnetic conductor (metal the sliding rotating type magnetic conductive brush comprising a magnet) (A~L) (M1~M3) arranging a plurality. (以降回動ブラシとする) (And later to the rotation brush)

【0005】この発電機の回路を図面(1)について説明すれば各分割磁性導体(2〜13)の周縁部には適当な圧力を持って各導体に摺接回動する回動ブラシ(A〜 [0005] rotating brush in sliding contact rotates the peripheral portion each conductor with suitable pressure to the description them if the divided magnetic conductor for drawing (1) the circuit of the generator (2 to 13) (A ~
L)を配置し、その中心に接触ブラシ(21)を設け電圧を取り出すようにする。 L) arranged, to retrieve a voltage provided contact brushes (21) at its center. 分割導体を固着したN極面とS極面の両側面の中心部には、分割導体数に見合った数の接触ブラシが適当な圧力で各分割導体に摺接するようにした、接触ブラシホルダー(23)を分割導体に近接固定する。 In the center of both side surfaces of the N-pole surface and the S pole face which is fixed to the conductor segments, the number of contact brushes commensurate with the number of divided conductor has to sliding contact with the respective conductor segments at a suitable pressure, contact brushes holders ( 23) proximate fixed to the split conductor. 回動ブラシ(A)の中心ブラシ(21)と導体(3)の中心接触ブラシ(b)を結線し、この配線を回動ブラシ(B〜E)と(c〜f)まで上記同様に結線する。 And connecting the center contact brush (b) a central brush (21) and the conductor of the rotating brush (A) (3), similarly to the above connecting the wiring rotation brush (B to E) and to (c to f) to.

【0006】分割導体(7)の回動ブラシとS極面分割導体(8)の中心ブラシ(g)を結線する。 [0006] To connect the central brush (g) of the rotating brush and S pole face divided conductors divided conductors (7) (8). 同様の配線をブラシ(G〜K)と(h〜l)を上記と同様に結線し、回転ブラシ(L)と発電機の中心導体(1)の中心部に接触ブラシ(P)で接続する。 Similar similarly connected with the brush (G-K) and the (H to L) of wiring connecting the central portion to the contact brushes of the rotating brush (L) and the generator central conductor (1) (P) . 発電機の中心ローター(1)の周縁部にも上記同様の回動ブラシ(M1〜M The even periphery same rotational brush central rotor of the generator (1) (M1 to M
3)を複数設置し、その中心軸の接触ブラシ(20)とN極面の中心ブラシ(a)との電位差を利用する発電機である。 3) a plurality of installed a generator utilizing a potential difference between the central brush (a) of the contact brushes (20) and N-pole surface of the central axis.

【0007】この磁性回動体の励磁を目的とする強力な磁石(14)(希土類係マグネット)を分割動体に近接固定する。 [0007] adjacent fixing the strong magnet for the purpose of excitation of the magnetic rotating body (14) (rare earth engaging magnet) to split body. この励磁用固定磁石(14)を電磁石か超伝導磁石にし、使用目的に応じてこれらを選択する。 The exciting fixed magnet (14) and the electromagnet or superconducting magnet, select these according to the intended use. この大きな電流を引き出す目的を持って内部抵抗を減らすため液体金属ブラシ(ウッド メタル)を使用する。 With the aim to draw the large current using a liquid metal brush (Wood's metal) to reduce the internal resistance. この発電機全体を構成する外枠(18)を磁性体とし磁気回路とする。 An outer frame constituting the entire generator (18) and the magnetic circuit and the magnetic material. 各回転体を支持するベアリングは非磁性導体ベアリング(セラミック ボール ベアリング)とする。 Bearings supporting the respective rotary member is a non-magnetic conductive bearings (ceramic ball bearings). 以上のような構成をなす複数分割磁性導体一体型単極誘導発電機。 Multiple split magnetic conductor integrated unipolar generator forming the above structure.

【0008】 [0008]

【作用】上述のように構成して、シャフトを外部動力で回動すると中心導体(1)と各分割導体(2〜13)は磁性導体(金属磁石)である(以降回動体とする)ことと、励磁用磁石(14)の磁力線の中に置かれているので回動ブラシ(A〜L)の摺接面と、各中心部接触ブラシ(a〜l)の間に電圧が生じる。 [Action] constructed as described above, when rotating the shaft with an external power center conductor (1) and the split conductor (2-13) is (a later rotating body) is a magnetic conductive (metal magnet) that When the sliding surface of the rotating brush because it is placed in the magnetic field lines of the exciting magnets (14) (A~L), a voltage is generated between the center contact brushes (to l). N極面から見て右回転の場合、中心導体(1)と各分割導体(2〜13)の中心部に(+)の極性が現れ、電流は中心部から周縁部に向かって流れる。 For clockwise rotation as viewed from the N pole face, polarity appears between the center of the conductor segments (2-13) the center conductor (1) (+), the current flows toward the periphery from the center. 中心導体(1)と各分割導体(2〜 The center conductor (1) and the split conductor (2
13)の周縁部にはその数に見合った、または複数の回動ブラシ(A〜L)(M1〜M3)が絶縁され敵当な圧力を持って各分割導体と中心導体に摺動回動するよう設置してある。 The periphery of 13) commensurate with the number or rotation brush (A to L) (M1 to M3) sliding pivots each divided conductor and the central conductor with the enemy those pressures are insulated, It is installed to. (16a〜16c)(M1〜M3) (16a~16c) (M1~M3)

【0009】上記の回動ブラシも磁性導体(金属磁石) [0009] The rotating brushes magnetic conductor (metal magnets)
でありその極性は、N極面から見て回動導体本体と同じようにN極とし、本体がN極面から見て右回転すると摺動回動する回動ブラシは左回転となり、現れる電気的極性は中心が(−)となり周縁部が(+)となる。 By and its polarity is the same as the N pole and the rotating conductor body as viewed from the N pole face rotation brush body to slide rotation when rotated clockwise as viewed from the N pole face becomes counterclockwise rotation appears electric polarity is centered (-) and the peripheral portion is (+). これにより各分割磁性導体(2〜13)と回動ブラシ(A〜 Thereby the split magnetic conductors (2-13) and rotating brush (A to
L)は電気的に直列につながり、昇圧した電圧は各回動ブラシの中心部に設置した接触ブラシ(21)により隣接する分割導体の中心部の接触ブラシ(a〜l)に結線する。 L) is electrically connection in series, boosted voltage is connected to the contact brushes of the central portion of the divided adjacent conductors (to l) by contact brushes placed in the center of the respective rotary brush (21).

【0010】この現象は各分割導体(2〜13)と回動ブラシ(A〜L)の間に於いて同時に発生し、また全ての分割導体(2〜13)と回動ブラシ(A〜L)が同時に直列接続するので電圧は高いものとなる。 [0010] This phenomenon occurs simultaneously at between the divided conductor (2-13) and rotating brush (A to L), and all the divided conductor (2-13) and rotating brush (A to L ) voltage becomes high because the series connection at the same time. 各分割導体(2〜13)で昇圧した電圧は発電機中心ローター(1)の中心部ブラシ(P)に接続し、周縁部に設置した複数の回動ブラシ(M1〜M3)から接触ブラシ(2 Voltage boosted by the division conductors (2 to 13) is connected to the central brush of the generator central rotor (1) (P), the contact of a plurality of rotating brushes placed in the periphery (M1 to M3) Brush ( 2
0)を用いて取り出す電圧は、今までの単極誘導発電機では実現出来なかった高い電圧を取り出すことができる。 Voltage is taken out using a 0) can be extracted with high voltage could not be realized in the unipolar generator ever.

【0011】各回動ブラシ(A〜L)(M1〜M3)の採用は回動体(分割磁性体と中心導体一体の物)の回動速度が速く周縁速度に至っては、超高速となり接触ブラシを使用した場合その摩擦熱による電圧降下で出力が消えてしまう。 [0011] led to the respective rotary brush (A to L) (M1 to M3) faster peripheral speed rotation rate of the employed rotating body (those of the split magnetic body and central conductors integrally) of the contact brush becomes ultrafast the output voltage drop disappears due to the frictional heat when used. 回動ブラシ(A〜L)(M1〜M3)の採用により摺動面は常に適当な圧力で密着しておりそこに摩擦熱は発生しないのである。 Adoption of the rotary brush (A~L) (M1~M3) sliding surface is always there frictional heat is in close contact with an appropriate pressure is not generated. 一般的な単極誘導発電機に使用されている接触ブラシ(黒鉛ブラシ)による摩擦抵抗も、回動ブラシの採用により軽減でき回動ブラシの中心部より接触ブラシで電圧を取り出すことにより、摩擦熱による電圧降下も少なく摩擦抵抗による外部動力の消費エネルギーも軽減できるのである。 The frictional resistance due to common contact brushes used in unipolar induction generator (graphite brush), by taking out a voltage in contact brushes from the center of rotation brush can be reduced by adopting the rotating brush, the frictional heat energy consumption of the external power by voltage drop less frictional resistance due also than can be reduced.

【0012】これらの回動ブラシの材質は磁性導体(金属磁石)であるから、自らが回動すると周縁部の摺動面と中心部のブラシ(20)(21)間に電圧が生じ発電機全体の出力増大に貢献しているのである。 [0012] Since the material of these rotating brushes is a magnetic conductor (metal magnet), the brush (20) of the sliding surface and the center portion of the peripheral portion when itself is pivoted (21) voltage between the generated power generator with each other to contribute to the overall output increase. 固定磁石(14)は既に磁石である回動体(分割導体と中心導体が一体となったもの)を更に励磁し、磁束密度を上げ発電能力向上の目的をもって設置するものである。 Fixed magnet (14) is already that the rotating body is a magnet further excites the (split conductor and the center conductor that together), installed with the purpose of generating capacity increase up magnetic flux density. この発電機全体を構成する外枠(18)は磁性体とすることで磁気回路とし、磁力線の拡散を極力抑えまた磁力の減磁を最小限に抑える目的で構成するものである。 An outer frame constituting the entire generator (18) is intended as a magnetic circuit by a magnetic body, which constitutes the purpose of minimizing the demagnetization of minimizing also force the spread of magnetic field lines.

【0013】回動ブラシ ホルダー(16a〜16c) [0013] The rotating brush holder (16a~16c)
で支持する回動ブラシは対峙する回動ブラシとは絶縁してあり、上記の全ての回動体を支持するボールベアリングのボールは非磁性導体とし、磁力線によるボールの回転を妨げる現象の抑制と、各回動ブラシ(A〜L)(M In rotating brush for supporting is a rotating brush which faces Yes insulated, ball of the ball bearing for supporting all rotating body above the nonmagnetic conductor, the suppression phenomenon that prevents the rotation of the ball by magnetic field lines, each time moving brush (A~L) (M
1〜M3)と各導体との絶縁が目的である。 1~M3) and insulation between each conductor is the objective.

【0014】液体金属ブラシの液体金属(ウッド メタル)は融点が70度Cであるから、ヒーターで加熱し液体の状態を保ち合成プラスチックシールを使用し回動体の摺動面に直接摺接設置する。 [0014] Liquid metal liquid metal brush (Wood's metal) is from a melting point of 70 ° C, and direct sliding contact placed on the sliding surface of using synthetic plastics seal maintaining the state of the liquid was heated by a heater rotating member . これにより電流の発生が大きい中心ローター(1)の摺接面に設置すると摺接面積が拡大し、電気抵抗少なく大電流を損失することなく取り出すことができるのである。 Thus expanded sliding area when installed in a sliding surface of the central rotor generation of current is large (1), it is possible to take out without loss of electrical resistance less large current.

【0015】 [0015]

【実施例】他の実施例として上記の発電機の励磁を目的とするところの固定磁石を、超伝導磁石に変更し使用した場合の実施例を説明する。 A stationary magnet at which an object of excitation EXAMPLES said generator as another embodiment, an embodiment of using change in superconducting magnets. 今現在、希土類系マグネットの磁束密度最高値は1.2テスラ(1テスラ=100 Right now, the magnetic flux density maximum value of the rare-earth magnet is 1.2 tesla (1 tesla = 100
00ガウス)くらいであるが、超伝導に至っては10〜 00 Gauss) is much, but reached the superconducting 10
30テスラの物が数多く作られている。 Things of 30 Tesla made numerous. 10テスラくらいの小型機を超伝導状態に保持し続けるには、超伝導コイルを4.2Kにヘリウムを使用し冷却しなければならないが、今現在の冷凍技術をもってすれば冷凍機に使用する電力は1KW〜1.5KWですむのである。 Of about 10 Tesla small machine continues to hold the superconducting state, it is necessary to use helium superconducting coil 4.2K cooling, used in the refrigerator if advance current refrigeration technology now power it is to live in 1KW~1.5KW. この超伝導を利用した大型(50メガボルトアンペア〜100 Large using this superconducting (50 mega-volt-amperes to 100
0メガボルトアンペア)機が世界で開発中である。 0 mega volt ampere) machines are being developed in the world.

【0016】この内容を調べてみると、超伝導コイルの超強力な磁力を利用できるため 、発電機全体の大きさや重量をいままでの2/1〜3/1にする事が出来る。 [0016] If we examine this content, superconductivity for a super-strong magnetic force of the coil can be used, it is possible to the size and weight of the entire generator to the 2 / 1-3 / 1 until now.
しかし、発電機全体の効率を計算すると全体で約1%の効率改善にしかならないと言う。 However, say that not only a total of about 1 percent of the efficiency improvement and to calculate the efficiency of the entire generator. その理由は、超伝導コイルが発生する膨大な磁力線の数に起因し、発電機全体の質量が小さくなっても発電機を回転させる外部動力の消費エネルギーは以前とあまり変わらないと言うことである。 The reason is to say that the superconducting coil due to the number of large magnetic force lines generated, the energy consumption of the external power for rotating the generator even if the mass of the entire generator is decreased does not change before and so . 巨大な励磁磁力と回転子の間には巨大な作用反作用の物理法則が働くからである。 Because acts physics huge action and reaction between the huge excitation force and a rotor. 磁束を横切るコイルにはその磁力に比例する電流が発生し、励磁磁束に対する反作用が発生する。 The coil across the flux generates a current proportional to its magnetic force, reaction occurs with respect to the excitation flux. これ故に全体の効率として消費エネルギー的に1%前後の効率改善にしかならないのである。 Hence it's not only the energy consumption to about 1% of the efficiency improvement as overall efficiency.

【0017】そこで上記の本発明である、回動導体(分割導体と中心導体が一体の物)(以降回動導体とする) [0017] Therefore it is the invention described above, turning conductor (divided conductor and the center conductor of unitary) (hereinafter the rotating conductor)
をこの10テスラ位の強磁場の中に設置した場合を考えてみる。 Consider the case of installing the in the strong magnetic field of the 10 tesla position. 超伝導コイルの特徴として、今までのコイルのように鉄心を使用していないところである。 As a feature of the superconducting coil, it is where not using iron core as the coils far. 鉄は2.2 Iron 2.2
テスラで飽和してしまい10テスラまでの磁束密度を必要としない。 It does not require the flux density of up to 10 Tesla becomes saturated with Tesla. コイル中心は空芯でありそこに上記の回動導体の材質を非磁性体導体とし、最強磁場の位置に回動導体を近接設置し外部動力で回動すると、上記発電機のように逆トルクが大きく掛からないのである。 When the coil center there is a air-core of the material of the above-mentioned rotating conductor and the non-magnetic member conductors, rotated by an external power close placed rotating conductor to the position of the strongest magnetic field, counter torque as the generator it is the not applied to large. 作用反作用の法則はこの発電機ついて言えばその発生は最小限に抑えられている。 The law of action and reaction is the generation is kept to a minimum speaking with the generator. 回動導体の位置する全体が均一な磁場の中に置かれているため、回動導体の内部に作用反作用の原因となる渦電流の発生が発現しないのである。 Since the entire the position of turning conductor is placed in a uniform magnetic field is the generation of eddy currents that cause action and reaction in the interior of the rotating conductor is not exhibited.

【0018】 [0018]

【考案の効果】上述のようにこの発電機の最大の特徴は、励磁磁界が強力でも、電機子に掛かる作用反作用の現象が極めて小さく超伝導コイルの特徴を最大限に活用することができる発電機を供給するものである。 [Effect of the invention] The biggest feature of the generator as described above, also potent excitation magnetic field, it is a phenomenon of action and reaction applied to the armature to take full advantage of the characteristics of the extremely small superconducting coil power it is intended to supply the machine.

【図面の簡単な説明】 BRIEF DESCRIPTION OF THE DRAWINGS

【図1】本発明の実施例を示す回路図 Circuit diagram showing an embodiment of the invention, FIG

【図2】本発明の実施例を示す正面外枠断面図一部回路図 Figure 2 is a front outer frame section view a portion circuit diagram showing an embodiment of the present invention

【図3】本発明の実施例を示す側面外枠断面図一部カット図 Side outer frame section view partially cut view showing an embodiment of the present invention; FIG

【図4】本発明の実施例を示す側面外枠断面図及び一部部品撤去図(回動ブラシホルダー16a 16c M Figure 4 is a side outer frame section view and some parts removed diagram showing an embodiment of the present invention (rotational brush holder 16a 16c M
3) 3)

【図5】本発明の実施例を示す外枠断面斜視図一部回路図 The outer frame cross-sectional perspective view of a portion circuit diagram showing an embodiment of the present invention; FIG

【符号の説明】 DESCRIPTION OF SYMBOLS

1は単極誘導発電機の磁性導体円盤 2〜7はN極面分割磁性導体 8〜13はS極面分割磁性導体 14は励磁用固定磁石 15は発電機固定用ボルトナット 16a〜16cは分割磁性導体用回動ブラシホルダー 17は磁気回路を通る磁力線 18は発電機外枠 19は磁石固定用ネジ穴 20はM1〜M3用接触ブラシ 21は摺接接触回動ブラシ(A〜L)用接触ブラシ 22は分割導体中心部接触ブラシ用端子 23は各分割導体中心部接触ブラシ用ホルダー 24は磁石固定用ボルト A〜FはN極用G〜LはS極用分割導体周縁部回動ブラシ a〜fはN極用g〜lはS極用分割導体中心部接触ブラシ M1〜M3は中心導体用摺接触回動ブラシ Pは中心導体円盤用接触ブラシ 1 the magnetic conductor disc 2-7 unipolar induction generator N pole surface divided magnetic conductor 8-13 S pole surface divided magnetic conductor 14 is energized for the fixed magnet 15 is the generator fixing bolt nuts 16a~16c split field lines 18 are power outside frame 19 through the magnetic circuit magnetic conductor rotating brush holder 17 is the magnet fixing screw hole 20 is in contact brush 21 for M1~M3 contacting sliding contact rotating brush (a to L) brush 22 is divided conductor center contact brushes terminal 23 is holder 24 for each of the divided conductor center contact brush G~L N-pole magnet fixing bolt A~F the S electrode for dividing the conductor periphery rotating brush a ~f N pole for g~l the S electrode for dividing the conductor center contact brushes M1~M3 is sliding contact rotating brushes P for the center conductor center conductor disc for contact brushes

Claims (3)

    【特許請求の範囲】 [The claims]
  1. 【請求項1】単極誘導発電機のローター(導体円盤) 1. A single-pole induction generator rotor (conductor disc)
    (1)の両側面に絶縁した複数の導体円盤か分割し絶縁した複数の導体(2〜13)を固着し回動体と成し全ての導体の周縁部と中心部に接触ブラシ(a〜1)(P) (1) a plurality of conductors disc or divided in contact with the peripheral portion and the central portion of all conductors form a fixed and rotary body a plurality of conductors insulated (2-13) brush insulated on both sides of (a to 1 ) (P)
    もしくは回動体に適当な圧力を持って接触しながら回動体の回動と共に回動しその中心部に接触ブラシを設置し電気を取り出す摺接接触回動ブラシ(A〜L)(M1〜 Or the rotary body to have a suitable pressure and rotates with the rotation of the contact while rotating body withdrawing electric established a contact brush at the center thereof sliding contact rotating brush (A to L) (M1 to
    M3)を複数有し全ての導体を直列結線することを特徴とした複数分割磁性導体一体型単極誘導発電機。 To series connection of all conductors have a plurality of M3) several divided magnetic conductor integrated unipolar induction generator was characterized.
  2. 【請求項2】上記の複数分割磁性導体一体型単極誘導発電機のローター(導体円盤)(1)とその両側面に固着した複数の絶縁導体円盤か複数の絶縁分割導体(2〜1 Wherein said plurality split magnetic conductors integrated unipolar induction generator rotor (conductor disc) (1) and a plurality of insulated conductors disk or a plurality of insulated conductor segments fixed to the both sides thereof (2-1
    3)の材質を磁性導体(金属磁石)にし磁性導体回動体としその励磁を目的とする磁石(14)を回動体に近接固定し磁気回路(18)を有することを特徴とした複数分割磁性導体一体型単極誘導発電機。 The material of 3) to the magnetic conductor (metal magnet) and magnetic conductive rotating body more divided magnetic conductors, comprising a magnet (close fixed magnetic circuit 14) to the rotating body (18) for the purpose of its excitation integrated single-pole induction generator.
  3. 【請求項3】上記の複数分割磁性導体一体型単極誘導発電機のローター(円盤)(1)と複数分割磁性導体(2 Wherein said plurality split magnetic conductor integrated unipolar induction generator rotor (disc) (1) and a plurality split magnetic conductors (2
    〜13)と一体と成ったなった回動体の励磁を目的とするところの励磁用磁石(14)を電磁石もしくは超伝導磁石にしその磁場のなかでこの回動体を回動させその周縁部から液体金属ブラシ(ウッド メタル)を使用し電力を得ることを特徴とした複数分割磁性導体一体型単極誘導発電機。 And to 13) and excitation magnets it is an object of the excitation of the rotating body became became integrated (14) to the electromagnet or superconducting magnet rotates the rotating body among the magnetic liquid from the periphery metal brush plurality divided magnetic conductor integrated unipolar induction generator which is characterized by obtaining a power using (wood metal).
JP11161485A 1999-04-30 1999-04-30 Unified body type single-pole induction generator of plurality divided magnetic conductors Pending JP2000324786A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP11161485A JP2000324786A (en) 1999-04-30 1999-04-30 Unified body type single-pole induction generator of plurality divided magnetic conductors

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP11161485A JP2000324786A (en) 1999-04-30 1999-04-30 Unified body type single-pole induction generator of plurality divided magnetic conductors

Publications (1)

Publication Number Publication Date
JP2000324786A true JP2000324786A (en) 2000-11-24

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Family Applications (1)

Application Number Title Priority Date Filing Date
JP11161485A Pending JP2000324786A (en) 1999-04-30 1999-04-30 Unified body type single-pole induction generator of plurality divided magnetic conductors

Country Status (1)

Country Link
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6822361B1 (en) * 2002-09-30 2004-11-23 Energy & Propulsion Systems Llc Orbiting multi-rotor homopolar system
JP2008172235A (en) * 2007-01-10 2008-07-24 Siemens Magnet Technology Ltd Emergency degaussing unit for superconductive magnet
JP2009296869A (en) * 2008-05-02 2009-12-17 Isamu Takehara Power-generating electric motor

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6822361B1 (en) * 2002-09-30 2004-11-23 Energy & Propulsion Systems Llc Orbiting multi-rotor homopolar system
JP2008172235A (en) * 2007-01-10 2008-07-24 Siemens Magnet Technology Ltd Emergency degaussing unit for superconductive magnet
JP2009296869A (en) * 2008-05-02 2009-12-17 Isamu Takehara Power-generating electric motor

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