WO2012049781A1 - Dc motor wherein permanent magnets are used in rotor, electromagnets are used in stator, and current of stator is switched by commutator - Google Patents
Dc motor wherein permanent magnets are used in rotor, electromagnets are used in stator, and current of stator is switched by commutator Download PDFInfo
- Publication number
- WO2012049781A1 WO2012049781A1 PCT/JP2010/068643 JP2010068643W WO2012049781A1 WO 2012049781 A1 WO2012049781 A1 WO 2012049781A1 JP 2010068643 W JP2010068643 W JP 2010068643W WO 2012049781 A1 WO2012049781 A1 WO 2012049781A1
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- WIPO (PCT)
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- commutator
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Classifications
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K23/00—DC commutator motors or generators having mechanical commutator; Universal AC/DC commutator motors
- H02K23/62—Motors or generators with stationary armatures and rotating excitation field
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K13/00—Structural associations of current collectors with motors or generators, e.g. brush mounting plates or connections to windings; Disposition of current collectors in motors or generators; Arrangements for improving commutation
- H02K13/003—Structural associations of slip-rings
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K13/00—Structural associations of current collectors with motors or generators, e.g. brush mounting plates or connections to windings; Disposition of current collectors in motors or generators; Arrangements for improving commutation
- H02K13/006—Structural associations of commutators
Definitions
- the present invention relates to a DC motor with a brush (DC motor).
- a DC motor with a commutator is difficult to reduce in size because a winding is required for the rotor.
- High cost for winding (3) Although there was a DC motor using a permanent magnet for the rotor and an electromagnet for the stator, an electronic control circuit was required. In addition, a DC motor using this electronic circuit cannot be used together for power generation like a cell motor used in an automobile.
- the winding (coil) is eliminated from the rotor of the DC motor and only permanent magnets are used.
- a slip ring (2) is provided beside the commutator (1), and the commutator and the slip ring are individually connected by a line (3), and the brush (4) is connected to the slip ring (2).
- the problem is solved by providing a commutator provided with ⁇ . Brushes (5) and (6) are attached to the commutator as in the prior art.
- the commutator-equipped DC motor does not require an electromagnet in the rotor and can be reduced in size by attaching only the magnet.
- the cost (labor) of winding a coil on the rotor is eliminated, and the cost can be reduced.
- the coil is necessary for the stator, automatic winding is also possible, and it is only necessary to attach the coil to the salient pole of the stator. There is no worry of jumping out like a rotor because centrifugal force does not work.
- the stator coil can also be made thinner.
- the commutator of this invention is used, an electronic circuit etc. will become unnecessary.
- the rotor becomes smaller and lighter than the conventional coil winding, so that power can be generated with a smaller rotational force.
- an electronic circuit is not used, even if it is used as a cell motor for automobiles, it can be used as a power generator from a motor and as a motor from a power generator.
- FIG. 1 is a front view of a commutator used in the present invention.
- FIG. 2 is a perspective view of a commutator used in the present invention.
- FIG. 3 is a sectional view of a motor according to the present invention. Assembly drawing of the installed motor
- Embodiments of the present invention will be described below.
- (2) Connect (1) commutator and (2) slip ring individually with (3) wire (copper, etc.).
- (3) The brush of (4) is provided in contact with the outer periphery of the slip ring of (2), taken out to the outside (outside the rotor), and the current switched by the commutator is (9) (10) of the stator A commutator that is structured to flow through a coil.
- the present invention has the above structure. Electrical noise due to the attachment of the (2) slip ring and (4) brush is not increased. Vibration does not increase.
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Dc Machiner (AREA)
Abstract
DC motors using commutators have large rotors because the rotors comprise coils, and the overall size of DC motors is thereby increased. It is therefore difficult to reduce the size of DC motors. In addition, since salient poles of rotors are complex, the cost of the coils is high. The present invention provides a commutator in which slip rings (2) are provided on the sides of the commutator (1), the slip rings (2) are individually connected to the commutator by wires (3) (copper wires etc.), and brushes (4) are disposed on the slip rings (2). Permanent magnets can therefore be used in a rotor and electromagnets can be used in a stator, the current of the stator can be switched by the commutator to which the slip rings are connected, and the motor is thereby completed. As a result, a motor which is smaller and more powerful than conventional motors can be realized.
Description
本発明は、ブラシ付き直流モータ(DCモータ)に関するものである。
The present invention relates to a DC motor with a brush (DC motor).
整流子をもちいたDCモータは回転子に巻線(コイル)するため回転子が大きくなり全体も大きくなる。 このため、小型化の障害になっていた。 また回転子の突極が複雑なため巻線コストがかかった。
特開2006−60982号公報
特開2008−61471号公報
Since a DC motor using a commutator is wound (coiled) around the rotor, the rotor becomes larger and the whole becomes larger. For this reason, it has become an obstacle to miniaturization. In addition, the winding cost was high because the salient poles of the rotor were complicated.
JP 2006-60982 A JP 2008-61471 A
[国際公開番号]WO2007−122767号公報
[International Publication Number] WO2007-122767
(1)整流子付DCモータは回転子に巻線が必要なため小型化が困難であった。
(2)巻線のためのコストがかかった。
(3)回転子に永久磁石を使用し固定子に電磁石を使用したDCモータはあったが、電子制御回路が必要であった。 また、この電子回路を使用したDCモータでは、自動車に使用されているセルモータのように発電用に併用使用することはできない。 (1) A DC motor with a commutator is difficult to reduce in size because a winding is required for the rotor.
(2) High cost for winding.
(3) Although there was a DC motor using a permanent magnet for the rotor and an electromagnet for the stator, an electronic control circuit was required. In addition, a DC motor using this electronic circuit cannot be used together for power generation like a cell motor used in an automobile.
(2)巻線のためのコストがかかった。
(3)回転子に永久磁石を使用し固定子に電磁石を使用したDCモータはあったが、電子制御回路が必要であった。 また、この電子回路を使用したDCモータでは、自動車に使用されているセルモータのように発電用に併用使用することはできない。 (1) A DC motor with a commutator is difficult to reduce in size because a winding is required for the rotor.
(2) High cost for winding.
(3) Although there was a DC motor using a permanent magnet for the rotor and an electromagnet for the stator, an electronic control circuit was required. In addition, a DC motor using this electronic circuit cannot be used together for power generation like a cell motor used in an automobile.
DCモータの回転子から巻線(コイル)をなくし、永久磁石のみする。
このために、図1,2の様に整流子▲1▼の横にスリップリング▲2▼を設け整流子とスリップリングを線▲3▼で個別につなぐ、スリップリング▲2▼にブラシ▲4▼を設けた整流子を設けることにより解決する。ブラシ▲5▼▲6▼は、従来と同じく、整流子に取り付ける。 The winding (coil) is eliminated from the rotor of the DC motor and only permanent magnets are used.
For this purpose, as shown in FIGS. 1 and 2, a slip ring (2) is provided beside the commutator (1), and the commutator and the slip ring are individually connected by a line (3), and the brush (4) is connected to the slip ring (2). The problem is solved by providing a commutator provided with ▼. Brushes (5) and (6) are attached to the commutator as in the prior art.
このために、図1,2の様に整流子▲1▼の横にスリップリング▲2▼を設け整流子とスリップリングを線▲3▼で個別につなぐ、スリップリング▲2▼にブラシ▲4▼を設けた整流子を設けることにより解決する。ブラシ▲5▼▲6▼は、従来と同じく、整流子に取り付ける。 The winding (coil) is eliminated from the rotor of the DC motor and only permanent magnets are used.
For this purpose, as shown in FIGS. 1 and 2, a slip ring (2) is provided beside the commutator (1), and the commutator and the slip ring are individually connected by a line (3), and the brush (4) is connected to the slip ring (2). The problem is solved by providing a commutator provided with ▼. Brushes (5) and (6) are attached to the commutator as in the prior art.
(1)この発明により整流子付DCモータは回転子に電磁石が不要となり磁石のみ取付ければよく小型化ができる。
(2)回転子にコイルを巻くコスト(手間)がなくなりコストダウンができる。コイルは固定子に必要であるが自動巻きも可能でコイルを固定子の突極に取付けるだけでよい。遠心力が働かないため回転子のように飛び出す心配がない。固定子のコイルも薄くするなどできる。
(3)この発明の整流子を使用すれば電子回路などは不要となる。
(4)この発明により、このモータを発電機として使用する時は、回転子が従来のコイル巻きに比べ小さく軽くなるため、より小さい回転力で発電が可能である。
(5)電子回路を使用しないため自動車用のセルモータとして使用してもモータから発電、発電からモータ、として使用できる。
(6)回転子に永久磁石だけを使用した自動車用セルモータはない。 (1) According to the present invention, the commutator-equipped DC motor does not require an electromagnet in the rotor and can be reduced in size by attaching only the magnet.
(2) The cost (labor) of winding a coil on the rotor is eliminated, and the cost can be reduced. Although the coil is necessary for the stator, automatic winding is also possible, and it is only necessary to attach the coil to the salient pole of the stator. There is no worry of jumping out like a rotor because centrifugal force does not work. The stator coil can also be made thinner.
(3) If the commutator of this invention is used, an electronic circuit etc. will become unnecessary.
(4) According to the present invention, when this motor is used as a generator, the rotor becomes smaller and lighter than the conventional coil winding, so that power can be generated with a smaller rotational force.
(5) Since an electronic circuit is not used, even if it is used as a cell motor for automobiles, it can be used as a power generator from a motor and as a motor from a power generator.
(6) There is no automobile cell motor that uses only permanent magnets for the rotor.
(2)回転子にコイルを巻くコスト(手間)がなくなりコストダウンができる。コイルは固定子に必要であるが自動巻きも可能でコイルを固定子の突極に取付けるだけでよい。遠心力が働かないため回転子のように飛び出す心配がない。固定子のコイルも薄くするなどできる。
(3)この発明の整流子を使用すれば電子回路などは不要となる。
(4)この発明により、このモータを発電機として使用する時は、回転子が従来のコイル巻きに比べ小さく軽くなるため、より小さい回転力で発電が可能である。
(5)電子回路を使用しないため自動車用のセルモータとして使用してもモータから発電、発電からモータ、として使用できる。
(6)回転子に永久磁石だけを使用した自動車用セルモータはない。 (1) According to the present invention, the commutator-equipped DC motor does not require an electromagnet in the rotor and can be reduced in size by attaching only the magnet.
(2) The cost (labor) of winding a coil on the rotor is eliminated, and the cost can be reduced. Although the coil is necessary for the stator, automatic winding is also possible, and it is only necessary to attach the coil to the salient pole of the stator. There is no worry of jumping out like a rotor because centrifugal force does not work. The stator coil can also be made thinner.
(3) If the commutator of this invention is used, an electronic circuit etc. will become unnecessary.
(4) According to the present invention, when this motor is used as a generator, the rotor becomes smaller and lighter than the conventional coil winding, so that power can be generated with a smaller rotational force.
(5) Since an electronic circuit is not used, even if it is used as a cell motor for automobiles, it can be used as a power generator from a motor and as a motor from a power generator.
(6) There is no automobile cell motor that uses only permanent magnets for the rotor.
図1は本発明に使用する整流子図で正面図
図2は本発明に使用する整流子図で斜視図
図3は本発明のモータの断面図
図4は回転子と本発明の整流子を取り付けたモータの組立図 1 is a front view of a commutator used in the present invention. FIG. 2 is a perspective view of a commutator used in the present invention. FIG. 3 is a sectional view of a motor according to the present invention. Assembly drawing of the installed motor
図2は本発明に使用する整流子図で斜視図
図3は本発明のモータの断面図
図4は回転子と本発明の整流子を取り付けたモータの組立図 1 is a front view of a commutator used in the present invention. FIG. 2 is a perspective view of a commutator used in the present invention. FIG. 3 is a sectional view of a motor according to the present invention. Assembly drawing of the installed motor
1整流子(銅など)(=整流子片3個) 2スリップリング(銅など)
3接続線(銅など) 4ブラシ
5ブラシ(入力側) 6ブラシ(入力側)
7絶縁体 8永久磁石の回転子
9固定子(電磁石用鉄心) 10巻線コイル
11回転軸(シャフト) 1 commutator (copper, etc.) (= 3 commutator pieces) 2 slip ring (copper, etc.)
3 connection lines (copper, etc.) 4 brushes 5 brushes (input side) 6 brushes (input side)
7Insulator 8 Permanent Magnet Rotor 9 Stator (Electromagnet Core) 10 Winding Coil 11 Rotating Shaft (Shaft)
3接続線(銅など) 4ブラシ
5ブラシ(入力側) 6ブラシ(入力側)
7絶縁体 8永久磁石の回転子
9固定子(電磁石用鉄心) 10巻線コイル
11回転軸(シャフト) 1 commutator (copper, etc.) (= 3 commutator pieces) 2 slip ring (copper, etc.)
3 connection lines (copper, etc.) 4 brushes 5 brushes (input side) 6 brushes (input side)
7
以下本発明の実施の形態を説明する。
(1)整流子横に外部に電流を取り出すためのスリップリング3個、または整流子の等分数(整流子片数)の4、5、6、7・・・・を設ける。
(2)▲1▼整流子と▲2▼スリップリングを▲3▼の線(銅など)で個別につなぐ。
(3)▲4▼のブラシを▲2▼のスリップリングの外周に接するように設け、外部(回転子外)に取り出し、整流子で切り換った電流を▲9▼固定子の▲10▼巻線コイルに流す構造をした整流子。
本発明は、以上の構造によりなっている。
この▲2▼スリップリングと▲4▼ブラシを取り付けることによる電気的雑音が増加することはない。振動も増加しない。 Embodiments of the present invention will be described below.
(1) Next to the commutator, three slip rings for taking out an electric current to the outside, or four, 5, 6, 7,.
(2) Connect (1) commutator and (2) slip ring individually with (3) wire (copper, etc.).
(3) The brush of (4) is provided in contact with the outer periphery of the slip ring of (2), taken out to the outside (outside the rotor), and the current switched by the commutator is (9) (10) of the stator A commutator that is structured to flow through a coil.
The present invention has the above structure.
Electrical noise due to the attachment of the (2) slip ring and (4) brush is not increased. Vibration does not increase.
(1)整流子横に外部に電流を取り出すためのスリップリング3個、または整流子の等分数(整流子片数)の4、5、6、7・・・・を設ける。
(2)▲1▼整流子と▲2▼スリップリングを▲3▼の線(銅など)で個別につなぐ。
(3)▲4▼のブラシを▲2▼のスリップリングの外周に接するように設け、外部(回転子外)に取り出し、整流子で切り換った電流を▲9▼固定子の▲10▼巻線コイルに流す構造をした整流子。
本発明は、以上の構造によりなっている。
この▲2▼スリップリングと▲4▼ブラシを取り付けることによる電気的雑音が増加することはない。振動も増加しない。 Embodiments of the present invention will be described below.
(1) Next to the commutator, three slip rings for taking out an electric current to the outside, or four, 5, 6, 7,.
(2) Connect (1) commutator and (2) slip ring individually with (3) wire (copper, etc.).
(3) The brush of (4) is provided in contact with the outer periphery of the slip ring of (2), taken out to the outside (outside the rotor), and the current switched by the commutator is (9) (10) of the stator A commutator that is structured to flow through a coil.
The present invention has the above structure.
Electrical noise due to the attachment of the (2) slip ring and (4) brush is not increased. Vibration does not increase.
従来のモータより小型、軽量で強力なモータを製作できるため自動車産業や航空機産業に利用できる可能性大と思われる。他家庭電器産業、OA機器、模型用モータ、小型工具用モータ、直流発電用モータに利用できる。
It seems that there is a great possibility that it can be used in the automobile industry and the aircraft industry because it can produce a motor that is smaller, lighter and stronger than conventional motors. It can be used in other home appliance industries, OA equipment, model motors, small tool motors, and DC power generation motors.
Claims (1)
- 直流モータ(DCモータ)において、
整流子の横に、整流子の電流を外部に取り出すためのスリップリング(整流子の等分数)を取付け、整流子で切り換った電流を前記スリップリングを通して固定子の巻線コイルに流す構造をした整流子。 In direct current motor (DC motor),
Next to the commutator, a slip ring (equal fraction of the commutator) for extracting the commutator current to the outside is attached, and the current switched by the commutator flows through the slip ring to the winding coil of the stator Commutator
Priority Applications (1)
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PCT/JP2010/068643 WO2012049781A1 (en) | 2010-10-15 | 2010-10-15 | Dc motor wherein permanent magnets are used in rotor, electromagnets are used in stator, and current of stator is switched by commutator |
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PCT/JP2010/068643 WO2012049781A1 (en) | 2010-10-15 | 2010-10-15 | Dc motor wherein permanent magnets are used in rotor, electromagnets are used in stator, and current of stator is switched by commutator |
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WO2012049781A1 true WO2012049781A1 (en) | 2012-04-19 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2014032978A2 (en) * | 2012-08-31 | 2014-03-06 | Mahle International Gmbh | Contact-commutated electric motor |
WO2015171082A1 (en) * | 2014-05-06 | 2015-11-12 | Gerát Jozef | Power transformation device with non-conventional coil winding |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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JP2006060982A (en) * | 2004-08-24 | 2006-03-02 | Smc Corp | Dc brush motor |
WO2007122767A1 (en) * | 2006-04-13 | 2007-11-01 | Mitsubishi Electric Corporation | Dc motor |
JP2008061471A (en) * | 2006-09-04 | 2008-03-13 | Mitsubishi Electric Corp | Dc motor |
-
2010
- 2010-10-15 WO PCT/JP2010/068643 patent/WO2012049781A1/en active Application Filing
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2006060982A (en) * | 2004-08-24 | 2006-03-02 | Smc Corp | Dc brush motor |
WO2007122767A1 (en) * | 2006-04-13 | 2007-11-01 | Mitsubishi Electric Corporation | Dc motor |
JP2008061471A (en) * | 2006-09-04 | 2008-03-13 | Mitsubishi Electric Corp | Dc motor |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2014032978A2 (en) * | 2012-08-31 | 2014-03-06 | Mahle International Gmbh | Contact-commutated electric motor |
WO2014032978A3 (en) * | 2012-08-31 | 2015-01-22 | Mahle International Gmbh | Contact-commutated electric motor |
US9960560B2 (en) | 2012-08-31 | 2018-05-01 | Mahle International Gmbh | Contact-commutated electric motor |
WO2015171082A1 (en) * | 2014-05-06 | 2015-11-12 | Gerát Jozef | Power transformation device with non-conventional coil winding |
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