IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0623125
(2007-01-15)
|
등록번호 |
US-7605514
(2009-11-10)
|
우선권정보 |
JP-2006-042117(2006-02-20) |
발명자
/ 주소 |
- Ito, Kazumasa
- Naka, Kouki
- Nakano, Masatsugu
- Kobayashi, Manabu
|
출원인 / 주소 |
- Mitsubishi Electric Corporation
|
대리인 / 주소 |
Leydig, Voit & Mayer, Ltd.
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
12 |
초록
▼
In a rotating electric machine including a field pole unit having ten magnetic poles (P=10) and an armature having twelve teeth (Q=12), armature coils are wound around the successive teeth with phase relationships and winding polarities arranged in the order of U+/U+, U-/V+, V-/V-, W-/V+, W+/W+, W-/
In a rotating electric machine including a field pole unit having ten magnetic poles (P=10) and an armature having twelve teeth (Q=12), armature coils are wound around the successive teeth with phase relationships and winding polarities arranged in the order of U+/U+, U-/V+, V-/V-, W-/V+, W+/W+, W-/U+, U-/U-, U+/V-, V+/V+, W+/V-, W-/W-and W+/U-, where "U," "V" and "W" represent three phases of the individual armature coils while "+" and "-" denote winding polarities. Among all harmonic components of magnetomotive forces produced by the armature coils, harmonic components of orders lower than a synchronized component can be reduced in this rotating electric machine. This structure decreases eddy currents flowing in the field pole unit, resulting lower eddy current loss in the field pole unit of the rotating electric machine.
대표청구항
▼
What is claimed is: 1. An electric machine comprising: an armature; and a field pole unit rotating relative to said armature along a magnetic gap between said armature and said field pole unit, said armature including: an armature core having a plurality of teeth extending toward the magnetic gap a
What is claimed is: 1. An electric machine comprising: an armature; and a field pole unit rotating relative to said armature along a magnetic gap between said armature and said field pole unit, said armature including: an armature core having a plurality of teeth extending toward the magnetic gap at a uniform interval along a rotational direction of said armature relative to said field pole unit, and a plurality of armature coils concentratedly wound around respective teeth for the flow of phase currents from a three-phase AC power supply, wherein said field pole unit has a fixed number of magnetic poles arranged along the rotational direction, said plurality of teeth include at least one tooth around which at least two armature coils for the flow of different phase currents are wound to reduce harmonic components of magnetomotive forces produced by the armature coils when said electric machine is operated, the reduced harmonic components being of a lower order than a component synchronized with relative moving speed of said armature and said field pole unit, the number of poles P of said field pole unit and the number of teeth Q of said armature are selected from one of the combinations consisting of P=5n and Q=6n, and P=7n and Q=6n, respectively, where n is an even number, and said armature coils are wound around successive teeth with phase relationships and winding polarities arranged in the repeating order of U+/U+, U-/V+, V-/V-, W-/V+, W+/W+, W-/U+, U-/U-, U+/V-, V+/V+, W+/V-, W-/W-, and W+/U-, where U, V, and W represent phases of individual armature coils and + and-denote winding polarities of said armature coils. 2. The electric machine according to claim 1, wherein, expressing the number of turns of each of two armature coils of a common phase wound around a single tooth by T, the number of turns of two armature coils of different phases wound around another single tooth is 2T/√{square root over (3)}. 3. The electric machine according to claim 2, wherein wires of two armature coils of a common phase wound around a single tooth have a cross-sectional area larger than wires of two armature coils of different phases wound around another single tooth. 4. The electric machine according to claim 1, wherein any two armature coils of a common phase wound around a single tooth are combined into a single winding. 5. An electric machine comprising: an armature; and a field pole unit movable relative to said armature along a magnetic gap between said armature and said field pole unit, said armature including: an armature core having a plurality of teeth extending toward the magnetic gap at a uniform interval along a moving direction of said armature relative to said field pole unit, and a plurality of armature coils concentratedly wound around respective teeth for the flow of phase currents from a three-phase AC power supply, wherein each tooth has concentratedly wound, around the respective tooth, a corresponding plurality of the armature coils, said field pole unit has a fixed number of magnetic poles arranged along the moving direction, and said plurality of teeth include at least one tooth around which at least two armature coils for the flow of different phase currents are wound to reduce harmonic components of magnetomotive forces produced by the armature coils when said electric machine is operated, the reduced harmonic components being of a lower order than a component synchronized with relative moving speed of said armature and said field pole unit. 6. The electric machine according to claim 5, in which said armature moves linearly relative to said field pole unit, wherein the number of poles P of said field pole unit and the number of teeth Q of said armature are within a range in which said field pole unit and said armature of said electric machine face each other and magnetic flux can be interlinked and are selected from one of the combinations consisting of P=5m and Q=6m, and P=7m and Q=6m, respectively, where m is a natural number, and said armature coils are wound around successive teeth with phase relationships and winding polarities arranged in the repeating order of U+/U+, U-/V+, V-/V-, W-/V+, W+/W+, W-/U+, U-/U-, U+/V-, V+/V+, W+/V-, W-/W-, and W+/U-, where U, V, and W represent phases of individual armature coils and + and-denote winding polarities of said armature coils. 7. The electric machine according to claim 6, wherein, expressing the number of turns of each of two armature coils of a common phase wound around a single tooth by T, the number of turns of two armature coils of different phases wound around another single tooth is 2T/√{square root over (3)}. 8. The electric machine according to claim 7, wherein wires of two armature coils of a common phase wound around a single tooth have a cross-sectional area larger than wires of two armature coils of different phases wound around another single tooth. 9. The electric machine according to claim 6, wherein any two armature coils of a common phase wound around a single tooth are combined into a single winding. 10. The electric machine according to claim 5, in which said armature rotates relative to said field pole unit, wherein the number of poles P of said field pole unit and the number of teeth Q of said armature are selected from one of the combinations consisting of P=5n and Q=6n, and P=7n and Q=6n, respectively, where n is an even number, and said armature coils are wound around successive teeth with phase relationships and winding polarities arranged in the repeating order of U+/U+, U-/V+, V-/V-, W-/V+, W+/W+, W-/U+, U-/U-, U+/V-, V+/V+, W+/V-, W-/W-, and W+/U-, where U, V, and W represent phases of individual armature coils and + and-denote winding polarities of said armature coils. 11. The electric machine according to claim 10, wherein, expressing the number of turns of each of two armature coils of a common phase wound around a single tooth by T, the number of turns of two armature coils of different phases wound around another single tooth is 2T/√{square root over (3)}. 12. The electric machine according to claim 11, wherein wires of two armature coils of a common phase wound around a single tooth have a cross-sectional area larger than wires of two armature coils of different phases wound around another single tooth. 13. The electric machine according to claim 10, wherein any two armature coils of a common phase wound around a single tooth are combined into a single winding.
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