IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0819667
(2004-04-07)
|
등록번호 |
US-7474031
(2009-01-06)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
10 |
초록
▼
When we use a new structure of stator of a motor (or generator) to let magnetic flux travel less distance in air and keep the flux pattern the same as before then we can improve its efficiency. Motor structure didn't change too much in decades. If we can greatly improve its efficiency and along with
When we use a new structure of stator of a motor (or generator) to let magnetic flux travel less distance in air and keep the flux pattern the same as before then we can improve its efficiency. Motor structure didn't change too much in decades. If we can greatly improve its efficiency and along with battery capacity, lessen their weight, then an electrical car may be as practical as a gasoline car. The electrical airplane may also become practical. The power plant may generate more electricity with same energy consumed.
대표청구항
▼
The invention claimed is: 1. A rotating machine, comprising: a stator having a plurality of stator pole faces, an extended volume between the stator pole faces, and a plurality of holes located in the extended volume and outside of the stator pole faces, wherein each hole includes only one wire pla
The invention claimed is: 1. A rotating machine, comprising: a stator having a plurality of stator pole faces, an extended volume between the stator pole faces, and a plurality of holes located in the extended volume and outside of the stator pole faces, wherein each hole includes only one wire placed therethrough to form windings for the stator, the extended volume is composed of a soft magnetic material, and the magnetic flux travels through the magnetic material of the extended volume of the stator rather than through air to increase the efficiency of the generation of magnetic flux; a rotor capable of revolving within the stator. 2. The rotating machine of claim 1, wherein the stator has stator distributed poles. 3. The rotating machine of claim 1, wherein the stator has stator salient poles. 4. The rotating machine of claim 1, wherein the wire is insulated, and the insulated wire placed through each hole is in contact with the wall of the hole, such that only one insulated wire is placed through each hole. 5. The rotating machine of claim 1, wherein the wire placed through each hole is formed by pouring molten metal into the hole. 6. A rotating machine, comprising: a stator; and a rotor having salient rotor poles capable of revolving within the stator, each salient rotor pole having an extended volume extending from the side of the rotor pole, and a plurality of holes formed in the extended volume, wherein each hole includes only one wire placed therethrough to form rotor salient pole windings. 7. The rotating machine of claim 6, wherein the stator has a plurality of stator pole faces, an extended volume between the stator pole faces, and a plurality of holes located in the extended volume and outside of the stator pole faces, wherein each hole includes a stator winding wire placed therethrough. 8. The rotating machine of claim 6, wherein the wire placed through each hole is insulated, and the insulated wire placed through each hole is in contact with the wall of the hole, such that only one insulated wire is placed through each hole. 9. The rotating machine of claim 6, wherein the wire placed through each hole is formed by pouring molten metal into the hole. 10. The rotating machine of claim 6, wherein the extended volume is composed of a soft magnetic material, and the magnetic flux travels through the magnetic material of the extended volume of the rotor rather than through air to increase the efficiency of the generation of magnetic flux. 11. A transformer, comprising: a magnetic core having an extended volume extending from the side of the core, and a plurality of holes formed in the extended volume, wherein each hole includes only one wire placed therethrough to form windings for the transformer, and the extended volume includes at least one hole for each turn of the windings. 12. The transformer of claim 11, wherein the wire placed through each hole is insulated, wherein the insulated wire placed through each hole is in contact with the wall of the hole, such that only one insulated wire is placed through each hole. 13. The transformer of claim 12, wherein the insulated wire placed through each hole is not bifilar wound. 14. The transformer of claim 11, wherein the wire placed through each hole forms primary and secondary windings for the transformer, and the extended volume includes at least one hole for each turn of the primary and secondary windings. 15. A rotating machine, comprising: a stator having stator poles, each stator pole having an extended volume extending from the side of the stator pole, and a plurality of holes located in the extended volume, wherein each hole includes only one wire placed therethrough to form windings for the stator, the extended volume is composed of a soft magnetic material, and the magnetic flux travels through the magnetic material of the extended volume of the stator pole rather than through air to increase the efficiency of the generation of magnetic flux; a rotor capable of revolving within the stator. 16. The rotating machine of claim 15, wherein the stator has stator distributed poles. 17. The rotating machine of claim 15, wherein the stator has stator salient poles. 18. The rotating machine of claim 15, wherein the wire is insulated, and the insulated wire placed through each hole is in contact with the wall of the hole, such that only one insulated wire is placed through each hole.
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