IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0630332
(2005-06-21)
|
등록번호 |
US-7675254
(2010-04-21)
|
우선권정보 |
DE-10 2004 030 460(2004-06-24) |
국제출원번호 |
PCT/DE2005/001106
(2005-06-21)
|
§371/§102 date |
20061221
(20061221)
|
국제공개번호 |
WO06/000192
(2006-01-05)
|
발명자
/ 주소 |
- Rottmerhusen, Hans Hermann
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
9 |
초록
▼
Disclosed is an electric drive for a vehicle, which is used as a main drive or a hybrid drive. The electric motor of said drive is embodied as a special type of reluctance motor or series wound motor. The rotor of the reluctance motor and the inverse speed motor is provided with an excitation windin
Disclosed is an electric drive for a vehicle, which is used as a main drive or a hybrid drive. The electric motor of said drive is embodied as a special type of reluctance motor or series wound motor. The rotor of the reluctance motor and the inverse speed motor is provided with an excitation winding to which a transistor is assigned that allows the motor to be braked in a sensitive manner so as to control the field current. The braking current is fed to the source of current by switching operation of the motor during generator operation.
대표청구항
▼
The invention claimed is: 1. A drive for a vehicle as the main drive or as a hybrid drive, comprising: an electric motor with a stator and a rotor and an electronic control device which can be connected to a current source for commutation of the winding phases of the electric motor, the electric mo
The invention claimed is: 1. A drive for a vehicle as the main drive or as a hybrid drive, comprising: an electric motor with a stator and a rotor and an electronic control device which can be connected to a current source for commutation of the winding phases of the electric motor, the electric motor being a reluctance motor of special type, for the stators of which each of the coils (a, b, c, d) of the winding phases encloses a plurality of stator teeth or one stator tooth, the rotor comprising a field winding and an electronic control device having a number of half-bridges corresponding to the number of winding phases with free-wheeling diodes, and field winding of the rotor being connected to the current source by way of a transistor in braking operation and thus by controlling the field current of the field winding precision braking operation of the reluctance motor can be carried out and the braking current which forms in the winding phases is supplied to the current source by way of the free-wheeling diodes of the half-bridges. 2. The electric drive as claimed in claim 1, wherein each of the coils (a, b, c, d) of the winding phases encloses two stator teeth and the winding phases are retained in a star connection, pole formation toward the rotor occurring on each stator tooth with central pole formation of the respective pole fields, and a circular rotary field being produced on the stator. 3. The electric drive as claimed in claim 1, wherein each of the coils (a, b, c, d) of the winding phases encloses three stator teeth, the coils of the winding phases being mounted side by side on the stator and one side of one coil and one side of a coil of adjacent coils of a winding phase being positioned in a common groove. 4. The electric drive as claimed in claim 1, wherein the winding phases of the reluctance motor or the series motor are in contact with a current source in such a way that each pole formation toward the rotor occurs on two adjacent stator teeth of the same polarity, and the circuit configuration of the electronic control device containing a bridge circuit and the winding phases having a star connection and a circular rotary field being generated on the stator. 5. The electric drive as claimed in claim 1, wherein the winding phases of the reluctance motor are in contact with a current source such that pole formation toward the rotor takes place on every third stator tooth by a standard circuit configuration for the reluctance motor being associated with the electronic control device. 6. The electric drive as claimed in claim 1, wherein, for the purpose of detecting an error event in the half-bridges, use is made of transistors in which self-detection of the functional capability of the transistors is integrated into the transistors, or the functional capability of the transistors is monitored by the control unit. 7. The electric drive as claimed in claim 1, further comprising measurement shunts for the purpose of detecting an error event in the electronic control device and in the electric motor. 8. The electric drive as claimed in claim 1, wherein potential taps are mounted in the electronic control unit and in the electric motor for the purpose of detecting an error event in the circuit configuration. 9. A drive for a vehicle as the main drive or as a hybrid drive, having an electric motor with a stator and a rotor and an electronic control device which can be connected to a current source for commutation of the winding phases of the electric motor, wherein the electric motor is a reluctance motor of special type, for the stators of which each of the coils (a, b, c, d) of the winding phases encloses a plurality of stator teeth or one stator tooth, the rotor having a field winding with coils which each enclose one rotor tooth (9), the electronic control device having a number of half-bridges corresponding to the number of winding phases with free-wheeling diodes, and the field winding being series connected on the one hand to one pole of the current source and on the other by way of a diode poled in the forward direction to a first feeding point of the half-bridges of the electronic control device which have a second feeding point series connected to the other pole of the current source, and the terminal of the field winding of the rotor connected to the diode can be connected by way of a transistor in braking operation to the other pole of the current source and thus by controlling the field current of the field winding precision braking operation of the electric motor can be carried out and the braking current which forms in the winding phases (1, 2, 3) being supplied to the current source by way of the free-wheeling diodes of the half-bridges and a free-wheeling diode connected parallel to the diode and the field winding. 10. The electric drive as claimed in claim 9, wherein the series motor can be operated both in series and also shunted by a transistor being connected parallel to the half-bridges in front of a diode connected downstream from the field winding, and by a relay being connected to a free-wheeling diode or a transistor being connected parallel to a free-wheeling diode of the field winding. 11. The electric drive as claimed in claim 9, wherein each of the coils (a, b, c, d) of the winding phases encloses three stator teeth, the coils of the winding phases being mounted side by side on the stator and one side of one coil and one side of a coil of adjacent coils of a winding phase being positioned in a common groove. 12. The electric drive as claimed in claim 11, wherein the winding phases of the reluctance motor are in contact with a current source such that pole formation toward the rotor takes place on every third stator tooth by a standard circuit configuration for the reluctance motor being associated with the electronic control device. 13. The electric drive as claimed in claim 11, wherein the winding phases of the reluctance motor or the series motor are in contact with a current source in such a way that each pole formation toward the rotor occurs on two adjacent stator teeth of the same polarity, and the circuit configuration of the electronic control device containing a bridge circuit and the winding phases having a star connection and a circular rotary field being generated on the stator. 14. The electric drive as claimed in claim 9, wherein the winding phases of the reluctance motor or the series motor are in contact with a current source in such a way that each pole formation toward the rotor occurs on two adjacent stator teeth of the same polarity, and the circuit configuration of the electronic control device containing a bridge circuit and the winding phases having a star connection and a circular rotary field being generated on the stator. 15. The electric drive as claimed in claim 9, wherein, for the purpose of detecting an error event in the half-bridges, use is made of transistors in which self-detection of the functional capability of the transistors is integrated into the transistors, or the functional capability of the transistors is monitored by the control unit. 16. The electric drive as claimed in claim 9, further comprising measurement shunts for the purpose of detecting an error event in the electronic control device and in the electric motor. 17. The electric drive as claimed in claim 9, wherein potential taps are mounted in the electronic control unit and in the electric motor for the purpose of detecting an error event in the circuit configuration. 18. The electric drive as claimed in claim 9, wherein each of the coils (a, b, c, d) of the winding phases encloses two stator teeth and the winding phases are retained in a star connection, pole formation toward the rotor occurring on each stator tooth with central pole formation of the respective pole fields, and a circular rotary field being produced on the stator.
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