IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0515154
(2007-10-10)
|
등록번호 |
US-8245802
(2012-08-21)
|
우선권정보 |
JP-2006-309246 (2006-11-15); JP-2007-055881 (2007-03-06) |
국제출원번호 |
PCT/JP2007/069744
(2007-10-10)
|
§371/§102 date |
20090611
(20090611)
|
국제공개번호 |
WO2008/059681
(2008-05-22)
|
발명자
/ 주소 |
- Inoue, Masaya
- Iezawa, Masahiro
- Arita, Hideaki
|
출원인 / 주소 |
- Mitsubishi Electric Corporation
|
대리인 / 주소 |
Oblon, Spivak, McClelland, Maier & Neustadt, L.L.P.
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
15 |
초록
▼
An automotive hybrid engine assist system that simultaneously mounts both an idling reduction system and an electric motor turbocharging system, and that is small, light, inexpensive, and fuel-efficient. Three-phase power terminals of a generator-motor and a super-high-speed rotary machine are respe
An automotive hybrid engine assist system that simultaneously mounts both an idling reduction system and an electric motor turbocharging system, and that is small, light, inexpensive, and fuel-efficient. Three-phase power terminals of a generator-motor and a super-high-speed rotary machine are respectively connected to an inverter by a large-current wiring. An electric power direction change-over switch is disposed in a path of the large-current wiring, and switches connection of the inverter to the generator-motor or to the super-high-speed rotary machine.
대표청구항
▼
1. An automotive hybrid engine assist system comprising: a generator-motor that is coupled to an internal combustion engine so as to act as a starter motor to start said internal combustion engine during starting of said internal combustion engine, and so as to be driven by said internal combustion
1. An automotive hybrid engine assist system comprising: a generator-motor that is coupled to an internal combustion engine so as to act as a starter motor to start said internal combustion engine during starting of said internal combustion engine, and so as to be driven by said internal combustion engine to generate three-phase alternating-current power after starting of said internal combustion engine;a battery that constitutes a power source for a direct-current load and for starting;a turbocharger comprising: a compressor that is disposed in an induction system of said internal combustion engine, and that compresses intake gas;a turbine that is mounted coaxially onto a rotating shaft of said compressor, and that is disposed in an exhaust system of said internal combustion engine; andan electrical rotary machine that is mounted coaxially onto said rotating shaft;an inverter that is connected by wiring to three-phase power terminals of said generator-motor and three-phase power terminals of said electrical rotary machine, and that converts said three-phase alternating-current power that is generated by said generator-motor into direct-current power and supplies said direct-current power to said battery when connected to said generator-motor, and that converts direct-current power from said battery into three-phase alternating-current power and supplies said three-phase alternating-current power to said electrical rotary machine when connected to said electrical rotary machine; andan electric power direction change-over switch that is disposed in a path of said wiring, and that switches connection of said inverter to said generator-motor or to said electrical rotary machine. 2. An automotive hybrid engine assist system according to claim 1, wherein said generator-motor and said electrical rotary machine are field-controlled dynamoelectric machines that generate a main magnetic flux in a rotor by passing current to a field coil that is disposed in said rotor or a stator, and a switching action of said inverter is stopped and supply of electric power to said field coil is also stopped during a switching action of said electric power direction change-over switch. 3. An automotive hybrid engine assist system according to claim 1, wherein said inverter is disposed in close proximity to said generator-motor or integrally on said generator-motor, and said generator-motor is disposed on a side surface of said internal combustion engine such that said inverter is in close proximity to said electrical rotary machine. 4. An automotive hybrid engine assist system comprising: a generator-motor that is coupled to an internal combustion engine so as to act as a starter motor to start said internal combustion engine during starting of said internal combustion engine, and so as to be driven by said internal combustion engine to generate three-phase alternating-current power after starting of said internal combustion engine;a battery that constitutes a power source for a direct-current load and for starting;a turbocharger comprising: a compressor that is disposed in an induction system of said internal combustion engine, and that compresses intake gas;a turbine that is mounted coaxially onto a rotating shaft of said compressor, and that is disposed in an exhaust system of said internal combustion engine; anda rotary machine that is mounted coaxially onto said rotating shaft;an inverter that is connected by wiring to three-phase power terminals of said generator-motor and three-phase power terminals of said rotary machine, and that converts direct-current power from said battery into three-phase alternating-current power and supplies said three-phase alternating-current power to said generator-motor when connected to said generator-motor, and that converts direct-current power from said battery into three-phase alternating-current power and supplies said three-phase alternating-current power to said rotary machine when connected to said rotary machine;a rectifying circuit that is constituted by a three-phase diode bridge, that is connected in parallel to said inverter between said three-phase power terminals of said generator-motor and said battery, and that converts said three-phase alternating-current power that is generated by said generator-motor into direct-current power and supplies said direct-current power to said battery; andan electric power direction change-over switch that is disposed in a path of said wiring, and that switches connection of said inverter to said generator-motor or to said rotary machine. 5. An automotive hybrid engine assist system according to claim 4, wherein said generator-motor and said rotary machine are field-controlled dynamoelectric machines that generate a main magnetic flux in a rotor by passing current to a field coil that is disposed in said rotor or a stator, and a switching action of said inverter is stopped and supply of electric power to said field coil is also stopped during a switching action of said electric power direction change-over switch. 6. An automotive hybrid engine assist system according to claim 4, wherein said inverter is disposed in close proximity to said generator-motor or integrally on said generator-motor, and said generator-motor is disposed on a side surface of said internal combustion engine such that said inverter is in close proximity to said rotary machine. 7. An automotive hybrid engine assist system comprising: a generator-motor that is coupled to an internal combustion engine of an automotive vehicle so as to act as a motor to assist said internal combustion engine, or so as to be driven by said internal combustion engine to generate three-phase alternating-current power during idling standby;a battery that constitutes a power source for a direct-current load and for starting;a turbocharger comprising: a compressor that is disposed in an induction system of said internal combustion engine, and that compresses intake gas;a turbine that is mounted coaxially onto a rotating shaft of said compressor, that is disposed in an exhaust system of said internal combustion engine; andan electrical rotary machine that is mounted coaxially onto said rotating shaft;an inverter that is connected by wiring to three-phase power terminals of said generator-motor and three-phase power terminals of said electrical rotary machine, and that converts said three-phase alternating-current power that is generated by said generator-motor into direct-current power and supplies said direct-current power to said battery, or converts direct-current power from said battery into three-phase alternating-current power and supplies said three-phase alternating-current power to said generator-motor, when connected to said generator-motor, and that converts direct-current power from said battery into three-phase alternating-current power and supplies said three-phase alternating-current power to said electrical rotary machine when connected to said electrical rotary machine; andan electric power direction change-over switch that is disposed in a path of said wiring, and that switches connection of said inverter to said generator-motor or to said electrical rotary machine. 8. An automotive hybrid engine assist system according to claim 7, wherein said automotive vehicle is an automatic transmission vehicle, and is determined to be in an idling standby state when a position of an automatic transmission is park or neutral. 9. An automotive hybrid engine assist system according to claim 7, wherein said automotive vehicle is an automatic transmission vehicle, and is determined to be in an idling standby state when a position of an automatic transmission is shifted from park through reverse to neutral. 10. An automotive hybrid engine assist system according to claim 7, wherein said automotive vehicle is a manual transmission vehicle, and is determined to be in an idling standby state when a position of a shift lever is neutral and a hand brake is engaged. 11. An automotive hybrid engine assist system comprising: a generator-motor that is coupled to an internal combustion engine of an automotive vehicle so as to act as a motor to assist said internal combustion engine, or so as to be driven by said internal combustion engine to generate three-phase alternating-current power during idling standby;a battery that constitutes a power source for a direct-current load and for starting;a turbocharger comprising: a compressor that is disposed in an induction system of said internal combustion engine, and that compresses intake gas;a turbine that is mounted coaxially onto a rotating shaft of said compressor, and that is disposed in an exhaust system of said internal combustion engine; anda rotary machine that is mounted coaxially onto said rotating shaft;an inverter that is connected by wiring to three-phase power terminals of said generator-motor and three-phase power terminals of said rotary machine, and that converts direct-current power from said battery into three-phase alternating-current power and supplies said three-phase alternating-current power to said generator-motor, or converts said three-phase alternating-current power that is generated by said generator-motor into direct-current power and supplies said direct-current power to said battery, when connected to said generator-motor, and that converts direct-current power from said battery into three-phase alternating-current power and supplies said three-phase alternating-current power to said rotary machine, or converts said three-phase alternating-current power that is generated by said rotary machine into direct-current power and supplies said direct-current power to said battery, when connected to said rotary machine;a rectifying circuit that is constituted by a three-phase diode bridge, that is connected in parallel to said inverter between said three-phase power terminals of said generator-motor and said battery, and that converts said three-phase alternating-current power that is generated by said generator-motor into direct-current power and supplies said direct-current power to said battery; andan electric power direction change-over switch that is disposed in a path of said wiring, and that switches connection of said inverter to said generator-motor or to said rotary machine. 12. An automotive hybrid engine assist system according to claim 11, wherein said automotive vehicle is an automatic transmission vehicle, and is determined to be in an idling standby state when a position of an automatic transmission is park or neutral. 13. An automotive hybrid engine assist system according to claim 11, wherein said automotive vehicle is an automatic transmission vehicle, and is determined to be in an idling standby state when a position of an automatic transmission is shifted from park through reverse to neutral. 14. An automotive hybrid engine assist system according to claim 11, wherein said automotive vehicle is a manual transmission vehicle, and is determined to be in an idling standby state when a position of a shift lever is neutral and a hand brake is engaged.
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