Electric supercharging device and multi-stage supercharging system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02B-033/44
F02B-033/00
F02B-039/00
F02B-039/10
F02B-039/16
F02B-037/04
F02B-037/16
F02B-037/18
출원번호
US-0122141
(2012-07-05)
등록번호
US-9273598
(2016-03-01)
우선권정보
JP-2011-156521 (2011-07-15)
국제출원번호
PCT/JP2012/067149
(2012-07-05)
§371/§102 date
20131216
(20131216)
국제공개번호
WO2013/011840
(2013-01-24)
발명자
/ 주소
An, Byeongil
Ebisu, Motoki
Suzuki, Hiroshi
출원인 / 주소
MITSUBISHI HEAVY INDUSTRIES, LTD.
대리인 / 주소
Birch, Stewart, Kolasch & Birch, LLP
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
It is intended to provide: an electric supercharging apparatus wherein, with a simple structure, rotor windage loss in an electric motor for driving a compressor is reduced and good cooling performance is produced; and a multi-stage supercharging system using the electric supercharging device. This
It is intended to provide: an electric supercharging apparatus wherein, with a simple structure, rotor windage loss in an electric motor for driving a compressor is reduced and good cooling performance is produced; and a multi-stage supercharging system using the electric supercharging device. This electric supercharging apparatus (1) is provided with: a first cooling passage (17) formed in a stator (9) along a motor coil (11) and communicating a gas supply port (13) with a gas discharge port (14) in a motor housing (8); and a first intake passage (15) connecting the gas discharge port to an intake port (5) of a compressor (2). This electric supercharging apparatus is configured to introduce outside air into the first cooling passage via the gas supply port by applying negative pressure to the first cooling passage via the first intake passage, thereby cooling the inside of the motor housing.
대표청구항▼
1. An electric supercharging apparatus, which is configured to rotate an electric motor that comprises a rotor shaft rotatably supported in a motor housing to which a motor coil and a stator are fixed, so as to drive and supercharge a compressor connected to one end of the rotor shaft, the electric
1. An electric supercharging apparatus, which is configured to rotate an electric motor that comprises a rotor shaft rotatably supported in a motor housing to which a motor coil and a stator are fixed, so as to drive and supercharge a compressor connected to one end of the rotor shaft, the electric supercharging apparatus comprising: a gas supply port and a gas discharge port which are provided in the motor housing; wherein the gas discharge port in the motor housing is connected to an intake passage; andwherein the gas supply port opens to another end side of the motor housing opposite to one end side at which the motor housing is connected to the compressor;a first cooling passage which connects the gas supply port and the gas discharge port in the motor housing and which is formed in the stator along the motor coil in an outer periphery of the motor coil;a second cooling passage which connects the gas supply port to the gas discharge port in the motor housing and which is formed along the rotor shaft between the rotor shaft and the motor coil; wherein the second cooling passage joins the first cooling passage in the motor housing and outside air is introduced to the first cooling passage and the second cooling passage from the gas supply port by a negative pressure of an inlet port of the compressor applied to the first cooling passage via the intake passage; anda controller controlling an opening degree of a control valve positioned in the intake passage connecting the gas discharge port to the inlet port of the compressor to adjust a gas flow rate passing through the intake passage. 2. The electric supercharging apparatus according to claim 1, wherein the first cooling passage includes a plurality of cooling passages each of which connects the gas supply port and the gas discharge port, each of the plurality of cooling passages surrounds the motor coil in a section orthogonal to the rotor shaft. 3. The electric supercharging apparatus according to claim 1, wherein the first cooling passage is configured in part to include an outer wall surface of the motor coil. 4. An electric supercharging apparatus, which is configured to rotate an electric motor that comprises a rotor shaft rotatably supported in a motor housing to which a motor coil and a stator are fixed, so as to drive and supercharge a compressor connected to one end of the rotor shaft, the electric supercharging apparatus comprising: a gas supply port and a gas discharge port which are provided in the motor housing; wherein the gas discharge port in the motor housing is connected to an intake passage; andwherein the gas supply port opens to another end side of the motor housing opposite to one end side at which the motor housing is connected to the compressor;a cooling passage which connects the gas supply port and the gas discharge port in the motor housing and which is formed in the stator along the motor coil in an outer periphery of the motor coil; wherein outside air is introduced to the cooling passage from the gas supply port by a negative pressure of an inlet port of the compressor applied to the cooling passage via the intake passage;an inverter unit comprising an element circuit board housed in an inverter housing, the inverter unit being mounted on a side of the motor housing where the gas supply port is formed; anda controller controlling an opening degree of a control valve positioned in the intake passage connecting the gas discharge port to the inlet port of the compressor to adjust a gas flow rate passing through the intake passage. 5. The electric supercharging apparatus according to claim 4, wherein the cooling passage includes a plurality of cooling passages each of which connects the gas supply port and the gas discharge port, each of the plurality of cooling passages surrounds the motor coil in a section orthogonal to the rotor shaft. 6. The electric supercharging apparatus according to claim 4, wherein the cooling passage is configured in part to include an outer wall surface of the motor coil. 7. An electric supercharging apparatus, which is configured to rotate an electric motor that comprises a rotor shaft rotatably supported in a motor housing to which a motor coil and a stator are fixed, so as to drive and supercharge a compressor connected to one end of the rotor shaft, the electric supercharging apparatus comprising: a gas supply port and a gas discharge port which are provided in the motor housing; wherein the gas discharge port in the motor housing is connected to a first intake passage and a second intake passage; andwherein the gas supply port opens to another end side of the motor housing opposite to one end side at which the motor housing is connected to the compressor;a cooling passage which connects the gas supply port and the gas discharge port in the motor housing and which is formed in the stator along the motor coil in an outer periphery of the motor coil; wherein outside air is introduced to the cooling passage from the gas supply port by a negative pressure of an inlet port of the compressor applied to the cooling passage via the first intake passage; anda controller controlling an opening degree of a control valve positioned in the first intake passage connecting the gas discharge port to the inlet port of the compressor to adjust a gas flow rate passing through the first intake passage. 8. The electric supercharging apparatus according to claim 7, further comprising: a negative-pressure supply having a negative-pressure pump which is connected to the gas discharge port via the second intake passage and is configured to apply a negative pressure to the cooling passage; anda second control valve adjusting an opening of the second intake passage, wherein the controller is configured to control the opening degree of the first control valve in the first intake passage and an opening degree of the control valve in the second intake passage. 9. The electric supercharging apparatus according to claim 7, wherein the cooling passage includes a plurality of cooling passages each of which connects the gas supply port and the gas discharge port, each of the plurality of cooling passages surrounds the motor coil in a section orthogonal to the rotor shaft. 10. The electric supercharging apparatus according to claim 7, wherein the cooling passage is configured in part to include an outer wall surface of the motor coil. 11. A multi-stage supercharging system comprising: an electric supercharging apparatus, which is configured to rotate an electric motor that comprises a rotor shaft rotatably supported in a motor housing to which a motor coil and a stator are fixed, so as to drive and supercharge a compressor connected to one end of the rotor shaft, the electric supercharging apparatus comprising: a gas supply port and a gas discharge port which are provided in the motor housing; wherein the gas discharge port in the motor housing is connected to an intake passage; andwherein the gas supply port opens to another end side of the motor housing opposite to one end side at which the motor housing is connected to the compressor;a first cooling passage which connects the gas supply port and the gas discharge port in the motor housing and which is formed in the stator along the motor coil in an outer periphery of the motor coil;a second cooling passage which connects the gas supply port to the gas discharge port in the motor housing and which is formed along the rotor shaft between the rotor shaft and the motor coil; wherein the second cooling passage joins the first cooling passage in the motor housing and outside air is introduced to the first cooling passage and the second cooling passage from the gas supply port by a negative pressure of an inlet port of the compressor applied to the first cooling passage via the intake passage; anda controller controlling an opening degree of a control valve positioned in the intake passage connecting the gas discharge port to the inlet port of the compressor to adjust a gas flow rate passing through the intake passage; anda second supercharger which is arranged on an upstream side with respect to the electric supercharging apparatus and which is configured to supercharge gas and supply to the electric supercharging apparatus. 12. The multi-stage supercharging system according to claim 11, wherein the intake passage is connected to an inlet port which is provided on an intake side of the second supercharger. 13. A multi-stage supercharging system comprising: an electric supercharging apparatus, which is configured to rotate an electric motor that comprises a rotor shaft rotatably supported in a motor housing to which a motor coil and a stator are fixed, so as to drive and supercharge a compressor connected to one end of the rotor shaft, the electric supercharging apparatus comprising: a gas supply port and a gas discharge port which are provided in the motor housing; wherein the gas discharge port in the motor housing is connected to an intake passage; andwherein the gas supply port opens to another end side of the motor housing opposite to one end side at which the motor housing is connected to the compressor;a cooling passage which connects the gas supply port and the gas discharge port in the motor housing and which is formed in the stator along the motor coil in an outer periphery of the motor coil; wherein outside air is introduced to the cooling passage from the gas supply port by a negative pressure of an inlet port of the compressor applied to the cooling passage via the intake passage;an inverter unit comprising an element circuit board housed in an inverter housing, the inverter unit being mounted on a side of the motor housing where the gas supply port is formed; anda controller controlling an opening degree of a control valve positioned in the intake passage connecting the gas discharge port to the inlet port of the compressor to adjust a gas flow rate passing through the intake passage; anda second supercharger which is arranged on an upstream side with respect to the electric supercharging apparatus and which is configured to supercharge gas and supply to the electric supercharging apparatus. 14. The multi-stage supercharging system according to claim 13, wherein the intake passage is connected to an inlet port which is provided on an intake side of the second supercharger. 15. A multi-stage supercharging system comprising: an electric supercharging apparatus, which is configured to rotate an electric motor that comprises a rotor shaft rotatably supported in a motor housing to which a motor coil and a stator are fixed, so as to drive and supercharge a compressor connected to one end of the rotor shaft, the electric supercharging apparatus comprising: a gas supply port and a gas discharge port which are provided in the motor housing; wherein the gas discharge port in the motor housing is connected to a first intake passage and a second intake passage; andwherein the gas supply port opens to another end side of the motor housing opposite to one end side at which the motor housing is connected to the compressor;a cooling passage which connects the gas supply port and the gas discharge port in the motor housing and which is formed in the stator along the motor coil in an outer periphery of the motor coil; wherein outside air is introduced to the cooling passage from the gas supply port by a negative pressure of an inlet port of the compressor applied to the cooling passage via the first intake passage; anda controller controlling an opening degree of a control valve positioned in the first intake passage connecting the gas discharge port to the inlet port of the compressor to adjust a gas flow rate passing through the first intake passage; anda second supercharger which is arranged on an upstream side with respect to the electric supercharging apparatus and which is configured to supercharge gas and supply to the electric supercharging apparatus. 16. The multi-stage supercharging system according to claim 15, wherein the first intake passage is connected to an inlet port which is provided on an intake side of the second supercharger.
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