Control apparatus for internal combustion engine with supercharger
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0302934
(2007-08-03)
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등록번호 |
US-7762068
(2010-08-13)
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우선권정보 |
JP-2006-218810(2006-08-10); JP-2006-218811(2006-08-10) |
국제출원번호 |
PCT/JP2007/065253
(2007-08-03)
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§371/§102 date |
20081201
(20081201)
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국제공개번호 |
WO08/018380
(2008-02-14)
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발명자
/ 주소 |
- Tabata, Masakazu
- Igarashi, Osamu
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출원인 / 주소 |
- Toyota Jidosha Kabushiki Kaisha
|
대리인 / 주소 |
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인용정보 |
피인용 횟수 :
8 인용 특허 :
7 |
초록
▼
An air flow amount passing through a centrifugal compressor is acquired on the basis of outputs of an air flow meter. A surge limit compressor rotation speed is acquired on the basis of the obtained air flow amount passing through the compressor. A current compressor rotation speed (turbo rotation s
An air flow amount passing through a centrifugal compressor is acquired on the basis of outputs of an air flow meter. A surge limit compressor rotation speed is acquired on the basis of the obtained air flow amount passing through the compressor. A current compressor rotation speed (turbo rotation speed) is acquired by a turbo rotation speed sensor. A rotation speed of the compressor is controlled on the basis of the surge limit compressor rotation speed and the current compressor rotation speed. More specifically, while being limited so as to be equal or less than the surge limit compressor rotation speed, a target compressor rotation speed is controlled so as to be a value according to the operating conditions, such as accelerator opening and engine speed, of an internal combustion engine. In addition, the surge of the compressor is judged on the basis of the surge limit compressor rotation speed and the current compressor rotation speed.
대표청구항
▼
The invention claimed is: 1. A control apparatus for an internal combustion engine with a supercharger, comprising: a supercharger having a centrifugal compressor; rotation speed acquisition means for acquiring compressor rotation speed of the centrifugal compressor; first operating parameter acqui
The invention claimed is: 1. A control apparatus for an internal combustion engine with a supercharger, comprising: a supercharger having a centrifugal compressor; rotation speed acquisition means for acquiring compressor rotation speed of the centrifugal compressor; first operating parameter acquisition means for acquiring a first operating parameter for the internal combustion engine, wherein the first operating parameter correlates to an operating characteristic of the centrifugal compressor, a fluctuation of which is less than that of an intake manifold pressure; base limit rotation speed acquisition means for acquiring surge limit compressor rotation speed on the basis of the first operating parameter; second operating parameter acquisition means for acquiring a second operating parameter for the internal combustion engine, wherein the second operating parameter affects an air flow amount passing through the centrifugal compressor, and wherein the second operating parameter is different from the first operating parameter; corrected limit rotation speed acquisition means for acquiring corrected surge compressor limit rotation speed by correcting the base surge limit compressor rotation speed in accordance with the second operating parameter; and compressor control means for controlling compressor rotation speed on the basis of the corrected surge limit compressor rotation speed and the compressor rotation speed. 2. The control apparatus for an internal combustion engine with the supercharger according to claim 1, wherein the compressor control means further include target rotation speed acquisition means for acquiring target compressor rotation speed of the centrifugal compressor on the basis of an operating condition of the internal combustion engine, and target rotation speed restriction means for restricting the target compressor rotation speed so as to be equal to or lower than the surge limit compressor rotation speed. 3. The control apparatus for an internal combustion engine with the supercharger according to claim 2, further comprising: an electric motor for driving the centrifugal compressor; wherein the compressor control means further include a motor controller that is separate from an engine control device for controlling an operation of the internal combustion engine, wherein the motor controller controls the rotation speed of the electric motor; wherein the compressor control means are equipped with the target rotation speed acquisition means and the target rotation speed restriction means in the engine control device; and wherein the motor controller controls the electric motor so that the current compressor rotation speed approaches the target compressor rotation speed provided by the engine control device. 4. The control apparatus for an internal combustion engine with the supercharger according to claim 1, wherein the first operating parameter is engine speed. 5. The control apparatus for an internal combustion engine with the supercharger according to claim 4, wherein the corrected limit rotation speed acquisition means acquires the corrected surge limit compressor rotation speed on the basis of a charging efficiency, which is the second operating parameter, of the internal combustion engine in addition to the engine speed. 6. A control apparatus for an internal combustion engine with a supercharger, comprising: a supercharger having a centrifugal compressor; rotation speed acquisition means for acquiring compressor rotation speed of the centrifugal compressor; first operating parameter acquisition means for acquiring a first operating parameter for the internal combustion engine, wherein the first operating parameter correlates to an operating characteristic of the centrifugal compressor, a fluctuation of which is less than that of an intake manifold pressure; base limit rotation speed acquisition means for acquiring base surge limit compressor rotation speed on the basis of the first operating parameter; second operating parameter acquisition means for acquiring a second operating parameter for the internal combustion engine, wherein the second operating parameter affects an air flow amount passing through the centrifugal compressor, and wherein the second operating parameter is different from the first operating parameter; corrected limit rotation speed acquisition means for acquiring corrected surge compressor limit rotation speed by correcting the base surge limit compressor rotation speed in accordance with the second operating parameter; and surge judgment means for judging surge of the centrifugal compressor on the basis of the corrected surge limit compressor rotation speed and the compressor rotation speed. 7. The control apparatus for an internal combustion engine with the supercharger according to claim 6, further comprising: surge margin acquisition means for acquiring a surge margin concerning occurrence of the surge of the centrifugal compressor on the basis of the base surge limit compressor rotation speed and the first operating parameter; and surge avoidance control means for adjusting a control amount of an actuator of the internal combustion engine for avoiding the surge. 8. The control apparatus for an internal combustion engine with the supercharger according to claim 6, wherein the first operating parameter is engine speed. 9. The control apparatus for an internal combustion engine with the supercharger according to claim 8, wherein the corrected limit rotation speed acquisition means acquires the corrected surge limit compressor rotation speed on the basis of a charging efficiency, which is the second operating parameter, of the internal combustion engine in addition to the engine speed. 10. A control apparatus for an internal combustion engine with a supercharger, comprising: a supercharger having a centrifugal compressor; a rotation speed acquisition device to acquire compressor rotation speed of the centrifugal compressor; a first operating parameter acquisition device to acquire a first operating parameter for the internal combustion engine, wherein the first operating parameter correlates to an operating characteristic of the centrifugal compressor, a fluctuation of which is less than that of an intake manifold pressure; a base limit rotation speed acquisition device to acquire base surge limit compressor rotation speed on the basis of the first operating parameter; a second operating parameter acquisition device for acquiring a second operating parameter for the internal combustion engine, wherein the second operating parameter affects an air flow amount passing through the centrifugal compressor, and wherein the second operating parameter is different from the first operating parameter; a corrected limit rotation speed acquisition device for acquiring corrected surge compressor limit rotation speed by correcting the base surge limit compressor rotation speed in accordance with the second operating parameter; and a compressor control device for controlling compressor rotation speed on the basis of the corrected surge limit compressor rotation speed and the compressor rotation speed. 11. A control apparatus for an internal combustion engine with a supercharger, comprising: a supercharger having a centrifugal compressor; a rotation speed acquisition device for acquiring compressor rotation speed of the centrifugal compressor; a first operating parameter acquisition device for acquiring a first operating parameter for the internal combustion engine, wherein the first operating parameter correlates to an operating characteristic of the centrifugal compressor, a fluctuation of which is less than that of an intake manifold pressure; a base limit rotation speed acquisition device for acquiring base surge limit compressor rotation speed on the basis of the first operating parameter; a second operating parameter acquisition device for acquiring a second operating parameter for the internal combustion engine, wherein the second operating parameter affects an air flow amount passing through the centrifugal compressor and is different from the first operating parameter; a corrected limit rotation speed acquisition device for acquiring corrected surge compressor limit rotation speed by correcting the base surge limit compressor rotation speed in accordance with the second operating parameter; and a surge judgment device for judging surge of the centrifugal compressor on the basis of the corrected surge limit compressor rotation speed and the compressor rotation speed.
이 특허에 인용된 특허 (7)
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Allen, John F.; Hedrick, Rhett; Delf, Gerhard E.; Black, Daniel; Birch, Kevin, Compressor surge protector for electric assisted turbocharger.
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Igarashi, Osamu; Akita, Koichi; Sasaki, Shoji; Hashimoto, Hiromasa, Control apparatus and control method for internal combustion engine.
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Masuda,Kei, Control device for turbocharger with electric motor and control method of same.
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Furman,Anthony Holmes; Primus,Roy James, Method and apparatus for actively turbocharging an engine.
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Furuya Junichi (Isesaki JPX), Method and system for controlling fuel supply for internal combustion engine coupled with supercharger.
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Philip L. Andrew ; Chung-hei Yeung ; Joseph A. Cotroneo ; John David Stampfli, Method of air-flow measurement and active operating limit line management for compressor surge avoidance.
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Wang Yue Yun, Turbocharger compressor diagnostic system.
이 특허를 인용한 특허 (8)
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Timmons, Adam, Artificial aspiration methods and systems for increasing engine efficiency.
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Kogo, Tomoyuki; Tomoda, Terutoshi; Ishiyama, Shinobu; Ono, Tomoyuki; Nakatani, Koichiro; Ito, Katsuhiro; Nakagawa, Masayoshi; Hisataka, Yoshihiro, Control apparatus for internal combustion engine.
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Inoguchi, Tetsunori; Sugihara, Shinji, Evaporated fuel purge device.
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Winsor, Richard E.; McMullen, Robert J., Internal combustion engine with turbocharger surge detection and control.
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Petrovic, Simon, Method and device for determining a charge air mass flow rate.
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Ossareh, Hamid-Reza; Rumpsa, Todd Anthony; Banker, Adam Nathan; Gerhart, Matthew John; McConville, Gregory Patrick; Xiao, Baitao, Methods and system for controlling compressor surge.
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Mischler, James Robert; Henry, Luke; Polkus, Greg Thomas, Methods for intentional turbo surging for enhanced system control and protections.
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Igarashi, Osamu; Tabata, Masakazu, Supercharging control system of an internal combustion engine.
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