Multistage supercharging system control apparatus
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02D-023/00
F02B-033/44
F02B-033/00
출원번호
US-0210927
(2011-08-16)
등록번호
US-8720200
(2014-05-13)
발명자
/ 주소
Tsukamoto, Yoshihisa
출원인 / 주소
Toyota Jidosha Kabushiki Kaisha
대리인 / 주소
Oliff PLC
인용정보
피인용 횟수 :
3인용 특허 :
8
초록▼
In the case where a low-pressure-side supercharging pressure acquired value corresponding to the pressure of inlet gas at the outlet of a low-pressure compressor operated in a twin supercharging mode is less than a target supercharging pressure in a single supercharging mode, changeover from the twi
In the case where a low-pressure-side supercharging pressure acquired value corresponding to the pressure of inlet gas at the outlet of a low-pressure compressor operated in a twin supercharging mode is less than a target supercharging pressure in a single supercharging mode, changeover from the twin supercharging mode to the single supercharging mode is prohibited. Meanwhile, in the case where the low-pressure-side supercharging pressure acquired value is equal to or greater than the target supercharging pressure, the changeover from the twin supercharging mode to the single supercharging mode is permitted. Alternatively, in the case where a supercharging pressure during operation in the single supercharging mode is less than a target value of the pressure of supply gas at the outlet of the low-pressure compressor in the twin supercharging mode, changeover from the single supercharging mode to the twin supercharging mode is prohibited. Meanwhile, in the case where the supercharging pressure is equal to or greater than the target value, the changeover from the single supercharging mode to the twin supercharging mode is permitted.
대표청구항▼
1. A multistage supercharging system comprising: a high-pressure turbocharger including a high-pressure turbine which is rotated and driven by exhaust gas, and a high-pressure compressor which is rotated and driven by the high-pressure turbine so as to pressurize supply air, the high-pressure turboc
1. A multistage supercharging system comprising: a high-pressure turbocharger including a high-pressure turbine which is rotated and driven by exhaust gas, and a high-pressure compressor which is rotated and driven by the high-pressure turbine so as to pressurize supply air, the high-pressure turbocharger being a variable-geometry-type turbocharger having a variable nozzle provided at an exhaust gas inlet of the high-pressure turbine;a low-pressure turbocharger including a low-pressure turbine which is rotated and driven by exhaust gas at a location downstream of the high-pressure turbine with respect to an exhaust gas flow direction, and a low-pressure compressor which is rotated and driven by the low-pressure turbine so as to pressurize supply air at a location upstream of the high-pressure compressor with respect to a supply air flow direction;passages, including an intake passage and an exhaust passage, configured such that a supercharging mode is switched between a twin supercharging mode, realized at, at least one of a first range of speed and a first range of load, in which exhaust gas is supplied to the low-pressure turbine via the high-pressure turbine, whereby supercharging is performed by the low-pressure compressor and the high-pressure compressor, and a single supercharging mode, realized at, at least one of a second range of speed and a second range of load, the second range of speed being higher than the first range of speed, the second range of load being higher than the first range of load, the first and second range of speed not overlapping and the first and second range of load not overlapping, in which exhaust gas is supplied to the low-pressure turbine while being caused to bypass the high-pressure turbine, whereby supercharging is performed by the low-pressure compressor;a memory having instructions; anda central processing unit for executing the instructions, the central processing unit, when executing the instructions, performing the steps of:acquiring a low-pressure-side supercharging pressure acquired value corresponding to a pressure of supply air at an outlet of the low-pressure compressor operated in the twin supercharging mode;prohibiting changeover from the twin supercharging mode to the single supercharging mode when the low-pressure-side supercharging pressure acquired value is less than a target supercharging pressure in the single supercharging mode, and permitting the changeover from the twin supercharging mode to the single supercharging mode when the low-pressure-side supercharging pressure acquired value is equal to or greater than the target supercharging pressure; andwhen the low-pressure-side supercharging pressure acquired value is less than the target supercharging pressure in the single supercharging mode, increasing the pressure of supply air at the outlet of the low-pressure compressor, while maintaining constant the supercharging pressure generated by the entire multistage supercharging system, whereinwhen the low-pressure-side supercharging pressure acquired value is less than the target supercharging pressure in the single supercharging mode, controlling the variable nozzle to the closing side, while increasing the ratio of exhaust gas which bypasses the high-pressure turbine; andcontrolling the variable nozzle on the open side with respect to an opening position at which the efficiency of the high-pressure turbine becomes the highest. 2. The multistage supercharging system control apparatus according to claim 1, wherein the central processing unit is further configured to perform steps comprising: acquiring a single-mode supercharging pressure acquired value corresponding to the supercharging pressure generated by the entire multistage supercharging system operated in the single supercharging mode; andprohibiting changeover from the single supercharging mode to the twin supercharging mode when the single-mode supercharging pressure acquired value is less than a target value of the pressure of supply air at the outlet of the low-pressure compressor in the twin supercharging mode, andpermitting the changeover from the single supercharging mode to the twin supercharging mode when the single-mode supercharging pressure acquired value is equal to or greater than the target value. 3. The multistage supercharging system control apparatus according to claim 2, wherein the central processing unit is further configured to perform acquiring a low-pressure-side supercharging pressure acquired value corresponding to the pressure of supply air at the outlet of the low-pressure compressor. 4. A multistage supercharging system comprising: a high-pressure turbocharger including a high-pressure turbine which is rotated and driven by exhaust gas, and a high-pressure compressor which pressurizes supply air which is rotated and driven by the high-pressure turbine so as to pressurize supply air;a low-pressure turbocharger including a low-pressure turbine which is rotated and driven by exhaust gas at a location downstream of the high-pressure turbine with respect to an exhaust gas flow direction, and a low-pressure compressor which is rotated and driven by the low-pressure turbine so as to pressurize supply air at a location upstream of the high-pressure compressor with respect to a supply air flow direction;passages, including an intake passage and an exhaust passage, configured such that a supercharging mode is switched between a twin supercharging mode, realized at, at least one of a first range of speed and a first range of load, in which exhaust gas is supplied to the low-pressure turbine via the high-pressure turbine, whereby supercharging is performed by the low-pressure compressor and the high-pressure compressor, and a single supercharging mode, realized at, at least one of a second range of speed and a second range of load, the second range of speed being higher than the first range of speed and the second range of load being higher than the first range of load, the first and second range of speed not overlapping and the first and second range of load not overlapping, in which exhaust gas is supplied to the low-pressure turbine while being caused to bypass the high-pressure turbine, whereby supercharging is performed by the low-pressure compressor;a memory having instructions; anda central processing unit for executing the instructions, the central processing unit, when executing the instructions, performing the steps of:acquiring a single-mode supercharging pressure acquired value corresponding to a supercharging pressure generated by the entire multistage supercharging system operated in the single supercharging mode; andprohibiting changeover from the single supercharging mode to the twin supercharging mode when the single-mode supercharging pressure acquired value is less than a target value of the pressure of supply air at the outlet of the low-pressure compressor in the twin supercharging mode,permitting the changeover from the single supercharging mode to the twin supercharging mode when the single-mode supercharging pressure acquired value is equal to or greater than the target value,closing the low-pressure-side variable nozzle to increase the pressure of supply air at the outlet of the low-pressure compressor when the single-mode supercharging pressure acquired value is less than a target value, andchanging the mode from the single supercharging mode to the twin supercharging mode. 5. The multistage supercharging system control apparatus according to claim 4, wherein the central processing unit is further configured to perform acquiring a low-pressure-side supercharging pressure acquired value corresponding to the pressure of supply air at the outlet of the low-pressure compressor. 6. The multistage supercharging system control apparatus according to claim 1, wherein the central processing unit is further configured to perform: closing the variable nozzle from an opening position at which an efficiency of the high-pressure turbine is not the highest toward an opening position at which the efficiency of the high-pressure turbine is the highest in order to increase the efficiency of the high-pressure turbine so that the pressure of supply air at the outlet of the low-pressure compressor is increased, andincreasing a ratio of exhaust gas which bypasses the high-pressure turbine so that the supercharging pressure generated by the entire multistage supercharging system is maintained constant. 7. The multistage supercharging system control apparatus according to claim 4, wherein the central processing unit is further configured to perform acquiring the low-pressure-side supercharging pressure acquired value corresponding to the pressure of supply gas at the outlet of the low-pressure compressor as the single-mode supercharging pressure acquired value.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.