Method and system for adjusting engine throttles
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02D-023/00
F02D-009/00
F02D-041/04
F02D-041/00
출원번호
US-0483612
(2012-05-30)
등록번호
US-9206747
(2015-12-08)
발명자
/ 주소
Leone, Thomas G.
Ulrey, Joseph Norman
출원인 / 주소
Ford Global Technologies, LLC
대리인 / 주소
Voutyras, Julia
인용정보
피인용 횟수 :
0인용 특허 :
8
초록▼
An engine system and method for operating an engine including a central throttle and a port throttle is disclosed. In one example, the central throttle and port throttle are adjusted to improve air flow distribution to engine cylinders. The system and method may be particularly beneficial for turboc
An engine system and method for operating an engine including a central throttle and a port throttle is disclosed. In one example, the central throttle and port throttle are adjusted to improve air flow distribution to engine cylinders. The system and method may be particularly beneficial for turbocharged engines.
대표청구항▼
1. A method for operating an engine including a central throttle, a plurality of port throttles, an air flow sensor, and a controller respectively operatively connected thereto, comprising: measuring an air flow being delivered to the engine by the air flow sensor;judging if a flow distribution diff
1. A method for operating an engine including a central throttle, a plurality of port throttles, an air flow sensor, and a controller respectively operatively connected thereto, comprising: measuring an air flow being delivered to the engine by the air flow sensor;judging if a flow distribution difference between the plurality of port throttles is greater than a threshold flow distribution difference and if the measured engine air flow is less than a threshold air flow via the controller; andincreasing an opening amount of at least one of the plurality of port throttles while decreasing an opening amount of the central throttle in response to the judgement. 2. The method of claim 1, where the flow distribution difference between the plurality of port throttles is estimated via engine speed. 3. The method of claim 1, where the flow distribution difference between the plurality of port throttles is estimated via an exhaust gas oxygen sensor. 4. The method of claim 1, where the flow distribution difference between the plurality of port throttles is estimated via intake manifold pressure and a position of the port throttle. 5. The method of claim 1, further comprising operating the engine with a pressure drop across one of the plurality of port throttles that is greater than a pressure drop across the central throttle in response to the flow distribution difference between the plurality of port throttles being less than the threshold flow distribution difference. 6. The engine operating method of claim 1, further comprising not increasing the opening amount of the at least one of the plurality of port throttles and not decreasing the opening amount of the central throttle for a predetermined number of combustion events since engine stop. 7. The engine operating method of claim 1, where the flow distribution difference between the plurality of port throttles is estimated via intake manifold pressure and a port throttle position of the at least one of the plurality of port throttles. 8. A method for operating an engine including a central throttle, a plurality of port throttles, a turbine having a turbine speed, and a controller being in respective operable connection thereto, comprising: in a first mode at a first engine speed and a first torque demand, adjusting a position of the central throttle and adjusting a position of at least one of the plurality of port throttles so that a greater pressure drop occurs across the at least one of the plurality of port throttles than the central throttle in response to the turbine speed being less than a threshold as judged by the controller; andin a second mode at the first engine speed and the first torque demand, adjusting the position of the central throttle and adjusting the position of at least one of the plurality of port throttles so that a greater pressure drop occurs across the central throttle than the at least one of the plurality of port throttles in response to the turbine speed being greater than the threshold as judged by the controller. 9. The method of claim 8, where the first engine speed and the first torque demand are less than a threshold engine speed and a threshold torque demand. 10. The engine operating method of claim 8, further comprising increasing an opening amount of the at least one of the plurality of port throttles and decreasing the opening amount of the central throttle in response to a judgement, via the controller, of a flow distribution difference between the plurality of port throttles greater than a threshold flow distribution difference and a measured engine air flow less than a threshold air flow. 11. The engine operating method of claim 8, where the greater pressure drop across the central throttle than the at least one of the plurality of port throttles occurs during an intake stroke of a cylinder of the engine being supplied air via the at least one of the plurality of port throttles. 12. The engine operating method of claim 8, where the greater pressure drop across the at least one of the plurality of port throttles than the central throttle occurs during an intake stroke of a cylinder of the engine being supplied air via the at least one of the plurality of port throttles. 13. The engine operating method of claim 8, where the central throttle is located in an engine air intake path upstream of the plurality of port throttles. 14. A system for controlling an engine, comprising: a turbocharger, a central throttle, and a plurality of port throttles, and the engine; anda controller including executable instructions stored in non-transitory memory for operating the central throttle and the plurality of port throttles responsive to a turbocharger turbine speed. 15. The system of claim 14, further comprising additional instructions stored in non-transitory memory for adjusting the central throttle and at least one of the plurality of port throttles so that a greater pressure drop occurs across the at least one of the plurality of port throttles than the central throttle during a first intake stroke of a cylinder of the engine that receives air via the at least one of the plurality of port throttles in response to the turbocharger turbine speed being less than a threshold. 16. The system of claim 15, further comprising additional instructions stored in non-transitory memory for operating the central throttle and the at least one of the plurality of port throttles so that a greater pressure drop occurs across the central throttle than the at least one of the plurality of port throttles during a second intake stroke of the cylinder receiving air via the at least one of the plurality of port throttles in response to the turbocharger turbine speed being greater than the threshold. 17. The system of claim 14, further comprising additional instructions stored in non-transitory memory for increasing an opening amount of the central throttle and for increasing an opening amount of at least one of the plurality of port throttles in response to a judgement, via the controller, of a flow distribution difference between the plurality of port throttles being greater than a threshold. 18. The system of claim 17, where the additional instructions stored in non-transitory memory increase an opening amount of each of the plurality of port throttles in response to the flow distribution difference being greater than the threshold. 19. The system of claim 18, where the additional instructions stored in non-transitory memory increase a closing amount of each of the plurality of port throttles in response to the flow distribution difference being less than the threshold.
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