IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0533655
(2009-07-31)
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등록번호 |
US-8166943
(2012-05-01)
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발명자
/ 주소 |
- Chamarthi, Gopal Krishna
- Fulton, Brien Lloyd
- Oberski, Christopher
- Lyon, Peter Mitchell
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출원인 / 주소 |
- Ford Global Technologies, LLC
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
3 인용 특허 :
33 |
초록
▼
Methods and systems are provided for operating a fuel system in an engine, the fuel system including a supply pump for delivering fuel to the fuel system and pressurizing fuel received from a feed pump, a fuel tank, a fuel filter for filtering fuel, a fuel rail, and a fuel injector. One example meth
Methods and systems are provided for operating a fuel system in an engine, the fuel system including a supply pump for delivering fuel to the fuel system and pressurizing fuel received from a feed pump, a fuel tank, a fuel filter for filtering fuel, a fuel rail, and a fuel injector. One example method comprises, during an engine cold-start, operating the supply pump, and adjusting a supply pump operation mode between at least a pressure-controlled mode and a volume-controlled mode based on a fuel temperature and pressure.
대표청구항
▼
1. A method of operating a fuel system in an engine, the fuel system including a supply pump for pressurizing fuel received from a fuel tank, a fuel filter for filtering fuel supplied to the supply pump, a fuel rail, and a fuel injector, the method comprising, during an engine cold-start,operating t
1. A method of operating a fuel system in an engine, the fuel system including a supply pump for pressurizing fuel received from a fuel tank, a fuel filter for filtering fuel supplied to the supply pump, a fuel rail, and a fuel injector, the method comprising, during an engine cold-start,operating the supply pump in a pressure-controlled mode during initial engine operation;switching pump operation to a volume-controlled mode in response to a fuel temperature and pressure; andrecirculating at least some return fuel from the fuel rail, injector, and/or pump through the fuel filter, via a thermal recirculation valve, based on the fuel temperature and/or pressure. 2. The method of claim 1, wherein switching pump operation in response to a fuel temperature and pressure includes, during a first condition, where the fuel temperature is below a first threshold temperature, operating the pump in the pressure-controlled mode;during a second condition, where the fuel temperature is above a second threshold temperature, operating the pump in the volume-controlled mode;during a third condition, where the fuel temperature is above the first threshold temperature but below the second threshold temperature, and further where the fuel pressure is below a first threshold pressure, operating the pump in the pressure-controlled mode; andduring a fourth condition, where the fuel temperature is above the first threshold temperature but below the second threshold temperature, and further where the fuel pressure is above the first threshold pressure, operating the pump in the volume-controlled mode. 3. The method of claim 2, wherein recirculating return fuel based on the fuel temperature and/or pressure includes, as the fuel temperature increases, decreasing an amount of return fuel that is recirculated through the fuel filter while increasing an amount of return fuel that is returned to the fuel tank, the decreasing an amount of return fuel that is recirculated including at least one of reducing a degree of opening of the thermal recirculation valve and reducing a duration of opening of the thermal recirculation valve. 4. The method of claim further comprising, during the second condition, identifying fuel filter clogging and differentiating between filter clogging due to wax and fuel filter clogging due to particulate matter based on a fuel filter pressure, and further indicating fuel filter clogging by setting a diagnostic code. 5. The method of claim 4 wherein identifying and differentiating fuel filter clogging based on the fuel filter pressure includes, indicating fuel filter clogging due to wax when the fuel filter pressure is above a second threshold pressure during the second condition, and indicating fuel filter clogging due to extraneous matter when the fuel filter pressure is below the second threshold pressure during the second condition. 6. The method of claim 5 further comprising, adjusting the second threshold temperature based on the fuel type, and adjusting the first threshold temperature and/or the second threshold pressure based on a previous indication of fuel filter clogging, the adjustments including increasing the first threshold temperature based on a previous indication of fuel filter clogging due to wax. 7. A vehicle system, comprising, an engine;a fuel system including,a supply pump for pressurizing fuel received from fuel tank;a fuel rail for delivering pressurized fuel to a fuel injector;a first fuel filter for filtering fuel supplied to the supply pump from the fuel tank;a second fuel filter for filtering fuel supplied to the supply pump from the fuel tank, the second fuel filter positioned downstream of the first filter;a first recirculation passage for recirculating return fuel returned from the fuel rail, fuel injector and/or supply pump to an inlet of the first fuel filter;a second recirculation passage for recirculating return fuel returned from the fuel rail, fuel injector and/or supply pump to an inlet of the first fuel filter;a first thermal recirculation valve, located in the first recirculation passage, for adjusting an amount of return fuel recirculated through the first fuel filter;a second thermal recirculation valve, located in the second recirculation passage, for adjusting an amount of return fuel recirculated through the second fuel filter; anda control system configured to: during an engine cold-start, operate the supply pump based on a fuel temperature and pressure; andrecirculate at least some return fuel through the first and/or second fuel filter based on the fuel temperature and/or pressure. 8. The system of claim 7, wherein operating the supply pump based on a fuel temperature and pressure includes, during a first condition, where the fuel temperature is below a first threshold temperature, operating the pump in a pressure-controlled mode;during a second condition, where the fuel temperature is above a second threshold temperature, operating the pump in a volume-controlled mode;during a third condition, where the fuel temperature is above the first threshold temperature but below the second threshold temperature, and further where the fuel pressure is below a first threshold pressure, operating the pump in the pressure-controlled mode; andduring a fourth condition, where the fuel temperature is above the first threshold temperature but below the second threshold temperature, and further where the fuel pressure is above the first threshold pressure, operating the pump in the volume-controlled mode. 9. The system of claim 8, wherein recirculating return fuel based on the fuel temperature and/or pressure includes, as the fuel temperature increases, decreasing an amount of return fuel that is recirculated through the first and/or second fuel filter while increasing an amount of return fuel that is returned to the fuel tank, the amount of recirculated return fuel decreased by at least one of reducing a degree of opening of the first and/or second thermal recirculation valve or reducing a duration of opening of the first and/or second thermal recirculation valve. 10. The system of claim 9 wherein the control system is further configured to, during the second condition, indicate fuel filter clogging due to wax when fuel filter pressure is above a second threshold pressure;indicate fuel filter clogging due to particulate matter when the fuel filter pressure is below the second threshold pressure; andindicate fuel filter clogging by setting a diagnostic code. 11. The system of claim 8, wherein recirculating return fuel based on the fuel temperature and/or pressure includes, fully opening and fully closing the first and second thermal recirculation valves sequentially, the order of opening and closing based on the fuel temperature and/or pressure. 12. The system of claim 8, wherein recirculating return fuel based on the fuel temperature and/or pressure includes at least partially opening the first and second thermal recirculation valves when the fuel temperature is below a first temperature. 13. A method of operating a fuel system in an engine, the fuel system including a supply pump for pressurizing fuel received from a fuel tank, a fuel filter for filtering fuel, a fuel rail, and a fuel injector, the method comprising, during an engine cold-start,operating the supply pump; and adjusting a supply pump operation mode between at least a pressure-controlled mode and a volume-controlled mode based on a fuel temperature and pressure, wherein adjusting the supply pump based on fuel temperature and pressure includes, during a first condition, where the fuel temperature is below a first threshold temperature, operating the pump in the pressure-controlled mode;during a second condition, where the fuel temperature is above a second threshold temperature, operating the pump in the volume-controlled mode;during a third condition, where the fuel temperature is above the first threshold temperature but below the second threshold temperature, and further where the fuel pressure is below a first threshold pressure, operating the pump in the pressure-controlled mode; andduring a fourth condition, where the fuel temperature is above the first threshold temperature but below the second threshold temperature, and further where the fuel pressure is above the first threshold pressure, operating the pump in the volume-controlled mode. 14. The method of claim 13, further comprising, during any of the first, second, third, or fourth conditions, adjusting an amount of return fuel that is recirculated through the fuel filter, via a thermal recirculation valve, based on the fuel temperature and/or pressure. 15. The method of claim 14, wherein the return fuel includes fuel returned from at least one of the fuel rail, the supply pump, and the fuel injector, and further wherein adjusting an amount of return fuel that is recirculated based on the fuel temperature and/or pressure includes decreasing the amount of return fuel that is recirculated through the fuel filter, and increasing an amount of return fuel that is returned to the fuel tank, as the fuel temperature increases. 16. The method of claim 15, wherein decreasing an amount of return fuel that is recirculated includes at least one of reducing a degree of opening of the thermal recirculation valve or reducing a duration of opening of the thermal recirculation valve. 17. The method of claim 13 further comprising, during the second condition, identifying fuel filter clogging and differentiating between filter clogging due to wax and fuel filter clogging due to extraneous matter based on a fuel filter pressure, and further indicating fuel filter clogging by setting a diagnostic code. 18. The method of claim 17 wherein identifying and differentiating fuel filter clogging based on the fuel filter pressure includes, indicating fuel filter clogging due to wax when the fuel filter pressure is above a second threshold pressure during the second condition, and indicating fuel filter clogging due to particulate matter when the fuel filter pressure is below the second threshold pressure, during the second condition. 19. The method of claim 18 further comprising, adjusting the second threshold temperature based on the fuel type, and adjusting the first threshold temperature, the first threshold pressure, and/or the second threshold pressure based on a previous indication of fuel filter clogging.
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