[특허]Evaporative emissions system and method for a stop/start vehicle

Evaporative emissions system and method for a stop/start vehicle 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	F02M-033/04 F02M-025/08
출원번호	US-0468144 (2014-08-25)
등록번호	US-9797348 (2017-10-24)
발명자 / 주소	Dudar, Aed M.
출원인 / 주소	Ford Global Technologies, LLC
대리인 / 주소	Dottavio, James
인용정보	피인용 횟수 : 0 인용 특허 : 26

초록 ▼

Systems and methods for diagnosing individual components of an evaporative emissions system are presented. In one example, fuel vapor flow may be a basis for determining whether or not selected emission system components may be degraded. Further, fuel tank pressure may be another basis for determini

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1. A method, comprising: responsive to selected conditions, commanding closed a fuel vapor blocking valve while commanding open a canister vent valve and a canister purge valve as a first condition of valve commands:then, responsive to an amount of purge fuel vapor supplied to the engine not decreasing while the canister purge valve is exposed to a threshold vacuum under the selected conditions and the first condition of valve commands, commanding open the fuel vapor blocking valve while retaining the open commands to the canister vent valve and canister purge valve as a second condition of valve commands;indicating a degradation of the canister vent valve or the canister purge valve responsive to a fuel tank pressure in the second condition of valve commands; andadjusting an actuator in response to indicating the degradation. 2. The method of claim 1, further comprising holding the canister vent valve closed in response to indicating the canister purge valve is degraded. 3. The method of claim 2, wherein adjusting the actuator further comprises adjusting an engine fuel injector to compensate for an absence of fuel vapors and air being drawn through the canister purge valve in response to indicating the canister purge valve is degraded, and further comprising opening the canister vent valve in response to pressure in a fuel tank exceeding a threshold pressure. 4. The method of claim 1, where the actuator is a light or a display panel. 5. The method of claim 1, where indicating the canister vent valve is degraded is in response to the fuel tank pressure being less than a threshold pressure. 6. The method of claim 1, where the canister purge valve is indicated degraded in response to the fuel tank pressure being within a predetermined pressure of atmospheric pressure. 7. The method of claim 1, where the selected conditions include vehicle cruising. 8. The method of claim 1, wherein responsive to an amount of purge fuel vapor supplied to the engine decreasing while the canister purge valve is exposed to a threshold vacuum under the selected conditions and the first condition of valve commands, commanding closed the canister vent valve and commanding open the canister purge valve and the fuel vapor blocking valve as a third condition of valve commands,indicating a degradation of the fuel vapor blocking valve responsive to an amount of purge fuel vapor supplied to the engine not increasing while the canister purge valve is exposed to the threshold vacuum in the third condition of valve commands; andadjusting an actuator in response to indicating the degradation of the fuel vapor blocking valve. 9. The method of claim 8, where the canister vent valve is positioned along a conduit providing fluidic communication between a fuel vapor storage canister and atmosphere, where the canister purge valve is positioned along a conduit providing fluidic communication between an engine and the fuel vapor storage canister, and where the fuel vapor blocking valve is positioned along a conduit between a fuel tank and the fuel vapor storage canister, andwherein indicating the degradation of the fuel vapor blocking valve responsive to an amount of purge fuel vapor supplied to the engine not increasing while the canister purge valve is exposed to the threshold vacuum in the third condition of valve commands comprises indicating the degradation of the fuel vapor blocking valve responsive to a fuel vapor flow from the fuel tank to the engine not increasing while the canister purge valve is exposed to the threshold vacuum in the third condition of valve commands. 10. The method of claim 9 further comprising holding the canister vent valve closed in response to degradation of the canister purge valve. 11. The method of claim 10, further comprising commanding open the canister vent valve in response to a pressure in the fuel tank exceeding a threshold pressure. 12. The method of claim 8, where the actuator is a light or a display panel, andfurther comprising, when the canister vent valve is commanded closed, the canister purge valve is commanded open, and the fuel vapor blocking valve is commanded open, and responsive to a pressure in the fuel tank being less than a threshold pressure, commanding closed the canister purge valve and indicating a leak in the evaporative emissions system responsive to an evaporative emissions system pressure greater than a threshold. 13. The method of claim 8, where the selected conditions include a vehicle cruising event following a vehicle refueling event. 14. The method of claim 8, further comprising indicating a partially restricted canister purge valve or a partially restricted fuel vapor blocking valve in further response to fuel tank pressure being not less than a threshold pressure when commanding the fuel vapor blocking valve closed, the canister purge valve open, and the canister vent valve open.

이 특허에 인용된 특허 (26)

Matsumoto, Norio; Fujimoto, Shinya, Abnormality detecting apparatus for fuel evaporative emission control system of internal combustion engine.
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Isobe, Takashi; Kiso, Satoshi, Abnormality detecting device for evaporative fuel processing system.
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Toru Kitamura JP; Makoto Kobayashi JP; Takeshi Suzuki JP; Toshiaki Ichitani JP; Tetsuya Ishiguro JP, Abnormality diagnosis apparatus for evaporative emission control system.
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Kidokoro Toru,JPX ; Ito Takaaki,JPX ; Takagi Naoya,JPX, Defect diagnosing apparatus of evaporation purge system.
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Nishioka Futoshi,JPX ; Sakamoto Katsuhiko,JPX ; Hosokai Tetsushi,JPX ; Shigihama Shingo,JPX ; Takano Susumu,JPX, Diagnostic system for detecting leakage of fuel vapor from purge system.
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Matsubara,Takuji; Kidokoro,Toru; Hyodo,Yoshihiko, Evaporated fuel treatment device for internal combustion engine.
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Matsubara,Takuji; Kidokoro,Toru; Hyodo,Yoshihiko, Evaporated fuel treatment device of internal combustion engine.
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Kawamura Katsuhiko,JPX ; Kawano Akihiro,JPX, Evaporative emission control system for internal combustion engine.
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Hashimoto Akira (Wako JPX) Moriwaki Hideo (Wako JPX) Matsuzono Yoshiaki (Wako JPX) Fujimoto Sachito (Wako JPX) Kiso Satoshi (Tochigi-ken JPX), Evaporative fuel-processing system for internal combustion engines.
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Isobe Takashi,JPX ; Miyashita Kotaro,JPX ; Mutoh Hirofumi,JPX, Evaporative fuel-processing system for internal combustion engines.
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Yamanaka Masayoshi (Wako JPX) Maruyama Hiroshi (Wako JPX) Chikamatsu Masataka (Wako JPX) Seki Yasunari (Wako JPX) Maeda Kenichi (Wako JPX) Sawamura Kazutomo (Wako JPX), Evaporative fuel-processing system for internal combustion engines.
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Yamanaka Masayoshi (Wako JPX) Sawamura Kazutomo (Wako JPX) Maruyama Hiroshi (Wako JPX) Maeda Kenichi (Wako JPX), Evaporative fuel-processing system for internal combustion engines.
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Takaku Yutaka,JPX ; Ishii Toshio,JPX ; Kawano Kazuya,JPX ; Kurihara Nobuo,JPX ; Kimura Hiroshi,JPX ; Miura Kiyoshi,JPX, Evaporative system and method of diagnosing same.
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Yamaguchi, Takashi; Kubo, Satoru; Shikama, Mahito, Failure diagnosis apparatus for evaporative fuel processing system.
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Patrick Joseph Curran ; Douglas Joseph Mancini ; David Chester Waskiewicz ; Jae Doo Chung, Fuel tank pressure control system.
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Kouda Yasuo,JPX ; Goto Kenichi,JPX ; Kadooka Hideharu,JPX, Fuel vapor processor diagnostic device.
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Pursifull, Ross Dykstra; Lippa, Allan J.; Russell, John D.; Surnilla, Gopichandra; Ulrey, Joseph Norman, Fuel vapor purging diagnostics.
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Reddy Sam Raghuma ; Rich Gregory Earl ; Labus Gregory Edward ; Mc Carthy Timothy E., Leak detection for a vapor handling system.
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Takahata Toshio (Aikou-gun JPX) Nakazawa Shinsuke (Yokohama JPX) Iochi Atsushi (Yokohama JPX) Kuriki Hiroshi (Yokohama JPX) Gotoh Kenichi (Zama JPX), Leak test system for vaporized fuel treatment mechanism.
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DeBastos, Timothy; Kacewicz, John Michael; Bohr, Scott; Pearce, Russell Randall; Kragh, Christopher; Sullivan, Patrick; Euliss, William; Kluzner, Michael Igor, Method and system for fuel vapor control.
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DeBastos, Timothy; Pearce, Russell Randall; Bohr, Scott; Sullivan, Patrick; Kragh, Christopher; Kluzner, Michael Igor; Jentz, Robert Roy; Euliss, William; Dudar, Aed; Kerns, James Michael; Ferguson, Russ William; Gabor, Daniel, Method and system for fuel vapor control.
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Dudar, Aed Mohammad; Jentz, Robert Roy; DeBastos, Timothy; Kerns, James Michael; Kluzner, Michael Igor, Method and system for fuel vapor control.
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Pearce, Russell Randall; Bohr, Scott; Kragh, Christopher; DeBastos, Timothy; Sullivan, Patrick; Kerns, James Michael; Olson, Chad Michael, Method and system for fuel vapor control.
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Halleron, Ian; Dixon, Jon, Purge fuel canister measurement method and system.
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Jentz, Robert Roy; Clemens, David Allen; DeZelia, Ann Irene; Dudar, Aed Mohammad; Kluzner, Michael Igor, System and method for performing evaporative leak diagnostics in a vehicle.
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Davison Lynn Edward, Two stage monitoring of evaporative purge system.
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