Techniques for detecting a disconnected engine air hose using an in-line pressure sensor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G08B-021/00
G08B-005/36
F01M-013/02
출원번호
US-0264644
(2016-09-14)
등록번호
US-10043352
(2018-08-07)
발명자
/ 주소
Henson, Scott E
Tallarek, Glen E
Shah, Dhaval D
Venkatachalam, Vivek
출원인 / 주소
FCA US LLC
대리인 / 주소
Smith, Ralph E.
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
A diagnostic system for a crankcase ventilation system of a boosted engine includes a pressure sensor (i) disposed in-line along a make-up air (MUA) hose of the crankcase ventilation system and (ii) configured to measure a pressure in the MUA hose, the MUA hose connecting an induction system of the
A diagnostic system for a crankcase ventilation system of a boosted engine includes a pressure sensor (i) disposed in-line along a make-up air (MUA) hose of the crankcase ventilation system and (ii) configured to measure a pressure in the MUA hose, the MUA hose connecting an induction system of the engine to a crankcase of the engine. The diagnostic system also includes a controller configured to: detect a mild acceleration operating condition of the engine; and in response to detecting the mild acceleration operating condition: obtain a plurality of pressure samples based on the measured pressure by the pressure sensor, compare the plurality of pressure samples to a fault threshold indicative of a disconnected MUA hose, and based on the comparing, generate a fault signal indicative of a disconnected MUA hose.
대표청구항▼
1. A diagnostic system for a crankcase ventilation system of an engine having a boost system, the diagnostic system comprising: a pressure sensor (i) disposed in-line along a make-up air (MUA) hose of the crankcase ventilation system and (ii) configured to measure a pressure in the MUA hose, the MUA
1. A diagnostic system for a crankcase ventilation system of an engine having a boost system, the diagnostic system comprising: a pressure sensor (i) disposed in-line along a make-up air (MUA) hose of the crankcase ventilation system and (ii) configured to measure a pressure in the MUA hose, the MUA hose connecting an induction system of the engine at a point upstream from an intake manifold of the engine to a crankcase of the engine; anda controller configured to: detect a mild acceleration operating condition of the engine; andin response to detecting the mild acceleration operating condition: obtain a plurality of pressure samples based on the measured pressure by the pressure sensor, andat least one of: (i) compare each pressure sample to a neutral pressure threshold, calculate a ratio of pressure samples under the neutral pressure threshold to pressure samples over the neutral pressure threshold, compare the calculated ratio to a first fault threshold indicative of a disconnected MUA hose, and generate a first fault signal indicative of a disconnected MUA hose when the calculated ratio is less than the first fault threshold, and(ii) compare each pressure sample to a pressure pulsation threshold, calculate a quantity of the plurality of pressure samples that are greater than the pressure pulsation threshold to obtain a pressure pulsation count, compare the pressure pulsation count to a second fault threshold indicative of a disconnected MUA hose, and generate a second fault signal indicative of a disconnected MUA hose when the pressure pulsation count is less than the second fault threshold. 2. The diagnostic system of claim 1, wherein the controller is further configured to obtain the neutral pressure based on measured pressure by the pressure sensor during an idle operating condition of the engine. 3. The diagnostic system of claim 1, wherein the first fault signal is indicative of the MUA hose being disconnected at the induction system-side. 4. The diagnostic system of claim 1, wherein the second fault signal is indicative of the MUA hose being disconnected at the crankcase-side. 5. The diagnostic system of claim 1, wherein the measured pressure by the pressure sensor includes pressure pulsations corresponding to vibration of air in the crankcase caused by movement of pistons of the engine. 6. The diagnostic system of claim 1, wherein the boost system includes a supercharger, and wherein the measured pressure by the pressure sensor includes pressure pulsations caused by the supercharger. 7. The diagnostic system of claim 1, wherein the controller is further configured to actuate a malfunction indicator lamp (MIL) based on at least one of the first and second fault signals. 8. A diagnostic method for a crankcase ventilation system of an engine having a boost system, the diagnostic method comprising: detecting, by a controller of the engine, a mild acceleration operating condition of the engine; andin response to detecting the mild acceleration operating condition: obtaining, by the controller, a plurality of pressure samples based on measured pressure by a pressure sensor, the pressure sensor being (i) disposed in-line along a make-up air (MUA) hose of the crankcase ventilation system and (ii) configured to measure pressure in the MUA hose, the MUA hose connecting an induction system of the engine at a point upstream from an intake manifold of the engine to a crankcase of the engine, andby the controller, at least one of: (i) comparing each pressure sample to a neutral pressure threshold, calculating a ratio of pressure samples under the neutral pressure threshold to pressure samples over the neutral pressure threshold, comparing the calculated ratio to a first fault threshold indicative of a disconnected MUA hose, and generating a first fault signal indicative of a disconnected MUA hose when the calculated ratio is less than the first fault threshold, and(ii) comparing each pressure sample to a pressure pulsation threshold, calculating a quantity of the plurality of pressure samples that are greater than the pressure pulsation threshold to obtain a pressure pulsation count, comparing the pressure pulsation count to a second fault threshold indicative of a disconnected MUA hose, and generating a second fault signal indicative of a disconnected MUA hose when the pressure pulsation count is less than the second fault threshold. 9. The diagnostic method of claim 8, wherein the first fault signal is indicative of the MUA hose being disconnected at the induction system-side. 10. The diagnostic method of claim 8, further comprising obtaining, by the controller, the neutral pressure threshold based on measured pressure by the pressure sensor during an idle operating condition of the engine. 11. The diagnostic method of claim 8, wherein the second fault signal is indicative of the MUA hose being disconnected at the crankcase-side. 12. The diagnostic method of claim 8, wherein the measured pressure by the pressure sensor includes pressure pulsations corresponding to vibration of air in the crankcase caused by movement of pistons of the engine. 13. The diagnostic method of claim 8, wherein the boost system includes a supercharger, and wherein the measured pressure by the pressure sensor includes pressure pulsations caused by the supercharger. 14. The diagnostic method of claim 8, further comprising actuating, by the controller, a malfunction indicator lamp (MIL) based on at least one of the first and second fault signals.
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이 특허에 인용된 특허 (11)
Pursifull, Ross Dykstra; Rollinger, John Eric, Crankcase integrity breach detection.
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