IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0303707
(2002-11-26)
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우선권정보 |
JP-0023805 (2002-01-31) |
발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
21 인용 특허 :
6 |
초록
▼
A particulate filter (4) is provided in an exhaust passage (3) of a diesel engine (1) in order to trap particulate matter in exhaust gas. A controller (11) determines a basic fuel injection amount in response to an accelerator pedal depression amount (S22), determines a maximum fuel injection amount
A particulate filter (4) is provided in an exhaust passage (3) of a diesel engine (1) in order to trap particulate matter in exhaust gas. A controller (11) determines a basic fuel injection amount in response to an accelerator pedal depression amount (S22), determines a maximum fuel injection amount in response to an intake air amount of the engine (1) (S10), and sets the smaller of the basic fuel injection amount and the maximum fuel injection amount as the target injection amount (S24-S26). When the deposited amount of particulate matter on the particulate matter filter (4) has exceeded a predetermined amount, reductions in output torque are prevented by increasing the maximum injection amount (S13).
대표청구항
▼
A particulate filter (4) is provided in an exhaust passage (3) of a diesel engine (1) in order to trap particulate matter in exhaust gas. A controller (11) determines a basic fuel injection amount in response to an accelerator pedal depression amount (S22), determines a maximum fuel injection amount
A particulate filter (4) is provided in an exhaust passage (3) of a diesel engine (1) in order to trap particulate matter in exhaust gas. A controller (11) determines a basic fuel injection amount in response to an accelerator pedal depression amount (S22), determines a maximum fuel injection amount in response to an intake air amount of the engine (1) (S10), and sets the smaller of the basic fuel injection amount and the maximum fuel injection amount as the target injection amount (S24-S26). When the deposited amount of particulate matter on the particulate matter filter (4) has exceeded a predetermined amount, reductions in output torque are prevented by increasing the maximum injection amount (S13). mbustion engine, comprising: a NOx occluding member that is disposed in an exhaust passage of the internal combustion engine, and that occludes a NOx when an air-fuel ratio of an inflow exhaust gas is on a fuel-lean side, and that, when the air-fuel ratio of the inflow exhaust gas changes to a fuel-rich side, allows the NOx occluded to be released and reduced by a reducing agent contained in the exhaust gas; a controller that performs such a control that the NOx in the exhaust gas is occluded into the NOx occluding member when a combustion is conducted under a fuel-lean air-fuel ratio condition, and changes the air-fuel ratio of the exhaust gas flowing into the NOx occluding member to the fuel-rich side when the NOx is to be released from the NOx occluding member; a sensor that is disposed in the exhaust passage downstream of the NOx occluding member, and that is capable of detecting an ammonia concentration, wherein when the air-fuel ratio of the exhaust gas flowing into the NOx occluding member is changed to the fuel-rich side, a surplus amount of a reducing agent that is not used to release and reduce the NOx occluded in the NOx occluding member is let out in a form of ammonia from the NOx occluding member, and the controller determines a representative value that indicates the surplus amount of the reducing agent from a change in the ammonia concentration detected by the sensor; and an air-fuel ratio detector disposed in the exhaust passage downstream of the NOx occluding member, wherein if the air-fuel ratio of the exhaust gas flowing into the NOx occluding member is changed to the fuel-rich side and an output signal level of the air-fuel ratio detector exceeds a reference level, the controller changes the air-fuel ratio of the exhaust gas flowing into the NOx occluding member from the fuel-rich side to the fuel-lean side, and the reference level is changed based on the representative value that indicates the surplus amount of the reducing agent. 4. An emission control apparatus according to claim 3, wherein the representative value that indicates the surplus amount of the reducing agent is determined from a change in the ammonia concentration detected by the sensor, and the reference level is changed so that the representative value reaches a target value. 5. An emission control apparatus according to claim 4, wherein the representative value is an integrated value of the ammonia concentration detected by the sensor. 6. An emission control apparatus according to claim 4, wherein the representative value is a maximum value of the ammonia concentration detected by the sensor. 7. An emission control apparatus according to claim 4, wherein the sensor is capable of detecting a NOx concentration in the exhaust gas besides the ammonia concentration in the exhaust gas, and wherein the controller changes the air-fuel ratio of the exhaust gas flowing into the NOx occluding member from the fuel-lean side to the fuel-rich side if a predetermined set value is exceeded by the NOx concentration detected by the sensor while the combustion is conducted under the fuel-lean air-fuel ratio condition. 8. An emission control apparatus according to claim 3, further comprising amount-of-occluded-NOx estimating device that estimates an amount of the NOx occluded in the NOx occluding member, wherein the controller controls a fuel-rich time interval for temporarily changing the air-fuel ratio of the exhaust gas flowing into the NOx occluding member to the fuel-rich side, based on the amount of the NOx estimated by the amount-of-occluded-NOx estimating device. 9. An emission control apparatus according to claim 8, wherein the controller temporarily changes the air-fuel ratio of the exhaust gas flowing into the NOx occluding member from the fuel-lean side to the fuel-rich side when the amount of the NOx occluded estimated by the amount-of-occluded-NOx estimating device exceeds an allowable value. 10. An emission control apparatus a ccording to claim 9, further comprising NOx occluding capability estimating device that estimates a NOx occluding capability of the NOx occluding member, wherein the controller reduces the allowable value as the NOx occluding capability estimated by the NOx occluding capability estimating device decreases. 11. An emission control apparatus according to claim 9, wherein the sensor is capable of detecting a NOx concentration in the exhaust gas besides the ammonia concentration in the exhaust gas, and wherein the controller changes the air-fuel ratio of the exhaust gas flowing into the NOx occluding member from the fuel-lean side to the fuel-rich side if the NOx concentration detected by the sensor exceeds a predetermined set value although the amount of the NOx occluded estimated by the amount-of-occluded-NOx estimating device remains less than or equal to the allowable value while the combustion is conducted under the fuel-lean air-fuel ratio condition. 12. An emission control apparatus according to claim 9, wherein the sensor is capable of detecting a NOx concentration in the exhaust gas besides the ammonia concentration in the exhaust gas, and wherein the controller reduces the allowable value if the NOx concentration detected by the sensor exceeds a predetermined set value although the amount of the NOx occluded estimated by the amount-of-occluded-NOx estimating device remains less than or equal to the allowable value while the combustion is conducted under the fuel-lean air-fuel ratio condition. 13. An emission control apparatus of an internal combustion engine, comprising: a NOx occluding member that is disposed in an exhaust passage of the internal combustion engine, and that occludes a NOx when an air-fuel ratio of an inflow exhaust gas is on a fuel-lean side, and that, when the air-fuel ratio of the inflow exhaust gas changes to a fuel-rich side, allows the NOx occluded to be released and reduced by a reducing agent contained in the exhaust gas; an air-fuel ratio detector disposed in the exhaust passage of the engine downstream of the NOx occluding member; control unit that performs such a control that the NOx in the exhaust gas is occluded into the NOx occluding member when a combustion is conducted under a fuel-lean air-fuel ratio condition, and that changes the air-fuel ratio of the exhaust gas flowing into the NOx occluding member to the fuel-rich side when the NOx is to be released from the NOx occluding member, and that changes the air-fuel ratio of the exhaust gas flowing into the NOx occluding member from the fuel-rich side to the fuel-lean side if an output signal level of the air-fuel ratio detector exceeds a reference level while the output signal level of the air-fuel ratio detector is changing toward a level that indicates a fuel-rich air-fuel ratio, at a time near completion of the release the NOx from the NOx occluding member; and a sensor disposed in the exhaust passage downstream of the NOx occluding member and being capable of detecting an ammonia concentration, wherein the control unit changes the reference level so that when the air-fuel ratio of the exhaust gas flowing into the NOx occluding member is changed to the fuel-rich side, a surplus amount of a reducing agent that is not used to release and reduce the NOx occluded in the NOx occluding member is let out in a form of ammonia from the NOx occluding member, and so that the air-fuel ratio of the exhaust gas is changed from the fuel rich side to the fuel-lean side when a release of the NOx from the NOx occluding member is completed based on a change in the ammonia concentration detected by the sensor.
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