Power plants – Internal combustion engine with treatment or handling of... – Having sensor or indicator of malfunction – unsafeness – or...
Reexamination Certificate
2002-09-05
2004-07-06
Tran, Binh (Department: 3748)
Power plants
Internal combustion engine with treatment or handling of...
Having sensor or indicator of malfunction, unsafeness, or...
C060S276000, C060S285000, C060S297000
Reexamination Certificate
active
06758033
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to a state determining apparatus for an exhaust gas purifier which purifies exhaust gases exhausted from an internal combustion engine, and more particularly, to a state determining apparatus for an exhaust gas purifier which purifies exhaust gases by adsorbing hydrocarbons contained in the exhaust gases by an adsorbent.
2. Description of the Prior Art
One type of internal combustion engine is provided with an adsorbent disposed in its exhaust system for adsorbing hydrocarbons in exhaust gases upon starting the engine. The adsorbent has, for example, zeolite on its surface, such that hydrocarbons within exhaust gases enter into pores of the zeolite and are adsorbed by the adsorbent when the hydrocarbons pass through the adsorbent. As the adsorbent is heated to a predetermined temperature or higher (for example, 100-250°C.) by exhaust gases, the adsorbent desorbs once adsorbed hydrocarbons which are recirculated to the internal combustion engine through an EGR pipe and the like. While the adsorption and desorption of hydrocarbons are repeated in the adsorbent in the foregoing manner, a long-term use of the adsorbent may lead to a gradually increasing amount of residual hydrocarbons which could not be desorbed, and broken pores of the adsorbent. As a result, the adsorbent is deteriorated, causing gradually degraded capabilities of adsorbing hydrocarbons in the adsorbent. When the internal combustion engine is started in such a state, hydrocarbons not adsorbed by the adsorbent are emitted to the outside. Thus, a need exists for determining the state of the adsorbent, in particular, a deterioration thereof.
The applicant has proposed a deterioration determining apparatus for determining a deterioration of such an adsorbent, for example, in Laid-open Japanese Patent Application No. 2001-323811. This deterioration determining apparatus takes advantage of a proportional relationship found between the capabilities of the adsorbent to adsorb hydrocarbons and moisture, and detects the humidity of exhaust gases which have passed through the adsorbent by a humidity sensor to determine degraded capabilities of the adsorbent to adsorb hydrocarbons and moisture, i.e., the deterioration of the adsorbent. More specifically, the deterioration determining apparatus sets a predetermined time required for a detected humidity of the humidity sensor to rise by a predetermined value associated with a gradual rise in humidity of exhaust gases which pass through the adsorbent, while moisture in the exhaust gases is adsorbed by the adsorbent, after the start of the engine, in accordance with the humidity at the start and the like, with reference to a normal adsorbent which has not been deteriorated, and measures a time actually taken by the detected humidity to rise by the predetermined value. Then, when the measured time is shorter than the predetermined time, the adsorbent is determined to be deteriorated from the fact that the rising speed of the detected humidity is higher or the detected humidity begins to rise at an earlier timing than when a normal adsorbent is used.
However, the deterioration determining apparatus described above could fail to ensure a sufficient determination accuracy for the deterioration of the adsorbent, because the humidity detected by the humidity sensor rises at a different rising rate or at a different timing depending on a temperature state of the exhaust system at the start of the internal combustion engine.
More specifically, for example, when an internal combustion engine is cold started, heat generated by exhaust gases is taken away by an exhaust system which has substantially the same temperature as the temperature in a starting environment (outside air temperature), so that the temperature of the exhaust gases is lower at a location more downstream of the exhaust system. Then, as the temperature decreases to the dew point (for example, 50-60° C.), moisture in exhaust gases begins condensing and attaches on the inner surface of an exhaust pipe and the like, so that the moisture in exhaust gases decreases more at a location more downstream in the exhaust system. Such condensation occurs more, at an earlier time, and at a more upstream location in the exhaust system as the exhaust system is at a lower temperature upon starting. For this reason, the detected humidity tends to present a lower rising rate because the adsorbent is supplied with exhaust gas with less moisture, i.e., with a lower humidity when the condensation occurs at a location upstream of the adsorbent. This tendency becomes stronger as the exhaust system is at lower temperatures when the internal combustion engine is started.
Also, as described above, the adsorbent desorbs hydrocarbons when it is heated to a predetermined temperature or higher, and tends to have a higher performance of adsorbing hydrocarbons as the temperature is lower at the temperature at which the desorption begins (for example, 50° C.) or lower. This tendency is likewise found in the moisture adsorbing performance as well as in the hydrocarbon adsorbing performance. Therefore, when the combustion engine is cold started, a detected humidity rises at a later timing because a larger amount of moisture in exhaust gases is adsorbed in the adsorbent as the temperature of the adsorbent having substantially the same temperature as the temperature in the exhaust system is lower.
As described above, while the detected humidity rises at a different rate and at a different timing depending on a temperature state of the exhaust system upon start of the internal combustion engine, the aforementioned deterioration determining apparatus merely sets a time elapsed from the start as a parameter for determining a deterioration of the adsorbent, so that it only provides an insufficient accuracy for determining the deterioration, and therefore leaves a room for improvement in this respect.
OBJECT AND SUMMARY OF THE INVENTION
The present invention has been made to solve the problems as mentioned above, and it is an object of the invention to provide a state determining apparatus for an exhaust gas purifier which is capable of accurately determining the state of the exhaust gas purifier, which includes an adsorbent for adsorbing hydrocarbons, including a deterioration of the adsorbent, in accordance with a temperature state of an exhaust system in an internal combustion engine.
To achieve the above object, the present invention provides a state determining apparatus for an exhaust gas purifier arranged in an exhaust system of an internal combustion engine for determining a state of the exhaust gas purifier including an adsorbent capable of adsorbing hydrocarbons and moisture in exhaust gases. The state determining apparatus is characterized by comprising a humidity sensor arranged near the adsorbent in the exhaust system for detecting a humidity in an exhaust pipe of the exhaust system; temperature state detecting means for detecting a temperature state in the exhaust system; and adsorbent state determining means for determining a state of the adsorbent in accordance with the humidity in the exhaust pipe detected by the humidity sensor and the temperature state in the exhaust system detected by the temperature state detecting means.
According to this state determining apparatus for an exhaust gas purifier, the humidity sensor arranged near the adsorbent in the exhaust system detects a humidity in an exhaust pipe of the exhaust system, while the temperature state detecting means detects a temperature state in the exhaust system. Then, the adsorbent state determining means determines the state of the adsorbent in accordance with the results of determinations. Since the abilities of the adsorbent to adsorb hydrocarbons and moisture is in a proportional relationship, the humidity detected by the humidity sensor has a high correlation to actually adsorbed hydrocarbons in the adsorbent. Also, as mentioned above, the humidity detected by the humidity sensor rises at
Endo Tetsuo
Iwaki Yoshihisa
Sato Masahiro
Takakura Shiro
Ueno Masaki
Honda Giken Kogyo Kabushiki Kaisha
Tran Binh
Westerman Hattori Daniels & Adrian LLP
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