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    • 1. 发明授权
    • Air-fuel ratio sensor deterioration-detecting system for internal
combustion engines
    • 用于内燃机的空燃比传感器劣化检测系统
    • US5577488A
    • 1996-11-26
    • US549119
    • 1995-10-27
    • Ryuji SatoKojiro TsutsumiToshitaka HachiroHiroshi KawaguchiSachito Fujimoto
    • Ryuji SatoKojiro TsutsumiToshitaka HachiroHiroshi KawaguchiSachito Fujimoto
    • F02D45/00F02D41/14F02D41/22
    • F02D41/1441F02D41/1495
    • An air-fuel ratio sensor deterioration-detecting system for an internal combustion engine includes a catalytic converter arranged in the exhaust system, first and second air-fuel ratio sensors arranged in the exhaust system at respective locations upstream and downstream of the catalytic converter, and an ECU which calculates a value of a first control parameter, based on an output from the second air-fuel ratio sensor, and executes air-fuel ratio feedback control, based on the calculated value of the first control parameter. A value of a second control parameter to be used for calculating the value of the first control parameter is calculated based on the output from the second air-fuel ratio sensor. Whether the second air-fuel ratio sensor is deteriorated is determined based on the output from the second air-fuel ratio sensor. A value of at least one of the first and second control parameters is increased when a variation in the output from the second air-fuel ratio sensor is small during execution of the air-fuel ratio feedback control, and it is determined that the second air-fuel ratio sensor is deteriorated when the variation in the output from the second air-fuel ratio sensor is continuously small over a predetermined time period after the value of the at least one of the first and second control parameters has been increased.
    • 用于内燃机的空燃比传感器劣化检测系统包括布置在排气系统中的催化转化器,在催化转化器的上游和下游的各个位置处布置在排气系统中的第一和第二空燃比传感器,以及 ECU,其基于来自第二空燃比传感器的输出计算第一控制参数的值,并且基于所计算的第一控制参数的值来执行空燃比反馈控制。 基于来自第二空燃比传感器的输出计算用于计算第一控制参数的值的第二控制参数的值。 基于第二空燃比传感器的输出来确定第二空燃比传感器是否劣化。 当在执行空燃比反馈控制期间来自第二空燃比传感器的输出的变化小时,增加第一和第二控制参数中的至少一个的值,并且确定第二空气 当所述第一和第二控制参数中的至少一个的值已经增加时,在所述第二空燃比传感器的输出的变化在预定时间段内连续变小时,所述燃料比传感器劣化。
    • 2. 发明授权
    • Air-fuel ratio sensor deterioration-detecting system for internal
combustion engines
    • 用于内燃机的空燃比传感器劣化检测系统
    • US5692486A
    • 1997-12-02
    • US726169
    • 1996-10-04
    • Kojiro TsutsumiYuji FujikiToshitaka HachiroShigeto KashiwabaraFumio HaraSachito Fujimoto
    • Kojiro TsutsumiYuji FujikiToshitaka HachiroShigeto KashiwabaraFumio HaraSachito Fujimoto
    • F02D45/00F02D41/14F02D41/22G01N27/26F02D41/00F02M23/00F02M25/00
    • F02D41/1441F02D41/1495
    • An air-fuel ratio sensor deterioration-detecting system is provided for an internal combustion engine having first and second air-fuel ratio sensors arranged in the exhaust system upstream and downstream of a catalytic converter therein. An ECU calculates a control parameter, based on an output from the second air-fuel ratio sensor, calculates an air-fuel ratio correction amount, based on an output from the first air-fuel ratio sensor and the calculated control parameter, and executes air-fuel ratio feedback control, based on the calculated air-fuel ratio correction amount. The ECU also determines deterioration of the second air-fuel ratio sensor, based on the output from the same in such a manner that the air-fuel ratio correction amount is increased or decreased by a predetermined amount, based on the output from the second air-fuel ratio when a variation in the second air-fuel ratio sensor output falls within a predetermined small variation range during execution of the air-fuel ratio feedback control, and the second air-fuel ratio sensor is determined to be deteriorated when the output variation falls within the predetermined small variation range even after the increase or decrease of the air-fuel ratio correction amount.
    • 本发明提供了一种用于内燃机的空燃比传感器劣化检测系统,该内燃机具有布置在排气系统中的催化转化器的上游和下游的第一和第二空燃比传感器。 ECU根据来自第二空燃比传感器的输出,根据第一空燃比传感器的输出和计算出的控制参数,计算出空燃比校正量的控制参数,并执行空气 - 燃料比反馈控制,基于所计算的空燃比校正量。 ECU还根据第二空燃比传感器的输出,根据第二空气燃料比传感器的输出,以空燃比校正量增加或减少预定量的方式,确定第二空燃比传感器的劣化 当在空燃比反馈控制执行期间第二空燃比传感器输出的变化落在预定的小​​变化范围内时,确定第二空燃比传感器的输出变化量 即使在空燃比校正量的增加或减少之后,也落在预定的小​​变化范围内。
    • 3. 发明授权
    • Device for detecting abnormality of fuel supply system of internal
combustion engines
    • 用于检测内燃机燃料供应系统异常的装置
    • US5579747A
    • 1996-12-03
    • US550098
    • 1995-10-30
    • Ryuji SatoKojiro TsutsumiHisashi IgarashiSachito Fujimoto
    • Ryuji SatoKojiro TsutsumiHisashi IgarashiSachito Fujimoto
    • F02D41/00F02D41/02F02D41/22F02M25/08
    • F02M25/0809F02D41/0037F02D41/221
    • A device for detecting abnormality of the fuel supply system of an internal combustion engine inhibits supply of evaporative fuel to the intake passage when the air-fuel ratio correction coefficient becomes smaller than a predetermined value, and thereafter determines that the fuel supply system is normal when the air-fuel ratio correction coefficient increases above the predetermined value as a result of the inhibition of the supply of the evaporative fuel. The supply of the evaporative fuel to the intake passage is resumed after the determination that the fuel supply system is normal has been made. Determination of abnormality of the fuel supply system is inhibited after resuming of the supply of the evaporative fuel until the engine enters a predetermined operating condition in which the air-fuel ratio correction coefficient has increased. The determination of abnormality of the fuel supply system is permitted to be resumed, based on the air-fuel ratio correction coefficient when the engine has entered the predetermined operating condition.
    • 一种用于检测内燃机的燃料供应系统的异常的装置,当空燃比校正系数变得小于预定值时,禁止向进气通道供应蒸发燃料,然后确定燃料供应系统正常 由于抑制了蒸发燃料的供给,空燃比校正系数增加到高于预定值。 在确定燃料供应系统正常之后,继续向进气通道供应蒸发燃料。 在继续供应蒸发燃料直到发动机进入空燃比校正系数增加的预定操作状态之后,禁止确定燃料供应系统的异常。 基于当发动机已经进入预定操作状态时的空燃比校正系数,允许确定燃料供给系统的异常。
    • 4. 发明授权
    • Evaporative fuel control system for internal combustion engines
    • 内燃机蒸发燃料控制系统
    • US5850820A
    • 1998-12-22
    • US771255
    • 1996-12-20
    • Kojiro TsutsumiShigeto KashiwabaraYasunari SekiSachito Fujimoto
    • Kojiro TsutsumiShigeto KashiwabaraYasunari SekiSachito Fujimoto
    • F02D41/00F02D41/14F02M25/08F02M37/04
    • F02M25/0809F02D41/0032F02M25/08
    • An evaporative fuel control system for an internal combustion engine having a throttle valve arranged in the intake system. A canister adsorbs evaporative fuel generated in the fuel tank. A purging passage extends between the canister and the intake system, for purging evaporative fuel into the intake system at a location downstream of the throttle valve, and a purge control valve is arranged across the purging passage, for controlling the flow rate of evaporative fuel supplied to the intake system through the purging passage. When the engine is in a predetermined operating condition, the flow rate of evaporative fuel supplied to the engine is changed by controlling the purge control valve, then the degree of influence of the evaporative fuel on an air-fuel ratio of a mixture supplied to the engine is detected before and after the changing of the flow rate of the evaporative fuel, and an operating error of the purge control valve is determined based on the detected degree of influence.
    • 一种用于内燃机的蒸发燃料控制系统,其具有布置在进气系统中的节流阀。 一个罐吸附燃料箱中产生的蒸发燃料。 清洗通道在罐和进气系统之间延伸,用于在节流阀下游的位置处将蒸发燃料吹扫到进气系统中,并且净化控制阀布置在净化通道两侧,用于控制供应的蒸发燃料的流量 通过清洗通道进入进气系统。 当发动机处于预定操作状态时,通过控制排气控制阀来改变供给发动机的蒸发燃料的流量,然后蒸发燃料对供给到发动机的混合物的空燃比的影响程度 在改变蒸发燃料的流量之前和之后检测发动机,并且基于检测到的影响程度来确定清洗控制阀的操作误差。
    • 8. 发明授权
    • Air-fuel ratio control system for internal combustion engines
    • 内燃机空燃比控制系统
    • US5676119A
    • 1997-10-14
    • US719565
    • 1996-09-25
    • Kojiro TsutsumiShuichi HosoiShigeto KashiwabaraKatsuhiko SuzukiSachito Fujimoto
    • Kojiro TsutsumiShuichi HosoiShigeto KashiwabaraKatsuhiko SuzukiSachito Fujimoto
    • F02D45/00F02D41/12F02D41/14F02D41/00
    • F02D41/1495F02D41/123
    • An air-fuel ratio control system for an internal combustion engine has an exhaust gas component concentration sensor having a sensor element and arranged in the exhaust system of the engine, for detecting concentration of a predetermined component present in exhaust gases emitted from the engine. An ECU controls the air-fuel ratio of an air-fuel mixture supplied to the engine, based on results of comparison between an output value from the sensor and a predetermined reference value, and detects deterioration of the exhaust gas component concentration sensor, based on the output value from the sensor. Engine operating condition sensors detect operating conditions of the engine. It is determined whether or not the engine is in a predetermined engine operating condition in which the sensor element temperature of the exhaust gas component concentration sensor lowers, based on outputs from the engine operating condition sensors. Detection of deterioration of the sensor is inhibited over a predetermined time period after the engine leaves the predetermined operating condition.
    • 用于内燃机的空燃比控制系统具有排气组分浓度传感器,该排气组分浓度传感器具有传感器元件并且布置在发动机的排气系统中,用于检测从发动机排出的废气中存在的预定组分的浓度。 ECU根据来自传感器的输出值与规定的基准值的比较结果,控制供给到发动机的空气燃料混合物的空燃比,并基于以下方式检测废气成分浓度传感器的劣化 传感器的输出值。 发动机工况条件传感器检测发动机的运行状况。 基于来自发动机工况条件传感器的输出,确定发动机是否处于排气组分浓度传感器的传感器元件温度降低的预定发动机工作状态。 在发动机离开预定操作状态之后的预定时间段内,抑制传感器劣化的检测。