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    • 1. 发明授权
    • Air-fuel ratio control device for internal combustion engine
    • 内燃机空燃比控制装置
    • US09212583B2
    • 2015-12-15
    • US14117440
    • 2011-05-16
    • Takahiko FujiwaraKoichi KimuraMakoto TomimatsuJunichi Suzuki
    • Takahiko FujiwaraKoichi KimuraMakoto TomimatsuJunichi Suzuki
    • F01N3/00F01N3/10F02D41/02F02D41/14F02D41/18
    • F01N3/10F01N3/101F02D41/0295F02D41/10F02D41/1441F02D41/1454F02D41/1456F02D41/18F02D41/187F02D2041/1412F02D2200/501Y02A50/2324Y02T10/22
    • An air-fuel ratio control apparatus for an internal combustion engine according to an embodiment of the invention (the present control apparatus) sets a target air-fuel ratio to a target rich air-fuel ratio when it is determined on the basis of the output value Voxs of a downstream air-fuel ratio sensor 67 that the oxygen adsorption amount of a catalyst 43 tends to be excessive, and sets the target air-fuel ratio to a target lean air-fuel ratio when it is determined on the basis of the output value Voxs that the oxygen adsorption amount of the catalyst 43 tends to be insufficient. Further, the present control apparatus determines whether or not an operation state in which a large amount of nitrogen oxide flows into the catalyst 43 is reached on the basis of “whether a predetermined condition is fulfilled”, and makes the target rich air-fuel ratio obtained when the predetermined condition is fulfilled less than the target rich air-fuel ratio obtained when the predetermined condition is not fulfilled. As a result, the concentration of a reducing agent inside the catalyst 43 can be increased before a large amount of NOx flows into the catalyst 43. Therefore, when a large amount of NOx flows into the catalyst 43, most of the NOx can be eliminated.
    • 根据本发明的实施例的内燃机的空燃比控制装置(本控制装置)在基于输出确定目标空燃比时,将目标空燃比设定为目标浓空燃比 下游空燃比传感器67的值Voxs,催化剂43的氧吸附量倾向于过大,并且当基于该催化剂43确定目标空燃比时,将目标空燃比设定为目标稀燃比 输出值Vox,催化剂43的氧吸附量趋于不足。 此外,本控制装置基于“是否满足预定条件”来确定是否达到大量氮氧化物流入催化剂43的操作状态,并且使目标浓空燃比 当预定条件满足小于当不满足预定条件时获得的目标浓空燃比时获得的。 结果,在大量的NOx流入催化剂43之前,可以增加催化剂43内的还原剂的浓度。因此,当大量的NO x流入催化剂43时,可以消除大部分的NOx 。
    • 3. 发明申请
    • AIR-FUEL RATIO CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE
    • 用于内燃机的空燃比比控制装置
    • US20140283504A1
    • 2014-09-25
    • US14117440
    • 2011-05-16
    • Takahiko FujiwaraKoichi KimuraMakoto TomimatsuJunichi Suzuki
    • Takahiko FujiwaraKoichi KimuraMakoto TomimatsuJunichi Suzuki
    • F01N3/10
    • F01N3/10F01N3/101F02D41/0295F02D41/10F02D41/1441F02D41/1454F02D41/1456F02D41/18F02D41/187F02D2041/1412F02D2200/501Y02A50/2324Y02T10/22
    • An air-fuel ratio control apparatus for an internal combustion engine according to an embodiment of the invention (the present control apparatus) sets a target air-fuel ratio to a target rich air-fuel ratio when it is determined on the basis of the output value Voxs of a downstream air-fuel ratio sensor 67 that the oxygen adsorption amount of a catalyst 43 tends to be excessive, and sets the target air-fuel ratio to a target lean air-fuel ratio when it is determined on the basis of the output value Voxs that the oxygen adsorption amount of the catalyst 43 tends to be insufficient. Further, the present control apparatus determines whether or not an operation state in which a large amount of nitrogen oxide flows into the catalyst 43 is reached on the basis of “whether a predetermined condition is fulfilled”, and makes the target rich air-fuel ratio obtained when the predetermined condition is fulfilled less than the target rich air-fuel ratio obtained when the predetermined condition is not fulfilled. As a result, the concentration of a reducing agent inside the catalyst 43 can be increased before a large amount of NOx flows into the catalyst 43. Therefore, when a large amount of NOx flows into the catalyst 43, most of the NOx can be eliminated.
    • 根据本发明的实施例的内燃机的空燃比控制装置(本控制装置)在基于输出确定目标空燃比时,将目标空燃比设定为目标浓空燃比 下游空燃比传感器67的值Voxs,催化剂43的氧吸附量倾向于过大,并且当基于该催化剂43确定目标空燃比时,将目标空燃比设定为目标稀燃比 输出值Vox,催化剂43的氧吸附量趋于不足。 此外,本控制装置基于“是否满足预定条件”来确定是否达到大量氮氧化物流入催化剂43的操作状态,并且使目标浓空燃比 当预定条件满足小于当不满足预定条件时获得的目标浓空燃比时获得的。 结果,在大量的NOx流入催化剂43之前,可以增加催化剂43内的还原剂的浓度。因此,当大量的NO x流入催化剂43时,可以消除大部分的NOx 。
    • 5. 发明授权
    • Air-fuel ratio control apparatus for an internal combustion engine
    • 用于内燃机的空燃比控制装置
    • US09261032B2
    • 2016-02-16
    • US13980467
    • 2011-01-18
    • Ryota OnoeTakahiko FujiwaraMakoto TomimatsuJunichi Suzuki
    • Ryota OnoeTakahiko FujiwaraMakoto TomimatsuJunichi Suzuki
    • F01N3/00F02D41/00F02D41/02F02D41/14F01N3/10F02D41/12
    • F02D41/00F01N3/101F01N3/105F02D41/0295F02D41/126F02D41/1439F02D41/1441F02D41/1454F02D41/1456F02D2200/0814Y02T10/22
    • An air-fuel ratio control apparatus for an internal combustion engine of the present invention determines whether or not a lean request has occurred, based on a comparison between a value correlating with an output value of the downstream air-fuel ratio sensor disposed downstream of the catalyst (downstream air-fuel ratio sensor output correlating value) and a predetermined lean request determining value, and determines whether or not a rich request has occurred, based on a comparison between the downstream air-fuel ratio sensor output correlating value and a predetermined rich request determining value. Further, the air-fuel ratio control apparatus calculates a total amount of oxygen (released oxygen amount) released from the catalyst in the rich request occurring period, and calculates an integrated value (present stored oxygen amount) of oxygen stored in the catalyst after a start of the lean request occurring period which follows the rich request occurring period. The apparatus changes the rich request determining value in such a manner that a point in time at which it is determined that the rich request has occurred comes much earlier as the present stored oxygen amount comes closer to the released oxygen amount.
    • 本发明的用于内燃机的空燃比控制装置基于与下游空燃比传感器的输出值相关联的值的比较来确定是否发生了精益请求, 催化剂(下游空燃比传感器输出相关值)和预定的稀薄要求确定值,并且基于下游空燃比传感器输出相关值和预定浓度之间的比较来确定是否发生了丰富请求 请求确定值。 此外,空燃比控制装置计算在富请求发生期间从催化剂释放的氧的总量(释放氧量),并计算在催化剂中存储的氧的积分值(存储的氧量) 紧随需求发生期的精益发送期的开始。 该装置以这样一种方式改变富请求确定值,使得确定富请求已经发生的时间点早于当前存储的氧量接近释放的氧量。
    • 6. 发明申请
    • AIR-FUEL RATIO CONTROL APPARATUS FOR AN INTERNAL COMBUSTION ENGINE
    • 用于内燃机的空燃比比控制装置
    • US20130338904A1
    • 2013-12-19
    • US13980467
    • 2011-01-18
    • Ryota OnoeTakahiko FujiwaraMakoto TomimatsuJunichi Suzuki
    • Ryota OnoeTakahiko FujiwaraMakoto TomimatsuJunichi Suzuki
    • F02D41/00
    • F02D41/00F01N3/101F01N3/105F02D41/0295F02D41/126F02D41/1439F02D41/1441F02D41/1454F02D41/1456F02D2200/0814Y02T10/22
    • An air-fuel ratio control apparatus for an internal combustion engine of the present invention determines whether or not a lean request has occurred, based on a comparison between a value correlating with an output value of the downstream air-fuel ratio sensor disposed downstream of the catalyst (downstream air-fuel ratio sensor output correlating value) and a predetermined lean request determining value, and determines whether or not a rich request has occurred, based on a comparison between the downstream air-fuel ratio sensor output correlating value and a predetermined rich request determining value. Further, the air-fuel ratio control apparatus calculates a total amount of oxygen (released oxygen amount) released from the catalyst in the rich request occurring period, and calculates an integrated value (present stored oxygen amount) of oxygen stored in the catalyst after a start of the lean request occurring period which follows the rich request occurring period. The apparatus changes the rich request determining value in such a manner that a point in time at which it is determined that the rich request has occurred comes much earlier as the present stored oxygen amount comes closer to the released oxygen amount.
    • 本发明的用于内燃机的空燃比控制装置基于与下游空燃比传感器的输出值相关联的值的比较来确定是否发生了精益请求, 催化剂(下游空燃比传感器输出相关值)和预定的稀薄要求确定值,并且基于下游空燃比传感器输出相关值和预定浓度之间的比较来确定是否发生了丰富请求 请求确定值。 此外,空燃比控制装置计算在富请求发生期间从催化剂释放的氧的总量(释放氧量),并计算在催化剂中存储的氧的积分值(存储的氧量) 紧随需求发生期的精益发送期的开始。 该装置以这样一种方式改变富请求确定值,使得确定富请求已经发生的时间点早于当前存储的氧量接近释放的氧量。
    • 9. 发明申请
    • AIR-FUEL RATIO CONTROL APPARATUS FOR AN INTERNAL COMBUSTION ENGINE
    • 用于内燃机的空燃比比控制装置
    • US20130179051A1
    • 2013-07-11
    • US13825705
    • 2010-09-24
    • Makoto TomimatsuTakahiko Fujiwara
    • Makoto TomimatsuTakahiko Fujiwara
    • F02D41/02
    • F02D41/0235F01N13/008F01N13/0093F01N2560/025F02D17/02F02D41/0085F02D41/1441F02D41/1454F02D41/1458F02D41/1463F02D41/2454Y02T10/22
    • An embodiment (control apparatus) of an air-fuel ratio control apparatus according to the present invention determines, based on an output value Voxs of a downstream air-fuel ratio sensor 56 disposed at a position downstream of a three-way catalyst 43, which air-fuel request is occurring, a rich request or a lean request. The control apparatus sets an air-fuel ratio of each cylinder (cylinder-by-cylinder air-fuel ratio) to a rich air-fuel ratio when the rich request is occurring, and sets the cylinder-by-cylinder air-fuel ratio to a lean air-fuel ratio when the lean request is occurring. The control apparatus has a cylinder-by-cylinder air-fuel ratio of a specific cylinder different from a cylinder-by-cylinder air-fuel ratio of the other cylinder so as to obtain a fluctuation period correlated value indicative of a fluctuation of the output value Voxs of the downstream air-fuel ratio sensor 56, and determines an influence/impact degree on the output value of the downstream air-fuel ratio sensor of an exhaust gas discharged from each of a plurality of cylinders, based on the fluctuation period correlated value. Further, the control apparatus controls the air-fuel ratio of each cylinder in accordance with the influence degree.
    • 根据本发明的空燃比控制装置的一个实施例(控制装置)基于设置在三元催化剂43下游的下游空燃比传感器56的输出值Voxs, 空气燃料请求正在发生,丰富的请求或精益请求。 控制装置在发生丰满请求时将各气缸的空燃比(气缸/空气比)逐个设定为浓空燃比,并且将逐缸空燃比设定为 在发生精益请求时的贫空燃比。 所述控制装置具有与所述另一个气缸的与所述气缸的空燃比不同的特定气缸的逐缸空燃比,以获得表示所述输出的波动的波动周期相关值 下游空燃比传感器56的Vox值,并且基于波动周期相关地确定对从多个气缸中的每一个排出的排气的下游空燃比传感器的输出值的影响/冲击程度 值。 此外,控制装置根据影响程度来控制各气缸的空燃比。