公开(公告)号：US5494019A

公开(公告)日：1996-02-27

申请号：US370177

申请日：1995-01-09

申请人： Ken Ogawa

发明人： Ken Ogawa

IPC分类号： F02D45/00 ,  F02D41/04 ,  F02D41/34

CPC分类号： F02D41/047 ,  F02B2275/18

摘要： A control system for an internal combustion engine calculates an amount of fuel to be supplied to the engine based on load on the engine, and estimates an amount of fuel adhering to an inner wall surface of an intake passage of the engine and an amount of fuel carried off the fuel adhering to the inner wall surface of the intake passage, based on an adherent fuel-determining parameter indicative of a fuel transfer characteristic of the engine. The amount of fuel to be supplied to the engine is corrected based on the amount of fuel adhering to the inner wall surface of the intake passage and the amount of fuel carried off the fuel adhering to the inner wall surface of the intake passage to determine a corrected amount of fuel supplied to the engine. The corrected amount of fuel to be supplied to the engine is injected into the intake passage. The timing of the fuel injection is controlled based on the adherent fuel-determining parameters.

摘要翻译： 内燃机的控制系统基于发动机的负荷来计算供给到发动机的燃料量，并且估计附着在发动机的进气通路的内壁面上的燃料量和燃料量 基于指示发动机的燃料转移特性的粘附燃料确定参数，将附着在进气通道的内壁表面上的燃料带走。 基于附着到进气通道的内壁表面的燃料量和附着在进气通道的内壁表面上的燃料所携带的燃料量来校正供给发动机的燃料量，以确定 校正燃料供给发动机的量。 将要供给到发动机的校正量的燃料喷射到进气通道中。 基于粘附燃料确定参数来控制燃料喷射的时间。

公开(公告)号：US5483935A

公开(公告)日：1996-01-16

申请号：US388836

申请日：1995-02-15

申请人： Ken Ogawa ,  Yoshikazu Oshima ,  Yasunori Ehara ,  Kei Machida ,  Atsushi Kato

发明人： Ken Ogawa ,  Yoshikazu Oshima ,  Yasunori Ehara ,  Kei Machida ,  Atsushi Kato

IPC分类号： F02D21/08 ,  F02D37/02 ,  F02D41/00 ,  F02D41/04 ,  F02M25/08 ,  F02P5/04 ,  F02D43/04

CPC分类号： F02D41/0065 ,  F02D37/02 ,  F02D41/0042 ,  F02D41/0045 ,  F02D41/005 ,  F02D41/047 ,  F02M25/08 ,  F02P5/045 ,  F02B2275/18 ,  F02D41/0047 ,  Y02T10/47

摘要： A control system according to one aspect calculates a ratio of an actual amount of fuel supplied to the combustion chamber to the desired amount of fuel to be supplied to the combustion chamber, by taking into account at least an amount of evaporative fuel supplied to the combustion chamber, and sets the rate of change of the air-fuel ratio correction coefficient based on this ratio of the actual amount to the desired amount. A control system according to another aspect of the invention calculates an injected fuel ratio of an amount of fuel injected to an amount of total fuel to be supplied to the combustion chamber, and controls the ignition timing based on the injected fuel ratio and depending on operating conditions of the engine.

摘要翻译： 根据一个方面的控制系统计算供给到燃烧室的燃料的实际量与要供给到燃烧室的所需量的燃料的比率，通过考虑至少一个供给燃烧的蒸发燃料的量 并且基于该实际量与所需量的比率来设定空燃比校正系数的变化率。 根据本发明的另一方面的控制系统计算喷射的燃料量与要供应到燃烧室的总燃料量的喷射燃料比，并且基于喷射的燃料比控制点火正时，并且根据操作 发动机的条件。

公开(公告)号：US5343846A

公开(公告)日：1994-09-06

申请号：US156070

申请日：1993-11-23

申请人： Ken Ogawa ,  Yoshikazu Oshima

发明人： Ken Ogawa ,  Yoshikazu Oshima

IPC分类号： F02D45/00 ,  F02D41/00 ,  F02M25/08 ,  F02M33/02 ,  F02D41/04

CPC分类号： F02D41/0045 ,  F02B2275/18 ,  F02D41/0042

摘要： A control system for an internal combustion engine controls an amount of auxiliary air supplied to the engine in the following manner: Concentration of evaporative fuel contained in a gas purged from an evaporative emission control system into an intake passage of the engine is calculated based on a purging flow rate estimated based on operating conditions of the engine, and an output from a flowmeter arranged in the evaporative emission control system. A volume of the gas purged over a predetermined time period is calculated based on the output from the flowmeter. A parameter indicative of dynamic characteristics of the gas is calculated based on operating conditions of the engine. An amount of air contained in the purged gas drawn into a combustion chamber of the engine is calculated at least based on the concentration of evaporative fuel, the volume of the purged gas, and the parameter indicative of dynamic characteristics of the gas. The amount of auxiliary air supplied to the engine is controlled in a manner dependent on the amount of air contained in the purged gas.

摘要翻译： 用于内燃机的控制系统以下列方式控制供应给发动机的辅助空气量：从蒸发排放控制系统吹入到发动机的进气通道中的气体中所含的蒸发燃料的浓度基于 基于发动机的运行条件估计的净化流量，以及来自设置在蒸发排放控制系统中的流量计的输出。 基于流量计的输出计算在预定时间段内净化的气体体积。 基于发动机的运行条件计算表示气体的动态特性的参数。 至少基于蒸发燃料的浓度，净化气体的体积和表示气体的动态特性的参数，计算吸入到发动机的燃烧室中的净化气体中所含的空气量。 供给到发动机的辅助空气的量以取决于吹扫气体中所含的空气量的方式进行控制。

公开(公告)号：US07735477B2

公开(公告)日：2010-06-15

申请号：US11977375

申请日：2007-10-24

申请人： Toru Kitamura ,  Ken Ogawa ,  Toshinari Shinohara ,  Chiho Itoga

发明人： Toru Kitamura ,  Ken Ogawa ,  Toshinari Shinohara ,  Chiho Itoga

IPC分类号： F02B47/08

CPC分类号： F02D41/006 ,  F01L1/185 ,  F01L1/20 ,  F01L1/267 ,  F01L13/0063 ,  F01L2001/0537 ,  F01L2013/0068 ,  F01L2105/00 ,  F01L2800/00 ,  F02D13/0246 ,  F02D41/1446 ,  F02M26/01 ,  Y02T10/18 ,  Y02T10/47

摘要： An internal EGR control system for an internal combustion engine, which is capable of controlling the internal EGR amount with accuracy, when controlling the internal EGR by changing both the exhaust cam phase and the exhaust valve lift. An internal EGR control system for an internal combustion engine controls internal EGR in which combustion gases are caused to remain in a cylinder. An ECU sets a target cam phase serving as a target of the exhaust cam phase, and controls a variable exhaust cam phase mechanism such that the exhaust cam phase becomes equal to the target cam phase. ECU 2 sets a target lift of an exhaust valve according to a detected actual cam phase and calculated valve-closing timing, and controls a variable exhaust valve lift mechanism such that the lift of the exhaust valve becomes equal to the target lift.

摘要翻译： 一种用于内燃机的内部EGR控制系统，其能够通过改变排气凸轮相位和排气门升程来控制内部EGR时能够精确地控制内部EGR量。 用于内燃机的内部EGR控制系统控制使燃烧气体保持在气缸中的内部EGR。 ECU设置用作排气凸轮相位的目标的目标凸轮相位，并且控制可变排气凸轮相位机构，使得排气凸轮相位变得等于目标凸轮相位。 ECU2根据检测到的实际凸轮相位和计算出的关闭时间来设定排气门的目标升程，并且控制可变排气门提升机构，使得排气门的升程变得等于目标升程。

公开(公告)号：US20090240422A1

公开(公告)日：2009-09-24

申请号：US12399538

申请日：2009-03-06

申请人： Chiho Itoga ,  Ken Ogawa ,  Toru Kitamura

发明人： Chiho Itoga ,  Ken Ogawa ,  Toru Kitamura

IPC分类号： F02D41/00

CPC分类号： F02D41/006 ,  F02D13/0246 ,  F02D13/0265 ,  F02D41/1446 ,  F02D41/1448 ,  F02D41/3035 ,  F02D2041/001 ,  Y02T10/18 ,  Y02T10/47

摘要： An internal EGR control device for an internal combustion engine, which is capable of properly controlling an internal EGR amount, while causing conditions of burned gases to be reflected thereon in controlling the internal EGR by changing valve-closing timing of an exhaust valve. An internal EGR control device sets a target internal EGR amount EGRINCMD as a target of the internal EGR amount according to detected operating conditions of an internal combustion engine, and a target internal EGR amount EGRINC is determined by correcting the target internal EGR amount based on a gas state equation, using obtained temperature and pressure of exhaust gases, and a calculated gas constant R. Then, according to the corrected target internal EGR amount EGRINC, the valve-closing timing of an exhaust valve is calculated, and a variable valve mechanism is controlled based on the calculated valve-closing timing of the exhaust valve.

摘要翻译： 一种用于内燃机的内部EGR控制装置，其能够通过改变排气门的关闭正时来控制内部EGR，同时在其上反射燃烧气体的条件，从而适当地控制内部EGR量。 内部EGR控制装置根据检测到的内燃机的运转条件将目标内部EGR量EGRINCMD设定为内部EGR量的目标，通过基于内燃机的目标内部EGR量修正来确定目标内部EGR量EGRINC 气体状态方程，使用得到的废气温度和压力以及计算出的气体常数R.然后，根据校正的目标内部EGR量EGRINC，计算出排气阀的关闭正时，并且可变阀机构为 基于计算出的排气阀的关闭时间来控制。

公开(公告)号：US20080210198A1

公开(公告)日：2008-09-04

申请号：US12000555

申请日：2007-12-13

申请人： Takuya Yamada ,  Teruyoshi Morita ,  Yoshikazu Ishitsuka ,  Naoaki Takeda ,  Atsushi Umemoto ,  Ken Ogawa ,  Noritaka Kimura ,  Takeo Kobayashi

发明人： Takuya Yamada ,  Teruyoshi Morita ,  Yoshikazu Ishitsuka ,  Naoaki Takeda ,  Atsushi Umemoto ,  Ken Ogawa ,  Noritaka Kimura ,  Takeo Kobayashi

IPC分类号： F02B23/10

CPC分类号： F02B23/101 ,  F02B2023/103 ,  F02B2075/125 ,  F02B2275/16 ,  F02D13/0249 ,  F02D35/02 ,  F02D41/3023 ,  F02D41/3094 ,  F02M61/1826 ,  F02M61/1853 ,  F02M69/046 ,  Y02T10/123 ,  Y02T10/125

摘要： An air-fuel ratio of an air-fuel mixture produced by fuel injected from a first injector into an intake port (or into a combustion chamber) is set in a range of 28 to 38. Therefore, when the temperature and pressure rise with a first combustion started by spark-ignition around a spark plug to the fuel injected from a second injector into the combustion chamber, the timing of starting a second compressive hypergolic ignition is optimized to provide a stable combustion state free of knocking and misfire.

摘要翻译： 将从第一喷射器喷射到进气口（或燃烧室）中的燃料产生的空气燃料混合物的空燃比设定在28〜38的范围内。因此，当温度和压力随着 第一次燃烧通过火花塞周围的火花点火从第二喷射器喷射到燃烧室中的燃料开始，优化开始第二压缩高压点火的时间以提供没有爆震和失火的稳定的燃烧状态。

公开(公告)号：US20080162021A1

公开(公告)日：2008-07-03

申请号：US12005738

申请日：2007-12-28

申请人： Chiho Itoga ,  Ken Ogawa ,  Toru Kitamura ,  Toshinari Shinohara

发明人： Chiho Itoga ,  Ken Ogawa ,  Toru Kitamura ,  Toshinari Shinohara

IPC分类号： F02D21/08 ,  F02B47/08 ,  F02D41/30 ,  F02M25/07

CPC分类号： F02D41/3023 ,  F02D41/0057 ,  F02D41/006 ,  F02D41/0065 ,  F02D41/221 ,  F02D41/3041 ,  F02D41/3047 ,  F02D2041/3052 ,  Y02T10/47

摘要： A control apparatus and method for an internal combustion engine are provided for ensuring a stable combustion state and improving the fuel efficiency when an air-fuel mixture is burnt with self ignition while auxiliarily using a spark ignition. The control apparatus for an internal combustion engine which is operated in a plurality of modes including a torch self ignition combustion mode comprises an ECU. In the torch self ignition combustion mode, the ECU controls an internal EGR amount, calculates an actual exhaust closing angle, calculates a target exhaust closing angle, calculates a closing angle deviation, calculates a fuel injection amount for forming a homogeneous air-fuel mixture, calculates a correction coefficient in accordance with the closing angle deviation, and corrects a basic value by the correction coefficient to calculate a fuel injection amount for forming a stratified air-fuel mixture.

摘要翻译： 提供一种用于内燃机的控制装置和方法，用于确保稳定的燃烧状态，并且在辅助使用火花点火时空燃混合物自燃时燃烧效率提高。 用于包括割炬自点燃燃烧模式的多种模式的内燃机的控制装置包括ECU。 在火炬自点燃燃烧模式中，ECU控制内部EGR量，计算实际排气关闭角度，计算目标排气关闭角度，计算闭合角度偏差，计算用于形成均匀空气 - 燃料混合物的燃料喷射量， 根据闭合角度偏差计算校正系数，并通过校正系数校正基本值，以计算用于形成分层空气 - 燃料混合物的燃料喷射量。

公开(公告)号：US20080162020A1

公开(公告)日：2008-07-03

申请号：US12005705

申请日：2007-12-27

申请人： Chiho Itoga ,  Ken Ogawa ,  Toru Kitamura ,  Toshinari Shinohara

发明人： Chiho Itoga ,  Ken Ogawa ,  Toru Kitamura ,  Toshinari Shinohara

IPC分类号： F01N9/00 ,  F02B47/08 ,  F01L1/04 ,  F01L1/344 ,  F02M25/07 ,  F02D13/02 ,  F02D21/08

CPC分类号： F01L13/0063 ,  F01L1/185 ,  F01L1/20 ,  F01L1/344 ,  F01L2001/0537 ,  F01L2105/00 ,  F01L2800/00 ,  F01L2800/10 ,  F01L2820/02 ,  F02D13/0265 ,  F02D21/08 ,  F02M26/28 ,  F02M26/48 ,  F02M26/53 ,  Y02T10/18

摘要： An EGR control apparatus and method for an internal combustion engine which burns an air-fuel mixture with self ignition in addition to a flame propagation combustion, are provided for improving the combustion efficiency, engine output, drivability, and exhaust gas characteristics in an internal combustion engine which involves a self ignition combustion of an air-fuel mixture in addition to a flame propagation combustion. The EGR control apparatus comprises an ECU which selects one of a stratified self ignition mode, a stratified flame propagation combustion mode, and a homogeneous flame propagation combustion mode, sets a total target EGR amount and a target in-cylinder gas temperature in accordance with the selected combustion mode, calculates a target internal EGR amount in accordance with the value, calculates a target external EGR amount by subtracting the target internal EGR amount from the total target EGR amount, and controls the internal EGR amount and the external EGR amount to be the target internal EGR amount and the target external EGR amount, respectively, by driving three mechanisms.

摘要翻译： 提供了一种用于内燃机的EGR控制装置和方法，其用于燃烧除了火焰传播燃烧之外的具有自点火的空气燃料混合物，以提高内燃中的燃烧效率，发动机输出，驾驶性能和排气特性 发动机除了火焰传播燃烧之外还涉及空燃混合物的自点燃燃烧。 EGR控制装置包括选择分层自点火模式，分层火焰传播燃烧模式和均匀火焰传播燃烧模式中的一种的ECU，根据该EGR控制装置设定总目标EGR量和目标缸内气体温度 选择燃烧模式，根据该值计算目标内部EGR量，通过从总目标EGR量减去目标内部EGR量来计算目标外部EGR量，并且将内部EGR量和外部EGR量控制为 目标内部EGR量和目标外部EGR量分别通过驱动三种机制。

公开(公告)号：US20080162015A1

公开(公告)日：2008-07-03

申请号：US12005363

申请日：2007-12-27

申请人： Toshinari Shinohara ,  Ken Ogawa ,  Toru Kitamura ,  Chiho Itoga

发明人： Toshinari Shinohara ,  Ken Ogawa ,  Toru Kitamura ,  Chiho Itoga

IPC分类号： F02D41/36

CPC分类号： F02D41/047 ,  F02D41/3029 ,  F02D41/3041 ,  F02D41/3047 ,  F02D41/3094 ,  F02D2041/3052 ,  F02D2041/389 ,  F02D2200/021

摘要： A fuel injection control apparatus and method for an internal combustion engine are provided for appropriately controlling the amounts of fuel supplied from an in-cylinder fuel injection valve and a port fuel injection valve to a cylinder in a simple control approach while satisfactorily reflecting a fuel transport behavior as a whole cylinder. An ECU calculates a required in-cylinder injection amount and a required port injection amount, calculates an in-cylinder injected fuel behavior parameter of a fuel from the in-cylinder fuel injection valve and a port injected fuel behavior parameter of the fuel from the port fuel injection valve, a net in-cylinder injection amount in accordance with the in-cylinder and port injected fuel behavior parameters based on the required in-cylinder injection amount, and a net port injection amount in accordance with the in-cylinder and port injected fuel behavior parameters based on the required port injection amount.

摘要翻译： 一种用于内燃机的燃料喷射控制装置和方法，用于以简单的控制方式适当地控制从缸内燃料喷射阀和端口燃料喷射阀供给到燃料缸的燃料量，同时令人满意地反映燃料运输 作为一个整体的行为。 ECU计算所需的缸内喷射量和所需的喷射量，计算来自缸内燃料喷射阀的燃料的缸内喷射燃料行为参数和来自端口的燃料的喷射燃料行为参数 燃料喷射阀，基于所需缸内喷射量的根据缸内和端口喷射燃料行为参数的净缸内喷射量，以及根据缸内和喷油口喷射的净喷嘴量 燃料行为参数基于所需的端口喷射量。

公开(公告)号：US07314041B2

公开(公告)日：2008-01-01

申请号：US11523671

申请日：2006-09-20

申请人： Ken Ogawa ,  Toru Kitamura ,  Atsushi Umemoto ,  Toshinari Shinohara ,  Mitsuru Sugimoto ,  Tetsuaki Nakano

发明人： Ken Ogawa ,  Toru Kitamura ,  Atsushi Umemoto ,  Toshinari Shinohara ,  Mitsuru Sugimoto ,  Tetsuaki Nakano

IPC分类号： F02M25/07 ,  F02B47/08 ,  F01L1/34 ,  G06F19/00

CPC分类号： F02D41/0065 ,  F02D13/0219 ,  F02D13/0246 ,  F02D13/0265 ,  F02D41/006 ,  F02D41/0062 ,  F02D41/0072 ,  F02D41/187 ,  F02D2041/001 ,  F02D2041/1409 ,  F02D2200/0406 ,  F02M26/01 ,  F02M26/48 ,  Y02T10/18 ,  Y02T10/47

摘要： An EGR control system that is capable of controlling the amount of recirculation of high-temperature and low-temperature recirculated gases, with high accuracy, to thereby improve the control accuracy of in-cylinder temperature. An ECU of an ERG control system calculates a fresh intake air ratio, and sets a target value of the fresh intake air ratio. The ECU calculates a feedback correction coefficient for converging the fresh intake air ratio to the target value, with an I-PD control algorithm, and sets an external EGR ratio and an internal EGR ratio. The ECU controls the EGR amount whose ratio is the larger, according to the larger one of the two ratios and the feedback correction coefficient, and controls the EGR amount whose ratio is the smaller, according to the smaller of the ratios and the learned value thereof.

摘要翻译： 一种EGR控制系统，其能够高精度地控制高温和低温再循环气体的再循环量，从而提高缸内温度的控制精度。 ERG控制系统的ECU计算新鲜进气比，并设定新鲜进气量的目标值。 ECU利用I-PD控制算法计算用于将新鲜进气比与目标值收敛的反馈校正系数，并设定外部EGR率和内部EGR率。 ECU根据两个比率和反馈校正系数中较大的一个来控制其比率越大的EGR量，并且根据比率和学习值来控制比率越小的EGR量 。