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    • 1. 发明授权
    • Intake-air quantity control apparatus for internal combustion engine with variable valve timing system
    • 具有可变气门正时系统的内燃机进气量控制装置
    • US06234144B1
    • 2001-05-22
    • US09478214
    • 2000-01-05
    • Musashi YamaguchiTakeaki ObataNobutaka Takahashi
    • Musashi YamaguchiTakeaki ObataNobutaka Takahashi
    • F02D908
    • F02D13/0215F01L9/04F01L2201/00F01L2800/00F02D13/0234F02D13/0253F02D41/0002F02D41/1458F02D41/182F02D41/187F02D2041/001F02D2041/002F02D2200/0402F02D2200/0404F02D2200/0408F02D2200/0411Y02T10/18Y02T10/42
    • An intake-air quantity control apparatus for an internal combustion engine with a variable valve timing system associated with at least an intake valve, comprises a control unit controlling an intake-air quantity of air entering the internal combustion engine based on at least one of an intake valve open timing and an intake valve closure timing of the intake valve. The control unit determines a desired internal pressure in an intake-air passage based on a predetermined operating parameter, and detecting an operation delay-time fluctuation rate for at least the intake valve. A desired intake-air quantity is arithmetically calculated on the basis of engine operating conditions. The control unit includes a compensation section which compensates for the desired internal pressure based on at least one of the operation delay-time fluctuation rate and the desired intake-air quantity to produce a compensated internal pressure. A throttle opening is controlled depending on both the compensated internal pressure and the desired intake-air quantity. Also, the intake valve open timing and the intake valve closure timing are controlled depending on both the compensated internal pressure and the desired intake-air quantity.
    • 一种用于具有至少与进气阀相关的可变气门正时系统的内燃机的进气量控制装置,包括:控制单元,其基于以下中的至少一个来控​​制进入内燃机的空气的进气量: 进气门打开正时和进气门关闭正时。 控制单元基于预定的操作参数确定进气通道中的期望的内部压力,并且至少检测进气门的运行延迟时间波动率。 根据发动机工作条件算出所需的进气量。 控制单元包括补偿部分,其基于运行延迟时间波动率和期望进气量中的至少一个来补偿期望的内部压力,以产生补偿的内部压力。 根据补偿的内部压力和期望的进气量来控制节气门开度。 此外,根据补偿的内部压力和期望的进气量来控制进气门打开正时和进气门关闭正时。
    • 2. 发明授权
    • Intake air control system of internal combustion engine
    • 内燃机进气控制系统
    • US06263857B1
    • 2001-07-24
    • US09481683
    • 2000-01-12
    • Takeaki ObataNobutaka Takahashi
    • Takeaki ObataNobutaka Takahashi
    • F02D900
    • F02D13/0215F01L9/04F01L2201/00F02D13/0253F02D41/0002F02D2041/001F02D2041/002Y02T10/42
    • An intake air control system for an engine having an air intake passage, a throttle valve in the intake passage and an intake valve for selectively opening and closing communication between the intake passage and a cylinder. The control system determines target intake passage pressure and target intake air amount in accordance with engine operating conditions. A target throttle opening is set in accordance with both the target pressure and the target intake air amount. The throttle valve is then driven to the target opening. Intake passage pressure is detected and a target intake valve open/close timing is determined in accordance with both the detected intake passage pressure and the target intake air amount. The intake valve is then driven in accordance with the target open/close timing.
    • 一种用于具有进气通道,进气通道中的节流阀和用于选择性地打开和关闭进气通道和气缸之间的连通的进气门的发动机的进气控制系统。 控制系统根据发动机工作条件确定目标进气通道压力和目标进气量。 根据目标压力和目标吸入空气量来设定目标节气门开度。 然后将节流阀驱动到目标开口。 检测进气通道压力,并且根据检测到的进气通道压力和目标进气量确定目标进气门打开/关闭正时。 然后根据目标打开/关闭时间驱动进气门。
    • 3. 发明授权
    • Control system for internal combustion engine
    • 内燃机控制系统
    • US06178945B2
    • 2001-01-30
    • US09542988
    • 2000-04-04
    • Keisuke SuzukiNobutaka TakahashiTakeaki Obata
    • Keisuke SuzukiNobutaka TakahashiTakeaki Obata
    • F02B1700
    • F02D37/02F02D41/083F02D41/3029F02D41/3064F02D41/345F02D2250/18F02P5/04Y02T10/128Y02T10/44
    • When an air conditioner is turned on during homogeneous operation, an equivalence ratio correction factor &Dgr;&phgr; is increased sharply and suddenly in such a manner as to show a jump for thereby increasing an engine output torque, and thereafter is decreased gradually with increase of a cylinder intake air quantity, whereby to maintain the engine output torque constant. However, when switching to a homogeneous mode occurs in the middle of the above control, switching to proper torque correction is not carried out at the time of a homogeneous combustion mode, i.e., torque correction by the use of ignition timing but the torque correction by the equivalence ratio correction factor &Dgr;&phgr; continuously. By this, in contrast to the case in which the torque correction is switched to one that is carried out by the use of ignition timing correction quantity, a sharp and sudden variation of engine output torque can be prevented. In the meantime, after completion of the torque correction by the above mentioned control, the torque correction at the time of the homogeneous combustion mode is carried out by ignition timing correction. Further, when the combustion mode is switched to stratified combustion during execution of torque correction by ignition timing correction at the time of the homogeneous combustion mode, the torque correction is switched to one that is carried out by the use of the equivalence ratio correction factor simultaneously with switching of the combustion mode.
    • 当均匀运转时空调开启时,等效比修正系数DELTAphi急剧急剧地增大,从而显示跳跃,从而提高发动机输出转矩,此后随着气缸进气量的增加而逐渐减小 空气量,从而维持发动机输出转矩恒定。 然而,在上述控制的中间发生切换到均匀模式时,在均匀燃烧模式时不进行切换到适当的扭矩校正,即通过使用点火正时进行转矩校正,而是通过使用点火正时的转矩校正 等效比率校正因子DELTAphi不断。 由此,与通过使用点火正时校正量进行转矩修正的情况相反,可以防止发动机输出转矩的急剧变化。 同时,在通过上述控制完成扭矩校正之后,通过点火正时校正来进行均质燃烧模式时的扭矩校正。 此外,当在均匀燃烧模式时通过点火正时校正在执行扭矩校正期间将燃烧模式切换到分层燃烧时,转矩校正被切换为通过使用当量比校正因子同时进行的转矩校正 随着燃烧模式的切换。
    • 5. 发明授权
    • Control system for internal combustion engine
    • 内燃机控制系统
    • US5832895A
    • 1998-11-10
    • US901963
    • 1997-07-29
    • Nobutaka TakahashiKeisuke SuzukiTakeaki Obata
    • Nobutaka TakahashiKeisuke SuzukiTakeaki Obata
    • F02D9/02F02D11/10F02D31/00F02D33/00F02D41/04F02D41/14F02D41/30F02D43/00F02D45/00F02D41/00
    • F02D11/105F02D31/002F02D33/00F02D41/3029Y02T10/128
    • A control system for an internal combustion engine having an intake air amount regulating device and a fuel supply device. The control system comprises a device for detecting an engine operating condition of the engine, and a control unit. The control unit is configured to perform (a) calculating a basic fuel supply amount of fuel to be supplied to a combustion chamber of the engine in accordance with the engine operating; (b) calculating a lean limit air-fuel ratio in accordance with the engine operating condition, stable combustion in the combustion chamber being impossible at the air-fuel ratio leaner than the lean limit air-fuel ratio; (c) calculating a target intake air amount of intake air to be supplied to the combustion chamber, required for meeting the basic fuel supply amount and the lean limit air-fuel ratio; (d) controlling the intake air amount regulating device so as to regulate an intake air amount of the intake air to the target intake air amount and controlling the fuel supply device so as to regulate a fuel supply amount of the fuel to realize the lean limit air-fuel ratio, within a first engine operating condition (such an engine idling condition) which is within a predetermined low range in engine speed and in engine load; and (e) controlling the intake air amount regulating device so as to increase the intake air amount to fall within a high range between the maximum level and a level lower a predetermined amount than the maximum level and controlling fuel supply device so as to supply the fuel such that the air-fuel ratio falls within a predetermined range, within a second engine operating condition which is higher in at least one of engine speed and engine load than the first engine operating condition.
    • 一种具有进气量调节装置和燃料供给装置的内燃机的控制系统。 控制系统包括用于检测发动机的发动机工作状态的装置和控制单元。 控制单元被配置为执行(a)根据发动机操作来计算要供应到发动机的燃烧室的燃料的基本燃料供应量; (b)根据发动机运转条件计算稀薄极限空燃比,在稀燃极限空燃比比空燃比下不可能在燃烧室内稳定燃烧; (c)计算供应到所述燃烧室的进气的目标吸入空气量,以满足所述基本燃料供给量和所述稀薄极限空燃比的要求; (d)控制进气量调节装置,以将进气的进气量调节到目标进气量,并控制燃料供应装置,以便调节燃料的燃料供应量以实现稀薄限制 在发动机转速和发动机负荷的预定低范围内的第一发动机运转状态(发动机空转状态)内的空燃比; 以及(e)控制进气量调节装置,以使进气量落在最大水平与最大水位以下的预定量的水平之间的高范围内,并且控制燃料供应装置, 燃料,使得空燃比落入规定范围内,在发动机转速和发动机负荷以上的第一发动机运转状态下比第一发动机运转状态高。
    • 6. 发明授权
    • Control system for internal combustion engine
    • 内燃机控制系统
    • US06050238A
    • 2000-04-18
    • US110413
    • 1998-07-06
    • Keisuke SuzukiNobutaka TakahashiTakeaki Obata
    • Keisuke SuzukiNobutaka TakahashiTakeaki Obata
    • F02D37/02F02D41/08F02D41/30F02D41/34F02P5/04F02B17/00
    • F02D37/02F02D41/083F02D41/3029F02D41/3064F02D41/345F02P5/04F02D2250/18Y02T10/128Y02T10/44
    • When an air conditioner is turned on during homogeneous operation, an equivalence ratio correction factor .DELTA. .phi. is increased sharply and suddenly in such a manner as to show a jump for thereby increasing an engine output torque, and thereafter is decreased gradually with increase of a cylinder intake air quantity, whereby to maintain the engine output torque constant. However, when switching to a homogeneous mode occurs in the middle of the above control, switching to proper torque correction is not carried out at the time of a homogeneous combustion mode, i.e., torque correction by the use of ignition timing but the torque correction by the equivalence ratio correction factor .DELTA. .phi. continuously. By this, in contrast to the case in which the torque correction is switched to one that is carried out by the use of ignition timing correction quantity, a sharp and sudden variation of engine output torque can be prevented. In the meantime, after completion of the torque correction by the above mentioned control, the torque correction at the time of the homogeneous combustion mode is carried out by ignition timing correction. Further, when the combustion mode is switched to stratified combustion during execution of torque correction by ignition timing correction at the time of the homogeneous combustion mode, the torque correction is switched to one that is carried out by the use of the equivalence ratio correction factor simultaneously with switching of the combustion mode.
    • 当在均匀运转时空调机开启时,等效比率校正系数DELTA phi以显示跳跃的方式急剧急剧地增加,从而增加发动机输出转矩,然后随着气缸的增加逐渐减小 进气量,从而维持发动机输出转矩恒定。 然而,在上述控制的中间发生切换到均匀模式时,在均匀燃烧模式时不进行切换到适当的扭矩校正,即通过使用点火正时进行转矩校正,而是通过使用点火正时的转矩校正 等效比率校正因子DELTA phi连续。 由此,与通过使用点火正时校正量进行转矩修正的情况相反,可以防止发动机输出转矩的急剧变化。 同时,在通过上述控制完成扭矩校正之后,通过点火正时校正来进行均质燃烧模式时的扭矩校正。 此外,当在均匀燃烧模式时通过点火正时校正在执行扭矩校正期间将燃烧模式切换到分层燃烧时,转矩校正被切换为通过使用当量比校正因子同时进行的转矩校正 随着燃烧模式的切换。
    • 7. 发明授权
    • Apparatus for controlling internal combustion engine
    • 用于控制内燃机的设备
    • US6026779A
    • 2000-02-22
    • US208002
    • 1998-12-09
    • Takeaki ObataKeisuke SuzukiNobutaka Takahashi
    • Takeaki ObataKeisuke SuzukiNobutaka Takahashi
    • F02P5/15F02D37/02F02D41/02F02D41/04F02D41/30F02D41/34F02D43/00F02P5/00F02B17/00
    • F02D37/02F02D41/3029F02D41/3064F02B2275/18F02D2041/389
    • A cylinder direct-injection spark-ignition engine using at least a homogeneous combustion mode where early fuel-injection on intake stroke produces a homogeneous air-fuel mixture and a stratified combustion mode where late fuel-injection on compression stroke produces a stratified air-fuel mixture, is equipped with an electronic engine control unit connected to an electronic fuel injection system, an electronic spark-timing control system, and an electronically-controlled throttle valve. The control unit permits switching to a homogeneous combustion mode and changes the manipulated variable for engine torque correction to a spark-timing correction quantity, immediately when the demand for switching from stratified to homogeneous combustion mode occurs during a high-response torque correction. When the demand for switching from homogeneous to stratified combustion mode occurs during the high-response torque correction, switching to the stratified combustion mode is inhibited for a brief time duration until a required torque correction value reaches a predetermined criterion to continue the high-response torque correction based on the spark-timing correction quantity.
    • 使用至少均匀燃烧模式的气缸直喷式火花点火发动机,其中进气冲程中的早期燃料喷射产生均匀的空气 - 燃料混合物和分层燃烧模式,其中在压缩冲程中较晚的燃料喷射产生分层的空气燃料 配备有连接到电子燃料喷射系统的电子发动机控制单元,电子火花定时控制系统和电子控制节气门。 当在高响应扭矩校正期间发生从分层到均质燃烧模式切换的需求时,控制单元允许切换到均匀燃烧模式并将用于发动机扭矩校正的操作变量改变为火花定时校正量。 当在高响应扭矩校正期间发生从均质燃烧模式切换到分层燃烧模式的需求时,在短时间内禁止切换到分层燃烧模式,直到所需扭矩校正值达到预定标准以继续高响应扭矩 基于火花定时校正量的校正。