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    • 2. 发明授权
    • Method and system for predicting torque from crank speed fluctuations in an internal combustion engine
    • 用于预测内燃机曲轴转速波动的扭矩的方法和系统
    • US06234010B1
    • 2001-05-22
    • US09282333
    • 1999-03-31
    • Masoud K. ZavarehiDavid R. Schricker
    • Masoud K. ZavarehiDavid R. Schricker
    • G01M1500
    • G01M15/11
    • A method and system for detecting torque of a reciprocating internal combustion engine, the internal combustion engine having at least one cylinder and a rotatable crankshaft. This method and system includes sensing rotational crankshaft speed for a multiple of designated crankshaft rotational positions over a predetermined number of cycles of rotation for each crankshaft position and determining an average crankshaft speed fluctuation for each crankshaft position and determining information representative of crankshaft kinetic energy variations due to each firing event and each compression event in the cylinder and then determining information representative of crankshaft torque as a function of the crankshaft kinetic energy variations and the average crankshaft speed and responsively producing a representative crankshaft torque signal.
    • 一种用于检测往复式内燃机的扭矩的方法和系统,所述内燃机具有至少一个气缸和可旋转的曲轴。 该方法和系统包括在每个曲轴位置的预定旋转周期内感测多个指定的曲轴旋转位置的旋转曲轴速度,并且确定每个曲轴位置的平均曲轴速度波动,并且确定表示曲轴动能变化的信息 并且然后根据曲轴动能变化和平均曲轴转速确定代表曲轴扭矩的信息,并且响应地产生代表性的曲轴转矩信号。
    • 3. 发明授权
    • Method and system for determining an absolute power loss condition in an internal combustion engine
    • 用于确定内燃机中的绝对功率损耗状况的方法和系统
    • US06199007B1
    • 2001-03-06
    • US09551073
    • 2000-04-18
    • Masoud K. ZavarehiDavid R. Schricker
    • Masoud K. ZavarehiDavid R. Schricker
    • G01M1500
    • G01M15/05
    • A method and system for detecting absolute power loss in a cylinder for a reciprocating internal combustion engine, the internal combustion engine having at least one cylinder and a rotatable crankshaft. This method and system includes sensing rotational crankshaft speed for a number of designated crankshaft rotational positions over a predetermined number of cycles of rotation for each of the crankshaft positions and determining an average crankshaft speed fluctuation for each of the crankshaft positions and determining information representative of crankshaft kinetic energy variations due to each firing event or each firing event and compression event in said cylinder and determining information representative of an average fuel flow rate and determining information representative of power loss for the cylinder as a function of the crankshaft kinetic energy variations due to each firing event, the average crankshaft speed and the average fuel flow rate and responsively producing a representative power loss signal and determining information representative of crankshaft torque as a function of the crankshaft kinetic energy variations due to each firing event and compression event and the average crankshaft speed and responsively producing a representative crankshaft torque signal and determining information representative of absolute power loss for each cylinder.
    • 一种用于检测用于往复式内燃机的气缸中的绝对功率损耗的方法和系统,所述内燃机具有至少一个气缸和可旋转的曲轴。 该方法和系统包括:针对每个曲轴位置在预定数量的旋转循环中检测多个指定的曲轴旋转位置的旋转曲轴速度,并且确定每个曲轴位置的平均曲轴速度波动和表示曲轴的确定信息 由于每个点火事件或所述气缸中的每个点火事件和压缩事件引起的动能变化,并且确定表示平均燃料流量的信息,并且确定代表气缸的功率损失的信息,作为由于每一个的曲轴动能变化而变化的函数 燃烧事件,平均曲轴速度和平均燃料流量,并且响应地产生代表性的功率损耗信号,并且确定表示曲轴扭矩的信息作为由于每个点火事件和压缩事件引起的曲轴动能变化的函数,以及 平均曲轴速度并响应地产生代表性的曲轴扭矩信号,并且确定表示每个气缸的绝对功率损耗的信息。
    • 4. 发明授权
    • Method for detecting a power loss condition of a reciprocating internal
combustion engine
    • 用于检测往复式内燃机的功率损耗状况的方法
    • US6082187A
    • 2000-07-04
    • US216597
    • 1998-12-18
    • David R. SchrickerMasoud K. Zavarehi
    • David R. SchrickerMasoud K. Zavarehi
    • G01M15/00
    • G01M15/00
    • A method for detecting a power loss condition of an internal combustion engine, the engine having at least one cylinder and a crank shaft, the method including the steps of sensing rotational crank shaft speed for a plurality of designated crank shaft rotational positions over a predetermined number of cycles of rotation, determining an average crank shaft speed fluctuation for each crank shaft position, determining information representative of crank shaft kinetic energy variation due to each firing event in the cylinder, and determining information representative of an average fuel flow rate. Information representative of a power loss for the cylinder is determined as a function of the crank shaft kinetic energy variation, average crank shaft speed and average fuel flow rate and a representative power loss signal is responsively produced.
    • 一种用于检测内燃机的功率损耗状态的方法,具有至少一个气缸和曲轴的发动机,所述方法包括以下步骤:检测多个指定的曲轴转动位置的旋转曲轴转速超过预定数量 确定每个曲轴位置的平均曲柄轴速度波动,确定表示由于气缸中的每个点火事件引起的曲轴动能变化的信息,以及确定表示平均燃料流量的信息。 根据曲轴动能变化,平均曲轴转速和平均燃油流量以及响应地产生代表性的功率损失信号来确定代表气缸功率损耗的信息。
    • 6. 发明授权
    • Method and system for determining engine cylinder power level deviation from normal
    • 确定发动机气缸功率水平与正常偏差的方法和系统
    • US07162916B2
    • 2007-01-16
    • US10848310
    • 2004-05-18
    • Masoud K. ZavarehiYang LiuConrad G. Grembowicz
    • Masoud K. ZavarehiYang LiuConrad G. Grembowicz
    • G01M15/00
    • F02D41/1497F02D41/1498
    • Individual cylinder output deviations from a normal operating engine cylinder are detected via an analysis of crank shaft speed fluctuations. In the detection phase, the engine is operated at a steady state low idle condition, and engine speed data is collected over a plurality of engine cycles. This data is then averaged, filtered and compared to expected engine speed data. A substantial deviation from the expected speed data in the region of crank shaft angles associated with an individual cylinder during its power stroke adjacent its top dead center position indicates a power level deviation in that cylinder. The magnitude of the power level deviation can then be assessed through a similar procedure where engine speed data is collected, averaged, filtered and compared to expected engine speed data when the engine is operating in a steady state rated condition.
    • 通过对曲轴转速波动的分析来检测与正常运行的发动机气缸的独立气缸输出偏差。 在检测阶段,发动机在稳定状态低怠速状态下工作,并且在多个发动机循环中收集发动机速度数据。 然后对该数据进行平均,过滤并与预期的发动机转速数据进行比较。 在与独立气缸相邻的曲柄轴角度区域内的预期速度数据的显着偏差在其邻近其上死点位置的功率冲程期间指示在该气缸中的功率水平偏差。 然后可以通过类似的程序来评估功率水平偏差的大小,其中发动机速度数据被收集,平均,过滤并且当发动机在稳态额定条件下运行时与预期发动机转速数据进行比较。