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    • 4. 发明授权
    • Throttle valve control apparatus
    • 节流阀控制装置
    • US5027769A
    • 1991-07-02
    • US567596
    • 1990-08-15
    • Masato YoshidaYoshiaki DannoKazuhide Togai
    • Masato YoshidaYoshiaki DannoKazuhide Togai
    • F02B1/04F02B27/02F02B75/18F02B75/20F02D9/02F02D11/10
    • F02B27/0252F02B27/0221F02B27/0289F02D11/107F02D9/02F02B1/04F02B2075/1812F02B2075/1816F02B27/0273F02B75/20F02D2009/0277F02D2009/0281Y02T10/146Y02T10/42
    • Throttle valves are individually disposed in a plurality of intake passages of an engine. In normal operation condition of the throttle valves, a first control device controls the throttle valves according to the detection result of an operation condition detecting device to control the amounts of intake air of the individual intake passages, thereby obtaining good engine performance from low-speed to high-speed ranges. When an abnormality detecting device detects an abnormality in a throttle valve, a determination device determines a normal throttle valve, and a second control device controls only the normal throttle valve in preference to the first control device to control the intake air amount, thereby ensuring continued operation even if a malfunction occurs in one of the throttle valves. Also, intake passages of the engine are divided into two systems and are individually connected with surge tanks, a communication passage communicating with the surge tanks and a communication control valve ae provided, throttle valves and intake control valves are disposed in the individual passages, and the throttle valves, the communication control valve and the intake control valves are open/closed controlled by the operation condition detecting device and control device, thereby obtaining good engine performance and ensuring continued operation of the engine even if a malfunction occurs in the throttle valve control system, to maintain the stability of the vehicle.
    • 节气门单独设置在发动机的多个进气通道中。 在节流阀的正常运行状态下,第一控制装置根据操作状态检测装置的检测结果来控制节流阀,以控制各个进气通道的进气量,从而从低速度获得良好的发动机性能 到高速档。 当异常检测装置检测到节气门的异常时,确定装置确定正常的节流阀,并且第二控制装置优先于第一控制装置仅控制正常节流阀以控制进气量,从而确保持续 即使在其中一个节流阀中发生故障,也是如此。 此外,发动机的进气通道被分成两个系统,并且分别连接有缓冲罐,与缓冲罐连通的连通通道和设置的通信控制阀ae,节气门和进气控制阀设置在各个通道中,并且 节流阀,通气控制阀和进气控制阀由操作状态检测装置和控制装置打开/关闭,从而获得良好的发动机性能并确保发动机的继续运转,即使在节气门控制中发生故障 系统,保持车辆的稳定性。
    • 5. 发明授权
    • Engine output control apparatus
    • 发动机输出控制装置
    • US5400865A
    • 1995-03-28
    • US180464
    • 1994-01-12
    • Kazuhide TogaiYoshiaki DannoMasato YoshidaMakoto ShimadaKatsunori Ueda
    • Kazuhide TogaiYoshiaki DannoMasato YoshidaMakoto ShimadaKatsunori Ueda
    • B60K28/16B60K31/04B60K13/02
    • B60K28/16B60K31/047B60W2510/0628B60W2540/10B60W2710/0605
    • An engine output control apparatus is used on a vehicle having an engine driven by a drive-by-wire system and includes a device for setting a first target engine control amount in accordance with an amount of operation of a manually operated engine control member; a device for detecting wheel slippage and for setting a second target engine control amount at which wheel slippage is reduced when wheel slippage exceeds a predetermined value; a device for setting a third target engine control amount at which constant-speed running of the vehicle is maintained when a manually operated constant-speed control member is actuated; and a selecting device for selecting one of the first, second, and third target engine control amounts. The selection made by the selecting device is based upon a determination of whether wheel slippage has exceeded a predetermined value and whether the manually operated constant-speed control member has been actuated. A setting device is provided for setting the engine output control amount based upon the target engine control amount selected by the selecting device.
    • 发动机输出控制装置用于具有由线控系统驱动的发动机的车辆,并且包括用于根据手动操作的发动机控制构件的操作量来设定第一目标发动机控制量的装置; 用于检测车轮打滑的装置,并且用于设定当车轮打滑超过预定值时车轮打滑的第二目标发动机控制量; 用于当手动操作的恒速控制构件被致动时,用于设定保持车辆的恒定行驶的第三目标发动机控制量的装置; 以及选择装置,用于选择第一,第二和第三目标发动机控制量中的一个。 由选择装置进行的选择是基于确定车轮打滑是否已经超过预定值,以及手动操作的恒速控制构件是否已被致动。 提供了一种设置装置,用于基于由选择装置选择的目标发动机控制量来设定发动机输出控制量。
    • 7. 发明授权
    • Drive-by-wire vehicle engine output control system
    • 驱动线控车辆发动机输出控制系统
    • US5625558A
    • 1997-04-29
    • US313390
    • 1994-09-27
    • Kazuhide TogaiYoshiaki DannoMasato YoshidaMakoto ShimadaKatsunori Ueda
    • Kazuhide TogaiYoshiaki DannoMasato YoshidaMakoto ShimadaKatsunori Ueda
    • B60K31/02B60K31/04F02D9/02F02D11/10F02D29/02F02D31/00F02D45/00B60K31/00
    • B60K31/047F02D11/105F02D31/001B60W2710/0666B60W2710/105
    • Described herein is a drive-by-wire vehicle engine output control system. The system permits good-response acceleration by a driver's simple and reasonable operation, i.e., by operating an accelerator pedal and also a prompt response even when a sudden load change occurs. Further, the system permits precise speed control by simple equipment even when the deviation of a vehicle speed from a target vehicle speed is large. Output changes of an engine can be controlled within a permissible output change range by (a) comparing a target autocruise engine output with an acceleration demanding ending output, choosing the larger engine output and then controlling the engine to give the larger engine output, (b) controlling the engine to achieve a target autocruise engine output obtained from a speed correction torque and a running load torque or (c) limiting an engine control quantity on the basis of a permissible output change value.
    • 这里描述的是一种线控车辆发动机输出控制系统。 该系统通过驾驶员简单合理的操作,即通过操作加速器踏板以及甚至当发生突然的负载变化时也能迅速响应,从而允许良好的响应加速。 此外,即使当车速与目标车速的偏差大时,该系统也允许通过简单的设备进行精确的速度控制。 通过(a)将目标自动巡航发动机输出与加速要求结束输出进行比较,选择较大的发动机输出,然后控制发动机以提供较大的发动机输出,可将发动机的输出变化控制在允许的输出变化范围内 )控制发动机以实现从速度校正扭矩和运行负载转矩获得的目标自动巡航发动机输出,或(c)基于允许的输出变化值来限制发动机控制量。
    • 8. 发明授权
    • Vehicle engine output control method and vehicle engine
    • 车辆发动机输出控制方法和车辆发动机
    • US5151861A
    • 1992-09-29
    • US840646
    • 1992-02-21
    • Yoshiaki DannoKazuhide TogaiMasato YoshidaKatsunori UedaMakoto Shimada
    • Yoshiaki DannoKazuhide TogaiMasato YoshidaKatsunori UedaMakoto Shimada
    • B60K28/16F02D11/10
    • F02D11/10B60K28/16F02D2011/102
    • A method and apparatus for calculating a target torque of an engine in accordance with operation condition of a vehicle, calculating a target intake air amount per engine revolution cycle required to generate the target engine torque, calculating an opening of a sub throttle valve disposed in an intake path of the engine from an opening of a main throttle valve disposed in the intake path, of which an opening is controlled in accordance with an operation amount of an accelerator pedal, and the target intake air amount, or calculating an equivalent throttle opening assuming the main throttle valve and the sub throttle valve as an equivalent throttle valve in accordance with the target intake air amount, calculating the sub throttle valve opening by correcting the equivalent throttle opening with a correction coefficient determined by the relationship between the equivalent throttle opening and the main throttle valve opening, and on/off controlling the sub throttle valve in accordance with the calculated sub throttle valve opening.
    • 一种用于根据车辆的运行状况计算发动机的目标转矩的方法和装置,计算产生目标发动机扭矩所需的每发动机转速的目标进气量,计算设置在发动机转速中的副节流阀的开度 从设置在进气路径中的主节流阀的开口的发动机的进气路径,其中根据加速踏板的操作量控制开度和目标进气量,或者计算相当的节气门开度,假设 主节流阀和副节流阀作为与目标进气量相对应的等效节流阀,通过用等效节气门开度和等效节气门开度之间的关系确定的校正系数来校正等效节气门开度来计算副节气门开度 主节气门开度,按照w开关控制副节流阀 计算出次节气门开度。
    • 9. 发明授权
    • Vehicle engine output control apparatus
    • 车用发动机输出控制装置
    • US5073865A
    • 1991-12-17
    • US468272
    • 1990-01-19
    • Kazuhide TogaiYoshiaki DannoMasato YoshidaMakoto ShimadaKatsunori Ueda
    • Kazuhide TogaiYoshiaki DannoMasato YoshidaMakoto ShimadaKatsunori Ueda
    • F02D41/18B60K28/16F02B75/02F02D29/02F02D41/22
    • B60K28/16F02D41/222F02B2075/027
    • A slip value of a driving wheel is calculated on the basis of driving and driven wheel velocities detected by wheel velocity sensors, a target engine output of a vehicle is set in accordance with the slip value of the driving wheel, a target intake air amount to the engine is set in accordance with the target engine output, a target opening of a throttle valve is set based on the target intake air amount, an opening correction value of the throttle valve is calculated in accordance with a deviation between the target intake air amount and an actual intake air amount detected by an air flow sensor, the opening of the throttle valve is controlled to attain an opening as a sum of the target opening and the opening correction value when the air flow sensor is in a normal state, and the throttle valve opening is controlled to a basic target opening when a malfunction occurs in the air flow sensor, thereby achieving engine output control by a traction controller even when a malfunction occurs in the air flow sensor.
    • 基于由车轮速度传感器检测到的驱动和驱动轮速来计算驱动轮的滑动值,根据驱动轮的滑移值设定车辆的目标发动机输出,将目标进气量设定为 根据目标发动机输出设定发动机,基于目标进气量设定节气门的目标开度,根据目标进气量的偏差来计算节气门的打开修正值 和由空气流量传感器检测到的实际进气量,则当空气流量传感器处于正常状态时,节流阀的开度被控制为达到作为目标开度和打开校正值之和的开度, 当空气流量传感器发生故障时,节流阀开度被控制到基本目标开度,从而即使发生故障也可以通过牵引控制器进行发动机输出控制 在空气流量传感器中。
    • 10. 发明授权
    • Output control apparatus for an internal combustion engine
    • 内燃机的输出控制装置
    • US5069181A
    • 1991-12-03
    • US573133
    • 1990-09-18
    • Kazuhide TogaiYoshiaki DannoMasato YoshidaMakoto ShimadaKatsunori Ueda
    • Kazuhide TogaiYoshiaki DannoMasato YoshidaMakoto ShimadaKatsunori Ueda
    • F02B1/04F02D11/10F02D35/00F02D43/00
    • F02D11/105F02D35/0007F02D43/00B60W2710/105F02B1/04
    • In an output control apparatus for an internal combustion engine according to this invention, a target torque of a driving shaft of an automobile is determined in accordance with the pedaling stroke of an accelerator pedal, and a deviation between the target torque and an actual torque of the driving shaft is obtained. On the assumption that the whole system of the automobile, including the internal combustion engine, is in a steady-state operation mode, on the other hand, a steady-state output torque of the internal combustion engine, required for applying the target torque to the driving shaft, is obtained. In the output control apparatus, moreover, a steady-state suction air amount of the internal combustion engine is obtained such that the steady-state output torque is obtained in the internal combustion engine, and this steady-state suction air amount is corrected in accordance with a feedback amount based on the aforesaid deviation, so that a target suction air amount of the internal combustion engine is determined, and the opening of a throttle valve is controlled so that the target suction air amount can be obtained.
    • PCT No.PCT / JP90 / 00063 Sec。 371 1990年9月18日第 102(e)1990年9月18日PCT 1990年1月19日PCT PCT。 第WO90 / 08889号公报 日本1990年9月8日。在根据本发明的内燃机的输出控制装置中,根据加速踏板的踏板行程来确定汽车的驱动轴的目标扭矩, 得到目标扭矩和驱动轴的实际转矩。 假设包括内燃机在内的整个汽车系统处于稳态运行模式,另一方面,将目标转矩施加到内燃机的稳态输出转矩 驱动轴。 此外,在输出控制装置中,获得内燃机的稳态吸入空气量,使得在内燃机中获得稳态输出转矩,并且该稳态吸入空气量根据 基于上述偏差的反馈量,从而确定内燃机的目标吸入空气量,并且控制节流阀的打开,从而可以获得目标吸入空气量。