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    • 3. 发明授权
    • Automobile fuel feed apparatus
    • 汽车燃料供给装置
    • US4665877A
    • 1987-05-19
    • US789020
    • 1985-10-18
    • Toshio ManakaTakeshi AtagoTeruo Yamauchi
    • Toshio ManakaTakeshi AtagoTeruo Yamauchi
    • F02M27/08F02M51/06F02M69/00F02M69/04F02B51/00
    • F02M27/08F02M69/041Y10S261/48
    • A tubular trembler supported on an ultrasonic vibrator is disposed almost on an axis in an engine intake pipe and has a fuel passing-through hole in the wall thereof. A fuel jet tip of the electromagnetic injection valve is disposed so as to face the fuel passing-through hole so as to jet the fuel divergently against an inside wall of the tubular trembler through the fuel passing-through hole. The fuel is injected against the inside wall of the trembler through the fuel passing-through hole and is atomized. When the fuel is jetted into the fuel passing-through hole from the fuel jet tip, the relative distance from the fuel jet tip to the inside edge of the fuel passing-through hole is determined so that most of the injected fuel will strike the inner wall of the tubular trembler, within the dimensions determined by the bore, the fuel passing-through hole, the inside diameter and the length of the tubular trembler and the angle of the spread of the injected fuel.
    • 支撑在超声波振动器上的管状颤振器几乎位于发动机进气管的轴上,并且在其壁中具有燃料通过孔。 电磁喷射阀的燃料喷射尖端设置成面向燃料通过孔,以便通过燃料通过孔将燃料分散地喷射到管状颤振器的内壁上。 通过燃料通过孔将燃料喷射到颤振器的内壁上并被雾化。 当燃料从燃料喷射尖端喷射到燃料通过孔中时,确定从燃料喷射尖端到燃料通过孔的内部边缘的相对距离,使得大部分喷射的燃料将撞击内部 在由孔,燃料通过孔,管内颤音的内径和长度以及喷射燃料的扩展角度确定的尺寸内的管状颤振器的壁。
    • 4. 发明授权
    • Apparatus for and method of controlling the idling of automobile engine
    • 汽车发动机空转控制装置及其控制方法
    • US4748951A
    • 1988-06-07
    • US3029
    • 1987-01-13
    • Toshio ManakaTakeshi AtagoToshio Ishii
    • Toshio ManakaTakeshi AtagoToshio Ishii
    • F02D41/16B62D5/065F02B1/04F02D31/00F02D41/00F02M3/07
    • B62D5/065F02D31/005F02B1/04
    • An apparatus for controlling the idling engine speed of an automobile engine comprises: an engine speed sensor for detecting an engine speed; a control unit for calculating a difference between an actual engine speed detected by the sensor and a targeted idling engine speed preset in accordance with the operating conditions of the engine, for judging whether or not a power steering system is being operated to a point close to an operatable limit thereof when the automobile is at a standstill, and for outputting a signal for increasing by a predetermined value a gain of a proportional term for proportional-integral type feedback control employed in controlling the idling engine speed if judgment is made that the power steering system is being operated to a point close to the operatable limit thereof when the automobile is at a standstill; and an ISC valve for adjusting a flow rate of air supplied to the engine in accordance with a signal output by the control unit.
    • 用于控制汽车发动机的空转发动机转速的装置包括:用于检测发动机转速的发动机转速传感器; 控制单元,用于计算由所述传感器检测的实际发动机转速与根据所述发动机的运行条件预设的目标怠速发动机转速之差,以判断动力转向系统是否正在操作到靠近 当汽车处于停止状态时,其可操作的限制,并且用于输出用于增加预定值的信号,用于在控制空转发动机转速时用于比例积分型反馈控制的比例项的增益,如果判断功率 当汽车处于停止状态时,转向系统正在操作到接近其可操作极限的点; 以及ISC阀,用于根据控制单元输出的信号来调节供给到发动机的空气的流量。
    • 6. 发明授权
    • Engine rotation speed control system
    • 发动机转速控制系统
    • US4383506A
    • 1983-05-17
    • US218672
    • 1980-12-22
    • Takeshi AtagoToshio Manaka
    • Takeshi AtagoToshio Manaka
    • F02B1/04F02D11/10F02D31/00F02D41/26F02M3/07F02N17/00
    • F02D41/26F02D11/10F02D31/004F02M3/07F02B1/04F02D2011/103
    • An engine rotation speed control system which comprises an actuator for prescribing the recovery position of a throttle valve, a recovery position sensor for detecting that the throttle valve is returned to the recovery position, an idle speed control unit for controlling the engine to a predetermined idling speed, and a negative pressure restricting unit for controlling the throttle actuator such that reduction in intake negative pressure to below a predetermined negative pressure is prevented. When the throttle valve returns to the recovery position with the engine speed in excess of an upper limit of the idling speed, the actuator is controlled by the negative pressure restricting unit. When the engine speed falls below the upper limit, the idle speed control unit is actuated. Upon engine starting the actuator is set such that the opening degree of the throttle valve suitable for the engine starting is obtained before the starter starts operating.
    • 一种发动机转速控制系统,包括用于规定节气门的恢复位置的致动器,用于检测节气门返回到恢复位置的恢复位置传感器,用于将发动机控制到预定空转的怠速控制单元 速度和负压限制单元,用于控制节气门致动器,从而防止进气负压降低到预定负压以下。 当发动机转速超过怠速转速的上限时,当节气门返回到恢复位置时,致动器由负压限制单元控制。 当发动机转速低于上限时,怠速控制单元动作。 在发动机起动时,致动器被设定为使得在起动器开始运行之前获得适于发动机起动的节流阀的开度。
    • 8. 发明授权
    • Electronic control system for controlling air-fuel ratio in an internal
combustion engine
    • 用于控制内燃机空燃比的电子控制系统
    • US4510907A
    • 1985-04-16
    • US377420
    • 1982-05-12
    • Takeshi AtagoToshio Manaka
    • Takeshi AtagoToshio Manaka
    • F02D41/14F02D41/06F02M7/00F02M7/12F02M7/10
    • F02D41/068
    • There is disclosed an electronic control system for controlling a carburetor equipped with a slow-main system solenoid valve and an enrichment system solenoid valve of different control ranges whose openings are electromagnetically controlled to control the air-fuel ratio of a mixture supplied to an internal combustion engine. The control system calculates, based on signals representative of the engine operating condition including engine temperature, the duty for control of the slow-main system solenoid valve in accordance with the air-fuel ratio required for various engine operating states. When the value of this duty exceeds a predetermined value, the enrichment system solenoid valve is added to the slow-main system solenoid valve to accurately control the air-fuel ratio over a wide range.
    • 公开了一种用于控制装有慢主系统电磁阀的化油器和不同控制范围的浓缩系统电磁阀的电子控制系统,其开口被电磁控制以控制供给内燃的混合物的空燃比 发动机。 控制系统根据包括发动机温度在内的发动机运转状态的信号,根据各种发动机运转状态所需的空燃比,计算主缓冲系统电磁阀的控制负荷。 当该值的值超过预定值时,将浓缩系统电磁阀添加到慢主系统电磁阀,以在宽范围内精确地控制空燃比。