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    • 2. 发明授权
    • Engine speed controller having PI gains set by engine speed and engine speed error
    • 发动机转速控制器具有发动机转速和发动机转速误差所设定的PI增益
    • US07536992B1
    • 2009-05-26
    • US12056864
    • 2008-03-27
    • Paul A. WieshuberJames T. BeaucaireMichael A. Majewski
    • Paul A. WieshuberJames T. BeaucaireMichael A. Majewski
    • F02D31/00F02D41/08F02D41/10F02M3/08
    • F02D31/007F02D41/2422F02D41/2451F02D2041/1409F02D2041/1422
    • A PI control strategy controls engine speed to an engine speed set-point. A proportional map (36) is populated with data values to be used in calculating the P component of the strategy. An integral map (38) is populated with data values to be used in calculating the I component. Each data value in the maps is correlated with a speed data value representing engine speed (N) and a speed error data value representing the difference between engine speed and engine speed set-point (N_DIF_MAX_LIM). Values for proportional and integral components are selected from the respective maps by processing current engine speed data and current engine speed error data. The strategy uses the values from the maps for controlling engine speed to the speed set-point. Data values from other maps (20 and 24; or 22 and 26) modify the selected values from the proportional and integral maps (36, 38) for transmission type, transmission gear, and engine temperature.
    • PI控制策略将发动机转速控制到发动机转速设定值。 比例图(36)填充有用于计算策略的P分量的数据值。 积分图(38)填充有用于计算I分量的数据值。 地图中的每个数据值与表示发动机转速(N)的速度数据值和表示发动机转速和发动机转速设定值(N_DIF_MAX_LIM)之间的差的速度误差数据值相关。 通过处理当前发动机转速数据和当前发动机转速误差数据,从各个图中选择比例积分分量的积分值。 该策略使用地图中的值来控制发动机转速到速度设定点。 来自其他地图(20和24;或22和26)的数据值从传动类型,传动齿轮和发动机温度的比例积分图(36,38)中修改所选值。
    • 4. 发明授权
    • Single screw carburetor
    • 单螺杆化油器
    • US6123322A
    • 2000-09-26
    • US97956
    • 1998-06-16
    • Hidenori Sasaki
    • Hidenori Sasaki
    • F02M3/08F02M3/10F02M17/04F02M19/02F02M19/025
    • F02M19/02F02M17/04F02M3/10Y10S261/39Y10S261/68Y10S261/84
    • A carburetor having an idle nozzle and a main nozzle each with a fixed flow area and an idle speed single adjustment screw adjustable by the user. The idle and high speed fuel flows are controlled by the idle nozzle and the main nozzle, respectively. The user can adjust the engine speed only by adjustment of the idle speed adjustment screw which changes the position of the carburetor throttle valve to control the flow through the carburetor. This provides a more consistent fuel and air mixture to improve the performance of the engine and better control engine emissions by preventing the user from changing the fuel and air ratio to a mixture which is either too lean or too rich for the steady and low level exhaust emission operation of the engine.
    • 具有怠速喷嘴的化油器和各自具有固定流动面积的主喷嘴和用户可调节的怠速单次调节螺钉。 怠速和高速燃料流量分别由怠速喷嘴和主喷嘴控制。 用户只能通过调节怠速调节螺丝来调节发动机转速,从而改变化油器节流阀的位置,以控制通过化油器的流量。 这提供了更一致的燃料和空气混合物以改善发动机的性能并且通过防止使用者将燃料和空气比改变为对于稳定和低水平排气来说太稀或太浓的混合物来更好地控制发动机排放 发动机的排放作业。
    • 6. 发明授权
    • Carburetor with regulating valve limiting device
    • 化油器带调节阀限位装置
    • US5667734A
    • 1997-09-16
    • US650195
    • 1996-05-20
    • Shinichi Ohgane
    • Shinichi Ohgane
    • F02M3/10F02M3/08F02M19/04
    • F02M3/08F02M2003/105Y10S261/38Y10S261/84Y10T137/7062
    • A carburetor in which no deviation or change occurs in the adjusted position of a fuel regulating needle valve and when a cap for limiting the adjustment is mounted on the fuel regulating valve the cap cannot be intentionally broken or removed. A flow area of a fuel pasage of a carburetor body is adjusted by a needle valve received in a threaded hole in the body. Adjacent the threaded hole the carburetor body has a cylindrical cavity having a larger diameter than that of the threaded hole. A larger-diameter threaded portion is provided on the needle valve adjacent its head. A stop ring in contact with a shoulder in the cylindrical cavity is fitted on the larger-diameter threaded portion of the valve. A cup-shaped cap is fitted on the serrated head of the fuel regulating valve. An axial protrusion formed on the outer peripheral wall of the cap is engaged with an axial groove opening into the peripheral wall of the cylindrical cavity. A retaining plate having an opening through which the cap can be inserted is fixed to the outer end wall of the cylindrical cavity of the carburetor body.
    • 一种化油器,其中燃油调节针阀的调节位置不发生偏差或变化,并且当用于限制调节的盖安装在燃料调节阀上时,盖不能有意地被破坏或移除。 化油器主体的燃料喷嘴的流动面积通过容纳在主体的螺纹孔中的针阀来调节。 化油器本体与螺纹孔相邻,具有直径大于螺纹孔直径的圆柱形腔体。 较大直径的螺纹部分设置在与其头部相邻的针阀上。 与圆柱形腔中的肩部接触的止动环安装在阀的较大直径的螺纹部分上。 燃油调节阀的锯齿头上装有一个杯形帽。 形成在盖的外周壁上的轴向突起与通向圆柱形腔的周壁的轴向槽接合。 具有可以插入盖的开口的保持板固定到化油器主体的圆柱形空腔的外端壁上。
    • 8. 发明授权
    • Carburetor for an internal combustion engine
    • 用于内燃机的化油器
    • US4578228A
    • 1986-03-25
    • US667016
    • 1984-11-01
    • Reinhard Gerhardy
    • Reinhard Gerhardy
    • F02M3/12F02B1/04F02M3/10F02M3/14F02M3/08
    • F02M3/10F02B1/04Y10S261/68
    • A carburetor for small motors has a housing with a carburetor bore wherein air and fuel are mixed to an air fuel mixture. The fuel enters the carburetor bore through fuel jets. A throttle valve is pivotally mounted in the carburetor bore by means of which the fuel-air mixture quantity is adjusted in dependence upon the operating condition of the engine. The throttle valve and the inner wall surface of the carburetor bore conjointly define an air gap in the idling position. An idling fuel outlet jet communicates with the carburetor bore in the region of this air gap and is connected to the control chamber containing the fuel. The idling fuel outlet jet together with a ventilation bore communicate with an emulsion chamber of the control compartment. Further, an idling control part is provided which is movable into the air gap whereby an outlet opening of the ventilation bore communicating with the emulsion chamber is passed over. In this way, the ratio of fuel to air in the emulsion chamber can be adapted to the air requirements when flowing into the carburetor bore from the outlet jet. By means of a change of the free cross-sectional opening of the ventilation jet occurring simultaneously with the entry of the control part into the air gap, the air to fuel ratio remains constant so that a subsequent adjustment of the components of the mixture is unnecessary.
    • 用于小型电动机的化油器具有带有化油器孔的壳体,其中空气和燃料与空气燃料混合物混合。 燃油通过燃油喷射进入化油器孔。 节流阀枢转地安装在化油器孔中,通过该节气门,燃料 - 空气混合物量根据发动机的操作条件进行调节。 节流阀和化油器孔的内壁表面联合地限定空转位置的气隙。 空转的燃料出口喷射器与该气隙区域中的化油器孔连通并连接到包含燃料的控制室。 空转燃料出口喷射器和通风孔与控制室的乳剂室连通。 此外,设置有可移动到空气间隙中的空转控制部,通过与乳化室连通的通气孔的出口。 以这种方式,乳液室中的燃料与空气的比例可以适应于从出口喷射器流入化油器孔中时的空气需求。 通过与控制部件进入气隙同时发生的通气射流的自由横截面开口的变化,空气/燃料比保持恒定,使得混合物的组分随后的调整是不必要的 。