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    • 3. 发明授权
    • Rate shaped fluid driven piston assembly and fuel injector using same
    • 速率形流体驱动活塞组件和使用其的燃料喷射器
    • US06412473B1
    • 2002-07-02
    • US09607164
    • 2000-06-29
    • Xinshuang NanYe Tian
    • Xinshuang NanYe Tian
    • F02M700
    • F02M59/46F02M47/043F02M57/025F02M59/466F02M61/205F02M2200/502
    • A hydraulically actuated fuel injector includes an injector body that defines an actuation fluid passage, a low pressure area and a nozzle outlet. A piston having a hydraulic surface is positioned in the injector body and moveable a stroke distance between a retracted position and an advance position. At least one of the piston and injector body define a first cavity and a second cavity when the piston is located in an initial portion of its stroke distance. Before a first portion of the hydraulic surface is exposed to fluid pressure in the first cavity, and a second portion of the hydraulic surface is exposed to fluid pressure in the second cavity when the piston is in its initial portion of its stroke distance. A valve is positioned in the injector body and has an open position that fluidly connects the second cavity to the low pressure area when the piston is located in the initial portion of its stroke distance, and a closed position when the piston is located away from the initial portion of the stroke distance.
    • 液压致动燃料喷射器包括限定致动流体通道,低压区域和喷嘴出口的喷射器主体。 具有液压表面的活塞定位在喷射器主体中并且能够在缩回位置和提前位置之间移动行程距离。 当活塞位于其行程距离的初始部分中时,活塞和喷射器主体中的至少一个限定第一腔和第二腔。 在液压表面的第一部分暴露于第一腔中的流体压力之前,并且当活塞处于其行程距离的初始部分时,液压表面的第二部分暴露于第二腔中的流体压力。 阀门定位在喷射器主体中,并且具有打开位置,当活塞位于其行程距离的初始部分时,将第二腔体流体连接到低压区域,并且当活塞远离 行程距离的初始部分。
    • 4. 发明授权
    • Common rail fuel injection system and fuel injector for same
    • 共轨燃油喷射系统和燃油喷射器相同
    • US06647966B2
    • 2003-11-18
    • US09960772
    • 2001-09-21
    • Ye TianXinshuang Nan
    • Ye TianXinshuang Nan
    • F02M3704
    • F02M47/027F02D41/3809F02M63/004F02M63/0042F02M63/0045F02M63/0225
    • A fuel injection system is provided which includes a source of high pressure fuel, a low pressure fuel reservoir, and at least one fuel injector which has an injector body that defines a nozzle chamber, a needle control chamber, a needle control vent, a fuel inlet, and a nozzle outlet. A high pressure line extends between the source of high pressure fuel and the fuel inlet. A low pressure line extends between the low pressure fuel reservoir and the needle control vent. A needle control valve is positioned in the injector body and includes a poppet valve member with a first position in which the needle control chamber is fluidly connected to the fuel inlet but closed to the needle control vent. The poppet valve also has a second position in which the needle control chamber is closed to the fuel inlet but open to the needle control vent. A needle valve is positioned in the injector body and includes a one piece needle valve member with a closing hydraulic surface exposed to fluid pressure in the needle control chamber, and an opening hydraulic surface exposed to fluid pressure in the nozzle chamber.
    • 提供一种燃料喷射系统,其包括高压燃料源,低压燃料储存器和至少一个燃料喷射器,其具有限定喷嘴室的喷射器主体,针控制室,针控制通风口,燃料 入口和喷嘴出口。 高压线路在高压燃料源和燃料入口之间延伸。 低压线路在低压燃料储存器和针控制通气口之间延伸。 针控制阀定位在注射器主体中并且包括具有第一位置的提升阀构件,在该第一位置中针控制室流体地连接到燃料入口但是关闭到针控制通风口。 提升阀还具有第二位置,在该第二位置,针控制室关闭到燃料入口,但是通向针控制排气口。 针阀定位在注射器主体中,并且包括单件针阀构件,其具有暴露于针控制室中的流体压力的闭合液压表面,以及暴露于喷嘴室中的流体压力的开口液压表面。
    • 5. 发明授权
    • Actuation valve for controlling fuel injector and compression release valve, and engine using same
    • 用于控制燃油喷射器和压缩释放阀的致动阀,以及使用其的发动机
    • US07174881B2
    • 2007-02-13
    • US10017523
    • 2001-12-07
    • Ye TianScott LemanXinshuang NanLifeng WangJianyuan Yang
    • Ye TianScott LemanXinshuang NanLifeng WangJianyuan Yang
    • F02M37/04
    • F02M59/105F01L9/02F01L13/065F02D13/04F02M47/043F02M57/025
    • The present invention relates to engines having multiple hydraulic devices. For instance a multi-cylinder diesel engine might include both an a fuel injector and an engine compression release brake. Traditionally, each of these hydraulic devices has been controlled by an individual actuator control valve. However, engineers have learned that decreasing the number of engine components can increase engine robustness. In addition, engineers have learned that de-coupling fluid pressure to the needle valve member hydraulic surface from fluid pressure lines to other injector components can result in greater control of the injector. Therefore, the present invention utilizes a single actuator control valve to control both hydraulic devices for an engine cylinder and to provide independent control of fluid pressure to the needle valve member closing hydraulic surface.
    • 本发明涉及具有多个液压装置的发动机。 例如,多缸柴油发动机可以包括燃料喷射器和发动机压缩释放制动器。 传统上,这些液压装置中的每一个都由单独的致动器控制阀控制。 然而,工程师们了解到,减少发动机部件数量可以提高发动机的鲁棒性。 此外,工程师们已经了解到,从流体压力管线将针阀构件液压表面的流体压力解耦到其它喷射器部件可以更好地控制喷射器。 因此,本发明使用单个致动器控制阀来控制用于发动机气缸的两个液压装置,并且提供对针阀构件关闭液压表面的流体压力的独立控制。
    • 9. 发明授权
    • Hydraulic valve actuation system
    • 液压阀驱动系统
    • US06899068B2
    • 2005-05-31
    • US10259599
    • 2002-09-30
    • Xinshuang NanSean Olen CornellScott Alan Leman
    • Xinshuang NanSean Olen CornellScott Alan Leman
    • F01L9/02
    • F01L9/02F01L2800/00
    • An engine valve actuation system may include an actuation assembly having a body, a slidable piston, and first, second, and third chambers defined between the piston and the body. Low pressure and high pressure fluid sources may be included. A first fluid passage may connect the low pressure fluid source to the second chamber. A second fluid passage may connect the high pressure fluid source to the second chamber, and a third fluid passage may connect the high pressure fluid source to the third chamber. A control valve may be connected to the low pressure fluid source, to the high pressure fluid source, and to the first chamber. The control valve may be configured to move between a first position at which the high pressure fluid source is connected to the first chamber, and a second position at which the low pressure fluid source is connected to the first chamber.
    • 发动机气门致动系统可以包括具有主体,可滑动活塞以及限定在活塞和主体之间的第一,第二和第三室的致动组件。 可以包括低压和高压流体源。 第一流体通道可将低压流体源连接到第二室。 第二流体通道可以将高压流体源连接到第二室,并且第三流体通道可将高压流体源连接到第三室。 控制阀可以连接到低压流体源,高压流体源和第一室。 控制阀可以构造成在高压流体源连接到第一室的第一位置和低压流体源连接到第一室之间的第二位置之间移动。