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    • 3. 发明授权
    • Desensitizing armature air gap to component distortion in a fuel injector
    • 使电枢气隙与燃料喷射器中的组件变形脱敏
    • US07077381B2
    • 2006-07-18
    • US10631163
    • 2003-07-31
    • Norval J. WiemkenAlan R. StocknerScott F. ShaferSteven TianMark S. Cavanagh
    • Norval J. WiemkenAlan R. StocknerScott F. ShaferSteven TianMark S. Cavanagh
    • B05B1/30
    • F02M59/466F02M47/027F02M57/025F02M59/366Y10T137/0491
    • Because of the relatively high pressures experienced within fuel injectors, several internal components can undergo substantial deformation each time fuel is pressurized to injection levels. In some instances, such as when a solenoid operated control valve is positioned near a distortion region, the internal distortion can cause a fuel injector to behave with less predictability, and can undermine consistency from one fuel injector to another, since distortion levels and affects therefrom are likely to vary substantially from one injector to another. In order to desensitize fuel injector performance to this internal distortion, a deflection cavity is disposed within the fuel injector between the distortion region and the needle valve of the fuel injector. This strategy finds particular applicability to needle control valves disposed deep within fuel injectors in order to control fluid pressure on a closing hydraulic surface of a direct control needle valve, which opens and closes the nozzle outlets.
    • 由于燃油喷射器中经历的压力相对较高,每当燃料被加压至喷射水平时,几个内部部件可能经历相当大的变形。 在一些情况下,例如当螺线管操作的控制阀位于变形区域附近时,内部变形可能导致燃料喷射器以较少的可预测性表现,并且可能破坏从一个燃料喷射器到另一个的一致性,因为失真水平和影响 可能从一个注射器到另一个注射器显着变化。 为了使燃料喷射器的性能降低到这种内部变形,在燃料喷射器内在燃料喷射器的变形区域和针阀之间设置偏转腔。 该策略特别适用于布置在燃料喷射器内部的针控制阀,以便控制打开和关闭喷嘴出口的直接控制针阀的关闭液压表面上的流体压力。
    • 4. 发明授权
    • High pressure pump and method of reducing fluid mixing within same
    • 高压泵及减少流体混合的方法
    • US08261718B2
    • 2012-09-11
    • US11981875
    • 2007-11-01
    • Scott F. ShaferAlan R. Stockner
    • Scott F. ShaferAlan R. Stockner
    • F02M57/02
    • F02M59/442F02M63/0001Y10T137/85978
    • Mixing a pumped fluid with a lubrication fluid within a pump can undermine the lubricity of the lubrication fluid. In order to reduce mixing of fluids within a pump of the present disclosure, a pump is provided that comprises a housing, a piston, a first annulus, and a second annulus. The housing includes an inlet for the pumped fluid, an inlet for the lubrication fluid provided at a first pressure, and a piston bore fluidly coupled to the inlet for the pumped fluid. The piston is moveable within the piston bore. The first annulus is fluidly coupled to the inlet for the lubrication fluid. The second annulus is configured to be fluidly coupled to a drain circuit provided at a second pressure less than the first pressure. The first annulus and the second annulus are located along the length of the piston bore.
    • 将泵送的液体与泵内的润滑液混合可能会损害润滑液的润滑性。 为了减少本公开的泵内的流体的混合,提供了包括壳体,活塞,第一环和第二环的泵。 壳体包括用于泵送流体的入口,用于在第一压力下提供的润滑流体的入口以及与泵送流体的入口流体耦合的活塞孔。 活塞可在活塞孔内移动。 第一环与流体连接到用于润滑流体的入口。 第二环状结构被配置为流体耦合到在小于第一压力的第二压力下提供的排水回路。 第一环和第二环沿着活塞孔的长度定位。
    • 6. 发明申请
    • High pressure pump and method of reducing fluid mixing within same
    • 高压泵及减少流体混合的方法
    • US20090114189A1
    • 2009-05-07
    • US11981875
    • 2007-11-01
    • Scott F. ShaferAlan R. Stockner
    • Scott F. ShaferAlan R. Stockner
    • F02M37/04F02M59/02F04B15/00
    • F02M59/442F02M63/0001Y10T137/85978
    • Mixing a pumped fluid with a lubrication fluid within a pump can undermine the lubricity of the lubrication fluid. In order to reduce mixing of fluids within a pump of the present disclosure, a pump is provided that comprises a housing, a piston, a first annulus, and a second annulus. The housing includes an inlet for the pumped fluid, an inlet for the lubrication fluid provided at a first pressure, and a piston bore fluidly coupled to the inlet for the pumped fluid. The piston is moveable within the piston bore. The first annulus is fluidly coupled to the inlet for the lubrication fluid. The second annulus is configured to be fluidly coupled to a drain circuit provided at a second pressure less than the first pressure. The first annulus and the second annulus are located along the length of the piston bore.
    • 将泵送的液体与泵内的润滑液混合可能会损害润滑液的润滑性。 为了减少本公开的泵内的流体的混合,提供了包括壳体,活塞,第一环和第二环的泵。 壳体包括用于泵送流体的入口,用于在第一压力下提供的润滑流体的入口以及与泵送流体的入口流体耦合的活塞孔。 活塞可在活塞孔内移动。 第一环与流体连接到用于润滑流体的入口。 第二环状结构被配置为流体耦合到在小于第一压力的第二压力下提供的排水回路。 第一环和第二环沿着活塞孔的长度定位。
    • 7. 发明申请
    • Pumping element for a fluid pump and method
    • 流体泵的泵送元件和方法
    • US20090159053A1
    • 2009-06-25
    • US12338335
    • 2008-12-18
    • Alan R. StocknerScott F. Shafer
    • Alan R. StocknerScott F. Shafer
    • F02M37/04
    • F02M59/442F02M59/44F02M63/027F04B1/0404F04B1/0421F04B53/16
    • A pumping element for pressurizing a fluid within a fluid pump includes a plunger reciprocally disposed within a bore defined in a barrel. The plunger and barrel at least partially define a pressurization chamber into which fluid is pressurized. A flow path is defined between the plunger and the bore, the flow path permitting fluid to pass from the pressurization chamber during pressurization of fluid disposed therein. A collection chamber is formed between the plunger and the bore, the collection chamber being disposed adjacent to the bore and being part of a cooling circuit for the pumping element. A plurality of weep openings is defined in the barrel and is fluidly connected to the collection chamber. A reduced diameter portion of the barrel forms an annular reservoir that receives fluid from the weep openings.
    • 用于对流体泵内的流体加压的泵送元件包括往复地设置在限定在桶中的孔内的柱塞。 柱塞和桶至少部分地限定了加压室,流体被加压到该加压室中。 在柱塞和孔之间限定流动路径,允许流体在加压设置在其中的流体的加压期间允许流体从加压室通过。 收集室形成在柱塞和孔之间,收集室邻近孔并且是泵送元件的冷却回路的一部分。 在桶中限定了多个流出开口,并且流体地连接到收集室。 桶的直径减小部分形成一个环形储存器,其接收来自漏水开口的流体。
    • 9. 发明授权
    • Pumping element for a fluid pump and method
    • 流体泵的泵送元件和方法
    • US07819107B2
    • 2010-10-26
    • US12338335
    • 2008-12-18
    • Alan R. StocknerScott F. Shafer
    • Alan R. StocknerScott F. Shafer
    • F02M33/04
    • F02M59/442F02M59/44F02M63/027F04B1/0404F04B1/0421F04B53/16
    • A pumping element for pressurizing a fluid within a fluid pump includes a plunger reciprocally disposed within a bore defined in a barrel. The plunger and barrel at least partially define a pressurization chamber into which fluid is pressurized. A flow path is defined between the plunger and the bore, the flow path permitting fluid to pass from the pressurization chamber during pressurization of fluid disposed therein. A collection chamber is formed between the plunger and the bore, the collection chamber being disposed adjacent to the bore and being part of a cooling circuit for the pumping element. A plurality of weep openings is defined in the barrel and is fluidly connected to the collection chamber. A reduced diameter portion of the barrel forms an annular reservoir that receives fluid from the weep openings.
    • 用于对流体泵内的流体加压的泵送元件包括往复地设置在限定在桶中的孔内的柱塞。 柱塞和桶至少部分地限定了加压室,流体被加压到该加压室中。 在柱塞和孔之间限定流动路径,允许流体在加压设置在其中的流体的加压期间允许流体从加压室通过。 收集室形成在柱塞和孔之间,收集室邻近孔并且是泵送元件的冷却回路的一部分。 在桶中限定了多个流出开口,并且流体地连接到收集室。 桶的直径减小部分形成一个环形储存器,其接收来自漏水开口的流体。