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    • 4. 发明授权
    • Injection rate shaping nozzle assembly for a fuel injector
    • 用于燃料喷射器的喷射成形喷嘴组件
    • US5765755A
    • 1998-06-16
    • US787963
    • 1997-01-23
    • Lester L. PetersJulius P. PerrA. S. GhumanBenjamin M. YenChad L. BuchananRobert SamuelKevin L. VogtJohn T. Carroll, IIIJames E. DentonDavid E. Schisler
    • Lester L. PetersJulius P. PerrA. S. GhumanBenjamin M. YenChad L. BuchananRobert SamuelKevin L. VogtJohn T. Carroll, IIIJames E. DentonDavid E. Schisler
    • F02M45/10F02M61/04F02M61/16F02M61/18B05B9/00F02M47/02
    • F02M61/18F02M45/10F02M61/042F02M61/168
    • An injection rate shaping nozzle assembly for a fuel injector is provided which includes a closed nozzle valve element and a rate shaping control device including an injection spill circuit for spilling a portion of the fuel to be injected to produce a predetermined time varying change in the flow rate of fuel injected into a combustion chamber. The spill circuit includes a spill passage integrally formed in the nozzle valve element. The rate shaping control device may include a spill accelerating chamber in formed in the nozzle valve element for creating a rapid increase in the spill flow rate. A spill circuit purge device is provided to remove fuel from the spill circuit and accelerating chamber between each of the injection events thereby ensuring an unimpeded, effective spill fuel flow during the next spill event. The purge device includes a purge passage formed of a predetermined size for restricting the flow of purge gas to ensure sufficient fuel removal from the injection spill circuit while avoiding excessive purge gas flow. The purge passage may include an annular clearance gap formed between the nozzle valve element and the nozzle housing wall, or alternatively, may include an orifice passage formed in the inner portion of the nozzle valve element. An improved method for forming a nozzle valve element having an axial center passage is also disclosed.
    • 提供了一种用于燃料喷射器的喷射率成形喷嘴组件,其包括封闭的喷嘴阀元件和速率整形控制装置,该速率整形控制装置包括用于溢出待喷射的燃料的一部分以产生流量的预定时变变化的喷射泄漏电路 喷入燃烧室的燃料的速率。 泄漏回路包括一体形成在喷嘴阀元件中的溢流通路。 速率整形控制装置可以包括形成在喷嘴阀元件中的溢流加速室,用于产生溢流量的快速增加。 提供溢流回路吹扫装置以在每次喷射事件之间从泄漏回路和加速室中除去燃料,从而确保在下一个溢出事件期间不受阻碍地有效地溢出燃料流。 净化装置包括由预定尺寸形成的吹扫通道,用于限制净化气体的流动,以确保足够的燃料从喷射泄漏电路中移除,同时避免过多的吹扫气体流动。 净化通道可以包括形成在喷嘴阀元件和喷嘴壳体壁之间的环形间隙,或者可以包括形成在喷嘴阀元件的内部中的孔口通道。 还公开了一种用于形成具有轴向中心通道的喷嘴阀元件的改进方法。
    • 5. 发明授权
    • Lubricating oil and fuel blending system
    • 润滑油和燃油混合系统
    • US06295971B1
    • 2001-10-02
    • US09577667
    • 2000-05-25
    • Lester L. PetersThomas M. YonushonisRaymond J. Amlung
    • Lester L. PetersThomas M. YonushonisRaymond J. Amlung
    • F02M4702
    • F02M59/44F01M11/04F01M2011/0475F02M57/024
    • A lube oil and fuel blending system, pumping device and method are provided which effectively, inexpensively and controllably removes used lube oil from an engine and delivers the lube oil to the fuel system for consumption within the engine. The lube oil and fuel blending system includes a fuel pumping device or injector containing a bore and a plunger reciprocally mounted in the bore for movement through a retraction stroke and an advancement stroke, each having a predetermined stroke length. A fuel drain circuit communicates with the bore at a drain location spaced a predetermined seal length axially along the bore from an outer opening of the bore through which the plunger extends. The predetermined seal length is specifically designed less than the predetermined stroke length to cause lube oil on the outer portion of the plunger to be delivered by the plunger to the fuel drain circuit at the drain location. Fuel leakage through the fuel drain circuit washes the lube oil from the plunger thereby blending the lube oil and fuel and delivering the blend to the fuel supply system via a return line. A variable restriction valve may be provided in the return line to control the leakage flow. Therefore, the predetermined seal length can be chosen relative to the stroke to achieve a desired leakage rate. In another embodiment, an undercut may be used to increase the used lube oil leakage rate.
    • 提供润滑油和燃料混合系统,泵送装置和方法,其有效地,廉价和可控地从发动机中去除使用的润滑油,并将润滑油输送到燃料系统以在发动机内消耗。 润滑油和燃料混合系统包括燃料泵送装置或喷射器,该燃料泵装置或喷射器包含一个可往复安装在孔中的柱塞和柱塞,用于通过一个具有预定行程长度的回退行程和前进行程运动。 燃料排放回路在排水位置处与排气位置连通,排水位置沿着孔从轴孔轴向间隔开,柱塞延伸穿过该孔的外部开口。 预定的密封长度被特别设计成小于预定行程长度,以使柱塞的外部上的润滑油在排放位置被柱塞输送到燃油排放回路。 通过燃油排放回路的燃料泄漏从柱塞洗涤润滑油,从而混合润滑油和燃料,并通过返回管路将混合物输送到燃料供应系统。 可以在返回管路中设置可变限制阀,以控制泄漏流量。 因此,可以相对于行程选择预定的密封长度以实现期望的泄漏速率。 在另一个实施例中,可以使用底切来增加使用的润滑油泄漏速率。
    • 7. 发明授权
    • Fuel injector having a cooled lower nozzle body
    • 燃料喷射器具有冷却的下喷嘴体
    • US07021558B2
    • 2006-04-04
    • US10423010
    • 2003-04-25
    • Cariappa M. ChenandaDavid L. BuchananLester L. Peters
    • Cariappa M. ChenandaDavid L. BuchananLester L. Peters
    • B05B9/00
    • F02M53/043F02M55/002F02M55/004F02M59/466F02M59/468F02M61/042F02M63/0225
    • A fuel injector is provided with a lower nozzle body which is cooled with a small amount of metered fuel. In one embodiment, a blind passage is formed to extend from the upper portion to the lower end of the injector nozzle valve element. A transverse passage is formed in the nozzle valve element connecting the blind passage and the nozzle bore. Rail pressure causes a metered amount of fuel to flow through the nozzle bore, the transverse passage and upwardly along the blind passage to the drain passage. Inward cooling occurs by providing more surface area over which the fuel flows. In another embodiment, a sleeve is formed to fit over an existing nozzle to form a passage surrounding the injector tip. An orifice is located in the nozzle housing to connect the nozzle cavity with the annular passage thereby providing a small amount of fuel to drain.
    • 燃料喷射器设置有用少量计量燃料冷却的下喷嘴体。 在一个实施例中,盲通道形成为从喷射器喷嘴阀元件的上部延伸到下端。 在连接盲通道和喷嘴孔的喷嘴阀元件中形成横向通道。 轨道压力导致计量的燃料流过喷嘴孔,横向通道并沿着盲通道向上流到排水通道。 通过提供更多的燃料流过的表面积来进行向内冷却。 在另一个实施例中,套筒形成为装配在现有喷嘴上方以形成围绕喷射器尖端的通道。 孔口位于喷嘴壳体中,以将喷嘴腔与环形通道连接,从而提供少量燃料排出。
    • 10. 发明授权
    • Fuel injector with pressure balanced needle valve
    • 带压力平衡针阀的燃油喷射器
    • US5979803A
    • 1999-11-09
    • US939007
    • 1997-09-26
    • Lester L. PetersJulius P. PerrBenjamin M. YenGeorge L. MunteanJ. Victor PerrJohn D. Crofts
    • Lester L. PetersJulius P. PerrBenjamin M. YenGeorge L. MunteanJ. Victor PerrJohn D. Crofts
    • F02M47/04F02M51/06F02M61/04F02M63/00F02M45/00
    • F02M47/046F02M51/0603F02M51/061F02M51/0653F02M51/0657F02M61/042F02M2200/702
    • An improved fuel injector for providing precise control over injection timing, quantity and rate shape is provided which includes a fuel pressure balancing device for balancing the fuel pressure forces acting on a needle valve element while the element is in both the closed and open positions thereby permitting an actuator to more precisely and predictably control the movement of the needle valve element. The fuel pressure balancing device includes a cavity formed in the needle valve element and pressure balancing surfaces formed on the needle valve element and positioned in the cavity. The actuator may be a piezoelectric actuator for compressing actuating fluid in an actuating fluid circuit which includes a fluid chamber positioned adjacent a needle valve element and fluidically separate from a fuel supply circuit for supplying high pressure fuel for injection. Actuating fluid pressure in the chamber acts on the needle valve element to initiate injection. In another embodiment, the needle valve element is directly controlled by a solenoid actuator.
    • 提供了一种用于提供对喷射正时,数量和速率形状的精确控制的改进的燃料喷射器,其包括用于平衡作用在针阀元件上的燃料压力的燃料压力平衡装置,同时元件处于关闭位置和打开位置,从而允许 致动器以更精确和可预测地控制针阀元件的运动。 燃料压力平衡装置包括形成在针阀元件中的空腔和形成在针阀元件上并定位在空腔中的压力平衡表面。 致动器可以是用于压缩致动流体回路中的致动流体的压电致动器,该致动流体回路包括邻近针阀元件定位的流体室,并与用于喷射高压燃料的燃料供应回路流体分离。 腔室中的致动流体压力作用在针阀元件上以开始注射。 在另一个实施例中,针阀元件由螺线管致动器直接控制。