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    • 3. 发明授权
    • Intake valve closing hydraulic adjuster
    • 进气阀关闭液压调节器
    • US08069828B2
    • 2011-12-06
    • US12540828
    • 2009-08-13
    • William de OjedaDaniel Cornelius
    • William de OjedaDaniel Cornelius
    • F01L9/02
    • F01L13/0021F01L1/16F01L13/00F01L2001/34446F01L2800/10
    • A mechanism (40) for enabling an engine cylinder valve (18) to close at various times during engine cycles has a hydraulic actuator (58) and a control valve (60) controlling the hydraulic actuator a) to constrain a pivot axis of a valve rocker (52) against relocation while the cylinder valve is being forced increasingly open, and b) to release the constraint after the cylinder valve has been forced open for enabling the pivot axis to relocate so that the intake valve can close early thereby providing early IVC. A hydraulic snubber (64) snubs closing motion of the cylinder valve through a scheduling geometry to a hydraulic accumulator (62). The control valve opens to the accumulator to allow the rocker pivot axis to relocate and provide early IVC and closes to return the pivot axis to a location that doesn't provide early IVC.
    • 用于使发动机气缸阀门(18)在发动机循环期间的不同时间关闭的机构(40)具有液压致动器(58)和控制液压致动器(a)的控制阀(60),以限制阀的枢转轴线 摇杆(52)在气缸阀被迫越来越多地打开的同时重新定位,并且b)在气缸阀被强制打开以释放枢转轴线重新定位之后释放约束,使得进气门能够提前关闭从而提供早期IVC 。 液压缓冲器(64)通过调度几何形状来阻塞气缸阀的闭合运动到液压蓄能器(62)。 控制阀打开到蓄能器以允许摇臂枢转轴线重新定位并提供早期IVC并且关闭以将枢转轴线返回到不提供早期IVC的位置。
    • 5. 发明授权
    • Poppet valve actuator
    • 提升阀执行器
    • US06763790B2
    • 2004-07-20
    • US10044867
    • 2002-01-10
    • John P. WatsonWilliam de Ojeda
    • John P. WatsonWilliam de Ojeda
    • F01L902
    • F01L9/02
    • A valve actuator assembly for actuating a valve, the valve having a longitudinal axis includes an electrohydraulic actuator being displaced a lateral distance from the valve longitudinal axis, and a rocker arm being rotatable about a hinge point, a first arm portion extending from the hinge point to a proximal end and a second arm portion extending from the hinge point to a distal end, the proximal end being operably coupled to the second stage piston and the distal end being operably coupled to the valve, the fist arm portion being shorter than the second arm portion, the rocker arm spanning the lateral distance. A method of stroke amplification is further included.
    • 一种用于致动阀的阀致动器组件,所述阀具有纵向轴线,包括电动液压致动器,所述电液致动器从阀纵向轴线偏移一个横向距离,以及摇臂可围绕铰链点转动,第一臂部分从铰接点 到从所述铰链点延伸到远端的近端和第二臂部分,所述近端可操作地联接到所述第二级活塞,并且所述远端可操作地联接到所述阀,所述第一臂部分比所述第二臂部分短 手臂部分,摇臂横跨横向距离。 进一步包括中风放大的方法。
    • 8. 发明授权
    • Air management strategy for auto-ignition in a compression ignition engine
    • 压缩式点火发动机自动点火的空气管理策略
    • US07013212B1
    • 2006-03-14
    • US10974639
    • 2004-10-27
    • William de OjedaXilin Yang
    • William de OjedaXilin Yang
    • F02D41/34G06F19/00
    • F02D41/3035F02B1/12F02D13/023F02D13/0269F02D41/0002F02D2041/001Y02T10/142Y02T10/18Y02T10/42
    • A compression ignition engine (10) has a control system (24) for processing data, one or more cylinders (16), a fueling system (18), and a variable valve actuation mechanism (20). Control system (24) develops both fueling data for fueling the engine and timing data representing time during the engine cycle for intake valve closure to a cylinder that will endow the cylinder with an effective compression ratio (ECR) appropriate to current engine operation for causing auto-ignition to occur near or at top dead center in the engine cycle. During a compression upstroke, the cylinder is fueled according to the fueling data and intake valve closure for the cylinder is performed according to the timing data. This creates an air-fuel mixture that is increasingly compressed to the point of auto-ignition near or at top dead center.
    • 压缩点火发动机(10)具有用于处理数据的控制系统(24),一个或多个气缸(16),燃料供给系统(18)和可变气门致动机构(20)。 控制系统(24)开发用于燃料发动机的燃料供应数据和表示用于进气门关闭的发动机循环期间的时间的定时数据,该气缸将使气缸具有适合于当前发动机运转的有效压缩比(ECR)以引起汽缸 在发动机循环中靠近或在上死点处发生。 在压缩中冲击期间,气缸根据加油数据进行燃油,气缸的进气门关闭根据定时数据进行。 这产生了一种空气 - 燃料混合物,其越来越多地被压缩到靠近或在上止点处的自动点火点。
    • 10. 发明申请
    • MULTI-FUEL ENGINE
    • 多功能发动机
    • US20140373530A1
    • 2014-12-25
    • US14373773
    • 2012-01-27
    • William de Ojeda
    • William de Ojeda
    • F02M43/00F02B47/08
    • F02M43/00F02B47/08F02D19/10F02D41/0007F02D41/0025F02D41/0057F02D41/0065F02D41/3041F02D41/401F02D2021/083F02D2041/001Y02T10/144Y02T10/36Y02T10/44Y02T10/47
    • Engine includes an air induction sub-system for delivery of air to each cylinder. A lowpressure fuel injector injects a low reactivity fuel into the sub-system. An exhaust gas recirculation line connects exhaust gas purged from the cylinders back to the sub-system. An exhaust gas cooler cools recirculated gas in the exhaust gas recirculation line. The quantity of exhaust gas recirculated is controlled and the recirculated gas provides dilution and temperature control of the charge to suppress auto-ignition of the charge in the cylinder. A high pressure fuel injector injects a high reactivity fuel in the compression stroke for auto ignition and to initiate combustion of the charge. A variable valve actuator controls compression ratio and cylinder peak temperature. Boost is provided in air induction sub-system to assure combustion to stoichiometric levels.
    • 发动机包括用于将空气输送到每个气缸的空气感应子系统。 低压燃料喷射器将低反应性燃料喷射到子系统中。 排气再循环管线将从气缸中清除的废气返回到子系统。 排气冷却器冷却废气再循环管线中的再循环气体。 再循环的废气量被控制,再循环气体提供电荷的稀释和温度控制,以抑制汽缸中电荷的自动点火。 高压燃料喷射器在压缩冲程中喷射高反应性燃料以进行自动点火,并引发电荷的燃烧。 可变阀致动器控制压缩比和气缸峰值温度。 在空气感应子系统中提供升压,以确保燃烧达到化学计量水平。