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    • 1. 发明授权
    • Hydraulic control system with cross function regeneration
    • 具有交叉功能再生的液压控制系统
    • US07451685B2
    • 2008-11-18
    • US11079059
    • 2005-03-14
    • Keith A. Tabor
    • Keith A. Tabor
    • F15B13/16
    • F15B21/14F15B11/006F15B11/163F15B21/082F15B2211/30575F15B2211/327F15B2211/351F15B2211/353F15B2211/63F15B2211/6309F15B2211/6313F15B2211/6654F15B2211/6658F15B2211/7053F15B2211/71F15B2211/75F15B2211/78F15B2211/88
    • A system operates a hydraulic actuator, such as a cylinder, in one of several modes that include powered extension and retraction, self-powering regeneration modes in which fluid exhausting from one cylinder chamber is routed into the other cylinder chamber, and cross function regeneration modes wherein the fluid exhausted from one actuator is routed in the supply conduit to power a different actuator. A controller determines which modes are viable based on existing system conditions and selects from among the viable available modes. That determination is a function of the desired velocity for the actuator, the hydraulic load on the actuator, and pressures in the supply and return hydraulic conduits. The system also can recover potential or kinetic energy through pressure intensification which recovered energy can be used to power another simultaneously active hydraulic function or to drive the prime mover via an over-center variable pump/motor.
    • 系统将液压致动器(例如气缸)操作在包括动力伸展和回缩的多种模式中的一种模式中,其中一个气缸室中排出的液体排出到另一气缸室中的自动再生模式以及交叉功能再生模式 其中从一个致动器排出的流体在供应导管中被路由以为不同的致动器供电。 控制器根据现有系统条件确定哪些模式可行,并从可行的可用模式中进行选择。 该确定是致动器的期望速度,致动器上的液压负载以及供应和返回液压管道中的压力的​​函数。 该系统还可以通过压力增强来恢复潜能或动能,回收的能量可用于为另一个同时有效的液压功能供电,或通过一个过中心的可变泵/电机来驱动原动机。
    • 2. 发明授权
    • Electrohydraulic valve servomechanism with adaptive resistance estimator
    • 电液阀伺服机构与自适应电阻估计器
    • US07377480B2
    • 2008-05-27
    • US11083585
    • 2005-03-18
    • Keith A. TaborJoseph L. Pfaff
    • Keith A. TaborJoseph L. Pfaff
    • G05B11/28
    • E02F9/22F15B11/006F15B19/00F15B21/087F15B2211/30575F15B2211/328F15B2211/875F16K37/0083
    • A servomechanism includes a controller which dynamically estimates the resistance of the solenoid coil in an electrohydraulic valve as part of determining a level of electric voltage to apply to open the valve. The servomechanism receives a current setpoint designating a desired electric current level and senses the actual level of current flowing through the coil. A proportional term is derived from the current setpoint and the actual level of current. Creation of a derivative term is based on the difference between the current setpoint and the actual level of current. A feedforward term is produced by estimating the resistance of the electrohydraulic valve and limiting the feedforward term to a predefined range of acceptable values. The proportional term, derivative term, and the feedforward term are summed to define a desired voltage level, and a PWM signal for driving the electrohydraulic valve is generated based on the desired voltage level.
    • 伺服机构包括控制器,该控制器动态地估计电动液压阀中的螺线管线圈的阻力,作为确定用于打开阀门的电压水平的一部分。 伺服机构接收指定所需电流水平的电流设定点,并感测流过线圈的电流的实际电平。 从当前设定值和电流的实际电平得出比例项。 衍生项的创建是基于当前设定值与实际电流水平之差。 通过估计电动液压阀的阻力并将前馈项限制在预定范围的可接受值来产生前馈项。 将比例项,微分项和前馈项相加以确定期望的电压电平,并且基于期望的电压电平产生用于驱动电动液压阀的PWM信号。