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    • 2. 发明授权
    • Waterfowl decoy system
    • 水鸟诱饵系统
    • US06782653B1
    • 2004-08-31
    • US10367376
    • 2003-02-13
    • Timothy D. Thomas
    • Timothy D. Thomas
    • A01M3106
    • A01M31/06
    • A waterfowl decoy system used by one or more hunters for simulating large numbers of geese and ducks in a field or on a water surface. The system includes a plurality of decoy pennants attached to a decoy line. A plurality of decoy lines joined in series form a decoy line train. Opposite ends of each decoy line include a snap swivel for preventing the pennants and decoy line from becoming tangled. A portion of the decoy line is attached to a top of a line pole for suspending the decoy pennants above a ground surface or a water surface. Also, a portion of the decoy line can be connected to a decoy line animator for moving the decoy line and pennants from one position to another. The decoy system also includes a backpack or dolly with a vertical hand operated vertical spool for holding the pennants and decoy lines thereon and transporting the decoy system to and from the hunting area.
    • 一个或多个猎人用于模拟野外或水面上大量鹅和鸭的水鸟诱饵系统。 该系统包括附接到诱饵线的多个诱饵信号。 串联连接的多个诱饵线形成诱饵线列车。 每个诱饵线的相对端包括一个卡扣旋转装置,用于防止信号旗和诱饵线缠结。 引诱线的一部分连接到线极的顶部,用于将诱饵三角旗悬挂在地面或水面之上。 此外,诱饵线的一部分可以连接到诱饵线动画师,用于将诱饵线和信号旗从一个位置移动到另一个位置。 诱饵系统还包括一个带有垂直手动垂直阀芯的背包或小车,用于将信号旗和诱饵线保持在其上,并将诱饵系统运送到狩猎区域和从狩猎区域运送。
    • 6. 发明授权
    • Computer aided tuning of turbine controls
    • 涡轮机控制的计算机辅助调谐
    • US4866940A
    • 1989-09-19
    • US223321
    • 1988-07-25
    • Edward Y. HwangTimothy D. Thomas
    • Edward Y. HwangTimothy D. Thomas
    • F01D17/20F01D17/24F01K7/16F01K13/02F16K37/00G05B23/02G05D7/06
    • G05B13/0245F01K7/165F16K37/0075F16K37/0083G05D7/0635Y10T137/7761
    • A method for automatically calibrating a controller for a valve controlled system follows consistent procedures to make precise adjustments to valve characteristics. The controller is placed in a calibration mode, then the valve settings are modified over a full range of operation. At predetermined levels of operation, the valve settings are maintained at preset values while system performance is measured. After the full range of valve operation has been covered, adjustments are made to the correspondence between the valve settings and the levels of operation in dependence upon the differences between the measured system performance and the predetermined levels of operation. This procedure is repeated to provide average values and also to make changes to valve characteristic curves corresponding to different modes of operation such as single valve and sequential valve modes. Other control parameters may be adjusted by evaluating system performance during normal operation.
    • 用于自动校准阀控制系统的控制器的方法遵循一致的程序以对阀特性进行精确调节。 将控制器置于校准模式,然后在完整的操作范围内修改阀门设置。 在预定的操作水平下,在测量系统性能时,将阀设置保持在预设值。 在完全范围的阀门操作被覆盖之后,根据所测量的系统性能与预定操作水平之间的差异,调整阀门设置和操作水平之间的对应关系。 重复该过程以提供平均值,并且还可以改变对应于不同操作模式的阀特性曲线,例如单阀和顺序阀模式。 可以通过在正常操作期间评估系统性能来调整其他控制参数。