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    • 21. 发明授权
    • Control gates
    • 控制门
    • US07244078B2
    • 2007-07-17
    • US11238032
    • 2005-09-27
    • David AughtonIven MareelsErik Weyer
    • David AughtonIven MareelsErik Weyer
    • E02B7/40E02B7/36E02B7/28E02B7/54
    • G05D7/067E02B7/26E02B7/40E02B7/42E02B7/54E02B13/02G01F1/002G01F1/36G01F1/40
    • A control gate is adapted to be installed across a channel for liquids. The Control gate has a barrier member capable of vertical or tilting movement and it is either slidingly or pivotally mounted to a frame of the control gate. In one instance, the control gate has at least one side member attached to the barrier member. A drive member co-operates with the side member(s) to allow raising and lowering of the barrier member to regulate flow of liquid through the control gate. The drive member includes a spool and an engagement member that is secured under tension and winds around the spool. As the spool turns it causes, with the engagement member, movement of the barrier member. Also described is a method of measuring flow rate through a control gate.
    • 控制门适于安装在液体通道上。 控制门具有能够垂直或倾斜运动的阻挡构件,并且其可滑动地或枢转地安装到控制门的框架。 在一个实例中,控制门具有连接到阻挡构件的至少一个侧构件。 驱动构件与侧构件协作以允许阻挡构件的升高和降低以调节通过控制门的液体的流动。 驱动构件包括卷轴和接合构件,其在张力下被固定并围绕卷轴缠绕。 当阀芯转动时,与接合构件一起导致阻挡构件的移动。 还描述了一种通过控制门测量流量的方法。
    • 22. 发明授权
    • Fluid regulation
    • 流体调节
    • US07152001B2
    • 2006-12-19
    • US10469438
    • 2002-03-01
    • David AughtonIven MareelsErik Weyer
    • David AughtonIven MareelsErik Weyer
    • G06F19/00
    • G05D7/067E02B13/00E02B13/02G05B13/048
    • The invention discloses a method of predicting the fluid level at a predetermined location in a fluid flow network (10) having at least one regulator (16, 18) to control the flow of fluid along fluid flow network (10). The method includes the steps of collecting data based on timed measurements of fluid levels upstream (24, 28) of at least one regulator (16, 18), fluid levels downstream (26, 29) of at least one regulator (16, 18) and the opening position (30, 32) of at least one regulator (16, 18), and using data analysis (40) to provide a model based on the data whereby the model will provide prediction of fluid level at the predetermined location based on timed measurements of fluid levels upstream (24, 28) of at least one regulator (16, 18) and the opening position (30, 32) of at least one regulator (16, 18).
    • 本发明公开了一种在具有至少一个调节器(16,18)的流体流动网络(10)中的预定位置处预测流体水平的方法,以控制沿着流体流动网络(10)的流体流动。 该方法包括以下步骤:基于至少一个调节器(16,18)的上游(24,28)的流体水位的定时测量,至少一个调节器(16,18)的流体水平下游(26,29)的收集数据, 和至少一个调节器(16,18)的打开位置(30,32),并且使用数据分析(40)来提供基于数据的模型,由此模型将基于该模型提供预定位置处的液位预测 定时测量至少一个调节器(16,18)的上游(24,28)和至少一个调节器(16,18)的打开位置(30,32)的流体水平。