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    • 3. 发明授权
    • Variable line size averaging pitot tube
    • 可变线尺寸平均皮托管
    • US09551601B2
    • 2017-01-24
    • US14585423
    • 2014-12-30
    • Dieterich Standard, Inc.
    • Gregory Robert StromPaul Timothy DeeganDavid Russell Mesnard
    • G01F15/18G01F1/46G01F15/06
    • G01F1/46G01F15/063G01F15/18G01F15/185
    • Systems, apparatus and methods are disclosed for coupling an averaging picot tube (APT) primary element to a process pipe. A mounting assembly mounts the APT primary element to the process pipe such that a length of the APT primary element extending into the process pipe is adjustable to accommodate different sized process pipe diameters. The mounting assembly includes a weld coupling coupled to the process pipe over an opening in the process pipe and having the APT primary element extending therethrough into the process pipe. An extension pipe nipple is connected to the weld coupling and has the APT primary element extending therethrough such that a transition between a neck section and a sensor section of the APT primary element is positioned inside the extension pipe nipple. A union component, a ferrule, and a cap keep the APT primary element in the mounted position and form a process seal.
    • 公开了用于将平均皮深筒(APT)主要元件耦合到过程管的系统,装置和方法。 安装组件将APT主要元件安装到过程管中,使得延伸到过程管中的APT主要元件的长度可调节以适应不同尺寸的过程管直径。 安装组件包括在过程管中的开口处连接到处理管的焊接耦合件,并且具有穿过其延伸到工艺管中的APT主要元件。 延伸管接头连接到焊接接头并且具有延伸穿过其中的APT主要元件,使得APT主元件的颈部和传感器部分之间的过渡位于延伸管接头内部。 联合组件,套圈和帽将APT主要元件保持在安装位置并形成工艺密封。
    • 4. 发明授权
    • Integrated orifice plate assembly
    • 集成孔板组件
    • US09476744B2
    • 2016-10-25
    • US14865065
    • 2015-09-25
    • Dieterich Standard, Inc.
    • Michael Hering
    • G01F1/42
    • G01F1/42
    • An orifice plate assembly for use with a process variable transmitter for measuring flow of a process fluid includes a single piece body having a circumferential support ring. A first face of the circumferential support ring is configured to be sealingly coupled to a first flange of a first process pipe. A second face of the circumferential support ring is configured to be sealingly coupled to a second flange of a second process pipe. A flow plate region is positioned between the first and second pipes and has first and second sides. The flow plate region is concentric with the circumferential support ring. At least one flow orifice in the flow plate region provides a restricted fluid path between the first and second process pipes. A first pressure tap is configured to fluidically couple to the process variable transmitter to the process fluid proximate the first side of the flow plate region. A second pressure tap configured to fluidically couple the process variable transmitter to the process fluid proximate the second side of the flow plate region.
    • 用于与过程变量变送器一起测量工艺流体的孔板组件包括具有周向支撑环的单件本体。 周向支撑环的第一面构造成密封地联接到第一工艺管的第一凸缘。 周向支撑环的第二面构造成密封地联接到第二工艺管的第二凸缘。 流动板区域位于第一和第二管之间,并具有第一和第二侧。 流动板区域与周向支撑环同心。 流动板区域中的至少一个流动孔口在第一和第二处理管道之间提供受限制的流体路径。 第一压力分接头构造成使流体变量传递器流体地耦合到流动板区域的第一侧附近的过程流体。 第二压力分接头被配置成将过程变量发射器流体耦合到流动板区域的第二侧附近的过程流体。
    • 10. 发明授权
    • Locating of pressure taps on face of orifice plate device
    • 在孔板装置的表面上定位压力龙头
    • US09062994B2
    • 2015-06-23
    • US11764030
    • 2007-06-15
    • Stephen Arthur IfftCharles Theodore Orleskie
    • Stephen Arthur IfftCharles Theodore Orleskie
    • G01F1/46G01F1/32G01F1/42
    • G01F1/42
    • A process flow device that includes a self-averaging orifice plate type of primary flow element with a high pressure tap located on or incorporated into its upstream surface, and a low pressure tap located on or incorporated into its downstream surface, for measuring, by a differential pressure process, the volumetric rate of fluid flow at a point in a fluid carrying conduit where the velocity profile of the fluid is asymmetric with respect to the longitudinal axis of the conduit. The improved pressure tap configuration consists of two fluid conduits, one carried by each of the downstream and upstream faces of the orifice plate, establishing fluid communication between openings in the downstream and upstream faces of the orifice plate and their respective terminal pressure ports. Location of the pressure taps on the faces of the orifice plate in this manner allows for increased resolution of the pressure signals by minimizing the effects of upstream pipe flow disturbances on pressure taps used in conjunction with conditioning orifice plate primary flow elements, especially those with higher beta ratios.
    • 一种工艺流程装置,其包括具有位于其上游表面上或结合到其上游表面中的高压龙头的自平均孔板型初级流动元件,以及位于其下游表面上或结合到其下游表面中的低压龙头,用于通过 差压过程,流体输送管道中的流体流动的体积流速,其中流体的速度分布相对于导管的纵向轴线是不对称的。 改进的压力分接头构造包括两个流体导管,一个由孔板的下游和上游面承载的流体导管,在孔板的下游侧和上游面以及它们各自的端部压力端口之间建立开口之间的流体连通。 以这种方式在孔板的表面上的压力抽头的位置允许通过最小化上游管道流动扰动对与调节孔板主要流动元件,特别是具有较高压力的孔板的主要流动元件一起使用的压力水龙头的影响来增加压力信号的分辨率 β比率。