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    • 1. 发明申请
    • METHOD FOR PRESSURE-SENSOR WEAR STATE DETERMINATION OF A VALVE MECHANISM
    • 用于压力传感器磨损状态的方法确定阀门机构
    • US20100152907A1
    • 2010-06-17
    • US12637367
    • 2009-12-14
    • Urs E. MeierDetlef Pape
    • Urs E. MeierDetlef Pape
    • G05D7/06F16K31/02G06F17/18
    • F16K37/0091F15B19/005
    • A method and a valve arrangement are disclosed for pressure-sensor diagnosis of an operating state of a valve arrangement for controlling a process medium flow, in which a valve element, which is arranged such that it can move axially within a valve housing, is moved by application of control pressure, with the control pressure being determined in the starting and/or stopped phase of the valve element in order to determine static friction. A pressure rise value of control pressure required to start movement of the valve element is measured repeatedly and successively after the movement of the valve element has been stopped. The measured pressure rise values are temporarily stored in a memory unit. A diagnosis unit accesses the pressure rise values in order to determine a probable influence of the static friction on the movement of the valve element, by statistical analysis.
    • 公开了一种用于压力传感器诊断用于控制过程介质流的阀装置的操作状态的方法和阀装置,其中被布置成使其能够在阀壳体内轴向移动的阀元件被移动 通过施加控制压力,在阀元件的启动和/或停止阶段确定控制压力,以便确定静摩擦力。 在阀元件的移动已经停止之后,重复并连续地测量开始阀元件运动所需的控制压力的压力上升值。 测量的压力上升值被临时存储在存储器单元中。 通过统计分析,诊断单元访问压力上升值,以便确定静摩擦对阀元件运动的可能影响。
    • 2. 发明申请
    • METHOD FOR DETERMINING THE PATH AND PRESSURE WEAR CONDITION OF A VALVE MECHANISM AND VALVE ARRANGEMENT USING SUCH A VALVE
    • 使用这种阀确定阀门机构和阀门装置的路径和压力磨损条件的方法
    • US20100147395A1
    • 2010-06-17
    • US12637339
    • 2009-12-14
    • Urs E. MEIERDetlef Pape
    • Urs E. MEIERDetlef Pape
    • F15D1/00
    • F16K31/1262F16K37/0041G05B23/0256G05B2219/24077Y10T137/0318Y10T137/0396Y10T137/7722Y10T137/7762
    • A method for sensor operating-state determination of a valve arrangement to control a process medium flow through a pipeline having a valve element, arranged such that it can move axially within a valve housing via a pneumatic actuating drive by application of control pressure, with the control pressure being measured and evaluated in order to determine the sliding friction during the movement. The valve element can be moved at a constant speed over at least a subarea of the travel movement, the value of which speed is measured via a position sensor system for signal processing, with the currently applied control pressure being measured at approximately the same time for signal processing via a pressure sensor system. The current sliding friction of the valve element can be determined as a measure of wear state from both measured values, by an electronic evaluation unit, based on a proportional drive force expressed by the control pressure which occurs when the valve element is traveling at a constant speed.
    • 一种用于传感器操作状态确定阀装置的方法,用于控制通过具有阀元件的管道的处理介质流,该管道布置成使得其可以通过施加控制压力的气动致动驱动器在阀壳体内轴向移动, 测量和评估控制压力,以确定运动过程中的滑动摩擦力。 阀元件可以在行进运动的至少一个子区域上以恒定的速度移动,通过用于信号处理的位置传感器系统来测量该速度的值,其中当前施加的控制压力大约在同一时间被测量 通过压力传感器系统进行信号处理。 阀元件的当前滑动摩擦可以通过电子评估单元根据由阀元件以恒定行驶时发生的控制压力表示的比例驱动力来确定为来自两个测量值的磨损状态的测量值 速度。
    • 5. 发明授权
    • Method for detecting the drive type of an actuator (II)
    • 用于检测致动器(II)的驱动类型的方法
    • US08281705B2
    • 2012-10-09
    • US12328954
    • 2008-12-05
    • Thomas KleegreweStefan EngelkeAndreas StelterWolfgang ScholzUrs E. MeierDetlef Pape
    • Thomas KleegreweStefan EngelkeAndreas StelterWolfgang ScholzUrs E. MeierDetlef Pape
    • F01B31/12F15B9/10
    • F15B21/08F15B19/002G01B7/30G01B21/22
    • A method is disclosed for detecting the drive type of an actuator, e.g., a pneumatic actuator, having a positioner for operating a final control element in a process engineering plant. The actuator is connected to the positioner by a mounting set, the positioner comprising an electronic control unit, which uses a microcontroller to receive one or more input signals, and to output actuating signals to control the flow of gas to or from the chambers of a single-acting or double-acting pneumatic drive. The position feedback sensors are equipped with a rotational measuring system. During commissioning of the actuator, the relationship between the drive volumes and the position signal is found and compared with transfer characteristics of known drive types. Where there is a match between the transfer characteristic defined by the value pairs of the given actuator and one of the transfer characteristics of the known drive types, the identified drive type is assigned to the given actuator.
    • 公开了一种用于检测致动器(例如气动致动器)的驱动类型的方法,其具有用于在过程工程设备中操作最终控制元件的定位器。 致动器通过安装组件连接到定位器,定位器包括电子控制单元,该电子控制单元使用微控制器来接收一个或多个输入信号,并输出致动信号以控制气体到达或来自腔室的气流 单作用或双作用气动驱动。 位置反馈传感器配备有旋转测量系统。 在执行器调试期间,找到驱动体积和位置信号之间的关系,并将其与已知驱动类型的传递特性进行比较。 在由给定致动器的值对定义的传递特性与已知驱动类型的传送特性之间存在匹配的情况下,将所识别的驱动类型分配给给定的致动器。
    • 8. 发明申请
    • METHOD FOR DIAGNOSING THE STATE OF WEAR OF A VALVE ARRANGEMENT FOR CONTROLLING THE FLOW OF A PROCESS MEDIUM
    • 用于诊断用于控制过程介质流动的阀装置的磨损状态的方法
    • US20100152908A1
    • 2010-06-17
    • US12638440
    • 2009-12-15
    • Urs E. MeierDetlef Pape
    • Urs E. MeierDetlef Pape
    • G05D7/06F16K37/00G01F1/34G06F19/00
    • F15B15/20F16K37/0041G05B23/0254Y10T137/8242
    • A method and valve arrangement are provided for controlling the flow of a process medium through a pipeline. A pneumatic actuator moves a valve element, which is accommodated in a valve housing, and switches the flow of the process medium, in accordance with a positioning control system by means of a control piston, to at least one side of which control pressure is applied in a drive chamber. An electronic evaluation unit connected to the positioning control system monitors the operating state. A pressure sensor measures the pressure in the drive chamber, and the evaluation unit analyzes the measured pressure value with respect to a pressure p and the pressure change dp(t) over time to determine the flow into/from the drive chamber and/or the ratio (V/A) of the drive chamber volume to the effective opening cross section of the valve arrangement as a measure of the operating state of the valve arrangement.
    • 提供了一种用于控制通过管道的处理介质的流动的方法和阀装置。 气动致动器移动容纳在阀壳体中的阀元件,并且根据通过控制活塞的定位控制系统将处理介质的流动切换到施加控制压力的至少一侧 在驱动室。 连接到定位控制系统的电子评估单元监视操作状态。 压力传感器测量驱动室中的压力,并且评估单元相对于压力p和随时间变化的压力变化dp(t)来分析所测量的压力值,以确定进入/离开驱动室的流量和/或 作为阀装置的操作状态的量度,驱动室体积与阀装置的有效开口横截面的比(V / A)。
    • 9. 发明申请
    • MEASUREMENT DEVICE AND METHOD FOR DIAGNOSIS OF NOISE IN FLUIDIC SYSTEMS
    • 用于诊断流体系统噪声的测量装置和方法
    • US20100147079A1
    • 2010-06-17
    • US12638564
    • 2009-12-15
    • Andreas STELTERUrs E. MeierDetlef Pape
    • Andreas STELTERUrs E. MeierDetlef Pape
    • G01N29/032
    • G01H3/00F16K37/0091G01M3/243
    • A measurement device and method for diagnosing noise in fluidic systems. A microphone, which is arranged at least partially in the area of the flow medium, compensates for pressure surges in the flow medium. The microphone receives the noise via a membrane and converts it to an electrical signal for evaluation of the noise source by an electronic diagnosis unit. To compensate for pressure surges in the flow medium, the membrane of the microphone is arranged in a housing, which is open on both sides of the membrane and whose two openings have pressure applied to them by the flow medium as a sound source, with at least one of the two openings being provided, in order to detect noise, with filter means for attenuation and/or time delay of frequencies which are in an expected noise spectrum, while the filter means allows lower frequencies produced by the pressure fluctuations in the flow medium to pass through.
    • 用于诊断流体系统噪声的测量装置和方法。 至少部分地布置在流动介质的区域中的麦克风补偿流动介质中的压力波动。 麦克风通过膜接收噪声并将其转换为电信号,以通过电子诊断单元评估噪声源。 为了补偿流动介质中的压力波动,麦克风的膜布置在壳体中,该壳体在膜的两侧是开放的,并且其两个开口具有通过流动介质作为声源施加到它们的压力,其中 提供两个开口中的至少一个,以便检测噪声,具有用于衰减和/或处于预期噪声谱的频率的时间延迟的滤波器装置,而滤波器装置允许由流量中的压力波动产生的较低频率 中等通过
    • 10. 发明授权
    • Method for determining the path and pressure wear condition of a valve mechanism and valve arrangement using such a valve
    • 用于确定阀机构的路径和压力磨损状况以及使用这种阀的阀装置的方法
    • US08443821B2
    • 2013-05-21
    • US12637339
    • 2009-12-14
    • Urs E. MeierDetlef Pape
    • Urs E. MeierDetlef Pape
    • F17D5/04
    • F16K31/1262F16K37/0041G05B23/0256G05B2219/24077Y10T137/0318Y10T137/0396Y10T137/7722Y10T137/7762
    • A method for sensor operating-state determination of a valve arrangement to control a process medium flow through a pipeline having a valve element, arranged such that it can move axially within a valve housing via a pneumatic actuating drive by application of control pressure, with the control pressure being measured and evaluated in order to determine the sliding friction during the movement. The valve element can be moved at a constant speed over at least a subarea of the travel movement, the value of which speed is measured via a position sensor system for signal processing, with the currently applied control pressure being measured at approximately the same time for signal processing via a pressure sensor system. The current sliding friction of the valve element can be determined as a measure of wear state from both measured values, by an electronic evaluation unit, based on a proportional drive force expressed by the control pressure which occurs when the valve element is traveling at a constant speed.
    • 一种用于传感器操作状态确定阀装置的方法,用于控制通过具有阀元件的管道的处理介质流,该管道布置成使得其可以通过施加控制压力的气动致动驱动器在阀壳体内轴向移动, 测量和评估控制压力,以确定运动过程中的滑动摩擦力。 阀元件可以在行进运动的至少一个子区域上以恒定的速度移动,通过用于信号处理的位置传感器系统来测量该速度的值,其中当前施加的控制压力大约在同一时间被测量 通过压力传感器系统进行信号处理。 阀元件的当前滑动摩擦可以通过电子评估单元根据由阀元件以恒定行驶时发生的控制压力表示的比例驱动力来确定为来自两个测量值的磨损状态的测量值 速度。