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    • 1. 发明授权
    • Leak characterization apparatuses and methods for fluid storage containers
    • 流体储存容器的泄漏表征装置和方法
    • US07752892B2
    • 2010-07-13
    • US11470868
    • 2006-09-07
    • Stuart MullerRobert Torres, Jr.
    • Stuart MullerRobert Torres, Jr.
    • G01M3/04
    • G01M3/229
    • According to the invention, an apparatus to characterize leaks in a fluid storage container is disclosed. The apparatus may include a valve coupler, a gas manifold and a processor. The valve coupler may couple the apparatus with a closed valve on the fluid storage container. The gas manifold may be coupled with the valve coupler and may include a first branch connected with a gas monitoring device. The gas monitoring device may scan for a plurality of gases that may be emitted by the closed valve of the fluid storage container. The processor may be operable to receive gas monitoring device data representing masses for one or more of the plurality of gases detected by the monitor.
    • 根据本发明,公开了一种用于表征流体储存容器中泄漏的装置。 该装置可以包括阀联接器,气体歧管和处理器。 阀联接器可将装置与液体储存容器上的封闭阀联接。 气体歧管可以与阀联接器联接,并且可以包括与气体监测装置连接的第一分支。 气体监测装置可以扫描可由流体储存容器的封闭阀发射的多种气体。 处理器可以可操作地接收表示由监视器检测到的多个气体中的一个或多个气体的质量的气体监测装置数据。
    • 2. 发明申请
    • Leak Characterization Apparatuses and Methods for Fluid Storage Containers
    • 流体储存容器的泄漏特性设备和方法
    • US20090025455A1
    • 2009-01-29
    • US12245469
    • 2008-10-03
    • Stuart MullerRobert Torres, JR.
    • Stuart MullerRobert Torres, JR.
    • G01M3/04
    • G01M3/229
    • According to the invention, an apparatus to characterize leaks in a fluid storage container is disclosed. The apparatus may include a valve coupler, a gas manifold and a processor. The valve coupler may couple the apparatus with a closed valve on the fluid storage container. The gas manifold may be coupled with the valve coupler and may include a first branch connected with a gas monitoring device. The gas monitoring device may scan for a plurality of gases that may be emitted by the closed valve of the fluid storage container. The processor may be operable to receive gas monitoring device data representing masses for one or more of the plurality of gases detected by the monitor.
    • 根据本发明,公开了一种用于表征流体储存容器中泄漏的装置。 该装置可以包括阀联接器,气体歧管和处理器。 阀联接器可将装置与液体储存容器上的封闭阀联接。 气体歧管可以与阀联接器联接,并且可以包括与气体监测装置连接的第一分支。 气体监测装置可以扫描可由流体储存容器的封闭阀发射的多种气体。 处理器可以可操作地接收表示由监视器检测到的多个气体中的一个或多个气体的质量的气体监测装置数据。
    • 3. 发明申请
    • Leak Characterization Apparatuses and Methods for Fluid Storage Containers
    • 流体储存容器的泄漏特性设备和方法
    • US20090025456A1
    • 2009-01-29
    • US12245483
    • 2008-10-03
    • Stuart MullerRobert Torres, JR.
    • Stuart MullerRobert Torres, JR.
    • G01M3/04
    • G01M3/229
    • An apparatus for determining a leak rate of a gas from a closed valve is disclosed. The apparatus may include a vacuum pump, a pressure measuring device, a monitoring device, and a computer. The vacuum pump may be configured to couple downstream of the closed valve and decrease the pressure of the downstream side of the closed valve. The pressure measuring device may be configured to couple with the downstream side and determine the pressure. The monitoring device may be configured to couple with the downstream side and monitor a gas, where the gas may be emitted from the closed valve and be characterized by a mass. The monitoring device may further be configured to determine the mass. The computer may be configured to control the vacuum pump based on the pressure, and determine the leak rate of the gas based at least in part on the mass.
    • 公开了一种用于确定来自封闭阀的气体泄漏率的装置。 该装置可以包括真空泵,压力测量装置,监视装置和计算机。 真空泵可以被配置为联接关闭的阀的下游并减小关闭阀的下游侧的压力。 压力测量装置可以被配置成与下游侧连接并确定压力。 监测装置可以被配置为与下游侧联接并监测气体,其中气体可以从封闭的阀发射并且通过质量来表征。 监测装置还可以被配置为确定质量。 计算机可以被配置为基于压力来控制真空泵,并且至少部分地基于质量确定气体的泄漏率。
    • 4. 发明授权
    • Torque limiting hand wheel
    • 扭矩限制手轮
    • US07584936B2
    • 2009-09-08
    • US11470751
    • 2006-09-07
    • Jeff LewisStuart Muller
    • Jeff LewisStuart Muller
    • F16K31/44
    • F16K31/60F16D7/048F16D43/2028G05G1/08
    • According to the invention, a system for applying torque to a valve element that stops fluid flow through the valve is disclosed. The system may include an input element, a drive element, and a torque transferring mechanism. The input element may be configured to receive a torque. The drive element may be configured to apply substantially none of the torque, or at least a portion of the torque, to the valve element. The torque transferring mechanism may be configured to receive the torque from the input element, and transfer substantially none of the torque, or at least a portion of the torque, to the drive element based at least in part on a resistance of the valve element to turning.
    • 根据本发明,公开了一种用于向阻止流体流过阀门的阀元件施加扭矩的系统。 该系统可以包括输入元件,驱动元件和扭矩传递机构。 输入元件可被配置为接收转矩。 驱动元件可以构造成基本上施加扭矩或至少一部分扭矩的阀元件。 转矩传递机构可以被配置为从输入元件接收扭矩,并且至少部分地基于阀元件的电阻至少部分地将扭矩或至少一部分转矩传递到驱动元件 转动
    • 5. 发明申请
    • LEAK CHARACTERIZATION APPARATUSES AND METHODS FOR FLUID STORAGE CONTAINERS
    • 泄漏特征装置和流体储存容器的方法
    • US20080060421A1
    • 2008-03-13
    • US11470868
    • 2006-09-07
    • Stuart MullerRobert Torres
    • Stuart MullerRobert Torres
    • G01M3/04
    • G01M3/229
    • According to the invention, an apparatus to characterize leaks in a fluid storage container is disclosed. The apparatus may include a valve coupler, a gas manifold and a processor. The valve coupler may couple the apparatus with a closed valve on the fluid storage container. The gas manifold may be coupled with the valve coupler and may include a first branch connected with a gas monitoring device. The gas monitoring device may scan for a plurality of gases that may be emitted by the closed valve of the fluid storage container. The processor may be operable to receive gas monitoring device data representing masses for one or more of the plurality of gases detected by the monitor.
    • 根据本发明,公开了一种用于表征流体储存容器中泄漏的装置。 该装置可以包括阀联接器,气体歧管和处理器。 阀联接器可将装置与液体储存容器上的封闭阀联接。 气体歧管可以与阀联接器联接,并且可以包括与气体监测装置连接的第一分支。 气体监测装置可以扫描可由流体储存容器的封闭阀发射的多种气体。 处理器可以可操作地接收表示由监视器检测到的多个气体中的一个或多个气体的质量的气体监测装置数据。
    • 6. 发明申请
    • TORQUE LIMITING HAND WHEEL
    • 扭矩限制手轮
    • US20080061256A1
    • 2008-03-13
    • US11470751
    • 2006-09-07
    • Jeff LewisStuart Muller
    • Jeff LewisStuart Muller
    • F16K31/44
    • F16K31/60F16D7/048F16D43/2028G05G1/08
    • According to the invention, a system for applying torque to a valve element that stops fluid flow through the valve is disclosed. The system may include an input element, a drive element, and a torque transferring mechanism. The input element may be configured to receive a torque. The drive element may be configured to apply substantially none of the torque, or at least a portion of the torque, to the valve element. The torque transferring mechanism may be configured to receive the torque from the input element, and transfer substantially none of the torque, or at least a portion of the torque, to the drive element based at least in part on a resistance of the valve element to turning.
    • 根据本发明,公开了一种用于向阻止流体流过阀门的阀元件施加扭矩的系统。 该系统可以包括输入元件,驱动元件和扭矩传递机构。 输入元件可被配置为接收转矩。 驱动元件可以构造成基本上施加扭矩或至少一部分扭矩的阀元件。 转矩传递机构可以被配置为从输入元件接收转矩,并且基本上至少部分地基于阀元件的电阻至少将扭矩或扭矩的至少一部分转移到驱动元件 转动
    • 7. 发明申请
    • Apparatus and Process for Leak-Testing and Qualification of Fluid Dispensing Vessels
    • 流体分配容器泄漏检测和鉴定的设备和方法
    • US20080307858A1
    • 2008-12-18
    • US11817226
    • 2006-02-28
    • James V. McManusStuart MullerRyan Clement
    • James V. McManusStuart MullerRyan Clement
    • G01M3/04G01D18/00
    • G01M3/226
    • A system (10) for leak-testing an article (20) required to be fluid leak-tight in use at a fluid contacting region (38) thereof, to determine fluid leakage through the article to a non-fluid contacting region (40) of the article. The system includes a leak-testing fluid held in confinement by the fluid-contacting region of the article, a vacuum assembly (46, 66) arranged for establishing a vacuum environment at the non-fluid-contacting region of the article, and a leak detector (76) arranged to detect presence or absence of the leak-testing fluid in the vacuum environment, to determine fluid leakage through the article. The system enables leak sensitivity significantly below 1×10−6 standard atmospheric-cc/scc to be achieved, e.g., sensitivity in a range of from 1×10−7 to 1×10−11 standard atmospheric-cc/see, and is useful for quality assurance testing of vessels (118) intended to carry hazardous gases.
    • 一种用于在使用中在流体接触区域(38)处要求流体泄漏密封的物品(20)进行泄漏测试的系统(10),以确定通过物品的流体泄漏到非流体接触区域(40) 的文章。 该系统包括通过物品的流体接触区域保持的泄漏测试流体,布置成在制品的非流体接触区域处建立真空环境的真空组件(46,66)和泄漏 检测器(76)被布置成检测在真空环境中是否存在泄漏检测流体,以确定通过物品的流体泄漏。 该系统使泄漏灵敏度显着低于1x10-6标准大气压cc / scc,例如灵敏度范围为1×10-7至1×10-11标准大气压cc /见,并且可用于质量保证测试 用于携带有害气体的容器(118)。