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    • 1. 发明申请
    • Breath end- tidal gas monitor
    • 呼吸终端气体监测仪
    • US20060241507A1
    • 2006-10-26
    • US10561561
    • 2003-06-19
    • Lee CarlsonEdward McClatchieJoe MartinoskyRalph Walden
    • Lee CarlsonEdward McClatchieJoe MartinoskyRalph Walden
    • A61B5/08
    • A61B5/097A61B5/08A61B5/082A61B5/083A61B5/0833A61B5/0836A61B5/087
    • An improved apparatus and method for capturing and analyzing the end-tidal portion of an exhalation. The CO2 level of air drawn into the system (10) is monitored to distinguish inhalation and exhalation of breath. Upon detection of a decrease in the CO2 level in the air drawn into the system (10), indicating a transition between exhalation and inhalation a pair of flow selector valves (26, 28) are operated to capture the end-tidal volume of air drawn into the system (10) immediately prior to the detection of the decrease in the CO2 level. Incoming air is diverted around the captured volume of air, and the CO2 levels are continually monitored to ensure that the captured volume of air corresponds to the end-tidal portion of an exhalation. Once the captured volume of air is positively identified as the end-tidal portion of an exhalation, the captured volume is routed through a gas analyzer (44) for analysis of one or more predetermined gas levels.
    • 一种用于捕获和分析呼气末端部分的改进的装置和方法。 监测吸入系统(10)的CO 2水平的CO 2水平,以区分吸入和呼气。 当检测到抽吸到系统(10)中的空气中CO 2 2水平的降低时,指示呼气和吸气之间的转换,一对流量选择阀(26,28)被操作以捕获 在检测到CO 2 2水平的降低之前立即抽吸到系统(10)中的空气的最终潮气量。 进入的空气在捕获的空气体积周围转移,并且继续监测CO 2水平,以确保所捕获的空气体积对应于呼气的末端潮气部分。 一旦被捕获的空气量被确定为呼气的末端潮气部分,则捕获的体积被通过气体分析器(44),用于分析一个或多个预定气体水平。
    • 2. 发明授权
    • Gas resupply valve with microscopic aperture for gas lasers
    • 带气体激光器微孔的气体补给阀
    • US4815100A
    • 1989-03-21
    • US103072
    • 1987-09-30
    • Lee CarlsonMike GreenMike MillerRudy NissenSteve Sheng
    • Lee CarlsonMike GreenMike MillerRudy NissenSteve Sheng
    • H01S3/036H01S3/22
    • H01S3/036
    • There is disclosed herein several gas resupply valves for replenishment of lost gas in gas lasers in general and argon ion lasers in particular. The first embodiment uses a valve which controls flow of gas into a metering volume. The metering volume has an aperture therein which is microscopically small and which has a diffusion constant for gas moving through the aperture which is less than the time the valve is held open. The second embodiment uses the same general structure, but separates the soft sealing member of the valve from the solenoid core which moves to open and close the valve. The soft sealing member is attached to the valve body and supported above a valve seat surrounding the opening of the metering volume. The third embodiment uses a thin diaphragm which overlies a flat surface of the valve body in which are formed an input port and an output port. A solenoid applies pressure against the diaphragm to cause it to flatten against the flat surface thereby sealing the valve.
    • 这里公开了一些用于补充气体激光器中的失去气体的气体补给阀,特别是氩离子激光器。 第一实施例使用控制气体流入计量容积的阀。 计量体积在其中具有微小的孔径,并且其具有通过孔径移动的气体的扩散常数,其小于阀门保持打开的时间。 第二实施例使用相同的一般结构,但是将阀的软密封构件与电磁铁芯分离,电磁铁芯移动以打开和关闭阀。 软密封构件附接到阀体并且支撑在围绕计量容积的开口的阀座上。 第三实施例使用覆盖在形成输入端口和输出端口的阀体的平坦表面上的薄膜。 螺线管对隔膜施加压力,使其平坦于平面,从而密封阀。
    • 3. 发明授权
    • Valve with metal diaphragm and flat surface valve body
    • 阀门带金属隔膜和平面阀体
    • US4846440A
    • 1989-07-11
    • US103008
    • 1987-09-30
    • Lee CarlsonMike GreenMike MillerRudy NissenSteve Sheng
    • Lee CarlsonMike GreenMike MillerRudy NissenSteve Sheng
    • F16K31/06
    • F16K31/06
    • There is disclosed herein several gas resupply valves for replenishment of lost gas in gas lasers in general and argon ion lasers in particular. The first embodiment uses a valve which controls flow of gas into a metering volume. The metering volume has an aperture therein which is microscopically small and which has a diffusion constant for gas moving through the aperture which is less than the time the valve is held open. The second embodiment uses the same general structure, but separates the soft sealing member of the valve from the solenoid core which moves to open and close the valve. The soft sealing member is attached to the valve body and supported above a valve seat surrounding the opening of the metering volume. The third embodiment uses a thin diaphragm which overlies a flat surface of the valve body in which are formed an input port and an output port. A solenoid applies pressure against the diaphragm to cause it to flatten against the flat surface thereby sealing the valve.
    • 这里公开了一些用于补充气体激光器中的失去气体的气体补给阀,特别是氩离子激光器。 第一实施例使用控制气体流入计量容积的阀。 计量体积在其中具有微小的孔径,并且其具有通过孔径移动的气体的扩散常数,其小于阀门保持打开的时间。 第二实施例使用相同的一般结构,但是将阀的软密封构件与电磁铁芯分离,电磁铁芯移动以打开和关闭阀。 软密封构件附接到阀体并且支撑在围绕计量容积的开口的阀座上。 第三实施例使用覆盖在形成输入端口和输出端口的阀体的平坦表面上的薄膜。 螺线管对隔膜施加压力,使其平坦于平面,从而密封阀。
    • 4. 发明授权
    • Gas resupply valve with microscopic aperture and with sealing member
supported by valve body
    • 具有微小孔径的气体补给阀和由阀体支撑的密封构件
    • US5025952A
    • 1991-06-25
    • US449244
    • 1989-12-07
    • Lee CarlsonMike GreenMike MillerRudy NissenSteve Sheng
    • Lee CarlsonMike GreenMike MillerRudy NissenSteve Sheng
    • H01S3/036
    • H01S3/036Y10T137/86389
    • There is disclosed herein several gas resupply valves for replenishment of lost gas in gas lasers in general and argon ion lasers in particular. The first embodiment uses a valve which controls flow of gas into a metering volume. The metering volume has an aperture therein which is microscopically small and which has a diffusion constant for gas moving through the aperture which is less than the time the valve is held open. The second embodiment uses the same general structure, but separates the soft sealing member of the valve from the solenoid core which moves to open and close the valve. The soft sealing member is attached to the valve body and supported above a valve seat surrounding the opening of the metering volume. The third embodiment uses a thin diaphragm which overlies a flat surface of the valve body in which are formed an input port and an output port. A solenoid applies pressure against the diaphragm to cause it to flatten against the flat surface thereby sealing the valve.
    • 这里公开了一些用于补充气体激光器中的失去气体的气体补给阀,特别是氩离子激光器。 第一实施例使用控制气体流入计量容积的阀。 计量体积在其中具有微小的孔径,并且其具有通过孔径移动的气体的扩散常数,其小于阀门保持打开的时间。 第二实施例使用相同的一般结构,但是将阀的软密封构件与电磁铁芯分离,电磁铁芯移动以打开和关闭阀。 软密封构件附接到阀体并且支撑在围绕计量容积的开口的阀座上。 第三实施例使用覆盖在形成输入端口和输出端口的阀体的平坦表面上的薄膜。 螺线管对隔膜施加压力,使其平坦于平面,从而密封阀。