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    • 4. 发明授权
    • Breath end-tidal gas monitor
    • 呼吸终端气体监测仪
    • US08021308B2
    • 2011-09-20
    • US10561561
    • 2003-06-19
    • Lee R. CarlsonEdward A. McClatchieJoe MartinoskyRalph WaldenElvir Causevic
    • Lee R. CarlsonEdward A. McClatchieJoe MartinoskyRalph WaldenElvir Causevic
    • 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)的空气的二氧化碳含量,以区分吸入和呼气。 当检测到吸入系统(10)中的空气中的CO 2水平的降低时,指示呼气和吸气之间的转变,一对流量选择阀(26,28)被操作以捕获吸入的空气的潮气量 在检测到CO 2水平的降低之前立即进入系统(10)。 进入的空气被转移到捕获的空气体积周围,并且持续监测CO 2水平,以确保所捕获的空气体积对应于呼气的末端潮汐部分。 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。
    • 5. 发明授权
    • Gas laser construction
    • 气体激光施工
    • US4685109A
    • 1987-08-04
    • US906356
    • 1986-09-11
    • Lee R. CarlsonDenes A. HegedusSteven M. JarrettMichael F. MillerMartin E. RileyDavid L. Wright
    • Lee R. CarlsonDenes A. HegedusSteven M. JarrettMichael F. MillerMartin E. RileyDavid L. Wright
    • H01S3/03H01S3/041
    • H01S3/03H01S3/041
    • A plasma tube for a gas laser includes a series of heat webs and insulative spacers between the heat webs, with tungsten bore insert members supported by the heat webs and having aligned apertures defining a laser discharge path. To produce the plasma tube, the heat webs, spacers and other connected components are assembled in a vertical stack outside the ceramic tube of the laser, with a stacking gauge which helps assure that the heat webs are correctly spaced apart within close tolerances. The heat webs lie adjacent to annular metallized areas on the inside surface of the ceramic tube when the assembly is inserted into the tube, which is precision-formed ceramic tubing. The tube assembly is heated in vertical orientation to expand the heat webs diametrically so that they engage outwardly against and are brazed to the metallized areas of the ceramic tube. The heat webs are of a special configuration that substantially eliminates hoop stress in the ceramic tube under conditions of rising and falling temperature in the discharge tube. For adding gas to the discharge tube, a special fill system is connected to the discharge tube for metering small and precise volumes of gas into the discharge tube when needed. The construction of the fill system also aids in heat-cleaning steps in the assembly of the laser, and in the initial gas fill. A cooling system for the discharge tube, surrounding the ceramic tube, includes a variable pitch helical flow diverter for effecting more efficient and uniform cooling of the discharge tube.
    • 用于气体激光器的等离子体管包括一系列加热腹板和隔热层之间的绝热间隔件,其中钨孔插入件由加热腹板支撑并且具有限定激光放电路径的对准孔。 为了生产等离子体管,加热网,间隔件和其它连接的部件在激光器的陶瓷管外部的垂直堆叠中组装,并具有堆叠量规,其有助于确保热网在紧密公差内正确间隔开。 当将组件插入到精密成型的陶瓷管中的管中时,加热片邻近陶瓷管内表面上的环形金属化区域。 管组件在垂直取向上被加热以使加热板沿直径方向扩张,使得它们向外接合并钎焊到陶瓷管的金属化区域。 加热网具有特殊的构造,其在放电管中的温度升高和降低的条件下基本上消除了陶瓷管中的环向应力。 为了将气体添加到放电管,特殊的填充系统连接到放电管,用于在需要时将小量和精确的体积的气体计量到放电管中。 填充系统的结构还有助于激光组装中的热清洁步骤,以及初始气体填充。 用于放电管的围绕陶瓷管的冷却系统包括可变间距螺旋流分流器,用于实现放电管的更有效和均匀的冷却。
    • 6. 发明授权
    • Breath end-tidal gas monitor
    • 呼吸终端气体监测仪
    • US09095276B2
    • 2015-08-04
    • US13153169
    • 2011-06-03
    • Lee R. CarlsonEdward A. McClatchieJoe MartinoskyRalph WaldenElvir Causevic
    • Lee R. CarlsonEdward A. McClatchieJoe MartinoskyRalph WaldenElvir Causevic
    • A61B5/08A61B5/083A61B5/087
    • 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)的空气的二氧化碳含量,以区分吸入和呼气。 当检测到吸入系统(10)中的空气中的CO 2水平的降低时,指示呼气和吸气之间的转变,一对流量选择阀(26,28)被操作以捕获吸入的空气的潮气量 在检测到CO 2水平的降低之前立即进入系统(10)。 进入的空气被转移到捕获的空气体积周围,并且持续监测CO 2水平,以确保所捕获的空气体积对应于呼气的末端潮汐部分。 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。
    • 8. 发明授权
    • Gas fill system for a laser tube
    • 用于激光管的气体填充系统
    • US4683575A
    • 1987-07-28
    • US906121
    • 1986-09-11
    • Lee R. CarlsonDenes A. HegedusSteven M. JarrettMichael F. MillerMartin E. RileyDavid L. Wright
    • Lee R. CarlsonDenes A. HegedusSteven M. JarrettMichael F. MillerMartin E. RileyDavid L. Wright
    • H01S3/03H01S3/041H01S3/22
    • H01S3/041H01S3/03
    • A plasma tube for a gas laser includes a series of heat webs and insulative spacers between the heat webs, with tungsten bore insert members supported by the heat webs and having aligned apertures defining a laser discharge path. To produce the plasma tube, the heat webs, spacers and other connected components are assembled in a vertical stack outside the ceramic tube of the laser, with a stacking gauge which helps assure that the heat webs are correctly spaced apart within close tolerances. The heat webs lie adjacent to annular metallized areas on the inside surface of the ceramic tube when the assembly is inserted into the tube, which is precision-formed ceramic tubing. The tube assembly is heated in vertical orientation to expand the heat webs diametrically so that they engage outwardly against and are brazed to the metallized areas of the ceramic tube. The heat webs are of a special configuration that substantially eliminates hoop stress in the ceramic tube under conditions of rising and falling temperature in the discharge tube. For adding gas to the discharge tube, a special fill system is connected to the discharge tube for metering small and precise volumes of gas into the discharge tube when needed. The construction of the fill system also aids in heat-cleaning steps in the assembly of the laser, and in the initial gas fill. A cooling system for the discharge tube, surrounding the ceramic tube, includes a variable pitch helical flow diverter for effecting more efficient and uniform cooling of the discharge tube.
    • 用于气体激光器的等离子体管包括一系列加热腹板和隔热层之间的绝热间隔件,其中钨孔插入件由加热腹板支撑并且具有限定激光放电路径的对准孔。 为了生产等离子体管,加热网,间隔件和其它连接的部件在激光器的陶瓷管外部的垂直堆叠中组装,并具有堆叠量规,其有助于确保热网在紧密公差内正确间隔开。 当将组件插入到精密成型的陶瓷管中的管中时,加热片邻近陶瓷管内表面上的环形金属化区域。 管组件在垂直取向上被加热以使加热板沿直径方向扩张,使得它们向外接合并钎焊到陶瓷管的金属化区域。 加热网具有特殊的构造,其在放电管中的温度升高和降低的条件下基本上消除了陶瓷管中的环向应力。 为了将气体添加到放电管,特殊的填充系统连接到放电管,用于在需要时将小量和精确的体积的气体计量到放电管中。 填充系统的结构还有助于激光组装中的热清洁步骤,以及初始气体填充。 用于放电管的围绕陶瓷管的冷却系统包括可变间距螺旋流分流器,用于实现放电管的更有效和均匀的冷却。