公开(公告)号：US07940175B2

公开(公告)日：2011-05-10

申请号：US11877799

申请日：2007-10-24

Applicant: Gerd Peter ,  Thomas Maxeiner

Inventor： Gerd Peter ,  Thomas Maxeiner

IPC: G08B21/00

CPC classification number: A61M16/0808 ,  A61B5/08 ,  A61B5/082 ,  A61M15/0083 ,  A61M16/0051 ,  A61M16/024 ,  A61M16/085 ,  A61M2205/126 ,  A61M2205/14 ,  A61M2205/18 ,  A61M2205/276 ,  A61M2205/3389 ,  A61M2205/3569 ,  A61M2205/3592 ,  A61M2205/505 ,  A61M2205/52 ,  A61M2205/581 ,  A61M2205/583 ,  A61M2205/6018 ,  A61M2205/6054 ,  A61M2230/43 ,  G01N33/006 ,  G01N33/497 ,  G01N2001/2244 ,  G01N2001/2267

Abstract: A device with a water trap. The device has a gas sensor and is designed to send a gas sample flow through the water trap (2) and to feed it to the gas sensor (3). The water trap (2) is designed to be separably connected to the device. The device has a mount for connection to the water trap. The water trap (2) has a radio frequency marking (5). The device has a radio frequency detection device (6) with a detection area (7) for the radio frequency marking, which is designed to detect the radio frequency marking in the detection area and to generate a marking signal, which represents marking information of the radio frequency marking. The device is designed to be controlled as a function of the marking signal.

Abstract translation: 带有疏水阀的装置。 该装置具有气体传感器，并被设计成将气体样品流通过捕集阱（2）并将其送入气体传感器（3）。 集水器（2）设计成可与设备分离连接。 该装置具有用于连接到集水器的安装座。 疏水阀（2）具有射频标记（5）。 该装置具有射频检测装置（6），其具有用于射频标记的检测区域（7），其被设计为检测检测区域中的射频标记并产生标记信号，该标记信号表示 射频标记。 该设备被设计为根据标记信号进行控制。

公开(公告)号：US20100307341A1

公开(公告)日：2010-12-09

申请号：US12801369

申请日：2010-06-04

Applicant: Gerd Peter ,  Thomas Maxeiner ,  Thomas Wuske

Inventor： Gerd Peter ,  Thomas Maxeiner ,  Thomas Wuske

IPC: B01D53/26 ,  B01D53/22 ,  B01D53/14 ,  A62B7/10 ,  A61M16/00

CPC classification number: A61M16/0808 ,  A61M16/085 ,  A61M2016/1035 ,  A61M2205/584 ,  A61M2205/75 ,  A61M2205/7536 ,  B01D53/268 ,  B01D2259/4533

Abstract: A water trap (1) improved with respect to handling and operational safety includes: two semipermeable membranes (2) and at least one tank (7), wherein the membranes have a water penetration pressure greater than 750 hPa and are made of the same or different PTFE laminates. The gas flow is divided in a ratio between 10:90 and 25:75 into the flush-/purge branch and analysis branch to the sensors (12) and a path parallel to the sensors (12), respectively, with the aid of the membranes and downstream filter elements and via the material and configuration.

Abstract translation: 在处理和操作安全性方面改进的疏水器（1）包括：两个半透膜（2）和至少一个罐（7），其中所述膜具有大于750hPa的水渗透压力，并且由其制成， 不同的PTFE层压板。 将气流以10:90和25:75之间的比例分配到冲洗/清洗分支和分析分支到传感器（12）和平行于传感器（12）的路径，借助于 膜和下游过滤元件，并通过材料和配置。

公开(公告)号：US6117214A

公开(公告)日：2000-09-12

申请号：US287149

申请日：1999-04-06

Applicant: Gerd Peter ,  Thomas Maxeiner

Inventor： Gerd Peter ,  Thomas Maxeiner

IPC: G01N1/22 ,  G01N33/497 ,  B01D19/00

CPC classification number: G01N1/2247 ,  G01N2001/2267 ,  G01N33/497

Abstract: A water trap for a sample gas flow includes a housing 1 fastened to a holder 2. The housing 1 has a tank 3 for receiving liquids and gases. Above the tank 3, the housing 1 contains a first chamber divided by a first hydrophobic membrane 10. The lower divided part 12 of the first chamber is connected to the sample gas flow via the holder 2 on the inlet side and to the gas space in the tank 3 on the outlet side. The upper divided part 11 of the first chamber is connected to a gas analyzer 4 via the holder 2 and is connected to a vacuum. The housing 1 contains a second chamber divided by a second hydrophobic membrane 20. The lower divided part 22 of the second chamber is connected to the gas space in the tank 3 at a point 18 which is located lower in the direction of the liquid level and relative to the entry of the connection line from the first chamber. The upper divided part 21 of the second chamber is connected to a volume flow meter 8 and to the same vacuum. The free areas through which the gas flows and the pore sizes of the first and second hydrophobic membranes are selected so that the ratio of the gas volume flow through the first and second hydrophobic membranes is in the range of 5:1 to 20:1.

Abstract translation: 用于样品气流的捕集阱包括紧固到保持器2的壳体1.壳体1具有用于接收液体和气体的罐3。 在容器3的上方，壳体1包含由第一疏水膜10分隔开的第一室。第一室的下分隔部12经由入口侧的保持器2和入口侧的气体空间连接到样品气体流 出口侧的罐3。 第一室的上分割部分11经由保持器2连接到气体分析器4并连接到真空。 壳体1包含由第二疏水膜20分隔的第二腔室。第二腔室的下分隔部分22在位于液位方向下方的点18处连接到罐3中的气体空间，并且 相对于来自第一室的连接线的进入。 第二室的上分割部分21连接到体积流量计8并且达到相同的真空。 选择气体流动的自由区域和第一和第二疏水膜的孔径，使得流过第一和第二疏水膜的气体体积的比例在5:1至20:1的范围内。

公开(公告)号：US08291903B2

公开(公告)日：2012-10-23

申请号：US12185974

申请日：2008-08-05

Applicant: Thomas Maxeiner ,  Gerd Peter

Inventor： Thomas Maxeiner ,  Gerd Peter

IPC: A62B7/10 ,  B01D53/26

CPC classification number: B01D53/268 ,  A61M16/0808 ,  A61M2205/3306 ,  A61M2205/3382 ,  A61M2205/6054 ,  A61M2230/43 ,  B01D53/22

Abstract: A breathing gas system and water trap (1) is improved in respect to the reliability of operation and has an emptying device. The water trap (1) has a gas inlet (4), which meets a first water separating membrane (5) via a connection line. The connection line leads into a water tank (20) located deeper in the incoming flow direction from the first water separating membrane (5) and into a gas measuring device (2) with vacuum on the discharge side from the first water separating membrane (5) from the water trap (1). The water tank (20) has a rinsing gas flow line, which is arranged above the liquid level, leads upward via a gas-permeable membrane (6) and is likewise connected to the applied vacuum of the gas measuring device (2). The water tank (20) has a water transport line for emptying the water tank (20), which water transport line extends into the liquid and is provided with a downstream vacuum via a nonreturn valve (7) and a downstream liquid pump (17) or via a solenoid valve (21). The water trap (1) is equipped with a filling level detection system (8, 9, 22; 8, 9, 13; 8, 10), which is connected to a control and analyzing unit (3). The control and analyzing unit (3) is connected to the liquid pump (17) or to the solenoid valve (21), so that the water tank (20) can be emptied as a function of the signal of the filling level detection system (8, 9, 22; 8, 9, 13; 8, 10).

Abstract translation: 呼吸气体系统和集水器（1）在运行可靠性方面得到改进，并具有排空装置。 集水器（1）具有通过连接线与第一水分离膜（5）相遇的气体入口（4）。 连接线通过第一水分离膜（5）的排出侧的真空度从第一水分离膜（5）进入位于更深入流动方向的水箱（20）并进入气体测量装置（2） ）从疏水阀（1）。 水箱（20）具有布置在液面上方的冲洗气体流动管线，经由透气膜（6）向上引导，并且同样连接到气体测量装置（2）的施加的真空。 水箱（20）具有用于排空水箱（20）的水输送管线，该水输送线路延伸到液体中，并且经由止回阀（7）和下游液体泵（17）设置有下游真空， 或通过电磁阀（21）。 所述集水器（1）配备有与控制和分析单元（3）连接的填充液位检测系统（8,9,22; 8,9,13; 8,10）。 控制和分析单元（3）连接到液体泵（17）或电磁阀（21），以便根据填充液位检测系统的信号将水箱（20）排空 8,9,22; 8,9,13; 8,10）。

公开(公告)号：US08221530B2

公开(公告)日：2012-07-17

申请号：US12801369

申请日：2010-06-04

Applicant: Gerd Peter ,  Thomas Maxeiner ,  Thomas Wuske

Inventor： Gerd Peter ,  Thomas Maxeiner ,  Thomas Wuske

IPC: B01D53/22

CPC classification number: A61M16/0808 ,  A61M16/085 ,  A61M2016/1035 ,  A61M2205/584 ,  A61M2205/75 ,  A61M2205/7536 ,  B01D53/268 ,  B01D2259/4533

Abstract: A water trap (1) improved with respect to handling and operational safety includes: two semipermeable membranes (2) and at least one tank (7), wherein the membranes have a water penetration pressure greater than 750 hPa and are made of the same or different PTFE laminates. The gas flow is divided in a ratio between 10:90 and 25:75 into the flush-/purge branch and analysis branch to the sensors (12) and a path parallel to the sensors (12), respectively, with the aid of the membranes and downstream filter elements and via the material and configuration.

Abstract translation: 在处理和操作安全性方面改进的疏水器（1）包括：两个半透膜（2）和至少一个罐（7），其中所述膜具有大于750hPa的水渗透压力，并且由其制成， 不同的PTFE层压板。 将气流以10:90和25:75之间的比例分配到冲洗/清洗分支和分析分支到传感器（12）和平行于传感器（12）的路径，借助于 膜和下游过滤元件，并通过材料和配置。

公开(公告)号：US20090084383A1

公开(公告)日：2009-04-02

申请号：US12185974

申请日：2008-08-05

Applicant: Thomas MAXEINER ,  Gerd PETER

Inventor： Thomas MAXEINER ,  Gerd PETER

IPC: A61M16/00

CPC classification number: B01D53/268 ,  A61M16/0808 ,  A61M2205/3306 ,  A61M2205/3382 ,  A61M2205/6054 ,  A61M2230/43 ,  B01D53/22

Abstract: A breathing gas system and water trap (1) is improved in respect to the reliability of operation and has an emptying device. The water trap (1) has a gas inlet (4), which meets a first water separating membrane (5) via a connection line. The connection line leads into a water tank (20) located deeper in the incoming flow direction from the first water separating membrane (5) and into a gas measuring device (2) with vacuum on the discharge side from the first water separating membrane (5) from the water trap (1). The water tank (20) has a rinsing gas flow line, which is arranged above the liquid level, leads upward via a gas-permeable membrane (6) and is likewise connected to the applied vacuum of the gas measuring device (2). The water tank (20) has a water transport line for emptying the water tank (20), which water transport line extends into the liquid and is provided with a downstream vacuum via a nonreturn valve (7) and a downstream liquid pump (17) or via a solenoid valve (21). The water trap (1) is equipped with a filling level detection system (8, 9, 22; 8, 9, 13; 8, 10), which is connected to a control and analyzing unit (3). The control and analyzing unit (3) is connected to the liquid pump (17) or to the solenoid valve (21), so that the water tank (20) can be emptied as a function of the signal of the filling level detection system (8, 9, 22; 8, 9, 13; 8, 10).

Abstract translation: 呼吸气体系统和集水器（1）在运行可靠性方面得到改进，并具有排空装置。 集水器（1）具有通过连接线与第一水分离膜（5）相遇的气体入口（4）。 连接线通过第一水分离膜（5）的排出侧的真空度从第一水分离膜（5）进入位于更深入流动方向的水箱（20）并进入气体测量装置（2） ）从疏水阀（1）。 水箱（20）具有布置在液面上方的冲洗气体流动管线，经由透气膜（6）向上引导，并且同样连接到气体测量装置（2）的施加的真空。 水箱（20）具有用于排空水箱（20）的水输送管线，该水输送线路延伸到液体中，并且经由止回阀（7）和下游液体泵（17）设置有下游真空， 或通过电磁阀（21）。 所述集水器（1）配备有与控制和分析单元（3）连接的填充液位检测系统（8,9,22; 8,9,13; 8,10）。 控制和分析单元（3）连接到液体泵（17）或电磁阀（21），以便根据填充液位检测系统的信号将水箱（20）排空 8,9,22; 8,9,13; 8,10）。

公开(公告)号：US20080173306A1

公开(公告)日：2008-07-24

申请号：US11877799

申请日：2007-10-24

Applicant: Gerd PETER ,  Thomas MAXEINER

Inventor： Gerd PETER ,  Thomas MAXEINER

IPC: A61M16/00 ,  A61M16/08 ,  B01D53/22 ,  G08B23/00

CPC classification number: A61M16/0808 ,  A61B5/08 ,  A61B5/082 ,  A61M15/0083 ,  A61M16/0051 ,  A61M16/024 ,  A61M16/085 ,  A61M2205/126 ,  A61M2205/14 ,  A61M2205/18 ,  A61M2205/276 ,  A61M2205/3389 ,  A61M2205/3569 ,  A61M2205/3592 ,  A61M2205/505 ,  A61M2205/52 ,  A61M2205/581 ,  A61M2205/583 ,  A61M2205/6018 ,  A61M2205/6054 ,  A61M2230/43 ,  G01N33/006 ,  G01N33/497 ,  G01N2001/2244 ,  G01N2001/2267

Abstract: A device with a water trap. The device has a gas sensor and is designed to send a gas sample flow through the water trap (2) and to feed it to the gas sensor (3). The water trap (2) is designed to be separably connected to the device. The device has a mount for connection to the water trap. The water trap (2) has a radio frequency marking (5). The device has a radio frequency detection device (6) with a detection area (7) for the radio frequency marking, which is designed to detect the radio frequency marking in the detection area and to generate a marking signal, which represents marking information of the radio frequency marking. The device is designed to be controlled as a function of the marking signal.

Abstract translation: 带有疏水阀的装置。 该装置具有气体传感器，并被设计成将气体样品流通过捕集阱（2）并将其送入气体传感器（3）。 集水器（2）设计成可与设备分离连接。 该装置具有用于连接到集水器的安装座。 疏水阀（2）具有射频标记（5）。 该装置具有射频检测装置（6），其具有用于射频标记的检测区域（7），其被设计为检测检测区域中的射频标记并产生标记信号，该标记信号表示 射频标记。 该设备被设计为根据标记信号进行控制。