Process for checking the function of a respiration system
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61M-016/00
A62B-007/00
F16K-031/02
A61M-016/08
A61M-016/20
A61M-016/22
출원번호
US-0457723
(2012-04-27)
등록번호
US-9259545
(2016-02-16)
우선권정보
DE-10 2011 117 786 (2011-11-05)
발명자
/ 주소
Heesch, Ralf
Rahlf, Till
출원인 / 주소
Drägerwerk AG & Co. KGaA
대리인 / 주소
McGlew and Tuttle, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
The function of a respiration system, with a patient port (1) with connected inspiration branch (3) and expiration branch, is checked. A rebreathing line (9) connects the inspiration branch to the expiration branch. A reservoir (25) is connected to a reservoir port (27) in the rebreathing line. An a
The function of a respiration system, with a patient port (1) with connected inspiration branch (3) and expiration branch, is checked. A rebreathing line (9) connects the inspiration branch to the expiration branch. A reservoir (25) is connected to a reservoir port (27) in the rebreathing line. An actuatable control valve (29) is provided in the rebreathing line between the expiration branch and the reservoir port. A pressure sensor (33) is connected to the rebreathing line. A control unit (39) is connected to the control valve and to pressure sensor. The process includes closing the control valve for a preset inspiration time and opening it for a preset expiration time. The value sent by the pressure sensor is detected with the control valve opened during the expiration time and compared with a preset first threshold valve. An error message is generated when the value sent exceeds the first threshold value.
대표청구항▼
1. A process for checking a function of a respiration system comprising a patient port, an inspiration branch, which has an inspiration branch first end and an inspiration branch second end as well as an inspiration branch nonreturn valve, which opens when pressure on a side of the inspiration branc
1. A process for checking a function of a respiration system comprising a patient port, an inspiration branch, which has an inspiration branch first end and an inspiration branch second end as well as an inspiration branch nonreturn valve, which opens when pressure on a side of the inspiration branch nonreturn valve facing the inspiration branch second end is above pressure on a side of the inspiration branch nonreturn valve facing the inspiration branch first end, wherein the inspiration branch first end is connected to the patient port, with an expiration branch, which has an expiration branch first end and an expiration branch second end as well as an expiration branch nonreturn valve, which opens when pressure on a side of the expiration branch nonreturn valve facing the expiration branch first end is above pressure on the side of the expiration branch nonreturn valve facing the expiration branch second end, wherein the expiration branch second end is connected to the patient port, with a rebreathing line, which connects the inspiration branch second end to the expiration branch second end, with a reservoir, which has a variable volume with a maximum volume and which is connected to a reservoir port in the rebreathing line, with an actuatable control valve, which is provided in the rebreathing line between the expiration branch second end and the reservoir port, with a pressure sensor, which is connected to the rebreathing line adjacent to the reservoir port, and with a control unit, which is connected to the actuatable control valve and to the pressure sensor, the process comprising the steps of: closing the actuatable control valve for a preset inspiration time;opening the actuatable control valve for a preset expiration time;providing a value as output via the pressure sensor, which is connected to the rebreathing line adjacent to the reservoir port;detecting said value sent by the pressure sensor, with the actuatable control valve opened during an expiration phase;comparing the value detected with a preset threshold value; andgenerating an error message when the value detected exceeds the preset threshold value. 2. A process in accordance with claim 1, wherein: the respiration system has a respiration drive, which is arranged in the rebreathing line between the reservoir port and the inspiration branch second end;the respiration drive is operated during an inspiration time to generate a flow in the rebreathing line from the reservoir to the inspiration branch second end; andthe respiration drive is switched off during an expiration time or is operated at reduced capacity, so that the nonreturn valve in inspiration branch remains closed. 3. A process in accordance with claim 1, further comprising: measuring a duration of a time period between the opening of the control valve and a point in time at which the value sent by pressure sensor exceeds the preset threshold value; andvarying the error message depending on the measured duration. 4. A process in accordance with claim 1, further comprising: detecting a value sent by the pressure sensor, with the actuatable control valve closed during an inspiration time;comparing the value detected, with the actuatable control valve closed, with another preset threshold value; andgenerating an error message when the value detected, with the actuatable control valve closed, drops below the another preset threshold value. 5. A process in accordance with claim 4, further comprising: measuring a duration of a time period between a closing of control valve and a point in time at which the value sent by pressure sensor drops below the another threshold value; andvarying the another error message depending on the measured duration. 6. A process in accordance with claim 1, wherein the reservoir comprises a manual breathing bag. 7. A process in accordance with claim 1, wherein the respiration system has a fresh gas supply, which is connected to the rebreathing line and with which fresh gas is fed into rebreathing line. 8. A process in accordance with claim 1, further comprising: providing a volume flow sensor and a pressure sensor in the inspiration branch; anddetecting the pressure and a volume flow during an inspiration time and an expiration time. 9. A process in accordance with claim 1, wherein the pressure sensor is arranged at the reservoir port. 10. A process for checking a function of a respiration system, the process comprising the steps of: providing the respiration system with a patient port, an inspiration branch, which has an inspiration branch first end and an inspiration branch second end as well as an inspiration branch nonreturn valve, which opens when a pressure on a side of the inspiration branch nonreturn valve facing the inspiration branch second end is above a pressure on a side of the inspiration branch nonreturn valve facing the inspiration branch first end, wherein the inspiration branch first end is connected to the patient port, with an expiration branch, which has an expiration branch first end and an expiration branch second end as well as an expiration branch nonreturn valve, which opens when a pressure on a side of the expiration branch nonreturn valve facing the expiration branch first end is above a pressure on the side of the expiration branch nonreturn valve facing the expiration branch second end, wherein the expiration branch second end is connected to the patient port, with a rebreathing line, which connects the inspiration branch second end to the expiration branch second end, with a reservoir, which has a variable volume with a maximum volume and which is connected to a reservoir port in the rebreathing line, with an actuatable control valve, which is provided in the rebreathing line between the expiration branch second end and the reservoir port, with a pressure sensor, which is connected to the rebreathing line adjacent to the reservoir port, and with a control unit, which is connected to the actuatable control valve and to the pressure sensor;closing the actuatable control valve for a preset inspiration time;opening the actuatable control valve for a preset expiration time; and at least one of: detecting a value sent by the pressure sensor, with the actuatable control valve opened during an expiration phase, comparing the value detected with a preset threshold value and generating an error message when the value detected exceeds the preset threshold value; anddetecting a value sent by the pressure sensor, with the actuatable control valve closed during the inspiration time, comparing the value detected, with the actuatable control valve closed, with another preset threshold value and generating an error message when the value detected, with the actuatable control valve closed, drops below the another preset threshold value. 11. A process in accordance with claim 10, wherein: the respiration system has a respiration drive, which is arranged in the rebreathing line between the reservoir port and the inspiration branch second end;the respiration drive is operated during an inspiration time to generate a flow in the rebreathing line from the reservoir to the inspiration branch second end; andthe respiration drive is switched off during an expiration time or is operated at reduced capacity, so that nonreturn valve in inspiration branch remains closed. 12. A process in accordance with claim 11, further comprising at least one of: measuring a duration of a time period between the opening of a control valve and a point in time at which the value sent by pressure sensor exceeds the preset threshold value and varying the error message depending on the measured duration; andmeasuring a duration of the time period between the closing of control valve and the point in time at which the value sent by pressure sensor drops below the another threshold value; and varying the another error message depending on the measured duration. 13. A process for checking a function of a respiration system comprising: providing a patient port;providing an expiration branch nonreturn valve;providing an expiration branch comprising an expiration branch first end and an expiration branch second end, said expiration branch nonreturn valve opening when pressure on a side of the expiration branch nonreturn valve facing the expiration branch first end is above pressure on the side of the expiration branch nonreturn valve facing the expiration branch second end, wherein the expiration branch second end is connected to the patient port;providing an inspiration branch nonreturn valve;providing an inspiration branch, which has an inspiration branch first end and an inspiration branch second end, said inspiration branch nonreturn valve opening when pressure on a side of the inspiration branch nonreturn valve facing the inspiration branch second end is above a pressure on a side of the inspiration branch nonreturn valve facing the inspiration branch first end, wherein the inspiration branch first end is connected to the patient port;providing a rebreathing line, which connects the inspiration branch second end to the expiration branch second end;providing a reservoir, which has a variable volume with a maximum volume and which is connected to a reservoir port in the rebreathing line;providing an actuatable control valve, which is provided in the rebreathing line between the expiration branch second end and the reservoir port;providing a pressure sensor, which is connected to the rebreathing line adjacent to the reservoir port;providing a control unit, which is connected to the actuatable control valve and to the pressure sensor;closing the actuatable control valve for a preset inspiration time;opening the actuatable control valve for a preset expiration time;detecting said value sent by the pressure sensor, with the actuatable control valve opened during an expiration phase;comparing the value detected with a preset threshold value; andgenerating an error message when the value detected exceeds the preset threshold value. 14. A process in accordance with claim 13, wherein: the respiration system has a respiration drive, which is arranged in the rebreathing line between the reservoir port and the inspiration branch second end;the respiration drive is operated during an inspiration time to generate a flow in the rebreathing line from the reservoir to the inspiration branch second end; andthe respiration drive is switched off during an expiration time or is operated at reduced capacity, so that the nonreturn valve in inspiration branch remains closed. 15. A process in accordance with claim 13, further comprising: measuring a duration of a time period between the opening of the control valve and a point in time at which the value sent by pressure sensor exceeds the preset threshold value; andvarying the error message depending on the measured duration. 16. A process in accordance with claim 13, further comprising: detecting a value sent by the pressure sensor, with the actuatable control valve closed during an inspiration time;comparing the value detected, with the actuatable control valve closed, with another preset threshold value; andgenerating an error message when the value detected, with the actuatable control valve closed, drops below the another preset threshold value. 17. A process in accordance with claim 16, further comprising: measuring a duration of a time period between a closing of control valve and a point in time at which the value sent by pressure sensor drops below the another threshold value; andvarying the another error message depending on the measured duration. 18. A process in accordance with claim 13, wherein the reservoir comprises a manual breathing bag. 19. A process in accordance with claim 13, wherein the respiration system has a fresh gas supply, which is connected to the rebreathing line and with which fresh gas is fed into rebreathing line. 20. A process in accordance with claim 13, further comprising: providing a volume flow sensor and a pressure sensor in the inspiration branch; anddetecting the pressure and a volume flow during an inspiration time and an expiration time, wherein the pressure sensor is arranged at the reservoir port.
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이 특허에 인용된 특허 (6)
Wallroth Carl F.,DEX ; Scharmer Ernst Gunter,DEX ; Schroder Jurgen, Anesthesia respirator.
Chopin Claude (Attiches FRX) Chambrin Marie-Christine (Wattignies FRX) Barancourt Herv (Villeneuve d\Ascq,all of FRX) Floquet Nicolas (Villeneuve d\Ascq,all of FRX), Process for regulating an artificial ventilation device and such device.
Wallace Charles L. ; Sanborn Warren G. ; Arnett David ; Butterbrodt Jay ; Ferguson Howard L. ; Teel H. Clay, System and method for setting and displaying ventilator alarms.
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