IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0169195
(2005-06-28)
|
등록번호 |
US-7591263
(2009-10-20)
|
우선권정보 |
DE-10 2004 045 733(2004-09-21) |
발명자
/ 주소 |
- Bunke, Claus
- Witt, Matthias
- Kunz, Rainer
- Müller, Jürgen
- Heyer, Sven
- Harms, Heye
- Schmidt, Uwe
|
출원인 / 주소 |
- Dräger Medical AG & Co. KGaA
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
5 |
초록
▼
A device is provided for measuring the differential pressure in anesthetic dispensing devices, with which the differential pressure can be measured between two lines (2, 6) for supplying gaseous components to a mixing site (3). The device has at least one differential pressure sensor (11), which is
A device is provided for measuring the differential pressure in anesthetic dispensing devices, with which the differential pressure can be measured between two lines (2, 6) for supplying gaseous components to a mixing site (3). The device has at least one differential pressure sensor (11), which is connected with the lines (2, 6) for supplying the gaseous components. Buffer elements (12, 12') are integrated in the connection between the lines (2, 6) for supplying the gaseous components and the differential pressure sensor (11).
대표청구항
▼
What is claimed is: 1. A device for measuring the differential pressure in anesthetic dispensing devices, the device comprising: two lines for supplying gaseous components to a mixing site; a differential pressure sensor; connections of said differential pressure sensor with said two lines for supp
What is claimed is: 1. A device for measuring the differential pressure in anesthetic dispensing devices, the device comprising: two lines for supplying gaseous components to a mixing site; a differential pressure sensor; connections of said differential pressure sensor with said two lines for supplying the gaseous components, said differential pressure sensor for measuring a differential pressure between said two lines for supplying gaseous components to said mixing site; and buffer elements, each of said buffer elements being integrated in a respective one of said connections between a respective one of said two lines for supplying the gaseous components and said differential pressure sensor. 2. A device inaccordance with claim 1, further comprising a flow resistance associated with each of said buffer elements for limiting an influx of the gaseous components into volumes of respective said buffer elements wherein the volumes of said buffer elements are dimensioned, in conjunction with the flow resistance, such that a response behavior, to changes in pressure, that is characterized by time constants that are higher than the time constants that characterize the response behavior, to changes in pressure, of said lines for supplying the gaseous components will develop in the interior of said buffer elements during changes in pressure. 3. A device in accordance with claim 1, wherein characteristic response times to pressure changes in the interior of said buffer elements are longer than the characteristic response times to pressure changes in said lines for supplying the gaseous components, by at least one order of magnitude. 4. A device in accordance with claim 1, wherein said two lines comprise a line for supplying fresh gas and a line for supplying a gaseous anesthetic. 5. A device in accordance with claim 4, wherein flow paths, between said lines for supplying the gaseous components and said buffer elements, have a higher flow resistance than a flow resistance of said line for supplying the gaseous anesthetic. 6. A device in accordance with claim 1, wherein said buffer elements include flow resistance means that determine a flow resistance of flow paths of said connections between said lines for supplying the gaseous components and said buffer elements. 7. A device in accordance with claim 6, wherein said flow resistance means comprise apertures through which the gaseous components can flow into said buffer elements. 8. A device in accordance with claim 7, wherein said apertures have a diameter of at most 150 μm and said buffer elements have a volume of at least 0.2 mL. 9. A device in accordance with claim 7, wherein said apertures have a diameter of 100 μm and said buffer elements have a volume of 1 mL. 10. An anesthetic dispensing device arrangement, comprising: a fresh gas supply unit; a fresh gas line with a fixed resistance, said fresh gas line being connected to said fresh gas supply unit; a gaseous anesthetic supply unit; a gaseous anesthetic line with a variable flow resistance, said gaseous anesthetic line being connected to said gaseous anesthetic supply unit and each of said gaseous anesthetic line and said fresh gas line is connected at a mixing site; a differential pressure sensor; a fresh gas line connection from said fresh gas line to said differential pressure sensor; a gaseous anesthetic line connection from said gaseous anesthetic line to said differential pressure sensor, said differential pressure sensor measuring a differential pressure between said fresh gas line and said gaseous anesthetic line; a fresh gas line connection buffer element integrated in said fresh gas line connection; and a gaseous anesthetic line connection buffer element integrated in said gaseous anesthetic line connection. 11. An anesthetic dispensing device arrangement in accordance with claim 10, further comprising a first buffer flow resistance associated with said fresh gas line connection buffer element for limiting an influx of the gaseous components into a fresh gas volume of said fresh gas line connection buffer element and a second buffer flow resistance associated with said gaseous anesthetic line connection buffer element for limiting an influx of the gaseous components into a gaseous anesthetic volume of said gaseous anesthetic line connection buffer element wherein said fresh gas line connection buffer element and said gaseous anesthetic line connection buffer element have respective volumes dimensioned, in conjunction with said first buffer flow resistance and said second flow resistance to limit the influx of the gaseous components into said buffer volumes, such that a response behavior to pressure changes, of said first buffer flow resistance with said fresh gas line connection buffer element and said second buffer flow resistance with said gaseous anesthetic line connection buffer element, is characterized by time constants, that are higher than time constants that characterize a response behavior to pressure changes of said fresh gas line with said fixed resistance and said gaseous anesthetic line with said variable flow resistance. 12. An anesthetic dispensing device arrangement in accordance with claim 10, wherein characteristic response times to pressure changes in the interior of said buffer elements are longer than the characteristic response times to pressure changes in said lines for supplying the gaseous components, by at least one order of magnitude. 13. An anesthetic dispensing device arrangement in accordance with claim 10, wherein a flow path of said fresh gas line connection between said fresh gas line and said fresh gas line connection buffer element and a flow path of said gaseous anesthetic line connection between said gaseous anesthetic line and said gaseous anesthetic line connection buffer element each have a higher flow resistance than a flow resistance of said line for supplying the gaseous anesthetic. 14. An anesthetic dispensing device arrangement in accordance with claim 10, wherein said fresh gas line connection buffer element includes a flow resistance means that defines a flow resistance in a flow path between said fresh gas line and said fresh gas line connection buffer and said gaseous anesthetic line connection buffer element includes a flow resistance means that defines a flow resistance in a flow path between said gaseous anesthetic line and said gaseous anesthetic line connection buffer. 15. An anesthetic dispensing device arrangement in accordance with claim 14, wherein each of said flow resistance means comprise an aperture through which gaseous components can flow into said buffer elements. 16. An anesthetic dispensing device arrangement in accordance with claim 15, wherein said apertures have a diameter of at most 150 μm and said buffer elements have a volume of at least 0.2 mL. 17. An anesthetic dispensing device arrangement in accordance with claim 15, wherein said apertures have a diameter of 100 μm and said buffer elements have a volume of 1 mL. 18. A device for measuring a differential pressure in anesthetic dispensing devices, the device comprising: a first gas supply line leading to a mixing site for supplying a gaseous component to said mixing site; a second gas supply line leading to said mixing site for supplying another gaseous component to said mixing site; a differential pressure sensor; a first gas connection measuring line for connection of said differential pressure sensor with said first gas supply line; a second gas connection measuring line for connection of said differential pressure sensor with said second gas supply line, said differential pressure sensor for measuring a differential pressure between said first gas connection measuring line and said second gas connection measuring line; a first buffer element integrated in said first gas connection measuring line between said first gas supply line and said differential pressure sensor; and a second buffer element integrated in said second gas connection measuring line between said second gas supply line and said differential pressure sensor. 19. An anesthetic dispensing device arrangement in accordance with claim 18, wherein said first gas supply line is a gaseous anesthetic line with a variable flow resistance and said second gas supply line is fresh gas line with a fixed resistance. 20. An anesthetic dispensing device arrangement in accordance with claim 19, further comprising a first buffer flow resistance associated with said first buffer element for limiting an influx of gas into a volume of said first buffer element and a second buffer flow resistance associated with said second buffer element for limiting an influx of gas into a volume of said second buffer element.
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