DE10347886B3 - Process for monitoring a narcotics evaporator comprises using an evaluation and control unit to control a sliding valve for selecting an operating position - Google Patents

Abstract

Monitoring a narcotics evaporator comprising using an evaluation and control unit (11) to control a sliding valve for selecting an operating position, measuring a first value for the pressure difference between a fresh gas pressure in a line (3) and the narcotics pressure in a channel (6) using a differential pressure sensor and feeding to the evaluation and control unit, is new.

Description

The The invention relates to a method for monitoring an anesthetic vaporizer.

The supervision an anesthetic evaporator serves to ensure its flawless Functioning, in particular the valves and pressure sensors arranged there. In case of a faulty function, open or close the For example, valves are not accurate or have leaks. pressure sensors show, for example, short-term deficits or drifts inadmissible for the measurements.

The anesthetic vaporizer described here is from the EP 0 469 797 B2 known in a comparable design and is preferably suitable for the dosage of desflurane.

The Fresh gas, which is to be enriched with desflurane, flows through it fixed flow resistance, the so-called bypass gap. Behind this flow resistance is the desflurane vaporous added. This is done by using the desflurane vaporized in the tank a proportional valve over a second user-adjustable flow resistance, the metering gap, guided. A differential pressure sensor determines the pressure difference between the vaporous desflurane before the metering gap and the fresh gas before the bypass gap. With the proportional valve is the volume flow of Desflurandampfs regulated so that the pressure difference is zero on average. Thereby becomes an anesthetic concentration independent of the fresh gas volume flow reached.

task The present invention is to provide a method with the proper functioning of an anesthetic evaporator is ensured.

The Task is solved by a method having the features of claim 1.

The inventive method is suitable for monitoring an anesthetic vaporizer having a conduit with an inlet for a fresh gas and with an outlet for the fresh gas and an anesthetic agent from which a patient supplies can be. A tank for the anesthetic is over a channel connected to the outlet. The anesthetic vaporizer comprises a sensor block, the at least one differential pressure sensor with two pneumatic connections to the fresh gas in the line or anesthetic in the channel. Between the two pneumatic connections is a balancing valve arranged. The Sensorblbck is equipped with an expansion and control unit connected, which receives the measured values of the differential pressure sensor and controls the balancing valve. The balancing valve either decreases an operating position or an adjustment position. Is located the balancing valve in operating position, so are the two pneumatic connections the differential pressure sensor with the fresh gas in the line and the Anesthetic in the channel connected, and the differential pressure sensor measures a value for the pressure difference between the pressure of the fresh gas in the pipe and the pressure of the anesthetic in the canal. Is the balancing valve in adjustment position, so are the two pneumatic connections of the differential pressure sensor connected to the same pressure level, and the differential pressure sensor measures a value for the pressure difference at identical pressure level, that is, it will for example, the pressure difference between the pressure of the anesthetic Measured in two different places in the canal. In the channel is a Proportional valve arranged by the evaluation and control unit is controlled.

The procedure includes the following steps:
The evaluation and control unit controls the adjustment valve to take the operating position, that is, the two pneumatic connections of the differential pressure sensor are connected to the fresh gas in the line and the anesthetic in the channel.

At the differential pressure sensor is a first value for the pressure difference between the Pressure of the fresh gas in the line and the pressure of the anesthetic measured in the channel, and the first value is sent to the evaluation and control unit forwarded.

The Evaluation and control unit controls the adjustment valve for oral use the adjustment position, that is, the two pneumatic connections of the Differential pressure sensors are connected to an identical pressure level, For example, if the pneumatic connections in the channel at two different Places are connected. At the differential pressure sensor is a second value for the pressure difference is measured, and the second value is sent to the evaluation and control unit forwarded.

The evaluation and control unit compares the second value for the pressure difference with a predetermined limit for a maximum allowable zero deviation, which is for example between 0.1 and 0.5 millibar. If the second value is greater than the limit value, an alarm is output by the evaluation and control unit, and if the second value is smaller than the limit value, then the output is controlled Value and control unit, the balancing valve for taking the operating position and regulates the proportional valve in its position so that the first value is on average over time.

Of the Advantage of the method according to the invention lies in the fact that in the repeated execution at regular intervals one Zero point drift is counteracted.

In addition, can the method provides further steps in which the functionality of the Balancing valve and other valves of the anesthetic evaporator is checked. Is there a fault here before, so also an alarm is issued.

One Anesthetic evaporator with which the inventive method carried out will be described below by way of example with reference to the drawings explained.

It demonstrate

the 1 an anesthetic evaporator in a schematic representation,

the 2 a sensor block in a detailed schematic representation.

In the 1 is an anesthetic evaporator, which is monitored by the method according to the invention, reproduced in a schematic representation. The anesthetic evaporator has an inlet 1 for a fresh gas and an outlet 2 for the fresh gas and for an anesthetic for administration to a patient, not shown, wherein the inlet 1 and the outlet 2 over a line 3 are connected. Furthermore, the anesthetic evaporator comprises a means of heating 4 heatable tank 5 from which a channel 6 to the outlet 2 leads. In the line 3 is designed as a bypass gap formed first flow resistance 8th , and in the channel 6 There is a designed as a metering gap with variable width second flow resistance 9 , The width of the dosing gap can be controlled by a handwheel 7 to adjust. A sensor block 10 measures the pressure difference between the fresh gas in the pipe 3 upstream of the first flow resistance 8th and the anesthetic in the channel 6 upstream of the second flow resistance 9 , The from the sensor block 10 measured pressure difference is sent to an evaluation and control unit 11 forwarded. The evaluation and control unit 11 controls one in the channel 6 arranged proportional valve 12 with which the volume flow of the anesthetic through the channel 6 can be influenced accordingly. The sensor block 10 , the evaluation and control unit 11 and the proportional valve 12 form a control loop, which the pressure balance between the anesthetic agent vapor at the inlet of the second flow resistance 9 and the fresh gas at the inlet of the first flow resistance 8th manufactures. Between the tank 5 and the proportional valve 12 is in the channel 6 a shut-off valve 13 which is open during normal operation of the anesthetic medium evaporator. That through the channel 6 flowing anesthetic is represented by dotted lines.

In the 2 is a sensor block 10 detailed and also shown schematically. From the sensor block 10 is everything that is enclosed by the dotted rectangular line. In the sensor block 10 arranged is a balancing valve 18 , Is the balancing valve 18 in operating position, that's the first point 19 closed, and at the second point 20 is it open. Via a first pneumatic connection 16 is a differential pressure sensor 14 then with the line 3 connected, and via a second pneumatic connection 17 is the differential pressure sensor 14 with the channel 6 connected. Is the balancing valve 18 in comparison position, that's the first point 19 opened, and at the second point 20 it is closed. About the first pneumatic connection 16 and via the second pneumatic connection 17 is the differential pressure sensor 14 in this case with the channel 6 connected, that is, there is a connection to an identical pressure level. Additionally in the sensor block 10 a monitoring differential pressure sensor is arranged 15 who with the administration 3 and the channel 6 connected is.

As a differential pressure sensor 14 For example, choose a high-quality capacitive sensor and monitoring pressure sensor 15 a piezoresistive sensor.

Claims (1)

Method for monitoring an anesthetic vaporizer with 1.1 of a line ( 3 ), which has an inlet ( 1 ) for a fresh gas and an outlet ( 2 ) for the fresh gas and an anesthetic agent, 1.2 a channel ( 6 ) from a tank ( 5 ) for the anesthetic to the outlet ( 2 ), 1.3 a sensor block ( 10 ), the at least one differential pressure sensor ( 14 ) with two pneumatic connections ( 16 . 17 ) to the fresh gas in the line ( 3 ) or to the anesthetic in the channel ( 6 ) and one between the two pneumatic connections ( 16 . 17 ) arranged balancing valve ( 18 ), 1.4 an evaluation and control unit ( 11 ), which measures the readings of the differential pressure sensor ( 14 ) and the balancing valve ( 18 ) 1.5, one of the expansion and control unit ( 11 ) controllable proportional valve ( 12 ) in the channel ( 6 ), with the following steps: 1.6 The evaluation and control unit ( 11 ) controls the balancing valve ( 18 ) to take the operating position, that is, the two pneumatic connections ( 16 . 17 ) of the differential pressure sensor ( 14 ) are with the fresh gas in the line ( 3 ) and the anesthetic in the channel ( 6 ), 1.7 at the differential pressure sensor ( 14 ) is a first value for the pressure difference between the pressure of the fresh gas in the line ( 3 ) and the pressure of the anesthetic in the channel ( 6 ) and sent to the evaluation and control unit ( 11 ), 1.8 the evaluation and control unit ( 1.1 ) controls the balancing valve ( 18 ) to assume the adjustment position, that is the two pneumatic connections ( 16 . 17 ) of the sensor block ( 10 ) are both connected to an identical pressure level, 1.9 at the differential pressure sensor ( 14 ), a second value for the pressure difference is measured and sent to the expansion and control unit ( 11 ), 1.10 the evaluation and control unit ( 11 ) compares the second value for the pressure difference with a predetermined limit value for a maximum allowable zero deviation: If the second value is greater than the limit value, then the expansion and control unit ( 11 ), and the second value is less than the limit value, the evaluation and control unit ( 11 ) the balancing valve ( 18 ) to assume the operating position and regulates the proportional valve ( 12 ) in its position such that the first value is zero over time.