DE855317C - Anesthetic equipment - Google Patents

Description

Anesthesia machine With the help of the well-known gas anesthesia machines become anesthetizing Prepared gas mixtures, which are supplied to the patient and from at least two gases exist. One of these gases is the actual anesthetic gas, the others a nutrient gas that maintains breathing, for which in most cases oxygen is used. If the anesthesia machine is used carelessly, it can now happen that inadvertently the nutrient gas supply is not opened or even during the anesthesia is closed. It is also possible to leave the anesthesia during the course of the anesthesia The nutrient gas bottle is completely emptied. In such cases, the patient only erlijjit still pure anesthetic gas or an anesthetic mixture that does not contain enough nutrient gas.

However, all anesthetic gases act in their pure state or even already fatal in excessively high concentration. So there is a risk that through carelessness will endanger the patient's life during anesthesia.

The invention has the task of addressing these disadvantages Avoid known anesthesia machines. It is based on the idea of a device to create that with certainty prevents the patient from missing the home Nutrient gas supply anesthetic mixture flows in. The invention consists in that in the gas supply line of the bzxv. the anesthetic gases, preferably in their medium pressure part, iin from the pressure the shut-off valve controlled by the nutrient gas is switched on, which is activated when the Pressure of the nutrient gas closes below a certain value. So is z. B. been forgotten Open the oxygen cylinder or accidentally open the oxygen cylinder during closed during anesthesia or the oxygen bottle is emptied during anesthesia, in all cases this corresponds to the decrease in pressure in the nutrient gas line a shut-off valve in the anesthetic gas line is closed. The anesthetic gas supply to the The patient is thus interrupted, so that the risk of poisoning is eliminated is.

The control part of the shut-off valve advantageously consists of one of the The pressure of the nutrient gas is applied to the membrane, which when flexing under the pressure of the nutrient gas against the locking bolt of the shut-off valve via a pressure pin the action of a closing spring lifts off its valve seat. Because the membrane chamber is closed on all sides, there is an outflow of the nutrient gas from the control part of the Shut-off valve excluded.

In the figure is an embodiment of the device according to the invention shown schematically.

To the high-pressure line coming from an oxygen cylinder (not shown) I the manually adjustable oxygen pressure reducer 3 is connected, of which The line 6 leads to the oxygen metering nozzle 8 on the low-pressure side. Not to them The anesthetic gas bottle drawn is the one that can be regulated by hand via the high-pressure line 2 Anesthetic gas pressure reducer 4 connected, the line from the low pressure side 5 leads to the anesthetic gas dosing nozzle 7. The nozzles 7 and 8 are in a T-piece g housed, which is in communication with the breathing bag 10. At this one is the Connection piece II arranged for the breathing tube not shown. Into the anesthesia line 5 the shut-off valve 12 is switched on, its locking bolt I7 under the action a closing spring 14 stands which the locking bolt on the valve seat of the shut-off valve presses. The shut-off valve 12 has a control part formed from the membrane 15 which seals the membrane chamber I8 gas-tight. Between the middle part of the Diaphragm 15 and the locking bolt I7, a pressure pin I6 is guided. The membrane chamber I8 is connected to the high-pressure oxygen line I via the line I3.

The operation of the device is as follows: After opening the Filled oxygen cylinder (not shown) flows through high-pressure oxygen the line I to the pressure reducer 3 and from there via the line 6 to the dosing nozzle 8. The flow of oxygen through the nozzle 8 is determined by its cross section and according to the medium pressure set on the pressure reducer 3.

At the same time, high-pressure oxygen flows when the oxygen cylinder is opened via line I3 into the diaphragm chamber I 8, in which finally the same pressure as is the case in the high-pressure oxygen cylinder itself. Under the action of this The membrane 15 bulges outward under pressure.

The pressure pin I6 is in the direction of the locking bolt I7 and finally lifts it against the action of the spring i6 from the valve seat so that the valve is open. This can now be done through the high pressure line 2 anesthetic gas flowing in and reduced in the anesthetic gas pressure reducer 4 through the line 5 and flow through the shut-off valve 12 to the dosing nozzle. The influx of anesthetic gas depends on the cross section of the nozzle 7 and the one set on the pressure reducer 4 Medium pressure. The anesthetic gas flowing out of the nozzle 7 and the anesthetic gas flowing out of the nozzle 8 Oxygen flows through line g to breathing bag IO, the gases mixing.

If the pressure in the oxygen cylinder falls below a certain value or the oxygen bottle is closed, so that the pressure in the high pressure line I decreases, then the pressure in the diaphragm chamber 18 also decreases accordingly iNlembrane then returns under the influence of its own spring force and the force of the The spring 14 returns to its original position, the valve pin I7 lies down on its valve seat. The shut-off valve in the anesthetic gas line is therefore when The pressure in the oxygen line drops automatically below a certain value closed and thus the further supply of nutrient gas to the breathing bag 10 is prevented.

Claims (2)

PATENT CLAIMS: I. Anesthesia machine, characterized in that in the gas supply line (5) of the anesthetic gas or gases, preferably in its medium pressure part, a shut-off valve (12) controlled by hand of the nutrient gas is switched on, the closes when the pressure of the nutrient gas drops below a certain value. 2. Anesthesia machine according to claim I, characterized in that the Control part of the shut-off valve (I2) from a pressurized by the nutrient gas Membrane (I5) is formed, which when flexing under the pressure of the nutrient gas over a pressure pin (I6) the locking bolt (I7) of the shut-off valve against the action a closing spring (14) lifts from its seat. Attached printed matter: German Patent No. 721 689.