SU1090393A1 - Breathing mixture batcher - Google Patents

Abstract

A RESPIRATORY MIXTURE DISPENSER containing a nozzle device, a pressure-balancing mechanism and a valve, characterized in that, in order to protect the patient’s safety by stabilizing the flow rate of the gas mixture when the concentration of components changes, it is equipped with a pressure divider, each output of which is connected to a pressure-balancing mechanism and with one of the inputs of the nozzle device, and each input. - with one of the outlets of the crane, the remaining outlets of the latter being connected to the other outlets of the 1 st {d | oznoe device, and the entrance to the outlets of the pressure-balancing mechanism. (L

Description

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Soo The invention relates to medical technology, in particular to devices for producing mixtures of gases with a given concentration of the components of the respiratory systems of various medical devices to respiratory mixture dispensers. A breathing mixture dispenser containing a regulator of gas spraying, a valve consisting of switches, and a set of choke diaphagms (a device) are known. ij .. However, the different resistances of the choke diaphragms of a d-device lead to abrupt changes in gas flow rate that occur when switching from one concentration to another, which reduces the effectiveness of therapy or analgesia performed with this dispenser. . . The closest to the invention in technical essence and the achieved result is a breathing mixture dispenser containing a nozzle device. pressure-balancing mechanism and Crane. The nozzle device is made in the form of a pair of shut-off valves and the corresponding nozzle pairs, which result in gas outflow 2. However, switching the dispenser from one concentration to the arc during the operation of the dispenser due to different resistance of the nozzles leads to a change in the flow rate that either causes an insufficient amount of gas to be applied to the patient, or an increase in breathing resistance. The aim of the invention is to ensure patient safety by adjusting the flow rate of the gas mixture when the concentration of the components changes. The goal is achieved by the fact that a breathing mixture dispenser containing a nozzle device balancing the pressure. A mechanism and a crane are provided with a pressure divider, each output of which is connected to a pressure-balancing mechanism and one of the inputs of a nozzle device, and each input is connected to one of the outputs of the crane, the other outputs of the latter are connected to each other; .-- with a pressure-balancing mechanism. The drawing shows the pneumatic diagram of the dispenser. The breathing device dispenser contains a nozzle device 1, consisting of oxygen metering element 2 and three anesthetic gas metering elements 3 (for example, nitrous oxide), pressure-balancing mechanism 4 and Kpai. 5 concentration controls located at the entrances to the nozzle device 1. The dispenser is equipped with a pressure divider 6, for example, consisting of three pneumatic lines, two of which are equipped with pneumatic throttles 7 and 8, and the third line 9 has no resistance. The output of the pressure divider 6 is connected to the oxygen metering element 2 and the pressure-balancing mechanism 4, and the input is connected to the valve 5. The valve 5 has four positions, each of which corresponds to a certain ratio of the components of the gas mixture at the torus outlet. By its outputs, the valve 5 is connected to the metering elements 3 and the pressure divider 6. Dosing elements 2 and 3 of a nozzle device 1 are made, for example, in the form of plates of porous metal, having a linear relationship pressure drop - gas flow. The parameters of the metering elements 2 and 3 are selected in such a way that the error 1 has the same resistance coefficient. The pressure balancing mechanism 4 is a single-membrane pneumatic element, in chambers 10 and 11 of which the pressure is the same. This is achieved by the fact that the degree of opening of the valve on 12 is determined by the pressure in chamber 10 (submembrane). The dispenser also has inlet fittings 13 and 14 of oxygen and anesthetic gas, respectively. Dispenser breathing mix works as follows. Oxygen and anesthesia 1st gas (nitrous oxide) are supplied to the inlet fittings 13 and 14. Oxygen enters the valve 5, passes through the pressure divider 6, and then enters the metering element 2 of the nozzle device 1, passes through it, and mixes with the anesthetic gas. Anesthetic gas from fitting 14 through valve 12 balancing the pressure of mechanism 4 enters the inlet of crane 5, then, depending on the position of crane 5, the anesthetic gas flows to one, two or three metering elements 3 5 of the duct device 1 with oxygen.

The pressure equalization in the chambers / O and 11, which occurs in the pressure-balancing mechanism 4, causes the pressure under which the anesthetic gas flows to the dosing elements 3 is equal to the pressure at which oxygen enters the J5 dosing element 2, B As a result, the flow rate of gases through each metering element 2 and 3 is the same, which allows one to obtain different ratios of the components of the gas-to-gas mixture at the outlet of the dispenser when different quantities of the metering elements 3 are put into operation. aza, which is achieved by switching the tap 5. When switch 25 SRI-crane 5, the following occurs: oxygen, for example, begins to enter the two pneumatic line 6 with the throttle pressure divider E 7 and 8 instead of a single pneumatic line divider 6,

the pressure with the throttle 8. As a result, the oxygen pressure at the entrance to the dosing element 2, and hence the pressure of the anesthetic gas to the dosing elements 3, changes (increases). At the same time, the drug gas begins to flow into one metering element 3 instead of two.

However, the total consumption of oxygen and narcotic gas is actually constant. Since the total number of metering elements 2 and 3 has decreased (instead of three - two), the capacity of each of them has increased (due to the increase in pressure).

Also, there is no change in the flow rate of the gas mixture during other switchings of the concentration control tap 5. Thus, the absence of sharp fluctuations in the flow rate of the gas mixture delivered to the patient eliminates the danger of asphyxiation and also prevents the possibility of a significant increase in breathing resistance.

Preliminary data on the operation of the breathing tank dispenser are given in the table.

It can be seen from Table 1C 1 above that when switching concentrations, there are no sharp fluctuations in the flow rates of the gas mixture, which allows for a safe and effective

enalgesia involving the supply of a breathing mixture to the patient in the mode of both constant and intermittent flow.

Claims (1)

RESPIRATORY MIXTURE DISPENSER containing a nozzle device, a pressure balancing mechanism and a tap, characterized in that, in order to increase patient safety by stabilizing the flow of the gas mixture when the concentration of components is changed, it is equipped with a pressure divider, each outlet of which is connected to a pressure balancing mechanism and with one of the inputs of the nozzle device, and each input. - with one of the outputs of the crane, and the other outputs of the latter are connected with other outputs! the nozzle device, and the input with the output of the pressure balancing mechanism. 3 * I