SU939017A1 - Anesthesizing substance evaporator - Google Patents

Description

(54) DRUG EVAPORATING SUBSTANCES

one

The invention relates to medicine, in particular to an evaporator of narcotic substances, and can be used in the departments of anesthesiology and surgery P | I1 inhalation anesthesia.

Closest to the proposed by the technical essence and the achieved result is an evaporator of anesthetics, including an evaporation chamber in the form of an annular channel with porous elements and distribution device 1.

However, the installation of porous elements in the axial sieves of the annular channel leads to an increase in the flow rate of the porous metal, the volume of the evaporation chamber, and, as a result, the disruption of dosing during pulsating gas flows through the evaporator. At the same time, a significant volume of the reservoir contributes to the occurrence of waves in the evaporation chamber and the splashing of the liquid anesthetic through its outlets during operation during the transportation of patients.

The purpose of the invention is to increase the stability of dosing and the safety of anesthesia during transportation of patients.

This goal is achieved by the fact that in the evaporator anesthetic substances, including an evaporation chamber in the form of an annular channel with cells and a distribution device, the evaporation chamber is provided with a deflector in water adjacent to its outer wall of an elastic cylindrical frame attached to the outer. the shell of the chamber, made of porous metal, and the inner shell of the chamber is attached to the inner wall of the chamber.

FIG. 1 schematically | combined vaporizer narcotic substances, longitudinal section; in fig. 2 is the same cross section.

The evaporator contains an evaporation chamber 1 in the form of an annular channel, a dissolving device (not shown) and a water jacket 2 connected to reservoir 3 ..

The evaporator is equipped with a deflector 4 in the form of П1Н1 adjacent to the outer wall of the channel (it

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the same wall of the water jacket 2) of an elastic cylindrical frame dipped in a liquid anesthetic. The frame is bonded with the outer shell S of the evaporation chamber, made of porous metal, the inner shell 6 of the evaporation chamber is attached to the inner wall of the latter with a spring 7. The inner shell 6 has slots 8 for the gas to escape from the evaporator chamber. The evaporator works as follows. The gas entering the evaporator is divided by a switchgear into two parts, passing through the evaporation chamber 1 and bypassing it. Having entered the evaporation chamber 1, the gas descends from the top downwards through the annular channel between the outer and inner shells 5 and 6 of porous metal. The liquid anesthetic rises from reservoir 3 through the capillaries of the shells 5 and 6 and evaporates into the gas stream, completely filling it to an equilibrium concentration. The heat needed to evaporate the anesthetic comes from the water jacket 2, the cylindrical frame of the vent 4 and the inner wall of the chamber 1 to the evaporation surface of the shells 5 and 6. The air gap between the shells 5 and b and the walls of the chamber 1, which reduces the thermal conductivity in the transverse direction, is selected an elastic deflector 4 and a spring 7. The vapor-gas mixture leaves chamber 1 through Slot 8 and mixes with part of the gas passed around chamber 1 to the required concentration. During transportation of the patient, the waves arising in the tank 3 at the track are broken against the shell 5 and the deflector 4, so that in the narrow gap between the shell 5 and b there is practically no excitement and drops of liquid anesthetic cannot get into the slots 8.

By installing porous elemeites along the walls of chamber 7, the amount of porous metal in the evaporator chamber 1 and the loss of liquid anesthetic are reduced by about 5 times.

Connecting the outer shell 5 of a porous metal with an elastic deflector 4 improves the heat conduit to the evaporation surface from the reservoir; 3 and water shirt 2.

Thus, the proposed ispa {1tel compared to the known provides stable dosing of anesthetics in a wide range of gas flow rates from 2 to 15 l / min due to the equilibrium (complete saturation of the gas with vapor of aesthetics with a minimum evaporator chamber volume and consumption of porous metal. At that, overdose due to the ingestion of liquid anesthetic in the ducts of the evaporator when a patient is transported.

Claims (1)

Invention Formula The evaporator of the antifungal substances, which includes an isppelling chamber in the form of an annular channel with porous elements and a switchgear, is distinguished by and. By the fact that, in order to increase the stability of dozdrovin and the safety of anesthesia during transportation of patients, the evaporation chamber is equipped with a deflector in the form of an elastic frame adjacent to its outer wall and attached to an outer shell of a porous metal outer shell. the wall of the chamber. Sources of information taken for review during the examination 1. USSR author's certificate No. 454915, cl. A 61 M 7/00, 1972. uz.l iuz.i