SU702557A2 - Respirator - Google Patents

Abstract

RESPIRATOR on auth. No. 508146, characterized in that, in order to increase the reliability and efficiency of the respirator when operating in low volume conditions, equalizing inlet and outlet valves are installed on the elastic membrane of the compensation chamber.

Description

ISD SP ate

The invention relates to compressed oxygen insulating breathing apparatus and is intended for use in the mining, chemical and other industries under conditions of low ambient temperatures.

According to the main auth. No. 508146, there is a known respirator containing a face, a breathing tube O and a knapsack consisting of a sealed, heat-insulated body and a perforated cap. Inside the case there are respiratory valves of exhalation and inhalation, a regenerative cartridge, 15 equipped with a lime chemical carbon dioxide absorber, a breathing bag with an excess valve, an oxygen distribution unit and a compressed oxygen cylinder. 20 A compensation chamber with an elastic membrane, separated from the body by a perforated partition, is located between the body and the tailoring of the knapsack. The partition and roof panels have 25 openings for the free passage of air 03,.

The installation of an elastic membrane in the compensation chamber when assembling a respirator is difficult because it requires precise matching of its phase with the degree of filling.

breathing bag. When you exhale. the breathing bag will not be able to melt and take the volume of exhaled -jj mixture due to the fact that the membrane is unable to move. In the air-breathing system of the respirator, the pressure will develop, an excess-precise valve will work, and the pressure mixture 40 will be thrown out.

Our cycles will repeat and the regenerative respirator will work on the principle of the pulmonary apparatus with an open breathing circuit 45 (for example, an aqualung), which will result.

to a sharp reduction in the period of its protective action due to irrational

use of oxygen.

With a partial mismatch of phase 50 of the position of the elastic membrane and the filling volume of the breathing bag j. the capacity of the latter will be useful

It was used by the patient, which will lead to an increased consumption of oxygen and, 55 as a result, to a reduction in the duration of the protective effect of the respirator. So

As the resale and assembly of the respirator is carried out after each use, these errors are inevitable. This adversely affects the reliability of the device.

A second disadvantage is that the excess valve is in communication with the atmosphere. Due to the fact that modern regenerative respirators have a constant supply of oxygen, exceeding the average consumption of it by a person, then an excess of breathing mixture with a high heat capacity will be thrown out of the bag. Thus, the heat released during the exothermic reaction of carbon dioxide sorption by a chemical absorber will be used inefficiently, which will affect the overall thermal capacity of the respirator system and reduce the effectiveness of protecting the respirator nodes from cooling.

The purpose of the invention is to increase the reliability and efficiency of the respirator when operating in low temperature conditions.

This is achieved by the fact that the respirator is auth.st. N5 508146 on the elastic membrane of the compensation chamber installed equalizing inlet. and exhaust valves,

Such a design solution of the compensation chamber simplifies the assembly of the respirator, since the matching of the filling phases of the breathing bag and the position of the elastic membrane will be carried out automatically.

The drawing shows the described respirator in two projections.

-. The respirator contains the front part 1, expiratory breathing tubes .2 and inspiration-3, a satchel consisting of a sealed heat-insulated body 4 and a perforated lid 5. Inside and the body are exhalation valves 6 and inspiration 7, a cartridge 8, equipped with a lime carbon absorber gas, breathing bag 9 with excess valve 10, oxygen distribution unit 11 and a cylinder 12 filled with compressed oxygen. Between the housing and the respirator cover there is a compensation chamber with an elastic membrane 13, which is separated from the housing by a perforated partition 14. The partition. And the cover is provided with openings for free air passage.

The elastic membrane is equipped with balancing valves - inlet 15 and exhaust 16.

The respirator works as follows.

Exhaled air through the front part 1 through the exhaust hose 2, through the exhalation valve 6 enters the cartridge 8, where it is cleaned of carbon dioxide. Then, the exhaled air enters the breathing bag 9 and fills it, as a result of which the air from the anticepsy space is displaced and moves the elastic membrane 1 3 towards the respirator cover 5 (see position -A of membrane 13). When you inhale cleared from carbon dioxide and oxygen-enriched air from the breathing bag 9 through the inhalation valve 7, the inspiratory hose 3 and the face section 1 enters the human lungs. Enrichment of inhaled air occurs at the expense of oxygen coming from the cylinder 12 through the oxygen distribution unit 11. During inhalation, the breathing bag will contract, as a result of which a vacuum is created in the fender space and the elastic membrane 13 moves towards the partition 14 (see position B of the membrane 13).

If the breathing bag is full, there is an excess of breathing air.

it is ejected through valve 10 into the corpusomas of the respirator, maintaining in it a sufficiently high level of positive temperature, and thereby preventing the intensive cooling of the respirator assemblies.

If there is a mismatch between the phase of filling of the breathing bag 9 and the position of the elastic membrane 13, the anticeps,. The volume is automatically optimized during the first breath inhale by sucking in outside air through the equalizing inlet valve 1 5 (with insufficient suction volume) or displacing the supersonic air out through the equalizing exhaust valve 16 (with excessive suction volume). In the future, during the operation of the respirator, the balancing valves will maintain a constant volume of air in the fender space, which will be replenished by the breathing mixture discharged through the clap 10.

The use of the invention will make it possible to increase the reliability and efficiency of the respirator when working in conditions of low ambient temperatures and, as a consequence, to improve the safety of the work of mine rescuers during the liquidation of accidents at the enterprises.

Claims (1)

RESPIRATOR for auto No. 508146, characterized in that, in order to increase the reliability and efficiency of the respirator when operating at low temperatures, equalizing inlet and (exhaust valves) are installed on the elastic membrane of the compensation chamber.