PL72189B1 - - Google Patents

Description

Respiratory protection apparatus with closed or semi-open breathing gas circuit. The subject of the invention is a respiratory protection apparatus with closed or semi-open breathing gas circuit. Previously known apparatuses of this type had various types of acoustic signaling devices connected in series in the breathing air circulation and transmitting The flow rate decreased when the pressure in the oxygen tank drops below a certain limit. The activation of the signaling device, however, caused an increase in respiratory resistance and caused an increased lung function in the user. This also led to an increase in oxygen consumption and an increase in the content of exhaled CO2 to shorten the service life of the apparatus from the reserve gas in the tank. Breathing gas reserve indicators are also known in open-circuit devices, supplied with a gas stream parallel to the gas stream. main power. By the principle of injection, they suck in air from the environment and blow it outside, or they are completely supplied with air supplied by the pressure reducing valve. This is possible in these devices with a short overall operation time and a large amount of decompressed air. In closed-circuit devices, even the smallest amounts of gas fed to the injection signaling devices and not entering the closed circuit, significantly reduce the operating time of the apparatus. development of a signal system for gas supply in closed or semi-open circuit apparatus, which will improve breathing conditions and extend the working life of the apparatus. - In the solution according to the invention, the signaling device of the acoustic, injectable breathing gas reserve indicator, connected in parallel to the gas circulation system, is placed on the way of the circulating air flow, preferably in the breathing bag. The advantage of the solution according to the invention is the lack of additional breathing resistance, and the flow gas through the signaling device takes place at the expense of reducing the flow in the main gas dosing system to the circulation without additional consumption of gas from the tank. A further advantage of the gas supply signaling system in the apparatus according to the invention is that when the breathing gas supply is completely lost, container to the bag, the signaling device stops whistling, which is a signal to stop using the apparatus immediately. In this way, the time of use of the apparatus is safely increased to the limit value. The subject matter of the invention is illustrated in an exemplary embodiment shown schematically in the attached drawing. The apparatus according to the invention consists of a compressed oxygen reservoir 1 connected via a valve system to a breathing bag 2, which in turn forms a closed system with a carbon dioxide absorber 3 by means of breathing hoses 4, 6 and conduits 7. and 8 at the inlet and outlet of the canister Q02. In the valve system of the apparatus, only some of the valves are essential for explaining the invention. On the tank 1 there is a shut-off valve 9 connected to a reducing valve 10. The high pressure chamber 11 of the reduction valve 10 is connected to the space 23 of the oxygen reserve 22, while the reduced pressure chamber 32 is connected to the supplying valve. There is a mouthpiece 5 between the inspiratory tube 4 and the exhalation tube 6. The hoses are terminated with non-return valves: an inspiratory valve 14 and an exhalation valve 15. Oxygen reserve signal 16 it has a control element 18 against which the movable element 20 of the valve 19 rests under the pressure of the spring 21. The signaling device 22 itself consists of a nozzle 23, a whistle 24 and openings 25 located in the side wall of the signaling device. 1 oxygen flows to the reduction valve 10, hence, under reduced pressure, it flows to the feed valve 12. The valve ensures the dosing continuously and periodically increased through line 13 to The echo tube 4 is here the oxygen is combined with the circulating air and flows during the inhalation phase to the mouthpiece 5 and the user's lungs. On exhalation, air flows through the exhaust check valve 15 and the canister 3 into the bag 2 causing it to fill and the cycle is repeated. The operation of the apparatus remains unchanged until the acoustic alarm of the breathing gas reserve is triggered. This occurs when the pressure in the oxygen reservoir decreases, and thus in the space 17 of the oxygen reserve indicator connected to it. below a certain border. The spring 21 then presses the control element 18 on the movable element 20 of the valve and opens the valve 19. The oxygen from the space between the reduction valve 10 and the feed valve 12 flows through the valve 19 and nozzles 23 into the whistle 24. The oxygen from the nozzle 23 directed towards the whistle by injection draws air from the breathing bag through the side openings 25 in the wall of the signal device 22, whereby the greater amount of gas flowing through the whistle 24 causes a stronger signal. The silencing of the signaling device is also a signal of the complete exhaustion of the oxygen supply in the tank and the necessity to immediately cease operation of the apparatus. the previous closed or semi-open circuit apparatus. PL PL

Claims (1)

1. Patent claim Respiratory protection apparatus with closed or semi-open breathing gas circulation with an acoustic indicator of the breathing gas reserve, characterized in that a signaling device (22) of the acoustic indicator (16) of the supply is connected in parallel to the gas dosing system. The gas with the injector is placed in the circulating air flow path, most preferably in the puffer bag (2). Printing. Techn. Bytom - Zam. 383 - 105 copies. Price PLN 10 PL PL