PL15804B1 - A method of accelerating the oxygen release reaction in respiratory tubes filled with potassium peroxides. - Google Patents

Description

Enclosed gas protection devices in which the production of oxygen is carried out by chemical means with the aid of Lulb sodium peroxide of similar preparations show the disadvantage in comparison with devices operating with concentrated oxygen that the production of oxygen does not take place immediately in full intensity and is not sufficient to cover the needs of the person using the given apparatus. In the latest formulations in this field, the so-called development time is reduced to a minimum, but even in the best case of oxygen production, it is not sufficient that the oxygen demand for breathing during hard work can be met immediately and after fitting the apparatus. Also, the initial filling of the bellows requires several puffs of air, which is a significant inconvenience in the event of sudden gas hazards. Therefore, in recent times a small auxiliary source of oxygen has been used in the form of a small gas cylinder, from which several are taken. liters of oxygen, or in the form of a product from which the required oxygen is discharged. This amount of oxygen is to protect against an initial respiratory crisis. The secondary oxygen source, chemically discharging oxygen, must be relatively voluminous and costly. On the other hand, devices with oxygen packed in a small auxiliary cylinder require a high-pressure cylinder which is again surrounded by a mantle, and in addition a spare oxygen tank is needed. It is understood that this auxiliary oxygen does not accelerate the action of the patron, but only gives the opportunity to wait for it to happen. Hitherto, an attempt has been made to produce sufficient oxygen immediately from the mass of alkali peroxide in the patron itself. However, these efforts have been limited to initiating the reaction by adding water in various ways. However, alkaline vapors are produced which stimulate coughing and prevent breathing. Also by adding water to the inside of the patron, the danger of sintering (creating a compact agglomerate) increases to such an extent that such patrons have never been used on a larger scale. Preferably through the breathing bag, which causes an immediate chemical reaction inside the patron. Due to the fact that the cartridge strongly absorbs carbonic acid, this acid does not get to the respiratory organs, but reacts with the peroxide to produce sodium, with simultaneous oxygen breakdown. At the same time, the patron gets very hot, and as a result, its operation later becomes much easier. This amount of carbonic acid required for the initiation can be taken from a small steel or aluminum cylinder, or it can be produced by a chemical reaction, for example from a conventional fermentation powder (Rrausepiulver) or otherwise. By using a small spare cylinder for compressed carbon dioxide compared to using an oxygen cylinder, there is the advantage of reducing the weight of the cylinder. Moreover, carbon dioxide, unlike compressed oxygen, can easily be obtained anywhere, for example from any stamping apparatus. With the same effect as carbonic acid, other gaseous acids can also be used. PL

Claims (2)

Patent claims. 1. A method of accelerating the oxygen production reaction in respiratory cartridges filled with potassium peroxides, characterized by the fact that carbon dioxide is introduced into the cartridge in such an amount that the chemical reaction with oxygen begins immediately carbon dioxide is either taken from a small flask (bomb) in which it is under pressure or produced by a chemical reaction. 2. The method according to claim The method of claim 1, wherein the carbon dioxide is first introduced into the breathing bellows. Deutsche G a s g 1 ii h 1 i e h t Auer-G eisel 1 schaf t m. B. H. Zastepca: L Myszczynski, patent attorney, Print by L. Boguslawski i Skl, Warsaw. PL