DE735186C - High altitude breathing apparatus - Google Patents

Description

High altitude breathing apparatus For the supply of oxygen for breathing apparatus is the use of chemical mixtures has been suggested in which after initial Heat the oxygen-releasing reaction gradually progresses automatically. Such mixtures consist of chlorates, perchlorates and similar compounds as well as a reaction carrier such as iron or other 'metal powders and optionally also fillers and catalysts; they are mostly used in the form of compacts. This is done in the oxygen evolution vessel by heating the chlorate mixture Generated oxygen is pressed into a storage bottle and can from. This Tiber a Reduction valve removed and, for example, at greater heights for the purpose of the aircraft engines Increase in performance are fed.

When using the above-mentioned oxygen generators Pressings for the oxygen supply of wooden devices have been observed, that the reaction of the oxygen-generating masses with increasing height and decreasing Air pressure slows down considerably, so that, for example, at an altitude of about 8ooo in the reaction speed me still about so up to 75 ° (o that with normal Temperature and pressure conditions. This phenomenon is all the more serious than with increasing altitude before there is an increased need for oxygen for breathing.

It stands to reason that this deficiency is corrected by enlarging the To fix dimensions of the oxygen generating compacts. This would, however at lower altitudes an increased production of oxygen is effected, -the would be associated with a loss of oxygen if the device wearer is longer Time is at these mentioned altitudes. In addition, the weight of the device and the hardly needed due to the enlargement of the dimensions of the compacts as well is increased.

There are high altitude breathing apparatus known that consist of a rebreather with consist of a chemical mixture in which the oxygen-releasing reaction is automatic gradually progresses and a constant amount of oxygen in the unit of time is given off with development of heat. those on the other parts of the breathing apparatus is transmitted. This arrangement solves the problem of the expiration tubes and valves in large To protect heights from icing. The one in the exhalation circuit arranged breathing bag is used in this known device only to accommodate the , '-. exhaled air and the unused oxygen still present in it. from that developed in excess by the chemical mixture, which is not required for breathing Only a small part of the oxygen can get into the breathing bag as a result of it Arrangement in the exhalation circuit in it an overpressure cannot be maintained can and may.

This known device accordingly forms the basis of the invention underlying problem, namely the disadvantages that are reduced at greater heights as a result Speed of the oxygen release of the oxygen-generating compacts occur, to eliminate, not resolved.

According to the invention, the above-mentioned task in the new high-altitude breathing apparatus, which is arranged in a pressure-tight container and in which the oxygen is developed by thermal decomposition of a chemical mixture, thereby dissolved, that the container is connected to a pressure accumulator to which the oxygen is withdrawn through a lung-controlled oxygen supply valve.

This ensures that the oxygen production from: the oxygen consumption becomes independent, so loss of oxygen is avoided. 'Further will be in spite of the arrangement of a special pressure accumulator also saves weight and space causes compared to previous devices.

In the drawing, an embodiment of the invention is shown.

Fig. I shows a diagram of the new high altitude breathing apparatus, and Fig.: 2 shows the component labeled R in Fig. i on an enlarged scale in section.

P1, P2, P3 ... are arranged in pressure-resistant containers, oxygen-evolving compacts, which are connected to a pressure storage vessel S via a collecting line L. A line V branches off from the collecting line L, in which a lung-controlled oxygen inflow valve R is arranged and which is in connection with the breathing apparatus or with the breathing apparatus. The ignition device for the pressed bodies consists of the ignition heads Z1, Z2, Z3. . ., the power source E and the switches Hl, H7, H3.

The lung-controlled oxygen inflow valve shown in Fig. A R has a connecting line a for the flowing in from the memory S via the line h Oxygen on. The opening of the channel a is controlled by a valve b, which is arranged on the short arm of a double lever f. The long arm c of the double lever f is pressed against a membrane d under the action of a spring e in the rest position, which is in communication with the outside air via an opening g.

The mode of operation of the device is as follows: If the device is not ventilated, the valve b is pressed sealingly onto the opening of the channel a by the pressure of the spring e via the double lever f. When the device is ventilated, however, the membrane d bulges inwards and presses the long arm c: of the double lever f inwards against the action of the spring e, whereby the short lever arm lt with the valve b is raised and thus an opening of the channel a takes place so that oxygen can flow into the mask from the pressure accumulator S.

Claims (1)

PATENT CLAIM: High altitude breathing apparatus in which the oxygen is supplied by thermal Decomposition of a chemical mixture is developed, which is in a pressure-tight container is arranged, characterized in that the container with a pressure accumulator (S) communicates with the oxygen through a lung-controlled oxygen supply valve (R) is taken.