DE643950C - Respiratory protection filter - Google Patents

Description

Respiratory protection filter The invention relates to a respiratory protection filter and aims to train such a filter that it also serves as a measuring device that the device carrier constantly displays the poison gas content of the air around it when the filter is in use.

According to the invention this is achieved in that in the filter one of the temperatures in front of and in or behind that which retains the poison gases or converting filter mass indicating heat measuring device is installed, by means of the eTL the content of the poison gas in the inhaled air from the difference in temperatures can be determined.

A differential thermometer is advantageously used as a heating device, which consists of two spheres, one of which is a movable drop of liquid containing capillary are interconnected. With a respiratory protection filter: he against Carbon dioxide can be one ball of the differential thermometer in front of it and the other ball be arranged in or behind the catalyst: orschicht.

In most cases, the reaction taking place in respiratory protection filters is accompanied by a measurable heat release. This is usually positive, for example in the case of the usual combustion in respiratory protection filters against carbon oxide: this gas to carbonic acid or in the adsorption that takes place in benzene filters. of benzene vapor through the active charcoal or in the conversion of potassium carbonate into potassium sulfite in sulfur dioxide filters. In these and similar cases, only the temperature drop differentiated between the one in the #### Filter 1 # breathing air sucked in \ and the air leaving the filter on the mouth side. From the ascertained increase in temperature, the poisonous gas content of the air to be cleaned can then be inferred by comparison with the known reaction ware and the heat radiation and capacity properties of the filter. -There are already measuring devices known in which the content of the air flow can be inferred from the change in temperature of a flow of air flowing through a reaction mass; the known devices, however, require a pump by which the air is forced through the reaction mass.

In contrast, the respiratory protection filter according to the invention has the advantage on that the air movement required to measure the temperature changes without an additional device only by the breathing activity of the device wearer is caused.

In the drawing is an embodiment of the invention, namely with a respiratory protection filter against carbon oxide, shown.

The air containing carbon dioxide is inhaled through the inlet port i sucked into the filter. It flows through first a coarse filter and a dry layer 2 and washes around the one belonging to a Differentialthermome.er Thermometer ball 3, the. arranged in front of the catalyst layer .i iks The second Thermometer ball 5 of the di-rertial thermometer is arranged in the catalyst layer .4. Both balls 3 and '5:' stand through the capillary io, in which there is a drop of liquid 8 is in connection with each other.

Due to the air in the catalyst layer containing carbon dioxide when inhaled .1 the combustion of the carbon dioxide taking place becomes the inhaled air and thus the Ball 5 is heated, while the temperature of ball 3 does not change significantly. As a result, the liquid droplet 8 is displaced downward in the capillary to. This shift can be read off on an appropriately graded scale 9 «-erden, and from the extent of the displacement of the liquid droplet, the carbon oxide content can then be determined to be closed to the air.

After the combustion of the carbon monoxide in the catalyst layer .1 the air flows through the dry layer 6 and passes through the outlet port 7 of the Filter into the breathing tube leading to the mouthpiece or nasal mask.

Claims (3)

PATL`TANsrRLCHE: t. Respiratory protection filter, characterized in that in the filter, the temperatures in front of and in or behind the one holding back the poisonous gases or converting filter mass indicating heat measuring device is installed by means of whose, the content of the poison gas in the inhaled air from the difference of the Temperatures can be determined. 2. Respiratory protection filter according to claim i, characterized by a differential thermometer, which consists of two balls (3, 5), which through a capillary (to) containing a movable drop of liquid (8) with one another are connected. 3. Against carbon oxide protective respiratory filter according to claim 2, characterized in that the one ball (3) of the differential thermometer is in front and the other ball (5) is arranged in or behind the catalyst layer (.1).