SU297233A1 - Apparatus for cleaning high-pressure air - Google Patents

Description

The invention relates to a technique that provides breathing apparatus with air, and relates to a device for cleaning high-pressure air, discharging and ero from a compressor and intended for filling cylinders of self-contained breathing apparatus. The use of compressed air to high pressures requires cleaning it from mechanical impurities, as well as from carbon monoxide, carbon dioxide, nitrogen oxide and hydrocarbons. The use of self-contained breathing apparatus for divers, divers, firefighters, mountain rescuers requires the creation of portable systems with devices that provide a high degree of purification of compressed air. A device for cleaning high-pressure air from impurities harmful to breathing is known, which contains containers with sorbents made in the form of several cassettes in which the sorbents are arranged in a sequence: silica gel, chemical carbon dioxide absorber and hopkalite. This device is intended for stationary installations and cannot be used on portable compressors due to its large size and weight. In addition, due to the location of the sorbents in the sequence indicated and after the last sorbent, as a result of the partial combustion of catalytic impurities, a gas is formed, deteriorating the composition of the respiratory air. The purpose of the invention is to create such a high pressure air purification device that would provide a high degree of purification and have a small weight and size to be able to install it directly on a portable compressor. This is achieved in that the containers with sorbents are made in the form of individual cartridges arranged in sequence: a silica gel cartridge, a hopcalnt cartridge and a cartridge with a chemical absorber. Such a sequence in the arrangement of cartridges with sorbents provides the most complete gas cleaning. The snail cartridge serves as an oil trap and protects the gopkalit from drip particles of oil and moisture, and a galloplt cartridge located at the inlet of polluted air. increases the efficiency of the chemical absorber at the final purification stage. Separate sorbents located in the cartridges provide optn.malnye operating conditions for each sorbate, for which an air heater is installed in front of the hopkalntnogo natron since the catalytic impurities are most efficiently and reliably operated at 90-100 ° C, when the catalytic impurities are completely burned. To prevent the oil from igniting due to the reverse flow of hot air, when the compressor is installed in the pipeline, a check valve is installed in front of the heater.

The drawing schematically shows a high pressure air cleaning device.

It consists of compressor 1, water-oil separator 2 of silica gel cartridge 3, air heater 4, hoppalite cartridge 5, cartridge 6 with a chemical carbon dioxide absorber and a check valve 7 installed at the outlet of the silica gel cartridge. The sorbents in the cartridges are sealed with springs 8. A shut-off valve 9 is installed to supply air to the consumer. The entire device for preventing vibration is mounted on shock absorbers.

The device works as follows.

The air injected by the compressor 1 is fed into the oil / water separator 2, where it is cleaned from drip particles of oil and water, as well as from mechanical impurities.

The air is then passed through a silica gel cartridge 3 to remove condensate that has been partially removed from the water and oil separator, and is directed to a preheater 4, in which the thermal energy of the drive engine or electric power can be used. The heated air is fed to the hopcalite cartridge, in which the compressed air is cleaned from impurities of hydrocarbons, vapors, oil and carbon monoxide. Then, in the cartridge with a chemical absorber, the air is cleared of carbon dioxide, nitrogen oxides and oil aerosols.

Claims (1)

Invention Formula A device for cleaning high-pressure air used for breathing from harmful impurities, containing tanks, filled with silica gel, hopcalite and a chemical carbon dioxide absorber, characterized in that, in order to increase the degree of air purification, the tanks with sorbents are made as separate cartridges arranged in a sequence: a silica gel cartridge, a hopcalite cartridge, and a cartridge with a chemical absorber, with an air heater with a non-return valve installed in front of the goikalit cartridge.