SU1761789A1 - Device for air analysis using microbiology method - Google Patents

Abstract

Usage: in the microbiological industry. SUMMARY OF THE INVENTION: The device comprises an impactor and a cylindrical sealed air distribution chamber. The impactor is formed by detachable cylindrical steps, each of which includes a multi-nozzle grid and a substrate for the nutrient medium located beneath it, and is equipped with nozzles for air supply and exhaust placed in the upper and lower stages, respectively. The chamber is equipped with nozzles and pipes connected with them for connecting to the nozzles of the impactor and nozzles for supplying and discharging air. Inside the chamber are placed means for blocking the openings of the nozzles, mounted for movement along the axis of the chamber, and a filter. The closure means is designed in the form of a spool having a diametrically through channel and diametrically arranged openings for the passage of air. A cavity is made in the body of the spool between the holes, and the filter is a filter material placed in the latter. The chamber is equipped with a nozzle for supplying and discharging air from the spool channel. 1 il.

Description

The invention relates to the microbiological industry, and specifically to a technique for determining the concentration and cispersity of microbiological aerosols.

A device for microbiological analysis of air is known, which contains an impactor formed by detachable cylindrical steps, each of which includes a multi-nozzle grid and a substrate for the nutrient medium located beneath it, and equipped with nozzles for supplying and discharging air placed in the upper and lower steps, respectively, a cylindrical sealed air distribution chamber, provided with nozzles and communicating with them tubing for connection to

nozzles of the impactor and nozzles for supplying and discharging air, placed inside it by means for blocking the nozzles of the nozzles, mounted for movement along the axis of the chamber, and a filter.

A disadvantage of the known device is the low accuracy of the analysis due to the possibility of particles of the analyzed air in the output channel, mine the impactor.

The aim of the invention is to improve the accuracy of the analysis.

This goal is achieved by the fact that in a device for microbiological analysis of air, containing an impactor, formed by separable cylindrical steps, each of which includes a multi-nozzle grid and is located

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ABOUT

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about

beneath it is a substrate for a nutrient medium, and equipped with pipes for air supply and exhaust placed in the upper and lower stages, respectively, a cylindrical sealed air distribution chamber equipped with pipes and pipes connected to them for connecting to the impactor pipes and pipes for inlet and outlet air, placed inside it by means for blocking the openings of the nozzles, mounted for movement along the chamber axis, and by the filter according to the invention, means for transferring The valve is made in the form of a spool having a diametrically through channel and diametrically located openings for the passage of air, the cavity being made between the openings in the body of the spool, the filter is filtering material placed in the latter, and the chamber is equipped with nozzles for inlet and outlet of air channel spool.

The drawing schematically shows a device for microbiological analysis of air.

The device includes an impactor 1 formed by split cylindrical steps 2. Each of the steps includes a multi-nozzle grid 3 and a substrate 4 for the nutrient medium located under it. Impactor 1 is equipped with nozzles 5 and b for supplying and discharging air, placed in the upper and lower stages, respectively. The device comprises a cylindrical hermetic distribution chamber 7 for air, equipped with nozzles 8 and 9 and pipes connected to them for connecting to the nozzle 5 and 6 of the impactor and nozzles 10 and 11 for supplying and discharging air. Inside the chamber 7 is placed a means for blocking the openings of the nozzles, mounted for movement along the axis of the chamber 7. The means for overlapping is made in the form of a spool 12 having a through diametral channel and diametrically located openings 13 and 14 for the passage of air. A cavity is formed between the holes in the body of the spool 12. The device contains a filter 15, a filtering material representing a method placed in the body cavity of the spool 12. The chamber 7 is equipped with nozzles 16 and 17 for supplying and discharging air from the channel of the spool 12. The nozzle 16 is additionally equipped with filtering material 18. The spool 12 is equipped with a handle 19 and a spring 20, installed between the handle 19 and the body of the spool 12. In the body of the spool 12

An electromagnetic valve 21 is installed, controlled by the handle 19 with an electric stopwatch.

The device works as follows.

Before starting, the device, filled with sterile air during its assembly, is connected to the dilution source by nozzles 11 and 17. The analyzed air passes through the nozzle 10, is released from the microbial particles in the filter 15, and through the nozzle 5 enters the impactor 1. The air exhausted in the impactor through pipe 6, pipeline and pipe 9

5 enters the measuring unit (not shown in the drawing) where the predetermined air flow is established. The analyzed air also passes through the filtering material 18 of the nozzle 16, where it is freed from

0 microbial particles, passes through the channel 13 and goes through the pipe 17 to the vacuum source. After setting the air flow through the impactor 1, the spool 12 moves in the housing of the impactor 1 and is set to

5 position when channel 13 is located

coaxially under the opening of the nozzle 10, and

the filter 15 between the openings of the nozzles 9 and

11. At the same time, the spring 20 is extended, the valve, the valve 21 is closed and the electrical second domer is turned on. The analyzed air passes through the channel 13, through the impactor 1, pipe 6, pipeline, pipe 9, filter 15 and pipe 11 to the vacuum source. The sampling time is determined by the concentration of the microbial particles being analyzed: the higher the concentration, the shorter the sampling time. After the required air volume for analyzing the test air, the spool 12 returns to its original position. At the same time, the remaining part of the unanalyzed air from the channel 13 is displaced by air entering through the pipe 16 and the filter material 18 placed in it

5Thus, the device allows

increase the accuracy of air analysis, so that unanalyzed air is prevented from entering the impactor.

Claims (1)

Invention Formula 0Device for microbiological air analysis, containing an impactor, formed by detachable cylindrical steps, each of which includes a multi-nozzle grille and located under 5 is a substrate for a nutrient medium, and provided with pipes for air inlet and outlet located in the upper and lower stages, respectively, a cylindrical sealed air distribution chamber equipped with pipes and pipes connected to them for connecting to the impactor pipes and pipes for inlet and outlet air, placed inside it by means for blocking the openings of the nozzles, mounted for movement along the chamber axis, and by a filter, characterized in that, in order to increase of analysis, the means for overlapping is made in the form of a spool having a through diametral channel and diametrically located openings for the passage of air, with a cavity in the body of the spool between the openings, the filter is filter material placed in the latter, the chamber is provided with supply and exhaust air from the channel of the valve. U