SU1402613A1 - Apparatus for microbiological analysis of air - Google Patents

Abstract

The invention relates to microbiology and can be used to measure the concentration and dispersion of microbial particles present in the air. The purpose of the invention is to improve the accuracy of the analysis. The device includes an impactor 1 with detachable cylindrical stages 2, containing multi-nozzle grids 3 with holes whose diameter in each subsequent grid is smaller than the diameter of the holes of the previous grid, substrates 4 with nutrient medium 5 located under the grids 3, channels 6 and 7 for air supply in the impactor 1 and its outlet, the filter 10 and the movable valve 9. The device is equipped with a distribution chamber 8 connected to channels 6 and 7, and the valve 9 is installed in the chamber 8, and the filter 10 is placed in the valve 9. Channel 7 is connected to and source of suction. Improving the accuracy of the analysis is achieved by ensuring a constant gas flow rate in the impactor 1 at all stages of air analysis. 1 ill., 1 tab. S (L e ot 00 U

Description

The invention relates to microbiology, in particular to a technique for measuring the concentration and dispersion of microbial particles present in the air.

The purpose of the invention is to increase the accuracy of the analysis.

The drawing shows a fundamental constructive implementation of the device.

The device includes an impactor I with detachable cylindrical stages 2, containing multi-axis gratings 3c holes, the diameter of which in each subsequent grid is smaller than the diameter of the holes of the previous grid. Under the grill mounted substrate 4 with a nutrient medium 5.

Impactor 1 is equipped with channels for air supply 6 and exhaust air 7 from the impactor.

: The device is equipped with a switchgear and; an internal chamber 8 connected to channels 6 and 7 for supplying air to the impactor and its outlet. In chamber 8, a valve 9 is installed, in which the size: 1 price is the replaceable filter 0. The valve 9 has the ability to move between the channels 6 and 7 and alternately block their cross section by the filter 10.

When assembling, the device is filled with sterile air, and, prior to operation, it is connected to the vacuum source with channel 7.

; Before air analysis: the valve 9 with the filter 10 is moved to the channel 6 and the air flow through the impactor I1 necessary for measuring the dispersion composition of microbial particles is established, excluding the filter 10 from falling on the substrates 4 with a nutrient medium 5 microbial particles.

In order to analyze the air, the valve 9 is moved to the channel 7. In this case, the device does not change the values of the hydraulic resistance to the air flow. When analyzing through channel 6, the required volume of air is introduced into the device and microbial particles are deposited. On substrates 4 with nutrient medium 5

At the end of the analysis, the cotton clap 9 is moved to its original position in channel 6, and without changing the gas flow velocity, which is important when analyzing the dispersed composition of the particles, the residual volume of the analyzed air is displaced from the compactor with sedimentation of microbial particles from it. In this case, the filter 10 prevents any microbial particles from entering the impactor 1.

After sampling the air, the impactor 1 is disassembled in the test box and the substrate 4, which can be used as Petri dishes, placed in a heating cabinet and incubated for subsequent counting of the grown colonies of microorganisms and determination of the concentration of microbial particles in the analyzed air, taking into account their dispersion.

Comparative data for determining the concentration of microbial particles in the proposed and known devices are presented in the table.

Claims (1)

Improving the accuracy of the analysis is achieved by ensuring a constant gas flow rate in the impactor at all stages of the air analysis. Invention Formula A device for microbiological analysis of air, including an impactor with detachable cylindrical steps, containing multi-nozzle grids with holes, the diameter of which in each subsequent grid is smaller than the diameter of holes and its removal, a filter and a movable valve, characterized in that, in order to increase the accuracy of the analysis, the device is provided with a distribution chamber connected to. channels for supplying air to the impactor and its outlet, with the flap installed in the distribution chamber, and the filter placed in the flap. 24 24 26 741 740 768 ten 10 30 30 50 50 ten ten thirty thirty 50 50 40 60 120 50 60 40 thirty 140 130 2.05 2.21 1.10 1.33 2.07 2.69