SU1054408A1 - Apparatus for studying bacterial aerosols - Google Patents

Abstract

1. DEVICE-FOR RESEARCH. WANIA BACTERIAL AEROSOLS, containing the body with suction and suction nozzles, slit-forming partitions mounted in the joint and catching the substrate, characterized in that in order to reduce the time and extend the range of research due to obtaining a continuous sweep of sediment in time and its even precipitation on the substrate, the latter is made in the form of a rectangular plate and mounted in guides, and in the case a feeding device is mounted to move the substrate in the transverse fissure direction , moreover, in the housing and partitions from the side of the substrate, grooves are made to avoid erasing the sediment. 2. Device POP.1, DIFFERENT. With the fact that the feeding device is made in the form of a cam mechanism.

Description

The invention relates to sampling devices for testing bacterial aerosols using impaction - inertial sedimentation of particles from air on the trapping surface, and can be used in veterinary medicine and medicine, in microbiological, meat and dairy industries.

Multistage (cascade) impactors are known for the study of bacterial aerosols, which contain a housing with slit-shaped impact elements, a suction and suction nozzle, and trapping substrate surfaces that serve for the inertial separation of aerosol particles into fractions by repeated impact of the flow of the aerosol under investigation surfaces of substrates with gradually increasing velocities under the influence of the vacuum created at the output of the device 1.

In such devices, several substrates located inside the hermetic case are used to absorb different fractions of particles, which prolongs the process of changing substrates, as well as the processing, analysis and comparison of precipitates.

Disadvantages are taken into account in the device. for dispersion studies of bacterial aerosols, in which all fractions of the dispersed phase are deposited on a single substrate, serving simultaneously as a part of the instrument body, adjacent to the working surface of the device from the outside. This facilitates not only the change of substrates, but also a comparative analysis of viable microorganisms in the sediments 2.

However, the device does not have the ability to advance the substrate during the sampling process, which limits the possible range of studies, since it does not allow the time dependence of the parameters of the dispersed phase on the substrate. The latter is especially in the development and study of the mechanism of action of effective means and methods of air disinfection, giving a rapid decrease in the concentration of viable microorganisms in the aerosol, when only continuous sweep of sediment over time makes it possible to obtain complete information about the process. In addition, the sediment under the still / 1 activating element is very uneven in density from the center to the edges, which makes it difficult to compare the results of parallel studies of sediment with different methods of analysis, for example, the study of bacterial aerosols using several luminescent sera.

The aim of the invention is to expand the range and shorten the study time by obtaining a continuous sweep of the sediment over time, and its uniform deposition on the substrate.

This goal is achieved by the fact that in the device for testing 0 bacterial aerosols, comprising a housing with suction and suction nozzles, slit-forming partitions mounted in the housing and a catching substrate, the latter is made 5 in the form of a rectangular plate and installed in guides, and in the housing a feeding device for moving the substrate in a transverse slit direction is mounted, with grooves in the housing and partitions on the substrate side to prevent stigma.

The feeding device is made in the form of a cam mechanism.

Fig. 1 shows a device for studying bacterial aerosols, a slit; Fig, 2 - the same, side view, section.

The device comprises a housing 1 with baffles 2 and 3, the formations of slots 0 and 4 and 5, drawing b and suction 7 nozzles, and rectangular substrate 8, which is superimposed on the bottom (working) plane of the housing with the possibility of advancing in the cross-section. For movement on the working plane of the body, there are side guides 9, and on the side of the long rib: the substrate has a cool; achkovy 0 mechanism 10 with a handle 11. There are grooves 12 in the surfaces of the housing 1 and the partitions 3 that come in contact with the substrate and 13 to avoid abrasion of precipitates of the dispersed phase. 5 The device operates as follows.

Before sampling the substrate 8 is laid on the working plane of the device close to the cam

the mechanism 10 rotated to the substrate with its smallest radius, then the substrate is pressed by a plate spring 14 fixed on the plate 15. The plate 15 is fixed by an elastic (spring-loaded} latch 16, which retracts when pressed by the plate on its shoulder and passes it and then locks in When returning to its original state.

0 of the device, the test aerosol under the action of p, the grinding enters the suction nozzle 7 and, through slots 4 and 5, is impacted with a gradually increasing speed onto the surface of the substrate 8. From the moment it starts

Claims (2)

1. DEVICE FOR RESEARCHING BACTERIAL AEROSOLS, comprising a housing with exhaust and suction nozzles, slit-forming partitions and a catching substrate mounted in the housing, with the aim of shortening the time and expanding the research range by obtaining a continuous sweep of the sediment in time and its uniform deposition on the substrate, the latter is made in the form of a rectangular plate and installed in the guides, and a feeding device for moving the substrate in the to the direction of the slots, moreover, grooves for eliminating the erasure of the precipitate are made in the housing and the partitions of the substrate’s surface. 2. The device according to claim 1, wherein the feed device is in the form of a cam mechanism. from stody 4 ^ pi /