RU172728U1 - Device for the rapid determination of the dispersed composition of aerosols - Google Patents

Abstract

The utility model relates to the field of analysis of materials by physical methods using optical means and computers, combined with other machines, involving computer processing of the results. The technical task of the claimed utility model is to improve the quality and reliability of digital images of aerosol droplets. The essence of the utility model lies in the fact that the device for the express determination of the dispersed composition of aerosols, containing a curtain shutter with an actuator, additionally contains a housing placed on the axis of the drum with at least three faces, equipped with a fixed angle rotation mechanism and a lifting and lowering mechanism when performing measurement, while the fixing indicator substrate is placed in the seats made in the faces of the drum, and the drum is made with the possibility of removing it from the housing. 5 cp f-ly, 3 ill.

Description

The utility model relates to the field of analysis, specifically to the field of analysis of materials by physical methods using optical means and computers, combined with other machines involving computer processing of the results.

A known method for the rapid determination of the dispersed composition of the aerosol (patent RU No. 2287805 C2, G01N 21/91, publ. 11/20/2006.), Comprising sampling the aerosol on a fixed indicator substrate and registration of aerosol particles with subsequent statistical processing of the results, characterized in that establish the dependence of the weight and diameter of the aerosol particles on the diameter of the prints of these particles on the substrate, scan the fixing indicator substrate with the applied aerosol particles to obtain a contrast image, using a computerized the video processing system of the fixing indicator substrate with aerosol particles deposited, taking into account the density of the analyzed compound, empirical coefficients of the indicated dependence, the values of the fractional range and estimating the mass-average diameter of the prints on the indicator substrate, digital cameras or scanners with variable discrete resolution are also used to obtain video images .

The closest technical solution is a laboratory device for studying an airborne medium above the surface of a galvanic bath (hereinafter referred to as the “device”), containing a curtain shutter with a drive, fixing an indicator substrate for sampling aerosol placed in the holder frame (see V. Garshin. ., Cherednichenko O.P., Geraskova S.E. To the solution of the problems of drip entrainment above the surface of galvanic baths // State and prospects of development of agricultural engineering: materials of 5 international scientific and practical Conference February 29 - March 1, 2012, Rostov-on-Don. In the framework of the 15th international agricultural exhibition "Interagromash-2012", Rostov n / A, 2012. - 540 pp. 483-484, Figure 1 - Aerosol probe).

The specified device has the following disadvantages:

1. The lack of devices that facilitate the installation and fixation of indicator substrates for sampling aerosol at a given distance from the surface on which droplets are generated;

2. Manual exposure of the curtain shutter;

3. The possibility of using no more than one indicator substrate for aerosol sampling in one measurement cycle during the study of an airborne droplet.

The technical task of the claimed utility model is to improve the quality and reliability of digital images of aerosol droplets due to the accurate selection of the substrate height above the shutter plane due to the presence of a mechanism for raising and lowering the drum.

The essence of the utility model lies in the fact that the device for the express determination of the dispersed composition of aerosols, containing a curtain shutter with an actuator, additionally contains a housing placed on the axis of the drum with at least three faces, equipped with a fixed angle rotation mechanism and a lifting and lowering mechanism when performing measurement, while the fixing indicator substrate is placed in the seats made in the faces of the drum, and the drum is made with the possibility of removing it from the housing;

- the mechanism of rotation of the drum at a fixed angle may include a gear wheel with profile teeth in an amount multiple of the number of faces of the drum, a latch and a gear drive;

- Seats for fixing indicator substrates can be equipped with spring-loaded latches;

- fixing indicator substrates can be made of optically transparent material;

- fixing indicator substrates can also be made of a material with a previously known adhesive ability with respect to aerosol, the samples of which are taken during the express determination of its dispersed composition;

- the mechanism for raising and lowering the drum can be synchronized with the closing and opening mechanism of the curtain shutter in such a way that when the shutter is opened, the drum is lowered to a predetermined height above the shutter curtains and, when closed, is raised in such a way as to ensure unobstructed rotation of the drum.

The technical result is achieved by the fact that the device for the express determination of the dispersed composition of aerosols contains a housing placed on the axis of the drum with at least three faces, made with the possibility of removing it from the housing and equipped with a rotation mechanism at a fixed angle and a mechanism for raising and lowering the drum, fixing indicator substrates for aerosol sampling, placed within the holders in seats made in the faces of the drum, and a curtain shutter with a drive. The mechanism of rotation of the drum at a fixed angle may include a gear wheel with profile teeth in an amount multiple of the number of faces of the drum, a latch and a gear drive.

The fixing indicator substrates are made of a material with a pre-known adhesive ability with respect to aerosol, the samples of which are taken during the express determination of its dispersed composition. This makes it possible to somewhat simplify the procedure for performing measurements by taking into account data from a preliminary study of the spreadability of aerosol particles on a substrate. It also improves the quality and reliability of digital images of aerosol droplets by more accurately determining the initial parameters of aerosol particles. It also allows, by selecting the appropriate material for the substrate, to avoid runoff and smearing of the deposited droplets on the substrate and to improve the quality and reliability of digital images of aerosol drops.

The mechanism for raising and lowering the drum is synchronized with the curtain shutter drive in such a way that when the shutter is opened, the drum is lowered to a predetermined height above the shutter curtains and, when closed, is raised in such a way as to ensure unobstructed rotation of the drum. This avoids the deposition of aerosol onto neighboring substrates that are not involved in this measurement, which improves the quality and reliability of digital images of aerosol droplets.

The essence of the utility model is illustrated by drawings, where

FIG. 1 shows a general view of the device (example);

FIG. 2 shows an example of a mechanism for rotating the drum at a fixed angle;

FIG. 3 shows an example of a mechanism for raising and lowering the drum.

The device comprises a housing 1, a drum 2 with a number of faces 3 of at least three (Fig. 1 shows a drum 2 with six faces) located on the axis 4, a mechanism 5 for rotating the drum 2 at a fixed angle, a mechanism 6 for lifting the drum 2, fixing indicator substrates 7 for sampling aerosol placed in the seats 8, made in the faces 3 of the drum 2, and a curtain shutter 9 with a drive 10.

The mechanism 5 of rotation of the drum 2 at a fixed angle contains a gear wheel 11 with profile teeth 12, a ball lock 13 and a gear drive 14, made in this example in the form of a ratchet with a pusher.

The mechanism 6 for raising and lowering the drum 2 comprises a guide 15 of the axis 4, a rod 16 with a bearing 17. The seats 8 are equipped with spring-loaded latches 18.

The device operates as follows.

When making measurements, the complete assembly is located at a predetermined distance from the aerosol source. In the initial position, the shutter 9 is closed, the drum 2 is rotated in such a way that one of its faces 3 with the fixing indicator substrate 7 (hereinafter referred to as the “working substrate”) located on it in the seat 8 is located at a predetermined angle to the plane of the shutter 9 The distance between the working substrate 7 and the curtain shutter 9 is adjusted using the mechanism 6 for raising and lowering the drum 2.

Next, the shutter 9 is opened using the actuator 10 for a given exposure time. During this time, a certain amount of aerosol drops are deposited on the fixing indicator substrate 7. After closing the curtain shutter 9, the drum 2 is rotated by a mechanism 5 to a fixed angle, while the face 3 for the drum 2 with the unexposed (hereinafter “clean”) substrate 7 is fed to the initial position for metering.

After exposure of the required number of substrates 7 installed in the drum 2, the drum 2 is removed from the housing 1, the substrates 7 are removed from the seats 8 and replaced with “clean” ones.

The fixing indicator substrates 7 with aerosol particles deposited on them are digitized by digital photography or digital scanning with saving the result to a graphic file, for example, BMP. The obtained images are processed by the DUST computer program (see certificate on state registration of the computer program No. 20155612170). The result of computer processing is the distribution of aerosol particles by size and position in space, as well as other (calculated in accordance with the algorithm specified in the processing program) aerosol parameters.

The mechanism 6 for raising and lowering the drum 2 is designed to prevent the drum 2 from touching during rotation with the housing 1 and the shutter 9. At the beginning of the turning process, the rod 16 moves the drum 2 along the guides 15 in the direction of increasing the gap between the drum 2 and the shutter 9, giving this allows the drum 2 to rotate in the bearings 17. At the end of the rotation process, the rod 16 moves the drum 2 along the guides 15 to a predetermined distance for the measurement of the shutter 9. The mechanism 6 is similarly used for a reel mounting above the plane 2 for curtain shutter 9.

The working substrate 7 is located strictly parallel to the plane of the shutter 9 (for example, if as a result of measurements it is necessary to obtain a dispersed composition of an aerosol located at a given height above the source).

The supply of seats 8 for the fixing indicator substrates 7 with spring-loaded latches 18 allows you to tightly fix the substrate 7 in the seats 8 and at the same time facilitates the process of removing the substrates 7 from the seats 8.

The implementation of the fixing indicator substrates 7 from an optically transparent material allows them to be digitized by the "reflection" method, by the "transparency" method, or by using a combination of both methods depending on the specific conditions for express determination of the dispersed composition of the aerosol and the tasks, as a result of which it is possible to obtain better and reliable digital copies of the traces of drops on the fixing indicator substrates 7.

The implementation of the fixing indicator substrates 7 from a material with a known adhesive ability (wettability) in relation to the aerosol, the samples of which are taken (supposed to be taken) for the express determination of its dispersed composition, makes it possible to slightly simplify the measurement procedure by taking into account the data of a preliminary study of aerosol particle spreadability on the substrate 7. This allows you to more accurately determine the initial parameters of the aerosol particles. In addition, by selecting the appropriate material for the substrate 7, it is possible to avoid runoff and smearing of the deposited droplets on the substrate 7, which can significantly improve the accuracy of determining the geometric parameters of the aerosol drops.

The synchronization of the mechanism 6 for raising and lowering the drum 2 with the closing and opening mechanism of the curtain shutter 9 is carried out in such a way that when the shutter 9 is opened, the drum 2 is lowered to a predetermined height above the shutter curtains, when closed, it is raised in such a way as to ensure smooth rotation of the drum 2, to avoid deposition aerosol to adjacent substrates 7 not involved in this measurement, and also to improve the quality of measurement.

Claims (6)

1. A device for the rapid determination of the dispersed composition of aerosols, containing a curtain shutter with an actuator, characterized in that the device comprises a housing placed on the axis of a drum with at least three faces, provided with a fixed angle rotation mechanism and a lifting and lowering mechanism when performing measurement, fixing indicator substrates placed in seats made in the faces of the drum, and the drum is made with the possibility of removing it from the housing. 2. The device according to p. 1, characterized in that the mechanism of rotation of the drum at a fixed angle includes a gear wheel with profile teeth in an amount multiple of the number of faces of the drum, a latch and a gear drive. 3. The device according to claim 1, characterized in that the seats for the fixing indicator substrates are equipped with spring-loaded latches. 4. The device according to claim 1, characterized in that the fixing indicator substrates are made of optically transparent material. 5. The device according to any one of paragraphs. 1 and 4, characterized in that the fixing indicator substrates are made of a material with a previously known adhesive ability with respect to aerosol, the samples of which are taken during the rapid determination of its dispersed composition. 6. The device according to claim 1, characterized in that the mechanism for raising and lowering the drum is synchronized with the curtain shutter drive in such a way that when the shutter is opened, the drum is lowered to a predetermined height above the shutter curtains and, when closed, is raised so as to ensure unobstructed rotation of the drum.

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