RU192009U1 - DEVICE FOR EXPRESS CONTROL OF PERMEABILITY OF FILTER-ABSORBING SYSTEMS ON AEROSOL OF TOBACCO SMOKE - Google Patents

Abstract

The utility model relates to the field of studies of quality indicators of materials and products, namely to the creation of a device for express control of the permeability of filtering-absorbing systems (FPS) by tobacco smoke aerosol. The device contains a monochromatic radiation source (LED emitter) in the wavelength range from 510 nm up to 560 nm and a reflective circuit installed inside the nozzle with angles of inclination of the mirrors to the horizontal of 63 ± 2 ° (for the incident beam) and 109 ± 2 ° (for the reflected). It is advisable to relate the advantage of the claimed device reliable reliable rapid determination of the suitability of filtering and absorbing systems by permeability index with a high probability and use of low toxic, non-deficient components, while observing safety precautions.

Description

The utility model relates to the field of monitoring quality indicators of materials and products and can be used to assess the state of the aerosol filter by the permeability index.

One of the main technical indicators of aerosol filters, which is the protection against various aerosols, characterized by a permeability coefficient [1, 2].

It is known that the determination of the permeability coefficient is carried out using special installations, the main nodes of which are: an aerosol generator, a test chamber (device) and an instrument for measuring aerosol concentration [1, 3].

The main disadvantages of these settings include: long-term access to the operating mode (warm-up of the generator and the recording device); the mandatory presence of a special aerosol-forming substance; Stationary location and power supply from an alternating voltage network. These disadvantages significantly limit the possibility of using these facilities for the rapid evaluation of samples of filtering-absorbing systems (FPS) and a small number of them.

In this regard, it seemed appropriate to develop a device for the rapid assessment of filtering and absorbing systems according to the permeability index with optimal values of the characteristics of the used constituent elements.

The technical problem to which the claimed utility model is directed is a reliable, rapid determination of the suitability of the FPS in terms of permeability using components with optimized parameters and subject to safety precautions.

This problem is solved due to the fact that the claimed device for assessing the permeability of filtering and absorbing systems for tobacco smoke aerosol contains sequentially connected to each other an air flow inducer (hand pump) with a nozzle (for example, from a military chemical reconnaissance device); screw nut; rubber cuff; cannula with a rubber adapter; source of tobacco smoke aerosol (cigarette); a monochromatic radiation source (LED emitter) in the wavelength range from 510 nm to 560 nm, mounted on the nozzle using a clamp-clamp; a reflective circuit mounted inside the nozzle with angles of inclination of the mirrors to the horizontal of 63 ± 2 ° (for the incident beam) and 109 ± 2 ° (for the reflected).

The technical result provided by the optimization of the parameters of the constituent elements is the rapid assessment of the permeability of filtering and absorbing systems with a high probability without spending scarce expensive consumables and toxic substances and observing safety precautions.

The objectivity of the results of visual observation of the change in light scattering from dispersed particles is provided by the sensitivity of the eyes to the light flux (its color) and the number of rays interacting with an inhomogeneous (dispersed) medium.

It is known that the human eye is most sensitive to green color, while the maximum sensitivity for twilight vision is observed at a wavelength of 515 nm, and for daytime vision at 555 nm [4]. Therefore, to ensure the greatest sensitivity during visual observation, light scattering (Tyndall effect), it is necessary to use LED emitters with wavelengths in the range from 510 nm to 560 nm in the proposed device. In this case, the light from the emitter should be focused into a narrow beam. As a device of this type, available commercially, the so-called "laser pointer" can be used.

The formation of the greatest number of rays in the reflective circuit is provided by the geometric arrangement of the mirrors. It was experimentally established that in the nozzle of the proposed device, the mirrors should be located horizontally at an angle of 63 ± 2 ° for the incident beam and 109 ± 2 ° for the reflected beam.

The device operates as follows:

- LED emitter with the help of a clamp-clamp is fixed in a position that provides the greatest number of reflected rays;

- the tested FPS is installed in the screw nut, on which a rubber cuff with a cannula and a rubber adapter is put on;

- a source of tobacco smoke (cigarette) is set in the rubber adapter, which is ignited;

- the researcher begins to pump air flow with tobacco smoke through the FPS by reciprocating movements of the handle of the hand pump while observing the penetrated aerosol in the nozzle glass tube. When visually determining the presence of a glow, it is concluded that the FPS is unsuitable for further use.

After the end of the study, the source of tobacco smoke is removed from the rubber adapter, the rubber cuff with the cannula and the rubber adapter is removed from the tested FPS, it is sealed and sent for further research, or disposed of.

To assess the performance of the proposed device, experiments were conducted. For this purpose were prepared filtering-absorbing system for personal protection civil use with respiratory permeability coefficient values according to the standard oil mist (TMB) from 2⋅10 ^-3% to 8⋅10 ^-4% and ten independent observers asked to evaluate the presence or lack of the Tyndall effect using the developed device. The research results are presented in table 1.

From the data presented in table 1, it follows that the developed device allows you to control the FPS at a level corresponding to the permeability coefficient for oil fog, equal to 1⋅10 ^-3 % in at least 80% of cases.

Thus, the analysis of the obtained experimental data shows that the developed device allows the rapid assessment of the permeability of filtering and absorbing systems with high probability without spending scarce expensive consumables and observing safety precautions.

Literature

1. Batyrev V.V., Zhivulin G.A., Sosunov I.V., Sadovsky I.L. Evaluation of the effectiveness and quality of filtering personal protective equipment for respiratory organs in emergency situations - M .: FSBI VNII GO ChS (FC), 2017. - 424 p.

2. Petryanov I.V., Kozlov V.I., Basmanov P.I., Ogorodnikov B.I. Fibrous filter materials FP. - M .; Knowledge, 1968 - 77 p.

3. GOST 12.4.156-1975. Occupational safety standards system. Gas masks and respirators industrial filtering. Nephelometric method for determining the coefficient of permeability of filtering and absorbing boxes by oil mist. - M .: Publishing house of standards, 2003. - 6 p.

4. Luizov A.V. Color and light.- L.: Energoatomizdat, 1989 .-- 256 p.

Claims (4)

1. A device for express control of the permeability of filtering and absorbing systems by tobacco smoke aerosol comprises a flow rate inducer with nozzle, a screw nut, a rubber cuff, a cannula with a rubber adapter, a tobacco smoke aerosol source, a monochromatic radiation source, fixed to nozzle with a clamp-clamp, and a reflective circuit mounted inside the nozzle, characterized in that it contains a source of monochromatic radiation in the wavelength range from 510 nm to 560 nm and a reflecting circuit mounted inside the nozzle with angles of inclination of the mirrors to the horizontal of 63 ± 2 ° for the incident beam and 109 ± 2 ° for the reflected one. 2. The device according to p. 1, characterized in that as a stimulator of air flow contains a hand pump. 3. The device according to claim 1, characterized in that it contains a cigarette as a source of tobacco smoke aerosol. 4. The device according to claim 1, characterized in that the source of monochromatic radiation contains an LED emitter.