RU2728700C1 - Method of preparation for sampling of ethanol vapor analyzer - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to medical equipment and can be used in determining presence and concentration of alcohol in exhaled air. Method involves formation of air flows in analyzer and removal of exhaled air from previous analyzer by blowing it before collecting next sample by means of ventilation device, note here that between air inlet of analyzer and intake branch pipe of intake system air gap is provided, and air gap is blown simultaneously with said blow of analyzer by means of additional ventilation device. Formation of air flows in the analyzer is performed with removal of the remaining exhaled air after the previous measurement from the said gap and from the inlet branch pipe of the intake system. Said purges are performed in air injection mode or in its drawing mode.EFFECT: higher efficiency and rate of cleaning of intake system and inner medium of analyzer after analysis of samples of exhaled air.1 cl, 3 dwg

Description

The invention relates to the field of medical technology and can be used to determine the presence and concentration of alcohol in exhaled air to ensure safety at enterprises and road safety.

There is a known method of preparing an ethanol vapor analyzer for sampling, containing an intake system with an inlet pipe and a ventilation device, including removing from the analyzer the exhaled air remaining after the previous measurement by blowing it out before taking the next sample through the said ventilation device - see, for example, RU 117078 U1 , 20.06.2012 or JP 2005257373 A, 22.09.2005, the last of which can be taken as a prototype.

The disadvantage of this method is the insufficient cleaning speed, as well as the degree of cleaning of the analyzer elements involved in the sampling and analysis of the air sample from the remnants of the previous sample (volatile organic compounds) and moisture before the next analysis, which can lead to distortion of the analysis results.

The technical problem to be solved by the invention is the creation of a method that has the ability to qualitatively and quickly clean all the elements of the analyzer from the remnants of the previous sample and moisture before the next analysis.

The technical result provided by the claimed invention is to accelerate the cleaning of the analyzer before carrying out the next analysis while ensuring an increase in the accuracy and reliability of the analysis of the composition of exhaled air for the presence of ethanol vapors.

The specified technical result is achieved by the fact that in the method of preparing an ethanol vapor analyzer for sample collection, containing an intake system with an inlet pipe and a ventilation device, which includes the formation of air flows in the analyzer and removal from the analyzer of the exhaled air remaining after the previous measurement by blowing it before taking the next sample by means of the said ventilation device, an air gap is provided between the inlet of the analyzer and the inlet of the intake system, while simultaneously with the purging of the analyzer, the said gap is purged by means of an additional ventilation device, and the formation of air flows in the analyzer is provided with the removal of the remaining exhaled air after the previous measurement from the mentioned clearance and from the inlet pipe of the intake system.

In this case, the mentioned blowdowns are carried out in the mode of air injection or in the mode of its extraction.

The invention is illustrated by drawings, which show:

in fig. 1 - an example of a functional diagram of the analyzer,

in fig. 2 - an example of the design of an air flow formation unit (general view),

in fig. 3 is a side view of the structure of the air flow formation unit with an inserted replaceable mouthpiece.

The ethanol vapor analyzer illustrating the claimed method includes, inter alia, an intake system 1 with an inlet 2 and a ventilation device 3. The sample of exhaled air taken for analysis is fed through the intake system 1 to the measuring module 4. The analyzer can be equipped with an air formation unit 5 flow, an example of the construction of which is shown in FIG. 2 and 3.On one side 6 of unit 5, a ventilation device 3 is installed, and on the other side 7 there is an inlet 8 of the analyzer with an air gap 9 relative to the inlet 2 of the intake system 1.

On one of the adjoining sides 10 of the unit 5, the mentioned intake system 1 and the said measuring module 4 are installed (conditionally not shown), and an additional ventilation device 12 is installed on its other adjoining side 11.

In the unit 5 for the formation of the air flow, the ventilation device 3 and the additional ventilation device 12 can be implemented as fans on rolling bearings, which can operate both for air extraction and for its injection.

The air flow forming unit 5 is essentially a structural element in the form of a supporting frame, on which the above-mentioned elements are installed with the possibility of ventilating the analyzer, creating an air gap 9 between the inlet 8 of the analyzer and the inlet 2 of the intake system 1 with the possibility of ventilation of this gap with the provision removing the remaining exhaled air after the previous measurement from the gap 9 and from the inlet 2 of the intake system. In the event that the analyzer is used with a replaceable mouthpiece 13, the unit 5 allows you to accurately position the mouthpiece 13 from the 7 side relative to the inlet 2 of the intake system 1.

The analyzer works as follows.

The air exhaled by the examined person enters through the replaceable mouthpiece 13 and the inlet 8 of the analyzer into the air gap 9. The excess pressure created by the exhaled air in the air gap in front of the inlet 2 of the intake system 1 triggers the intake system and a sample of exhaled air of a given volume is taken.

Immediately after sampling by means of the ventilation device 3 and the additional ventilation device 12 installed on the unit 5, air flows are formed, which simultaneously provide purging of the gap 9 and the analyzer with removal from the gap 9, from the inlet 2 of the intake system and from the interior of the analyzer of the residual exhaled air together with ethanol vapor, water vapor and pollutants.

Thus, preparation for sampling with the forced removal of exhaled air residues together with ethanol vapors, water vapors and pollutants simultaneously both from the air gap and the inlet pipe of the intake system, and from the internal space of the analyzer, in general, allows to significantly increase the efficiency and speed of cleaning the intake system and the internal environment of the analyzer after analyzing samples of exhaled air and, therefore, increase the throughput of the analyzer, as well as increase the accuracy and reliability of the analysis of the composition of exhaled air for the presence of ethanol vapors.

Claims (2)

1. A method of preparing an ethanol vapor analyzer for sampling, containing an intake system with an inlet and a ventilation device, including the formation of air flows in the analyzer and removal from the analyzer of the exhaled air remaining after the previous measurement by blowing it before taking the next sample by means of the said ventilation device, characterized the fact that an air gap is provided between the inlet of the analyzer and the inlet of the intake system, while simultaneously with the said purging of the analyzer by means of an additional ventilation device, the air gap is purged, and the formation of air flows in the analyzer is provided with the removal of the remaining exhaled air after the previous measurement from the said gap and from the inlet pipe of the intake system. 2. A method according to claim 1, characterized in that said blowdowns are carried out in the air injection mode or in the air extraction mode.

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