SU491867A1 - Gas analyzer - Google Patents

Description

one

The invention relates to a gas analysis method that is based on a thermochemical method for quantifying the content of combustible components in the analyzed gas mixture, in particular, to devices for analyzing exhaled air for ethanol content, in which one of the most important units is to analyze the exhaled air for ethanol content, in which you can learn how to learn to learn how to prepare for the content of ethanol, which is used to learn how to learn to learn how to prepare for the content of ethyl alcohol, which is used to learn how to learn to learn how to prepare for the content of ethanol, which is used to learn how to learn to learn how to prepare for the content of ethyl alcohol in which you need to learn to learn how to prepare for the content of ethyl alcohol, which is used to learn to learn how to learn to learn how to use ethanol content. gas mixture.

A device for analyzing gases is known, which contains a reaction chamber and a sampling unit that uses the effect of thermal catalytic compression on the sensitive element of an alcohol vapor bridge previously accumulated on a granular adsorbent to which the analyzed gas mixture is fed from a sampling unit. The latter contains a movable separator located inside the calibrated chamber. When the moving separator reaches its maximum position (due to the supply of the mixture), it mechanically interacts with the relay, which opens the discharge line for the analyzed gas mixture to the atmosphere. The need to discharge the gas mixture to the atmosphere before the selected dose is supplied to the analysis chamber is caused by the fact that the selected dose of the exhaled gas mixture must, however, be able to contain alveolar air that comes from the lungs not immediately, but after exhaling 3000500 cm of air.

The probability of filling the alveolar air of the sampling unit with such a design is pneumatic: the relay is extremely low and ineffective, which leads to a decrease in the measurement accuracy of the determined ethanol content in the human body by exhausted air.

In addition, the selection block relay is a low-tech and unreliable element that creates a full-back counter force when the mobile splitter .1 reaches its maximum position.

In order to improve the accuracy of the analysis, in the proposed device, a pneumatic relay controlled from the mixture supply line is installed on the discharge main.

In addition, an increase in accuracy can be achieved through a rational design of a pneumatic relay, which is made in the form of a membrane that separates the input and discharge lines located at the base of the selection unit and the analyzed mixture, the pushers rigidly connected with the membrane, and the clanan that interacts with this pusher .

Claims (1)

The movable separator of the extraction chamber can be made of an elastic bellows with a weight located on its upper base, the outer diameter of which is equal to the outer diameter of the bellows to a diameter equal to (or less) the inner diameter of the bellows, with a height of the cylindrical part of the load equal to the height of this a load of bellows. FIG. 1 shows a functional gas circuit; in fig. 2 - a general view of the block selection of the analyzed gas mixture. The circuit shown in FIG. 1 includes a water separator 1 connected by a gas line 2 to one of the inputs of a solenoid valve 3, the output of which is connected to line 4 of the input of the analyzed gas mixture to a selection unit 5 containing the following gas lines: 6 - to reset the analyzed gas to the atmosphere, 7-- for Tsodachi analyzed mixture through the second inlet of the solenoid valve 3 to the drive 8, located in the detector of the gas analyzer 9, 10 - for the passage of the blowing-off gas, such as clean air, through the drive 8, 11-for the intake of clean air from the chamber 12 of the gas analyzer thermostatically controlled by the heating element 13 controlled by thermal contact 14, the purge gas passage line contains a check valve 15. The sampling unit for the analyzed gas mixture includes a calibrated cylinder — chamber 16, divided into two parts — selection 17 and purge 18 with a movable separator made of elastic bellows 19 with a load of 20, articulated with the upper base of the bellows. Moreover, the outer diameter of the cargo is greater than (or equal to) the outer diameter of the bellows, and then goes into a diameter equal to (or less) the inner diameter of the bellows, and the height of the cylindrical part is equal to the height of the compressed bellows. The housing of the calibrated cylinder-chamber Ib contains a channel 21 of the main line 10 of the purging gas and a channel 22 of the main line 11 of the clean air intake. The base of the calibrated cylinder contains a duct 23 of line 4 introducing the analyzed gas mixture into the sampling chamber 17 through a pneumatic resistance 24 with a check valve 25. Moreover, the duct 23 communicates with the input side of the pneumatic relay 26, which includes an elastic diaphragm 27 coupled to a pusher 28 interacting with valve 29 to open channel 30 of line 6 for discharge of the analyzed mixture to the atmosphere through pneumatic resistance 31. Removable elements are used as pneumatic resistance elements claims a different throttle openings. Moreover, the pneumatic resistance 31 is greater than the pneumatic resistance 24, which ensures, at a certain ratio between them, for example 2: 1, simultaneously with the discharge of the analyzed mixture into the atmosphere. To deliver the selected dose of the analyzed mixture to the accumulator 8, the base of a calibrated cylinder contains a calibrated capillary tube 32, the value of which (length and diameter), and hence the critical flow rate of the analyzed mixture from the selection chamber, ensures effective adsorption on the accumulator 8. The device operates in the following way. A sample gas mixture entering at the sampling unit entering under the steam valve opens the valve 25 of the selection chamber 17 while simultaneously opening the valve 29 of the discharge line for the excess of the analyzed mixture to the atmosphere. Since the pneumatic sonography of the discharge line is greater than the pneumatic resistance of the input line of the analyzed mixture, the pressure necessary to overcome the forces opposing the lifting of the sliding separator is created in the selection chamber. When the separator is raised, clean air is displaced from the calibrated cylinder and enters the nozzle at a speed greater than or equal to the speed, which ensures effective desorption. Displacement of the selected dose occurs through a calibrated capillary 32, which opens upon receipt of a controlled signal to an electromagnetic valve 3. At the same time, the critical flow rate of the analyzed mixture through the calibrated capillary p is less than or equal to the speed that ensures effective adsorption of the tip 8. Formula of the invention Device for gas analysis, containing a reaction chamber connected to a extraction unit, made in the form of a chamber with a movable separator, equipped with supply and discharge lines analysis Rui mixture, characterized in that in order to increase the accuracy of the analysis, the reset line is set by a controlled pipe feed mixture pneumatic relay. 25 3227 fS 26 26 -fZIZ - ff 7 f iLjLJ.  2