SU534680A1 - Gas analyzer sensor - Google Patents

Description

(54) GAS ANALYZER SENSOR

one

The invention relates to a gas analysis instrumentation based on a thermochemical method for the quantitative analysis of the content of combustible components in a gas mixture, in particular, to devices for analyzing exhaled air for the content of ethyl alcohol vapor.

A device is known in which the convection current of a gas mixture to be analyzed, previously sorbed on a solid adsorbent, is carried out by a thermal desorption method by calcining an adsorbent located inside the heating coil 1. In this method, the intensity of the convection current depends on the temperature difference between the heated adsorbent temperature and the output of the gas channel of the sensor, which communicates with the atmosphere or the environment, the temperature of which is not constant. This leads to the fact that, in a known device, the intensity of the convection current will sharply depend on and vary with changes in the ambient temperature, which will lead to instability of the desorption characteristics obtained by analyzing the combustible components of the gas mixture.

A device is known in which a screening thread is installed parallel to the thermo-anamotra thread to eliminate the influence of the chamber wall temperature on the measurement result, which is heated to the temperature of the working thread 21.

In the proposed device, the elimination of the influence of the temperature of the chamber walls is ensured by the location in the working chamber of identical working radiation, but different in their catalytic properties, of the working and comparative sensitive elements.

A device is known which comprises a heat shield located between the body of the sampler and the temperature-sensitive element 3. Such an arrangement of the heat shield impairs the desorption characteristics due to the temperature instability of the latter, i.e. the temperature of the heat shield changes depending on the heat mode of the working chamber, which is especially noticeable when the heating coil is turned on continuously, causing the heat shield to heat up.

The closest technical solution to the invention is a gas analyzer sensor containing a sorbent with a heater 5 connected to a power source and sensitive elements placed in the working chamber f4j. But even this device, since its reaction chamber communicates with the atmosphere, has the disadvantages of the devices mentioned above.

The purpose of the present invention is to increase the accuracy and stability of the determination of desorption characteristics in gas analysis by maintaining a constant temperature difference -15 inside the gas analyzer sensor between the temperature of the heated adsorbent and the air temperature at the outlet of the gas channel of the sensor. This goal is achieved by placing at the outlet of ra-20 a barrel chamber of the thermal condition stabilizer of this chamber, made in the form of an electric heater, mainly included in the supply circuit of the adsorbent heater.

The drawing shows the proposed date-26 chick. It contains a working chamber 1 in which sensitive elements 2 are located and a storage device made in the form of a removable cassette 3. In the latter there is a heating desorption coil 4, filled 30 with a sorbent. In the upper part of the working chamber there is a heat stabilizer, made in the form of a removable washer 5 with electric heater 6. Both heating coils can be connected to a common heating source 7, switched by contact 8. And the temperature to which the heat stabilizer heats up should be less than the heating temperature of the sorbent. The resistor (heating corrector 40) 9 regulates the current of the electric heater 6.

The device works as follows

When power is applied to the heating spirals, the gas mixture molecules adsorbed on the adsorbent are desorbed and convectively transferred to the active part of the working chamber, where the sensitive elements are located. The intensity of the convection current is governed by the temperature of the thermal stabilizer. Regardless of the change in the supply voltage and the ambient temperature, the temperature difference inside the sensor chamber is kept constant, thereby ensuring a constant desorption characteristics.

The use of the invention in gas analyzers, especially portable ones, will significantly reduce the dimensions of the analyzer, simplify maintenance and increase the accuracy of control.

Claims (4)

1. Author's certificate number 432802, cl. GO1 N 27/00. 2. The author's certificate number 220655, cl. G01 R, 1968 3. Authors sivdedelstvo number 232590, class, G01 N, 1967 4. PEGAS gas analyzer, Technical description and operating instructions, TU25-05 {Pa2 840.012) -74.