SU480007A1 - Automatic device for controlling the oxygen regime of liquid and gaseous media - Google Patents

Description

Nick 17 of the block of electrodes 18, through the source 4 of adjustable polarization polarization and the amplifier 5 of direct current, made on the integral micromodular elements (Fig. 1, 2). The indicator electrode 16 and the auxiliary electrode 15 are made in the form of a single unit of electrodes 18 with adjustable placement in the housing 19 of the floor of the practical sensor 1 ,. the electrode block 18 is provided with a nut 20 for adjusting its position and the degree of tension of the polymer membrane 21. Creation of the polymer membrane 21 is performed with pomon, washers 22, gaskets 23 and nuts 24. The auxiliary electrode 15 located on the surface of the coil 26 of the electrode unit 18 is placed in the middle part of the electrolyte chamber 26. The current leads 27 of the indicator electrode 16 and the auxiliary electrode 15 are connected to the connecting cable 28, which is inserted into the housing 19 with a handle 29. The cable 28 is provided with a plug connector 30.

The device works as follows.

When the polarographic sensor 1 is coagulated with the analyzed medium, an output signal (limiting diffusion current) arises in its output circuit, the value of which is directly proportional to the oxygen partial pressure in the analyzed medium (Fig. 1). When this oxygen molecules diffuse through the polymer membrane 21 to the indicator electrode 16, on which they are electroreduced (Fig. 2). The electrolyte in the chamber 26 is used for the electrical connection of the indicator electrode 16 with the auxiliary electrode 15. The potential of the electrode 16 is provided by a polarization voltage source 4 and is regulated in the region of the limiting diffusion current of oxygen electroreduction (Fig. 1, 2).

The polymer membrane 21 is permeable practically only for oxygen, which provides the selectivity of measuring its partial pressure and the ability to estimate the oxygen analyzed medium as a whole.

The output signal of the polarographic sensor 1 is transformed and amplified by amplifiers 5 and 6 and through the controls 7 goes to the indicating device 11, which records the change in the value of the monitored parameter on a scale calibrated in mm Hg. Art. When this value is reached, the maximum or minimum acceptable value in the device 11

the corresponding contacts are switched and the pulse generator 12, the signal lumina 13 and the loudspeaker 14, forming a light-sound alarm device, are turned on.

To compensate for the change in the output signal of the polarographic sensor 1 from a change in the temperature of the medium being analyzed, temperature is measured using a thermistor 2. When the resistance of thermistor 2 changes, depending on the temperature change, the diagonal of bridge circuit 8 causes an imbalance, the voltage of which is measured by a micrometer 11, also having scale, calibrated in ° C. Next, using the controls 7, the readings of the device 11 are brought to the nominal value of the oxygen partial pressure corresponding to the temperature of the analyzed medium.

The residual current arising in the polarographic sensor 1 is compensated by the compensator 9.

The position of the block of electrodes 18 and the degree of tension of the polymer membrane 21 are adjusted using the nut 20.

The power of the measuring circuit of the device is provided by the battery 10.

Subject invention

Claims (3)

1. An automatic device for monitoring the oxygen regime of liquid and gaseous media containing a polarographic sensor and a thermistor connected to a measuring unit, the polarographic sensor including indicator and auxiliary electrodes immersed in an electrolyte and covered with a polymer membrane, characterized in that In order to improve the measurement accuracy and reliability of the device, the omnotent electrode is connected with the indicator electrode embedded in the end portion of the tip of the electrode unit, through a source of adjustable voltage polarization and a DC amplifier. 2. The device according to claim 1, characterized in that the indicator and auxiliary electrodes are made in the form of a single unit of electrodes with adjustable placement in the case of a polygraphic sensor. 3. The device according to claim; 2, characterized in that the electrode block is equipped with a nut for adjusting its position and the degree of tension of the polymer membrane. I P II I @ I Ly J L J y / y 7 22 2t Fig z