SU518723A1 - Three-electrode sensor - Google Patents

Claims (1)

(54) THREE-ELECTRODE SENSOR of the neck of a constant working capacitance, and the electrodes 3. And 4 form a capacitor with a smaller constant operating capacitance. Wires 7 are designed dp sensor connection-on the measuring device. The electrodes 2, 3, 4 are isolated from the sensor cap 8 by means of insulating, for example, fluoroplastic sleeves 9, which also serve to seal the outputs in the cap. Electrodes 2, 3, 4 are filled in the crankshaft cranks, so that they are fixed relative to each other. The sensor may have a greater number of electrical working capacitors (measuring capacitors). In this case, the number of electrodes will be one more than the number of working tanks. Electrodes can be made in the form of coaxial cylinders (see drawing), and in the form of plane-parallel plates. In order to determine the dielectric density of the liquid under investigation, the values of its electrical capacitances with a common ground electrode 3 and their difference are measured for a clean and dry sensor filled with air. Then, through the fitting 6, the sensor is filled with the test liquid and sealed. fitting 6 sensor plug. Connect the sensor to the meter, capacitance {for example, to devices of type E-12-1 or E & -2) so that electrode 3 is grounded. Electrodes 2 and 4 are connected to the measuring terminal of the device, the capacitances of the filled sensor are measured and their difference is determined. The dielectric constant is found with respect to this difference to the difference between the capacitances of the dry sensor, according to the formula f-eg - C N: Q, j, where 2 is the dielectric constant; C - large sensor capacity; filled with the test substance; C is the smaller capacitance of the sensor filled with the test substance. dsr Cpff - Срм, С -.- large working capacity; C is the smaller working capacitance, pm. The specific electrical conductivity of a liquid is found as the ratio of the difference between the constants of the measuring capacitors and the difference of the resistance of the liquid layers between the electrodes of the measuring capacitors. The constants of the measuring capacitors are determined by known conductors and spos. sobami. The sensor can also be used for remote measurement of electrophysical parameters by placing it in a vessel with the test liquid, i.e. immersing its electrodes, in the test substance. In this case, the cover of the sensor is hermetically connected to the vessel in which the test liquid is examined -: instead of the case, a cylinder with openings is attached to the sensor. Thus, the proposed three-electrode sensor for electrophysical parameters does not have movable electrodes, is made with optimal design characteristics, and makes it possible to accurately know the fixed (constant) values of the working electrical capacitors, which leads to an increase in the accuracy of measurements and simplification of the design and operation of the sensor. It can be successfully applied both in laboratory conditions, especially in the study of aggressive, toxic and unstable liquids, and in the remote control of the quality of substances. Formula iso-reliance Three-electrode sensor for measuring the electrophysical parameters of liquids, consisting of a body, a cavity and coaxially arranged cylindrical electrodes that form two electrical working capacitances of various sizes, different from the fact that, in order to increase the accuracy of measurement, 2-3 times the smaller, and the ratio of the distance; Nor between the electrodes to the SC area is at least O, O05, and the electrodes are stationary relative to each other. 2