SU1055242A1 - Conductometric converter - Google Patents

Abstract

KONDU1 (TOMETRIC TRANSMITTER containing a toroidal coil, potential electrodes placed in the aperture of the coil, characterized in that. The invention relates to a technique for studying the properties of a liquid, a bone, for example, by measuring electrophysical parameters and can be used in process control. The conductometric is known Converter containing two potential electrodes located between the current electrodes to which the AC source is connected The former is a low measurement accuracy due to the uneven distribution of the power lines in the fluid between the current electrodes, which leads to a mismatch of the current potential of the potential electrodes to the average value of the current flowing through the converter. &Jn; dc. 15; -k - -1ESH B.sj:,iO.:i.-xA in order to improve the measurement accuracy, it additionally contains a dielectric tube, current electrodes, a conductive circuit with a resistor, while the dielectric tube is located in the hole of the coil , the current electrodes are located at the ends of the tube and are interconnected by a conductive circuit with a resistor, and the potential electrodes are placed inside the tube and the distance from each electrode to the nearest tube end is greater than or equal to its internal diameter and the length of the tube is less than or equal to the height of the coil. W C I, The closest technical solution to the proposed is a tactometric transducer containing a toroidal coil, PSP SP potential electrodes, located in the hole of the coil. The lack of a converter is due to the low accuracy of measuring the electrical conductivity or electrical conductivity due to 1C, in order to determine the specific electrical conductivity of a liquid, according to Ohm's law, it is necessary to measure the voltage drop at a certain section of some liquid volume at a constant current in the liquid or measure voltage drop and current. With a high accuracy of measuring the potential difference across the electrodes of the sensitive element, the measurement or stabilization of the current in the liquid over the current in the winding of the toroidal coil has

Description

low accuracy, firstly, due to the instability of the magnetic properties of the toroidal coil core, for example, from a change in the temperature of the analyzed liquid and, secondly, due to the inequality of the current in the power line connecting the potential electrodes, the average value of the current coil-induced, the purpose of the invention is to improve the measurement accuracy. The goal is achieved by the fact that a conductometric transducer containing a toroidal coil, potential electrodes placed in the coil hole, additionally contains a dielectric tube, current electrodes, a conductive circuit with a resistor, the tube is located in the coil hole, current electrodes in the ends tubes and are interconnected by a conductor circuit with a resistor, and potential electrodes are placed inside the tube and the distance from each electrode to the nearest tube end is greater than equal to the internal diameter of the tube and the tube length is less than or equal to the height of the toroidal coil. The drawing shows schematically a conductometric transducer. It contains a toroidal coil 1, the winding of which is connected via terminals 2 and 3 to an alternating current source, a dielectric tube 4 is inserted into the opening of the toroidal coil, inside which potential electrodes 5 and 6 are placed, can be connected; e through terminals 7 and 8 to the measuring element, Current electrodes 9 and 10 adjoin the ends of the tube, forming with it a pipeline with a channel 1 filled with liquid. The current electrodes are interconnected electrically through the fluid in the channel 11, as well as through the resistor 12, covering the toroidal coil and thus forming a closed resistive-liquid coil with the outlets (from the resistor 12) terminals 13 and 14, which connect the transducer to the measuring element The conductometric transducer works as follows. The induced current I, flowed through the resistive-liquid coil, creates a voltage drop across the fluid between potential electrodes 5 and 6 in channel 11 and the voltage drop across resistor 12, the value of voltage Uj ,, at a known resistance Rj of resistor 12, according to Ohm’s law, it gives accurate information about the current in the liquid-liquid coil 1 and „. / K due to the fact that the height of the toroidal coil is greater than or equal to the length of tube 4, and the distance from each potential electrode to the nearest end of the tube is greater than or equal to internal at the diameter, in the volume of fluid, mentally bounded by planes perpendicular to the axis of the cylindrical tube and passing through potential electrodes, uniform distribution of the electric current density I is achieved. Therefore, the measured ratio of voltages and, s, / and j- . proportional to the conductivity of the liquid with the coefficient K A / R where A is the conversion factor, equal to the ratio of the distance between the electrodes 5 and 6 to the cross-sectional area of the tube 4, the resistance of the resistor 12 can be chosen so that the absolute value of the specific conductivity becomes equal to the ratio of voltages, Thus, the conductometric transducer will allow determining the electrophysical parameters of the fluid with high accuracy, which, in turn, will allow better control of technological processes themselves in production.

Claims (1)

A CONDUCTIVE CONVERTER containing a toroidal coil, potential electrodes located in the hole of the coil, characterized in that, in order to increase the accuracy of the measurement, it further comprises a dielectric tube, current electrodes, a conductive circuit with a resistor, while the dielectric tube is located in the hole of the coil , current electrodes are at the ends of the tube and are interconnected by a conductive circuit with a resistor, ja potential electrodes are placed inside the tube and the distance from each electrode of the nearest end of the tube is greater than or equal to its internal diameter and the tube length is less than or equal to the height of the coil. from