SU539228A1 - Device for remote temperature measurement - Google Patents

Description

one

The invention relates to the field of thermometry and can be used to measure, control and control the temperature of technological processes in the oil and petrochemical industries.

Electronic automatic balanced bridges are known, which are used for remote communication of a temperature-sensitive element with a three-wire communication line (1).

However, in these bridges, due to the presence of a three-wire communication line, the influence of a change in the resistance of the wires on the temperature of the surrounding medium is not excluded, which leads to an increase in the measurement error of those i ep epytyras.

Also known are magnetoresistors with a linear dependence of the resistance on the magnetic induction field 2 and a magnetic modulator used in automatic circuits for converting a differential magnetic current into a non-time EMF, the magnitude and phase of which is a function of the difference of currents across the differential windings 3.

It is also known a device for remote temperature measurement, in which a controlled thermistor, a fitting resistor and semiconductor diodes are connected with a two-wire communication line, and

As a recording device used magnetoelectric logometer 4.

However, the low sensitivity of the logometer and the dependence of the effect on its readings. Changes in the resistance of the lines of communication lines do not allow the use of the known device for high-precision temperature measurements. To improve the accuracy of measurements, a two-wire communication line with a controlled resistor is connected to the differential windings of a magnetic modulator through a fitting resistor and a diode in one line and through a magnetoresistor and a diode placed inside the inductor with another.

A schematic diagram of the device described is shown in the drawing, where 1 is a controlled thermistor; 2, 3 - semi conductor diodes; 4 - resistance of the communication line; 5 - fitting manganin resistance; 6 - filter capacitors; 7, 8 — differential and output windings of a magnetic modulator; 9 — excitation winding of the magnetic modulator; 10 - AC power; 11-reverse engine; 12 - magnetoresistor; 13 - inductor with a triangular notch 14.

The device operates as follows. When the temperature of the medium changes, the resistance of the monitored thermistor changes, which leads to the inequality of the currents in the differential windings of the magnetic modulator and the appearance of an emf at the input of the amplifier. By means of a reversible motor, the magnetoresistor rod connected with it is moved to a position at which the currents in the differential windings of the magnetic modulator are equalized. When the currents are equal, the emf at the output winding of the modulator is zero, and the pointer on the magnet resistor rod indicates the measured temperature. Formula and 3 rims A device for remote temperature measurement, containing a controlled thermistor, a two-wire communication line, a fitting resistor, semiconductor diodes, a magnetic modulator with two differential windings and a magnetic resistor, characterized in that, in order to improve accuracy measurement, a two-wire communication line with a controlled thermistor is connected to the differential windings of the magnetic modulator through a fitting resistor and a diode in one line and through an inductive insulator Ora with a triangular cutout and a diode diode - in the other. Sources of information taken into account in the examination: 1. "Laboratory Workshop on Thermal Measurement and Instrumentation," Higher School, M., 1970. 2.O. K. Khomeriki. "The use of galvanomagnetic sensors in devices for automation and measurement," Energy, 1971. 3. Author's certificate N ° 406230, M. Kl2 N SI 15/18, 1971. 4.A. V. Fremke. Telemetry, ed. “Higher School, M., 1968 (prototype).