SU775635A1 - Temperature measuring device - Google Patents

Description

The invention relates to the field of temperature measurements, namely, devices for remote temperature measurement. A device for remote temperature measurement is known, comprising a thermistor connected to the input of the communication line, to the output of which a power source, a recording device, elements conducting in one direction and a shunt thermistor and a model resistor fl are connected via a standard resistor. The disadvantage of this device is the dependence diode resistance to temperature, which leads to measurement accuracy. Of the known HaH6ojiee devices, a device for temperature measurement, containing a thermistor connected to the communication line input, is connected to the invention. The device, shunt elements, made through a sample resistor, are connected to the output of the device. in the form of two polarized relays, the contacts of which are connected in parallel to the thermistor and the exemplary resistor and the windings are connected in series with the thermistor and the exemplary p A resistor in the forward and reverse directions {2}, respectively. The device works as follows. When a variable voltage is applied from the power source, the polarized relays operate, alternately a thermistor and an exemplary resistor shunt their contacts. The difference in voltage with the passage of current in each case is recorded by the measuring instrument. The magnitude of the voltage difference does not depend on the resistance of the communication line and the windings of the polarized relays included in it, but is determined only by the deviation of the resistance of the thermistor from the resistance of the reference resistor to the accuracy of the difference between the resistances of the relay shunt contacts. The presence of two elements with movable contacts and the asynchronous operation of the polarized relays, caused by the variation of their parameters, lead to a decrease in the accuracy of temperature measurement.

The purpose of the invention is to show the accuracy of temperature measurement and simplify the measurement scheme.

This goal is achieved by the fact that, in the proposed device, there is a thermistor connected to the communication line input, a polarized relay whose winding is connected in series with the thermistor, and one of the contact groups is connected in parallel to the thermistor, the reference resistor, the power source and the registering device connected to the output of the communication line, the second contact group of the said polarized relay is connected in parallel with the reference resistor.

The drawing shows an electrical diagram of the proposed device for remote temperature measurement.

The device contains a thermistor 1, a link 2, an exemplary resistor 3, a power supply 4, a recording device (for example, an integrating type) 5, a polarized 6 relay coil, and a polarized contacts 7 and 8.

When an alternating current is applied from the power source 4, a polarized relay 6 is triggered, contacts 7 and 8 alternately close. In the first half period, the current flows through the wires of the communication line 2, the polarized-b winding, thermistor 1, contacts 7 connected in parallel to resistor 3, in the second half period - over wires of communication line 2, resistor 3, contacts 8, connected in parallel with thermistor 1 and winding of polarized relay 6. The difference of voltages when current passes in the forward and reverse directions is integrated and recorded at-:

boron 5. This voltage does not depend on the resistance of the link 2 and the winding of the polarized relay 6, but is determined only by the deviation of the resistance value of the thermistor 1 from the resistance of the reference resistor 3 with an accuracy to the difference of the contact resistances of the contacts 7 and 8, which are close to the value due to the presence of both contact groups under the same conditions. The resistance value of the thermistor is determined by the temperature of the object being measured.

Elimination of a polarized relay from the measuring circuit leads to an increase in the accuracy of measuring the temperature and improving the reliability of the device by eliminating the need to synchronize the operation of the two polarized relays.

Claims (2)

1. US patent number 3483749, class. 73-344, published. 1969. 2. USSR author's certificate number 570798, cl. G 01 K 7/13, 1977 (prototype),