SU690328A1 - Multichannel temperature-measuring device - Google Patents

Description

the position of the first switch is connected to the second input of the measurement circuit. In addition, in order to improve the measurement accuracy, the secondary windings of the output transformer of the signal generator KS1LIbrovl are made of the material of the same thermocouple electrode, which is included in the secondary winding of the output transformer. FIG. 1 shows a block diagram of the proposed device, where 1 is a unit for converting and transmitting information, 2 is a block for receiving and recording information, G, thermocouples, 4.4, 4 are modulators, 5, 5, 5 are modulation generators, b general calibration signal generator, 7 - output transformer, 8 - primary winding of the output transformer tra 5, 9.9, 9.9 - secondary windings, 10 - adder, 11 - transmitting device, 12 - receiving device, 13,13,13 - band-pass filter , 14, 14, 14 - amplifier, 15, 15, 15 - rectifier, 1b, 1b, 1b - switch, 17,17,17 - measurement circuit, 18, is, - source of reference 19, 19, 19 - switch, 20,20,20 - low-pass filter of calibration signal, 21, 21,21 - calibration signal amplifier, 22, 22,22 - rectifier of calibration signal. Nafig Figure 2 shows the modulator device, where 23 and 24 are integrated circuit breakers, 25 is a modulation tracer, 26 is a loading transformer, 27 is a capacitor. FIG. Figure 3 shows a graph of the voltage of the calibration signal, where U is the amplitude of the voltage of the signal of calibers T, is the period of the frequency of the signal of calibration, t is the time. FIG. Figure 4 shows a graph of the calibration signal voltage at the modulator output, where is the period of the modulation frequency. FIG. Figure 5 shows a graph of the calibration signal voltage and the measured parameter signal (temperature) at the output of the modulator during the measurement process. The device works as follows. In the absence of a thermocouple signal i.e. when the cold and hot junctions of the thermocouple 3.3 ... have the same temperature, in the conversion and information transfer unit 1 from the common generator 6 of the calibration signal that runs continuously from the moment of the entire system, to the primary winding 8 of the output transformer 7 the calibration signal voltage is applied to the frequency of the calibration signal f, which is induced in the secondary winding 9.9, .. 9 (see Fig. 3), with the voltage of the calibration signal being more than wB fixed amplitude, those. U const, with the frequency f, can be changed upwards or downwards by 20-30%. The voltage of the calibration signal from the secondary winding 9, 9 ... 9, which is made of the material of one of the thermoelectrodes 3, 3, 3, goes to the modulator 4, which is made according to the transformer, the load of which is the load transformer 26, the primary winding which has a midpoint to which one of the thermocouple electrodes 3, 3.3 is connected. The second electrode of which is connected to integral breakers 23 and 24. The proposed modulator circuit 4, 4 ... 4 allows the use of thermocouples 3, 3 .. Different combinations of materials of thermoelectrodes. The voltage of the calibration signal U) B of the modulator 4.4 ... 4 is affected by the modulation voltage with the modulation frequency f ,,. . , fl, which is supplied from the secondary windings of the modulation transformer 25 to integral circuit breakers 23 and 24, the primary winding of which is connected to the output of the modulation generator 5.5 ... 5 .. As a result, the voltage of the calibration signal Ots with the frequency of the calibration signal f is modulated with the modulation frequency of the secondary winding of the load transformer 26, through the capacitor 27, remove the voltage of the output signal U gbix (see Fig. 4). From the output of the modulator 4, 4 ... 4, the voltage of the calibration signal U is fed to an adder with a common channel amplifier 1CG, then to the device 11 with a transmitting antenna. From the output of the receiving device 12, the signal enters the band-pass filter 13, 13. .. 1 G, a measurement signal with a calibration signal, and from the filter output, the signal is transmitted to the input of the amplifier 14, 14 ... 14 and further to the rectifier 15, 15 ... 15 to the filter 20, 20. . .20 low frequencies of the calibration signal, then to the amplifier 21, 2l ... 2l of the calibration signal and to the input of the rectifier 22, 22. .. 22 calibration signals. From the output of the rectifier 15, 15 ... 15 and from the output of the rectifier 22 22 ... 22 of the calibration signal, signals of equal magnitude arrive at the terminals for calibration and measurement of the first switch 16 /, 1b. .. 1b from the output of which one of the signals, depending on the position of the switch, is fed to the input of the measurement circuit 17,17 ... 17, to the other input of which, through the second two-pole switch 19,19 .. 19 with positioning calibration and measurement, a signal is given

from the source 18.18, .. 18 of the reference voltage, the magnitude of the equal voltage on the terminals of the first switch 1b, 1b .., 16. In the absence of a signal from the thermocouple H, h ... h the second switch 19.19.,. 19

and the first switch 16, 1b,., 16 is set to the KaJ calibration position, and at the output of the measurement circuit 17, 1... 17, we obtain the level of the Jam error signal. Leaving the second switch 19.19, .. the same position, switch the first switch 1b, 16,., 16 to the measurement position, and the output of the circuit is 17.17. again we get the level of the calibration signal.

In the presence of a signal from a thermocouple 3, 3 ... s, the amplitude of the voltage of the calibration signal and, 4 will be arithmetically added to the thermopower of the thermocouple and at the output of the modulator 4, 4... 4 we obtain the voltage of the output signal Ugbtx which is shown in FIG. 5. The same picture will be observed at the output of the bandpass filter 13,13,., 13. Since the output voltage of the rectifier is 15.15 ... 15, the ripple voltage is proportional to the voltage of the error signal and ji, therefore, the output voltage of the rectifier of the calibration signal 22.22 ... 22 will be the calibration voltage. If we switch the first 1b, 1b ... 16 and the second 19.19 ... 19 switches to the calibration position, the output of the 17J 17 ... 17 circuit will be the calibration signal level, and putting the switches to the measurement position, we will get the 17 circuit output , 17 ... 17 the level of the signal developed by thermocouple З, 3 ... 3, i.e. temperature of the measured object

Thus, the proposed multi-channel measurement-temperature device allows to calibrate all channels before measurement and to calibrate all channels or any of their choices during the measurement process.

Claims (2)

Invention Formula 1, A multi-channel temperature measuring device comprising 5 data conversion and transmission unit, equipped with thermocouples by the number of channels, information receiving and recording unit, equipped with an antenna with a receiving device, to the output of which recording channels are connected, each of which contains a series-linked sex filter, amplifier, rectifier, whose output is through a bipolar The switch is connected to the first input of the measurement circuit, the other input of which is connected via a second switch to the reference voltage source, in order to In the process of measuring, all common channels of the converter are calibrated and the device transmits and transmits information. A common KSshibrovki signal generator is inserted, equipped with a transformer, one electrode from each thermocouple is connected to the secondary windings, and a lower filter is additionally inserted into the X1 each channel in the receiving and recording section calibration signal frequency, amplifier and rectifier of calibration signal connected in series and connected to the output of rectifier of each registration channel, and you The course of the calibration signal rectifier through the second position of the first switch is connected to the second input of the measurement circuit. 2, Device according to Claim 1, which is intended to improve the accuracy of the measurement, the secondary windings of the output transformer of the calibration signal generator are made from the material of the thermocouple electrode that is included in the secondary winding of the output transformer. Sources of information taken into account in the examination 1, USSR Author's Certificate 327456, cl. G 05 D 23/24, 1971, 2. Authors certificate of the USSR 446752, cl. G 01 K 15/00, 1972 (prototype). ( . 9 9 " sixteen 20C 22 -And / 7 fl-Jn; ff / r f M five fcr. II / T L five GS1111 1ASShSh SS ten 22 g  7 / T 0. / PiG JI1 -I /. /four IS / ff / 7 a 18 Vi ,,