SU1180657A2 - Thermostatic plant - Google Patents

Abstract

INSTALLATION FOR THERMOSTATING on avt. No. 983403, characterized in that, in order to increase the accuracy of thermostating, the installation is additionally provided with a c. J3 f I-. .--, -i .. PLG -, .. a heater, a power amplifier, a decoder and a third key connected to it, the input of the decoder is connected to the setpoint temperature, and the outputs of the decoder are connected respectively to the control inputs of the power amplifier, the first threshold the device and the third key, the switching contact of which is connected to the main input of the power amplifier, the opening contact is connected to the output of the phase-sensitive amplifier, and the closing contact is connected to the output of the function converter. (L 00 O OD CL

Description

one

The invention relates to a cryogenic technique, namely, an installation for thermostating mainly samples of dielectrics in order to determine their dielectric characteristics, and is an improvement of the installation according to the authors. St. No. 983403.

The purpose of the invention is to increase the accuracy of temperature control.

The drawing shows a diagram of the installation for thermostating.

The thermostatic installation comprises a pipeline 1 sealed on the neck of the Dewar vessel 2, an electromagnetic valve 3 and a heater 4 placed in the lower part of the internal cavity of the Dewar vessel 2, the pipeline 1 is connected to a heat chamber 5 with a thermostatic object. In addition, the installation contains a temperature controller, consisting of successively connected comparison unit 6, phase-sensitive amplifier 7., And the main threshold device 8, to the output of which the solenoid valve 3 winding is connected

The temperature controller also includes a power amplifier 9, a temperature setpoint 10, an additional threshold device 11, a voltage source 12, a digital-to-analog converter 13, a decoder 14, and keys 15 - 17. The output of the heat chamber 5 is connected to one of the outputs of the 6 comparison unit, To the second input of which the temperature setting device 10 is connected, connected to the inputs of the digital-to-analog converter 13 and the decoder 14. The output of the digital-to-analog converter 13 is connected to the closing contact of the key 17 and to the control input of the source 12 reference voltage, the outputs of which are connected to the switching contacts of the keys 15 and 16. The closing contact of the key 15 and the opening contact of the key 16 is connected to the input of the additional threshold device 11, the output of which is connected to the heater 4. The breaking contacts of the keys 15 and 17 and the closing contact of the key 16 connected to the output of the phase-sensitive amplifier 7. The switching contact of the key 17 is connected to the main input of the amplifier 9 power 806572

the output of which is connected to the heater of the heat chamber 5, and the control input to the first output of the decoder 14. The control input 5 of the key 17 is connected to the third output of the decoder 14, and the control inputs of the keys 15 and 16 are connected to the output of the threshold device 8 The control input of which is connected to the second output of the decoder 14.

The installation works as follows.

In the range set by the generator 10 temperatures from -180 to the first and third outputs of the decoder 14 there are logical O, and the second output of the decoder 14 contains logical 1, allowing operation of the threshold device 8.

When the signals at the inputs of the comparison unit 6 are equal, the signal at the output of the phase-sensitive amplifier 7 is equal to zero, the signal at the output of the threshold device 8 is equal to logical O, as a result of which the electromagnetic valve 3 and the keys 15 and 16 are turned off. The input of the additional threshold device 11 from the source 12 of the reference voltage (via the switch 16) is supplied by the reference voltage of the polarity opening to it, but not

C is large enough to open an additional threshold device 11, at the output of which there is no voltage. The pressure in the Dewar vessel 2 is equal to atmospheric, since the stem of the electromagnetic valve 3 closes the exit of the pipeline 1 to the heat chamber 5 and opens it to the atmosphere. When the temperature in the heat chamber 5 increases, the signal connected in series with the reference voltage appears at the output of the phase-sensitive amplifier 7 and is relatively

At its value, less than the threshold of the threshold device 1.1, the latter opens and the voltage is applied to the heater 4. B result of this vapor pressure

55 refrigerant in Dewar vessel 2 increases, but the temperature in heat chamber 5 continues to rise, as valve 3 is closed. Signal

Claims (1)

INSTALLATION FOR THERMOSTATING by ed. No. 983403, characterized in that, in order to increase the accuracy of temperature control, the installation is additionally equipped with a heater located in the chamber, a power amplifier, a decoder and a third key connected to it, while the decoder input is connected to a temperature controller, and the decoder outputs are connected respectively to the control inputs the power amplifier, the first threshold device and the third key, the switching contact of which is connected to the main input of the power amplifier, the NC contact is connected to the output of the phase sensing Yelnia amplifier, and a make contact connected to the output of the functional converter.