SU781785A1 - Thermostatic control device - Google Patents

Description

(54) DEVICE FOR THERMOSTATING

I

The invention relates to experimental physics and chemistry, in particular to devices for stabilizing and wide-range temperature control of a sample that is studied in a device for determining dielectric characteristics.

A device for controlling negative temperatures is known, which contains a hermetically sealed Dewar vessel with a pipeline immersed in liquid nitrogen, at the other end of which a heater and sample are placed, and an automatic temperature controller.

The temperature regulator provides the necessary pressure in the Dewar vessel, which squeezes the liquid refrigerant through the pipeline to the sample under study. The stability of the sample temperature is ensured by the necessary level of refrigerant boiling due to the change in pressure in the Dewar vessel l.

The disadvantage of the device is that it does not provide continuous thermostating for a long time. After draining the entire volume of liquid refrigerant from the Dewar vessel, it is necessary to top up

coolant or change vessel in it, during which the temperature of the sample changes significantly, which is unacceptable in most cases. Although the device is equipped with a device for transfusing a liquid refrigerant from an additional Dewar vessel (this does not ensure the stability of the sample temperature due to the intense boiling of the refrigerant during the transfusion), then it takes a long time to restore temperature. In addition, during transfusion, a significant portion of the coolant ageite is lost due to evaporation.

The closest in technical essence to the present invention is a device for thermostating, which is connected with the main sensor to a refrigerant level. The main storage tank of the refrigerant with the main actuator installed on its outlet pipe

25 connected to a temperature-controlled chamber in which a temperature sensor is placed, the output of which is connected to the input of the regulating unit 2.

The drawback of the device is the cyclical nature of the thermostatic process. The aim of the invention is to ensure the continuity of the process of thermos tatirvan. To achieve this goal, the device for thermostatic control IM contains an additional refrigerant storage tank with an additional refrigerant level sensor and an actuator element connected in series with the first inverter, element I and the first key element, and also the second inverter, trigger and second key element, the first input of which is connected with the release of the first key, the first and the second outputs - with the inputs, the main and other actuators, and the second input - with the trigger input, the first and second Which one is connected to the outputs of the main and additional refrigerant level sensors and the inputs of the First Inverter and the Second Inverter, the top of which is connected to the second input of the I element, and the wide yielding test, the carrying element is installed on the 3 a of the NO. to the secondary outlet pipe of the additional refrigerant storage tank. The drawing shows the functionality. ; on the device circuit thermostat. The device contains a primary refrigerant storage tank 2 connected to the main level sensor 1 with the main actuator 3 installed on its outlet pipe 4 connected to the temperature-controlled chamber 5 in which the temperature sensor 6 is located, the output of which is connected to the regulating input unit 7, additional refrigerant storage tank 8 with additional refrigerant level sensor 9 and actuating element, successor; 1O the first inverter 11 is connected, AND 12 and the first key element 13, and akzhe second inverter 14, flip-flop 15 and the Mo cluster core member 16. The apparatus operates as follows pa; Zoom. In the initial state, the main and additional tanks 2 and 8 for storing the refrigerant are filled with liquid refrigerant, and at the outputs of the main and additional sensors 1 and 9 of the refrigerant level there are signals corresponding to the latency At the output of the trigger 15, the outputs of the first and second inverters 11 and 1.4 „and ---- ffimtr-: fSfj“ gSrr rT2Trpiicyi elements 13 and 16 are turned off Yes

Claims (2)

1. USSR author's certificate 451Q06, cl. G 01 N 27/78, G 05 D 23/30, 1970. 2. Thermal briquette VTK-400 5 K 1 331.001 TU. State Register 3230-73 (prototype).