SU767730A2 - Thermostatic apparatus - Google Patents

Description

(54) THERMOSTAT

one

The invention relates to devices for active thermostating, namely, devices using the phenomenon of a first-order phase transition and electric heating of a thermostatically controlled volume, and can be applied, for example, in precision measurements of physical, electrical and chemical quantities.

The closest to the invention in its technical nature is a thermostat containing a heater and a temperature controller, the heater being made in the form of a chamber filled with an electrically conductive fluid as a coolant and electrodes included in an AC circuit 1.

The disadvantages of this thermostat are the low accuracy and reliability of its operation.

The purpose of the invention is to increase the accuracy and reliability of the thermostat.

This goal is achieved by the fact that in a thermostat containing a preheater and a temperature controller, the preheater represents a chamber filled with an electrically conductive liquid as a heat transfer fluid and electrodes included

In the AC circuit, the coolant is made of a material with an abnormal change in heat capacity or electrical conductivity near the temperature point.

The drawing shows the functional scheme of the thermostat.

The thermostat contains a temperature controller 1 with an amplifier 2, a heater made in the form of a chamber 3 filled with an electrically conductive fluid as a heat carrier, and electrodes H and 5 connected to the AC circuit 6 through controller 1.

In addition, the thermostat contains a temperature transducer 7 connected to the thermostat casing 8 with the thermostatically controlled chamber 9.

15

The thermostat works as follows. Passing an electric current through the coolant leads to the release of Joule heat in it and its heating. When the phase transition temperature of type I reaches 20, excess heat dissipation is absorbed due to the heat of phase transition. At the same time, due to a change in the electrical conductivity of the coolant, the power dissipated in it decreases.

Cooling the coolant from the temperature of a phase transition of the first kind leads to the release of the heat of the phase transition and the reverse of the C e {Gz1yenNen; iK) etotettektroprovodnosti an increase in the dissipated heating power. Thus, additional regulation of the electric heating power dissipated directly in the coolant is carried out.

These operations ensure the accuracy of thermostating not less than 0.01 ° at a given level of thermostating with a high degree of stability. So, for a four month period of cyclic loading, no exit from the thermostating mode was detected.

Claims (1)

1. USSR author's certificate number 197227, cl. G 05 D 23/30, 1966 (prototype). S