SU409307A1 - B P T - Google Patents

Description

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The invention relates to the field of automation and instrumentation and is intended for use in display systems and temperature control.

Non-contact thermal relays are known that contain a sensing element, for example, a thermistor CT8-1A or 1B based on V2O3, incorporated into an actuating circuit.

However, they have only one temperature point of response (abrupt change in resistance), which limits their range of application.

The proposed thermal switch is characterized by the fact that its sensitive element is made of a solid solution of the substitution of chromium and oxide in vanadium-and-a-half of the type (.) 2O3, where, 002-0.015.

This makes it possible to obtain two temperature points of operation and, therefore, to expand the field of application of the device.

FIG. Figure 1 shows the dependence of the logarithm of resistance on temperature for V2O3 (curve a) and for the connection from which the sensitive element of the proposed thermal switch is made (curve b).

FIG. 2 shows a relay diagram for the simplest use case, where 1 is a sensing element, 2 and 3 is an executive circuit (indicator lamp and power supply).

A specific feature of the sensitive element of such a thermal relay is that, along with the presence of a low-temperature transition (abrupt decrease in resistance

increase in temperature) in the region of 150–170 K there is also a high-temperature transition — a jump-like increase in resistance with a temperature increase in the region of 200–350 ° K.

(curve b, fig. 1) IT IS POSSIBLE if the sensitive element is made of a material that is a solid solution of chromium andyrate in vanadium andylate oxide (Vi-: cCra;) 2O3, where x 0.002-0.015. For example, for the compound (Vo, 99Cro, oi) 2O3 at atmospheric pressure, the low-temperature transition occurs at temperature T, and the jump in resistance is 3.5 times, and the high-temperature transition occurs at

T ":; 260 ° K, with the resistance changing to l; 2 times

Sensitive elements of this composition can be made by conventional ceramic technology, and from a single crystal.

Some variation in the trigger temperature for a sensitive element of a given composition can be made by applying a certain external pressure to it.

The device works as follows.

When the temperature changes, starting from low values, the sensitive element has a rather high resistance, and the current in the executive circuit (indicator lamp and power supply) is small. When the temperature reaches the value determined by point T in FIG. 1, the resistance of the sensing element decreases abruptly, as a result of which an executive current begins to flow in the circuit (the lamp lights up). The resistance retains an approximately constant value up to the temperature T2, then it increases stepwise and the lamp goes out.

Subject invention

A non-contact thermal switch containing a sensing element included in an actuating circuit, characterized in that, in order to expand the field of application of the device, the sensing element is made of a solid solution of substitution of chromium pentoxide in the type of vanadium oxide (V, -. VCr, v) 203, where, 002-0.015.

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