SU690515A1 - Temperature indicator - Google Patents

Description

one

The invention relates to a technique for measuring temperature, and more specifically to a signaling device that serves to monitor and signal thermal processes. It can be used in all popular economic entities for automatic control, regulation, thermal protection and signaling of thermal processes.

Devices are known for automatic control, regulation, thermal protection, and signaling of thermal processes in which ferrothermal temperature sensors are used. Ferrite thermometers are used in ferrothermal sensors, in which ferromagnetic properties (magnetic permeability) disappear at a certain temperature.

A change in the chemical components forming the ferrite makes it possible to obtain practically any values of the Curie point in the range of both positive and negative temperatures.

The closest in technical essence to the invention is a ferrothermal protection device, consisting of a power source, a generator, which is connected to a ferrothermal sensor, an amplifier and an executive unit at the output 2.

This device has a complex electrical circuit, which limits the possibility of its use.

The aim of the invention is to improve the accuracy and reliability of the temperature detector.

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This goal is achieved by the fact that a compensation block is inserted in it, made in the form of an open magnetic circuit with a measuring winding, an excitation winding and a core, in

5 a ferromagnetic sensor an excitation winding is inserted, and its closed magnetic circuit is equipped with several inserts of thermomagnetic alloys with single Curie points, measuring

0, the windings of the ferrothermal sensor and the compensation unit are connected in series and connected to the actuating unit, the excitation windings of the ferrothermal sensor and the compensation unit are connected in series and connected to the source of the litany.

FIG. 1 depicts a fundamental. on the temperature indicator diagram: in FIG. 2 - curves of induction versus temperature.

The temperature detector includes a ferrothermal sensor 1, made in the form of a closed magnetic circuit 2 with measuring winding 3, excitation winding 4, compensation block 5, made in the form of an open magnetic core b with measuring winding 7, excitation winding 8, core 9, power source 10 and executive unit eleven.

The air gap a between the magnetic circuit of the compensation unit 5 and the bar 9 is established by adjusting the temperature detector. The magnetic core of the ferrothermal sensor 1 contains sections 12-14 of thermomagnetic alloys. The dependence of induction on temperature plots 12-14. of thermomagnetic alloys is shown respectively by curves 15-17. The magnetic core of the ferrothermal sensor 1 includes, for example, three sections 12-14 of thermomagnetic alloys in which the ferromagnetic properties (magnetic permeability) consistently disappear at a certain heating temperature (Curie point). The windings 4 and 8 of the excitation of the ferrothermal sensor 1 and the compensation unit are connected in series according to and connected to the power supply 10, and their measuring windings 3 and 7 are connected in series and counter to the executive unit 11. Due to the symmetry of the output voltage circuit is close to zero. When heated to the Curie point. 12-14 of the thermomagnetic alloys of the ferrothermal sensor 1, there is a consistent change in its magnetic conductivity.

The symmetry of the circuit is broken, which leads to the appearance in the measuring windings and at the input of the executive unit 11 the voltage difference is proportional to the change in the magnetic driveability of the ferrothermal sensor 1.

Thermomagnetic alloys are selected so that during the heating temperature (Curie point) of alloy 12, the magnetic properties of alloys 13 and 14 do not change; at the heating temperature (Curie point) of alloy 13, the magnetic properties of alloy 14 do not change.

Such a detector can be set to any range of temperatures depending on the number of thermomagnetic areas with different Curie points in the ferrothermal junction of the sensor 1, Sections of the thermomagnetic alloy can be included in the magnetic circuit in series and parallel to each other, which allows for sequential control of J .

The use of the proposed detector to control thermal processes will significantly increase the accuracy and reliability of the Q and cooling thermostabilization systems. Allows one indicator to measure and signal different temperatures of the thermal process sequentially.

This alarm device can be used by all popular households for automatic control, regulation and protection of thermal processes, where it is required to monitor several temperature values with a single alarm device.

Claims (2)

1. Tokke-Koho. Non-contact temperature measurement method using Curie temperature. Inventions Abroad, 1976, No. 3, p. nineteen. 2. Budnsky V.A. New trends in the development of thermal protection of electric motors. - Electrical Engineering, .974, W 12 (prototype). Chg / huoH "tV