SU126946A1 - Thermoelectric measuring device - Google Patents

Description

BASIC Auth. St. No. 100672 describes a thermoelectric measuring device in which there are two oppositely connected thermocouples on the movable part, against which fixed heaters are installed, positioned so that when the movable part deviates from the neutral position, one of the thermocouple junction systems approaches one heater branch and the other moves away from the corresponding heater.

A feature of the proposed thermoelectric device, in which, as in the device jno auth. St. No. 100672, two oppositely connected thermocouples are located on the movable part, and two heaters on the non-base, are that these heaters are included in the circuit of measured currents or voltages, and the frame of the magnetoelectric system is connected to the output of the thermocouple.

This provides the possibility of using the instrument as a logometer.

The drawing shows schematically the proposed thermoelectric measuring device. The structure of this device includes the device of the magnetoelectric system, which does not have current leads and opposing springs. The frame / of the latter is fixed on the axis or on the suspension 2 with a small opposing moment, which can be neglected, and is connected to the output of two thermocouples 3 connected in opposite, glued onto a thin plate 4 of mica. This plate is fixed on the axis or suspension 2 frames.

Two thin wire heaters 6 are fastened on the instrument case between the posts or on the fixed mica plate 5, as shown in the drawing. Heaters can be made of nichrome, con. No. 126946

and in some special cases of platinum. The heaters are installed in such a way that a thermocouple is placed over each of them, and when the mobile system rotates, the hot junction of one thermocouple approaches the corresponding heater, and the hot junction of the other thermocouple moves away from its heater.

To ensure uniform graduation of the heating scale, the heaters, as shown in the drawing, are arranged in the shape of an ellipse.

Heaters are included in the measured current circuit (i) and / 2.

If / 1/2, then a constant current flows through the frame /. When moving the frame emf. one thermocouple increases, and the other falls. Since the mobile system has no opposing moment, it moves until the current in the (frame disappears, i.e. until the emf of both thermocouples is equal. Therefore, the equilibrium position of the moving part is determined by the ratio of currents (i) and / 2. If the heaters are made of a material with a low temperature coefficient of resistance, then the currents flowing through the heaters are directly proportional to the voltages applied to them. The graduation of the scale of the thermoelectric device depends on the position of the heaters The range of measurements can be extended with the help of active shunts and additional resistances to heaters. You can also adjust the shape of the instrument's chambers using non-linear shunts and additional resistances or in the presence of linear shunts and additional resistances due to the nonlinearity of the heaters themselves, made the latter, for example, thin platinum filament, the resistance of which depends on the current flowing through it.

Subject invented and

Thermoelectric measuring device, on the movable part of which there are two counter-enabled thermocouples, and on the fixed one - two heaters, according to the author. St. No. 100672, characterized in that, in order to use it as a meter, said heaters are included in the circuits of measured currents or voltages, and the frame of the magnetoelectric system is connected to the output of the thermocouple.