SU24155A1 - The method of temperature measurement using a disappearing filament optical pyrometer - Google Patents

Description

Temperature measurement using an optical pyrometer with a vanishing filament is based on the equality of the black temperatures of the test body and that of the photometric lamp at the same luminance when the thread ceases to be visible against the background of the test body. In the proposed method of measurement, the lamp is included in one of the arms of the Wheatstone bridge, and for counting temperatures, the gauge of the included between the arms of the rheostat is used, along which the bridge's zero-circuit contact moves.

In FIG. 1 shows an electrical diagram of a Wheatstone bridge with a photometric lamp included therein; FIG. 2 - the same scheme with two lamps included in the opposite shoulders of the bridge.

The resistance of the filament of an electric lamp depends on its black temperature. Therefore, turning on such a lamp in the Wheatstone bridge, as shown in the drawing, and changing the temperature of the filament by changing its filament, it will be necessary to change the balance of the rheostat arms R. In order to not calculate the resistance of the lamp each time and find the corresponding temperature, rheostat 7 is equipped with a scale, graduated in units of temperature. The temperature is measured as follows; using a rheostat / with an open key in the zero circuit, the lamp heat L is established, at which the upper part of its filament merges with the background of the body under study. If the current flows in the zero circuit when the key K is pressed, then the contact D moves until the lamp filament again is equally heated with the test body. After that, the temperature is measured on the scale of the rheostat R according to the contact indicator D.

To entrain accuracy of readings, the bridge arm opposite the lamp L instead of resistance R includes exactly the same lamp L. In this case, the bridge imbalance increases, since an increase in lamp resistance L corresponds to an increase in lamp resistance LI, resulting in a relative error when contact D is reduced. With the same circuit, a measuring device can be included in the zero circuit of the bridge, indicating the absence of current in it.

The subject matter of the invention.

A method for measuring temperature using a vanishing filament optical pyrometer, incompatible with the fact that a photometric incandescent lamp is included in one of the arms of the Wheatstone bridge,

and to balance temperatures, bridge equilibrium is used.

the scale included between the arms of the rheostat, along which the bridge bridge zero chain moves, at which it is monitored by monitoring the filament of the specified lamp with the closed and open zero circuit.