SU149912A1 - The method of measuring the rate of change of temperature - Google Patents

Description

The known methods for measuring the rate of change in temperature, based on the artificial increase in thermal inertia of one of two identical sensors placed in the volume under study, are characterized by relatively low sensitivity.

According to the proposed method, the thermal inertia of a single sensor is reduced by means of an electrical correction device. This results in an increase in the degree of response to the rate of temperature change.

To clarify the described method, the drawing shows a block diagram of the device for obtaining a signal proportional to the rate of change of the ambient temperature.

Two sensors / and 2 temperatures with the same thermal inertia are used as measuring elements. The signal from the sensor / is fed to the input of an electrical correction device 3, which serves to reduce the thermal inertia of the sensor / to a predetermined value. Due to the fact that the signal of sensor 1 when passing through the correction device 3 is attenuated several times, the signal of the atomic 2 by means of the voltage divider 4 is reduced by the same amount, so that at steady state temperature the difference between the signals from the sensors is zero.

When the temperature of the medium changes due to the difference in thermal inertia of the system formed by the sensor / and the correction device 3, and the system formed by the sensor 2 and the divider 4 at terminals 5-5, a signal is obtained that is proportional to the rate of change of the measured temperature. Artificial reduction of the thermal inertia of the sensor / correction device 3, compensating for the thermal inertia of the sensor, makes it possible to significantly increase the degree of response of the described device to the rate of change

temperature and improve system performance. The described α-method can be used to improve the performance of temperature protection and alarm devices.

Subject invention

The method is measuring the rate of temperature change using two temperature sensors with the same thermal inertia, differing in that, in order to increase the degree of response to the rate of temperature change, the thermal inertia of a single sensor is reduced by means of an electrical correction device.