SU1179114A1 - Meter of heat radiation flow - Google Patents

Abstract

THERMAL RADIATION FLOW METER containing a sensitive element located in the heat source ////// / / f. connection with a device for stabilizing its temperature, which consists of a temperature sensor, an amplifier and an active thermally stabilizing element located on the side of the sensing element opposite to its receiving surface, characterized in that, in order to improve measurement accuracy and increase information capacity by reducing the nor on the measurement results of the nonlinear dependence of the conversion coefficient of the sensitive element on temperature and speed, the sensor (O The temperature is located on the receiving side (L of the sensitive element surface and is made flat, repeating its shape. sl; D

Description

Y ////// X // 9. 1 1 The invention relates to heat-measuring instrument making, in particular to the design of devices for measuring heat fluxes, and can be used in control systems and automatic control of radiant heating processes. The purpose of the invention is to improve the measurement accuracy and increase the information capacity by reducing the effect on the measurement results of the nonlinear dependence of the conversion coefficient of the sensitive element on temperature and speed. The drawing shows a functional diagram of a heat radiation flow meter. The meter contains a sensing element 1 and a device for stabilizing its temperature, consisting of a temperature sensor 2, an amplifier 3 and an active thermostabilizing element 4. A temperature sensor 2 located on the receiving (irradiated) surface of the sensing element 1 and repeats its shape. The active thermal stabilizing element 4 is located on the opposite receiving side of the sensing element 1. The output of the temperature sensor 2 through the amplifier 3 is connected to the input of the active thermostabilizing element 4. The meter works as follows. The measured heat flux is absorbed by the receiving surface of the sensing element 1 and the temperature sensor 2, causing an increase in their temperature. The signal from temperature sensor 2, proportional to the degree of heating, is amplified by amplifier 3 and is fed to the input of the active bridge bridge 4, which reduces the heating temperature 42 of sensitive element 1 and stabilizes the temperature of receiving surface of sensitive element 1. Temperature sensor 2 on the receiving surface of the sensing element 1 provides better stabilization of the temperature of the receiving surface, and the measurement error is reduced due to the exclusion of the main channel Aulus guide error nonlinearity coefficient conversion sensor element 1, caused by the change of their own radiation meter, which depends on the temperature of the receiving surface. In addition, the meter performance is improved. For example, a heat radiation flow meter is made on a sensitive element 1.5 mm thick with an effective thermal conductivity coefficient of 1.5 W / m.K. The stabilization temperature of the receiving surface is 550K. The temperature sensor 2 is located on the receiving (irradiated) surface of the sensing element 1 and is made, for example, in the form of a flat resistance thermometer or in the form of a flat thermocouple. The active thermal stabilizing element 4 is located on the shaded (non-irradiated) side of the sensing element 1 and is made, for example, in the form of a flat wire resistive heater or a film-type resistive heater. Tests of the described meter showed that the error in its measurement decreased by half, and the infor. The mating ability has increased by an order of magnitude. The output signal reached 98% of the final value in no more than 1.2 s after a stepwise change in the intensity of irradiation.

Claims (2)

HEAT RADIATION FLOW METER, containing a sensing element located in the heat 2. connection with a device for stabilizing its temperature, which consists of a temperature sensor, an amplifier and an active thermostablizing element located on the side of the sensitive element opposite to its receiving surface, characterized in that, in order to improve the accuracy of measurements and increase information capacity by reducing the impact on the results of measurements of the nonlinear dependence of the conversion coefficient of the sensitive element on temperature and speed, temperature sensor ra located on the receiving surface of the sensing element and made flat, repeating its shape. > 1 11791