SU788003A1 - Flow rate measuring method - Google Patents

Description

The invention relates to a measuring technique and can be used in aero- and hydrodynamic studies when measuring the flow rate of gases and liquids. Methods are known for measuring the flow rate, consisting in heating a thermistor with stabilized electric signals to a temperature above the maximum flow temperature, maintaining the temperature of the thermistor constant by adjusting the electrical signal's duty cycle and measuring this signal l. The disadvantage of these methods is the low accuracy of the velocity measurement. The closest in technical essence to the proposed method of measuring the flow rate consists in heating the criterisator with an electric current to a critical temperature exceeding the maximum flow temperature, simultaneously measuring the temperature introducing temperature correction into the output electrical signal depending on the resistance of the criteristor, and determining the flow rate and the magnitude of this corrected signal 2. The disadvantage of this method is insufficient measurement accuracy. The purpose of the invention is to improve the measurement accuracy. This goal is achieved by the fact that, according to the proposed method, the output signal of the dististor changes in inverse proportion to the difference between its critical temperature and the flow temperature. The drawing shows a diagram of the device for the implementation of the proposed method. The device for measuring the flow rate contains a source of stabilized voltage UQ, a critesistor 2 with a positive temperature coefficient of resistance (speed sensor), a measuring device 3 (milliammeter), a semiconductor thermistor 4 (temperature compensation sensor), and two linear resistors 5 and b. The resistances of the resistors 4, 5 and b are significantly smaller than the resistances of the kritisistor 2, therefore almost all of the source voltage is applied to the kretesistor 2,

Claims (1)

Claim The method of measuring the flow velocity, which consists in heating the creep resistor with an electric current to a critical temperature exceeding the maximum flow temperature, simultaneously measuring the flow temperature, introducing a temperature correction in the electrical output signal, depending on the resistance of the creeper, and determining the flow velocity from the value of this corrected signal, characterized in that, in order to improve the accuracy of the measurement, the output signal of the crististor is changed inversely with the difference of its cree nical temperature and flow temperature.