SU532820A1 - Thermo-anemometric system - Google Patents

Description

(54) THERMO-ANEMOMETRIC SYSTEM

The invention relates to a measurement technique and can be used to study gas flows.

Thermoanemometers are known that contain a temperature-sensitive element and a measuring circuit} 1 and 2.

Also known are thermo-anemometric systems containing a hot-wire anemometer, including a temperature-sensitive element and measuring circuit 3.

A disadvantage of the known devices is the ambiguity of the output information when detecting vortices and measuring their diameters.

The aim of the invention is to enhance the functionality by detecting vortices and determining their diameters in a turbulent flow.

This is achieved by inserting a correlator into a thermo-anemometric system containing a thermo-anemometer, the input of which is connected to a thermal-anemometer, an extreme automatic regulator connected to the nerve output and a control input of the correlator, a displacement unit mechanically connected to the sensor of the thermo-ananometer, and an extreme an automatic controller connected to the BTOpbiM for a corr. hr mountain and a displacement.

The drawing is a block - schema; a:; rel, 1agasmo system.

Thermoanemometric system ω; ac 11111t thermoanemometer 1, correlator tor 2. extremal automatic; 3 and 4, the unit 1 of the displacement 5, and the measuring instruments; b l 7.

The device works as follows. Thermoanemometer I continuously measures the instantaneous airflow rate. If there are vortices in a note on the code of the hot-wire anemometer 1, two pulses are observed corresponding to the leading and trailing edges of the vortex.

A correlator 2 is connected to the output of the hot-wire anemometer. The signal at the output of the correlator has a maximum value if the time shift of the signals is equal to the passage time of the leading and trailing edges of the vortex through the sensors of the thermo-anemometer 1. The correlator 2 has a controlled input with which You can adjust the time shift of the signals. The extreme automatic controller 3 adjusts the time shift of the signals so that the output voltage correlator 2 has the maximum value. Voltage

The output of the correlator 2 is proportional to the time shift of the signals.

Unit 5 moves the sensor hot-wire anemometer 1 in the transverse direction relative to the flow. The extreme automatic controller 4 controls the displacement unit 5 of the sensor of the hot-wire anemometer 1, so that the time shift of the signals in the correlator 2 has the maximum value. The magnitude of this shift is proportional to the diameter of the vortex. Measuring instruments 6 and 7 connected to the second input of the correlator and to the output of the displacement unit show, respectively, the diameter of the vortices and the coordinate of the measuring point.

Claims (3)

Invention Formula Hot-wire anemometric system containing a hot-wire anemometer, characterized in that, in order to extend the functionality by detecting the vortices and determining their diameter in a turbulent flow, a correlator is inserted into it, the input of which is connected to a thermal anemometer, an extremal automatic controller connected to the first output and control input of the correlator, a displacement unit mechanically connected to the sensor thermo-anemometer, and an extreme automatic controller connected to the second output of the correlator and the displacement unit. Sources of information taken into account in the examination: I.ABT. St. CCCPN2. 183504, M.Cl. C 01 R 5/12, dated 08.16.66. 2. US Patent N °. 3363462, class 73--204, from 1/16/68 3. Kachurin L.G. Electric measurements of aerophysical quantities, M., Higher School, 1967, p. 264-265 (prototype).