SU575486A1 - Device for measuring fluid flow rate - Google Patents

Description

The invention relates to a technique for measuring the flow of liquid media, gases and vapors, in particular, to devices for measuring gas flow.

A device for measuring the flow rate of a gas, comprising a restriction device, is known from the pressure drop, on which the flow rate of the medium 1 is determined.

However, the known device does not provide the same measurement accuracy over the entire range of the measured flow rate.

Closest to the invention in its technical essence is a device for measuring the flow rate, comprising a constriction element and acoustic pressure transducers into a sound wave 2.

However, the known device is complicated in design and uses sophisticated equipment.

The aim of the invention is to simplify the device.

The goal is achieved by introducing a movable sound reflector with a displacement scale and a pressure gauge into the device. The outlets of the acoustic transducers are located in a plane parallel to the plane of the sound reflector, and the pressure gauge is connected to the input of one of the acoustic transducers.

The drawing shows a schematic diagram of a device for measuring the flow rate of a gaseous medium. It consists of a tapering device J, pipelines 2 and 3 of pneumatic resistances 4, acoustic transducers 5, a reflector of sound 6 with a displacement scale 7 and a pressure gauge 8 connected to the input of one of the acoustic transducers 5.

Re-pressure generated at the constriction device is transmitted through pipelines 2 through the inertia-resistance 4 and pipelines 3 to the acoustic transducers 5. The output ports of the acoustic transducers 5 are located in a plane parallel to the plane of the sound reflector 6, which allows to create parallel sound streams from both acoustic transducers 5 and equal lengths of the passage of sound waves.

With such a passage of sound waves, the frequency difference of which (frequency beats) increases with increasing flow rate and decreases with decreasing it, the resistance of the medium in the outlets of the acoustic transducers depends on the distance between the planes of the outlets and the sound reflector 6, as well as beating frequency of the sound signal.

To measure the flow rate of the gaseous medium, the sound reflector 6 is set in any position and the pressure at the inlet of the acoustic transducer 5 is measured. This measurement is an initial measurement. The reflector of sound 6 interleaves stepwise (or smoothly) and this distance and the pressure change at the input of the acoustic transducer 5 are simultaneously measured.

The pressure at the input of the acoustic transducer 5 corresponds to the definite position of the sound reflector 6. Thus, at different positions of the latter, the frequency of the sound wave, which, in turn, is proportional to the flow rate is determined.

A device for measuring the flow rate of a gaseous medium according to the magnitude of the beat frequency of a sound wave makes it easier to measure.

Claims (2)

1. Tsaytlin VG. Techniques for measuring the flow and quantity of liquids, gases and vapors, M. Publishing House of the Committee of Standards, Measures and Measuring Instruments under the USSR Council of Ministers, 1968, pp. 27-34, fig. 11-12. 2. The copyright certificate К ° 298827, CL G 01 F 1/66, 1969