SU445837A1 - Ultrasonic method of measuring fluid flow - Google Patents

Description

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I The invention relates to an ultrasonic instrument making, in particular to an ultrasonic measuring technique.

A known ultrasonic method for measuring fluid flow by emitting and receiving ultrasonic pulses with a periodic change in the direction of their propagation in a controlled medium downstream and downstream.

A disadvantage of the known ultrasonic pulse method of measuring the flow rate of a fluid based on the difference in the propagation time of acoustic pulses in the flow and against the FLOW is the strong dependence of the measurement results on the ultrasound velocity in the fluid, which is determined by the physical parameters of the fluid.

In order to reduce the influence of the properties of the controlled medium on the measurement results, the radiation of an acoustic transducer of a pulse along the flow is produced at the moment when an acoustic signal is transmitted to this inverter, which propagates I against the flow, and

pulse versus flow - at the moment of arrival of this transducer of an acoustic signal going downstream, the difference in the pulse propagation time is measured and measured.

The method is explained in the drawing.

A device that implements the method contains generators 1, 2, pulses, acoustic transducers 3, 4, amplifiers 5, 6 signals, trigger 7, integrators 8, 9 and load element 1O

The generator 1 generates a pulse, exciting transducer 4, which emits an ultrasonic pulse in a controlled environment downstream.

At the same time, the pulse from generator 1 is fed to one of the inputs of trigger 7 and translates it into the first steady state.

The acoustic signal received by converter 3 and amplified by shaper 5 is sent to generator 2, which excites converter 3, forcing it to emit an ultrasonic pulse into the controlled medium against the flow.

From generator 2, a pulse simultaneously arrives at the second input of the trigger 7 and transfers it to the second steady state.

Thus, an impulse will arrive at the integrator 8, the duration of which is proportional to the distance between the converters 4 and 3 along the flow through the acoustic signal, and opposite the flow at the integrator.

The difference in the output voltages of the integrators allocated to the load cell 1O is a measure of the flow rate.

Subject invention

Ultrasonic method of measuring fluid flow by radiation and reception

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ultrasonic pulses, with a periodic change in the direction of their propagation in a controlled medium downstream and upstream, characterized in that, in order to reduce the influence of the properties of the controlled medium on the measurement results, the acoustic emission of a pulse downstream by the acoustic transducer is effected signal

against the flow, and the radiation of the pulse against the flow at the moment when the acoustic signal arriving at this converter goes through the flow,

The difference in pulse propagation time is measured and measured.

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