SU1696889A1 - Method of measuring ultrasound velocity distribution in liquid media - Google Patents

Abstract

The invention relates to acoustic measurements and can be used to measure the velocity distribution of ultrasound in non-uniform, in particular biological, liquid media. The purpose of the invention is to improve the measurement accuracy while reducing the destruction of the test medium during the movement of the measuring system. The measurement system, consisting of an electroacoustic converter and a cylindrical diffuser, is moved along a helix at an axial distance of no more than a base of measurements with a rotation of 90 °, and the backscattered signal is used as information. 1 il.

Description

The invention relates to acoustic measurements and can be used to determine the parameters of the structure of liquid media, in particular, biological.

The purpose of the invention is to improve the accuracy of measurements in inhomogeneous media by reducing the destruction of the medium when the measuring system moves when the maximum of the informative signal passes.

The drawing shows a diagram of the device for the implementation of the proposed method.

A device for implementing the method consists of a base 1 with a measuring chamber 2 with tags fixed on it, serially connected pulse generators 3, a switch 4, an electroacoustic converter 5, an amplifier 6 and a time interval meter 7, a diffuser 8 with a latch 9 and an indicator 10 of the position of the diffusor 8 in addition, the drawing shows the test environment 11.

The method is carried out as follows.

The transducer 5 is excited by the pulse of the electric voltage of the generator 3 through the switch 4. The ultrasonic pulse emitted by the transducer 5 propagates in a non-uniform fluid from the radiating surface, reaches the diffusor 8 and returns to the transducer 5 as a backscattered pulse. and after amplification on the meter 7 time intervals, by which the ultrasound velocity is determined. The diffuser can be made of thin metal wire and secured with the help of a clamp 9, and with the help of a calibration plate it is installed at a certain distance from the radiating surface of the converter 5. At the same time, 6

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with the condition of parallelism of the axis of the scatterer to the radiating surface.

To eliminate additional sources of interference, the length of the diffuser must completely overlap the ultrasonic beam, the width of which in the near field does not exceed the diameter of the piezoelectric element. The measurement base can vary from 1 to 10 mm or more, respectively, the number of measurements and the displacement of the piezotransducer 5 - diffractor 8 vary.

The measurement is carried out as follows. The transducer 5 is placed in the upper part of the medium inhomogeneity and the ultrasound velocity is measured. After that, the piezoelectric transducer 5 - the diffuser 8 is shifted down to a distance of no more than the base of the measurement while simultaneously rotating the piezoelectric transducer 5 and the diffuser 8 by 90 °. In this case, the reseller, the passage of an inhomogeneous medium, almost does not contribute to destruction, and the maximum of the back-scattered signal passes through a minimally disturbed medium. In this position, the following ultrasound velocity measurement is carried out. In this way, the entire liquid inhomogeneity is investigated. The position of the diffuser in the liquid is judged by the pointer 10.

From the measured ultrasound velocity values, the velocity distribution in non-uniform liquids is determined. The resulting dependency carries information about

structural distribution of inhomogeneous media.

Claims (1)

Invention Formula A method for measuring the distribution of the velocity of ultrasound in liquid media, which consists in the fact that an ultrasonic pulse is emitted into the test medium by means of an electroacoustic transducer receive the reflected ultrasonic pulse after passing through the medium under study, with a constant base of measurements they move the electroacoustic transducer and by changing the parameters of the received ultrasonic pulses depending on the position of the electroacoustic transducer they measure the ultrasound velocity distribution in the medium under study, characterized in that increase the accuracy of measurements in inhomogeneous media, in the near field of an electroacoustic converter place a cylindrical diffuser with a diameter at least an order of magnitude smaller than the ultrasound wavelength in the medium under study, so that its length overlaps the ultrasonic beam in diameter and the axis is parallel to the radiating surface of the electroacoustic converter moving the electroacoustic converter is carried out synchronously with the displacement of the diffuser by a helical displacement by an axial distance of not more than the base of measurements, when rotating by 90 °, and as The reflected ultrasound pulse uses a backscattered pulse. Yu-- e- - - w EE .V-.: / V ..-. /. fc-:.;:. -2  t t   . V-. . i .. ....:. i1 i- 7 7 i1 V