SU1352375A1 - Device for measuring thin structure of liquid flow speed - Google Patents

Abstract

The invention relates to the field of hydrophysical measurements. The purpose of the invention is to improve the measurement accuracy. The device contains converters 1 and 2, generator 3, amplifier 4, multiplier 5, local oscillator 6, time signal selection block 7-- often tomers 8 and 11, pulse generator 9, amplifier 10, arithmetic unit 12, and recorder 13. Introduction of new elements and the formation of new connections between the elements of the device allows eliminating the influence of the meter's own motion. 1 silt PG & sh w

Description

The invention relates to hydrophysical measurements and can be used in the study of structures. microcurrents tours in the ocean.

The aim of the invention is to improve the measurement accuracy by eliminating the influence of the intrinsic motion of the meter.

The drawing shows a block diagram of the device.

The device contains two coax. electro-acoustic transducers 1 and 2 (for example, piezoelectric), whose centers are located at one point. Converter 1 is connected to the output of the pulse generator 3 and the input of the resonant amplifier 4. The generator 3 includes a filling frequency generator f, stabilized by quartz, a driver of radio pulses

and amplifier

power (not shown). The output of amplifier 4 is connected to the input of the multiplier 5, to the second input of which is connected a heterodyne. stabilized by quartz.

The frequency f of the local oscillator 6 is related to the frequency f, the ratio, is the maximum value of the Doppler frequency shift f). The output of the multiplier 5 is connected to the input unit 7 of the time selection signal, the output of which is connected to the input of the frequency meter 8. The time selection unit 7 contains a low-pass filter that selects signals with frequencies not exceeding 2 Fa "ci cJ key designed to receive samples from received sig2L / tnal with delay t. (. where 5QA C

distance from transducer 1 to measuring volume; C is the speed of sound in a liquid), and the integrator is designed to restore the sample signal of the frequency f / lais + FOI (key and integrator not shown). The transducer 2 is connected to the pulse generator 9 and the input of the resonant amplifier 10. The generator 9 includes a frequency generator fjj of the filling stabilized by a quartz, a pulse shaper of duration and power amplifier (not shown). The amplifier input 10 is connected to the input of the frequency meter 11 The outputs of the frequency meters 8 and iI podklig

five

0

five

0

five

0

The inputs to the arithmetic unit 12, the output of which is connected to the recorder 13.

The device works as follows.

The transducer 1 emits a sequence of ultrasonic pulses of duration C with a filling frequency f, and at the same time the transducer 2 emits an ultrasonic pulse of duration f with a filling frequency f. Since the transducers are coaxial and located in the i-plane, radiation is emitted in one direction and from one point. Backscatter signals are received by trans. by the distributor G in the interval between the radiation of pulses of duration O, and by converter 2 after the termination of the pulse of duration O. The received signals are amplified by resonant amplifiers 4 and 10, respectively. Frequency meter 11 determines the value of the frequency f2 + Fa, the signal amplified by amplifier 10, which enters the computing device 12. The multiplier 5 multiplies the signal from the output of amplifier 4 and the signal of the local oscillator 6. In block 7, the time selection is filtered the output of the multiplier 5, the sample values corresponding to the specified measurement volume, and recovery, for these samples of the frequency signal,. Frequency meter 8 determines the value of the frequency Shchmais T l which enters the computing device 12. In the computing device 12, the values of F and F are determined, and the value of the scoop is calculated

growth V from the ratio

V (llL,

111), p

wherein the values of f, fj are pre-entered into the computing device (micro-computer).

The measured value of the local fluid velocity V relative to the average flow velocity, which determines the fine structure of the velocity, is recorded by means of the recorder 13.

Claims (1)

Formula invented A device for measuring the fine structure-velocity of a fluid, containing the first electroacoustic transducer connected to the output of the first pulse generator and the input of the first resonant amplifier, the output of which is connected to the first input of the multiplier, the local oscillator is connected to the second input, and the input of the time selection unit whose output is connected to the input of the first frequency meter, different the fact that, in order to improve the measurement accuracy, a second electro-acoustic transducer was inserted in the device, covering the first transducer installed with it into one plane soosSostavitel A.Timofeev Editor I.Rybchenko Tehred A.Kravchuk Order 5560/43 Circulation 776 Subscription VNISh State Committee of the USSR for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5, Production and printing company, Uzhgorod, st. Project, 4 23754 but it, the second pulse generator, the second resonant amplifier, the second frequency meter and the computing unit, the second electro-acoustic converter is connected to the output of the second pulse generator and to the input of the second resonant amplifier, the output of which is connected to the input of the second frequency meter, the output of the last unit, to the second input of which the output of the first frequency meter is connected, while the duration C of the pulses of the first generator is connected ten 15 with a duration of 2 pulses of the second generator by the ratio g, " g Proofreader I. Muska