SU1462113A1 - Method of continuous check of field media level - Google Patents

Abstract

This invention relates to continuous monitoring of the level of liquid in tanks. The purpose of the invention is to improve accuracy. In the wall of tank 1, partially filled with liquid 2, one of the modes of the Lamb wave is excited above the fill boundary. With the help of an acoustic emitter 3. The wave is received by an acoustic receiver 4 located below the fill boundary. Input and reception of the Lamb wave; are reduced at angles to the surface of the liquid, other than 9.0 and 180 °. The controlled parameter is judged by the amplitude of the received oscillations. 1 il.

Description

The invention relates to continuous; fluid level control 1 in re | tanks and can find application ί in technological processes of hydrometallurgical, oil, food and other industries.

The purpose of the invention is improving accuracy.

The essence of the invention lies in the excitation in the tank wall, partially filled with liquid, above the filling boundary, of one of the “modes од Lamb waves, receiving it below this! boundaries in the wall of the tank so that ί input and reception of the Lamb wave is made | at angles to the surface of the liquid other than 90 ° and 180 °, and then measuring the amplitude of the received vibrations,! the value of which is judged on a controlled parameter.

The drawing shows a device: for implementing the proposed method.

The device consists of a tank !, partially filled with liquid 2, j of acoustic emitter 3 and acoustic receiver 4 located on the outer wall of tank 1 at: angles to the surface of liquid 2, from; personal from 90 ° and 180 °, the registration unit (not shown).

The device operates as follows from the obt wave in the material of the prism through which it is introduced into the wall, to the phase velocity of the Lamb wave.

The installation of transducers at an angle Θ with respect to the surface of the liquid other than 90 ° and 180 degrees gives an increase in the path of the ultrasonic wave along the wall of the reware between the emitter and the receiver by a factor of −τ-θ compared with the case of installing the transducers perpendicularly fluid surface. When · 15 changes the level of the medium by Λ1, the path of ultrasound along the part damped by the liquid changes to D1. '

D1 = - · yy - D1 = l (cosec9-1). sin0

2θ The area of medium covering the ultrasonic beam between the emitter and the receiver increases by 6S * = ai1 (cosec9-1), where a is the cross section of the ultrasonic beam. If 25 does not take into account the attenuation of ultrasound in the material of the tank wall, the sensitivity of the proposed method is -4-θ times greater than in the case ^ = 90 °

The registration unit of the signal removed from the receiver can be performed at once.

Using the acoustic ultrasonic emitter 3 in the wall of the tank 1, one of the modes of the Lamb wave is excited, which is received by the acoustic receiver 4 and converted into an electrical signal.

Change in the level of the amplifier, peak detector, low-pass filter, and indicator controlled in series

Claims (1)

Claim A method for continuously measuring the level of liquid media, which consists in exciting the medium in the tank in the tank wall, causing a change in the amplitude of the electric signal at the output of the acoustic receiver 4, which is monitored by the recording unit. Excitation and reception of waves. Lamb can be produced by converters mounted on the tank wall through prisms. • The input angle of the oblique-feeding beam of ultrasonic vibrations is set equal to the sine of the ratio of the propagation velocity of the ultrasound partially filled with liquid, above the fill line of the ultrasonic wave, receiving it below this boundary in the tank wall and measuring the amplitude of the received vibrations, the magnitude of which is used to judge a controlled parameter that differs in order to increase the accuracy, one of the modes of the Lamb wave is used as an ultrasonic wave, which is introduced and received at angles to fluid surfaces other than 90 ° and 180 °.