SU205356A1 - - Google Patents

Description

The known devices for determining the concentration of the suspension do not allow measurements of the size of particles suspended in it. To reduce the effect of particle size on instrument readings in imitations. Ultrasonic waves are used in devices that are much longer than the particle size, and the use of a low oscillation frequency requires a large distance between programming and transmitting elements. A distinctive feature of the described device is that the receiving and transmitting elements are installed at a distance equal to several wavelengths commensurate with the particle size. This allows the suspension concentration and the particle size to be simultaneously determined. The drawing shows the block diagram of the described device. The high-frequency voltage from the generator / is supplied to the transducer piezoelectric element 2, where it is converted into ultrasonic vibrations, which are introduced into a controlled suspension 5. After reaching the receiving piezoelement 4, the ultrasonic vibrations are converted into high-frequency deflection and fed through amplifier 5 and limiter and the first input of the phase meter 7. To the other input of the phase meter, through the phase shifter 8 and the limiter 9, the high-frequency voltage e of the generator is given /. The voltage IJ from the phase meter output is proportional to the concentration of the suspension. To obtain data on the particle size, the voltage Ll and the voltage from the output of the amplifier 5 are fed to the input of the multiplication unit 1, from the output of which the voltage U, is obtained is inversely proportional to the average particle size. The subject of the invention is an ultrasonic device for measuring the concentration of n average particle size of a suspension, comprising a generator of out-of-frequency oscillations, transmitting, receiving, piezotransforming, amplifier, limiters, phaser, actor, phase meter and unit of chemistry, characterized in that it simultaneously determines the concentration of particle size suspensions, receiving and transferring piezoelectric elements are installed at a distance equal to several wavelengths comparable to the particle size.