SU723431A1 - Method of monitoring liquid physical parameters - Google Patents

Description

(54) FUIC CONTROL METHOD

Claims (2)

PARAMETERS of liquid: In this case, a wave is excited in the wall in the form of a pulse of ultrasonic oscillations having a wide-spectrum high-frequency filling. When propagating along the wall, the spectral components of the impulse experience different attenuation depending on the propagation path and the physical parameters of the fluid, for example, on its density. With increasing distance or density, the components of the ultrasonic pulse often decrease more strongly. fluctuations with increasing density or path decreases. Passing a fixed path along the vessel wall, the ultrasonic wave is received and converted into an electrical signal. The reception and conversion are performed by the same transducer as the radiation, for example, a piezoelectric tape mounted on a refracting prism filled identical to the prism in the excitation zone of the wave. The received V5OLNU is converted into an electrical signal, which has the form of electrical pulses with high-frequency filling. To control the required physical parameter with a standard meter, the frequency characteristics determine the average frequency of the received pulse signals. With a direct proportionality between the recorded electrical actinics and density, it is advisable to determine the duration of several periods of the carrier pulse signals in their frontal part. When the monitored parameter is the level of the liquid in the tank, a wave is excited in the upper part of the tank at an angle to the vertical other than direct, and is received in the lower part of the tank. Claims The method of controlling the physical parameters of a fluid, such as density, is based on the excitation of one of the modes of a Lamb wave by obliquely introducing ultrasonic vibrations into the capacitance of a tank with a controlled fluid and receiving this wave mode after passing a fixed distance along the wall, characterized in that In order to increase accuracy, a broad-spectrum pulse of ultrasonic vibrations is introduced into the vessel wall and, according to the frequency of the carrier of the received pulse, a controlled parameter is judged. Sources of information taken into account in the examination 1. Brazhnikov N. I. Ultrasonic phase metering, M., Energie, 1968, p. 121,124. 2. USSR author's certificate N9 397814, 15.07.70, MKI Q 01 N 9/24 (prototype).