SU798492A1 - Apparatus for monitoring liquid levels - Google Patents

Description

(54) DEVICE FOR LEVEL ENVIRONMENTAL LEVEL CONTROL

on the wall of the tank. The value of about a corresponds to the speed CQ of the Lamb wave in the tank wall at temperature tjj

l b l

where L is the distance between the transmitter and receiver; - the delay of the signal in the acoustic pipeline and the receiver.

From the output of the delay line, a pulse is fed to the input of the time of the measuring unit 7 and opens it. After passing through the tank wall, ultrasonic vibrations that carry information about the controlled level of the liquid in the tank are received by the receiving acoustic transducer 3 and converted into an electrical impulse signal, which is fed to the amplifier 4 of the received signal. From the output of amplifier 4, the signal goes to the detector cascade 5 and to the 2nd input of trigger 7. As a result, the time of the measuring unit transitions to another stable state and a pulse of duration equal to the difference ut is formed at its output between the wave delay .o it along the tank wall from radiator 2 to receiver 3 and delay time 2 Q, as the velocity dependence of ultrasound in tank wall C follows the linear

C Wed- kt

where Cjj is the Lamb wave velocity at

temperature tg (corresponds to);

k - coefficient of proportionality;

then we can write the expression for the pulse duration at the output of trig, - l A b.lC L-K-tO

 1.0

C OlCo Kt l-Co

Lk

since C kt, it: i-tg- and 2

So on

Thus, a linear dependence of the duration of the pulse on the temperature of the bottom of the reservoir (liquid) is obtained.

The pulse D is fed to the integrating chain 8, where it is converted into a constant voltage proportional to the pulse duration. This voltage is applied to summing device 9, where it is summed

  enhanced and converted to

a constant voltage in the cascade 5 by the signal of the receiver 3, dependent on the level and on the temperature of the liquid.

The amplitude of the pulse and the sign of the output voltage of the integrable chain are set in such a way as to completely compensate for the temperature errors in determining the properties of the fluid in the reservoir, i.e. an increase or decrease in the information signal due to the effect of the temperature factor is compensated.

Claims (2)

1. USSR Author's Certificate No. 343155, cl. G 01 F 23/28, 1970 (prototype), 2.Vabikov O.I. Level control - using ultrasound. L., Energie, 1971, p. 61-72. V, X