SU572653A1 - Method of ultrasonic testing of level gauges - Google Patents

Description

The structure contains several display systems according to the number of controlled zones.

The essence of the proposed method of calibration of level gauges is as follows. The calibrated level gauge is installed in the level gauge 1.

When the pump 18 is turned on, the liquid is supplied to the level gauge 1. When the liquid level reaches the region A of the ultrasonic wave propagation (action) from the radiator 5 to the receiver 8, a sharp attenuation of the wave occurs along the vessel wall. When the receiver 8 signal is weakened, the normalizing cascade 11 generates an electrical signal, which enters the control unit 12 and the automatic regulator 13 of the speed of movement of the liquid level. From the automatic regulator 13, the signal enters the actuator — a valve 15 with a larger cross section, which closes, and a valve 14 with a smaller cross section opens. At the same time, at a low speed, the liquid level is brought to the region B of the average wave propagation.

The signal of the receiver 7 in this zone is sharply attenuated, and this attenuation in the normalizing cascade 10 generates a control signal, which on the console turns on the level indication and briefly stops the drive 20 of the pump 18. This compares the readings of the device and the sensor being turned and determines the simplicity last one.

After this stop, the level continues to the next similar system and the display, where operations similar to those described are performed.

After reaching the upper system, a reverse stroke is performed (level down).

By reducing the level of the liquid to the region In action of the upper wave in the zone of the system check, the signal of the receiver 7 increases. From the amplitude-amplified signal, the normalizing cascade 9 generates a signal with which the automatic controller 13 closes the valve 17 with a larger cross section and opens the valve 16 with a smaller cross section. The exact setting of the control points here is also made by the signal generated by the normalizing cascade 10 from the bending wave in the region B of the main wave propagation.

Thus, from additional waves in areas A and B, pulses are formed to slow down, respectively, the rise and fall of the liquid level as it approaches the area A of the action of the main wave. At the same time, the exclusion of the mutual influence of the excitation regions A and B and the regions B and C is achieved by the fact that the additional bending waves B of the regions A and B excite counter-and equidistantly the main wave in region B.

Claims (2)

Invention Formula Ultrasonic method of calibration of level gauges, based on radiation and reception of ultrasonic vibrations and determining the presence of liquid in the controlled area by changing the amplitude of the received ultrasonic wave by entering the signal level in the zone of the signaling level into the vessel wall with the controlled liquid, parallel to its surface, the ultrasonic wave whose trace speed input surfaces are set equal to the velocity of propagation of the bending wave in the wall, and using the amplitude of the ultrasonic waves propagating in it As an informative signal, characterized by the fact that, in order to increase accuracy and decrease the variation of indications, additional bending waves are introduced into the vessel wall above and below the controlled area, they are directed oppositely and equidistantly to the main bending wave, After passing through a fixed path along the vessel wall, they are converted into electrical signals, at the time of a sudden change in their amplitude, control pulses are generated from them and, by acting on them, A change in the level of the liquid is slowed down as it approaches the region of propagation of the main bending wave. Sources of information taken into account in the examination 1- Copyright certificate number 256300, to the t. G 01F 23/28, 1967. 2. Copyright certificate № 333410, cl. G 1 OF 23/28, 1970. 000 Ж1Ш