SU601577A1 - Acoustic level meter - Google Patents

Description

The invention relates to the field of measuring equipment. And it can be used to measure the level of liquid media in various fields of industry.

Acoustic level gauges are known that contain a generator, an emitter and .npnejMHUK acoustic oscillations 1. The level measurement results when using these devices depend on the physical parameters of the gas medium above the controlled medium.

Of the known acoustic signals; the level of frost closest to the technical essence is a contactless level gauge, which contains a capacitor connected to the measuring tube, an emitter acoustical) oscillator connected to the output of the generator 2.

A disadvantage of the level: the measure is insufficient measurement accuracy.

The purpose of the invention is higher; 1 point of measurement.

This is achieved by the fact that it is equipped with an additional com- pensation measuring tube with an emitter of acoustic oscillations connected to the output of the generator and two microphones, one of which is connected to serially connected demodulators, a pulse shaper, an electronic 1 KEY, a pulse counter and a digital indicator and the other, through an additional serially connected demodulator, pulse generator and control device, is connected to the electronic key.

The drawing shows a structural diagram of an acoustic level gauge.

An acoustic level gauge contains a generator / oscillating frequency, to the output of which acoustic emitters 2 and 3 are connected, installed respectively on from: measuring tubes 4 and 5, which carry out acoustic communication between microphones b and 7 and corresponding emitters. Microphone 6 with its output connected to

the input of the serial circuit consisting of the demodulator 8, the pulse suppressor 9, the electronic switch W, the counter //, the digital indicator 2.. Microphone 7 is connected to the input of the serial circuit by its output,

consisting of a demodulator 13, a pulse driver 14, and a control device J5, the output of which is connected to the input of the control circuit of the switch 10.

In the process, the level of oscillations at the generator output / periodically l3 ie ect is izleren. Variable frequency oscillations are simultaneously applied to emitters 2 and 3. In this case, in the process of changing the frequency of acoustic oscillations, standing waves arise in measuring tubes 4 and 5, which

characterized by an increase in amlituda iKolebiiy. Moreover, the number of frequencies at which acoustic standing waves (overtones) are formed in measuring tube 4 depends on the level of the liquid, and measuring tube 5 is designed in such a way that in yen in the entire frequency range, standing waves 1 can occur frequencies.

The distance in frequency between the overtones of tube 5 depends on the speed of sound in a gaseous medium, and consequently, on its physical properties. Demodulators 3 and 13 are used to separate the envelope from amplitude-modulated signals from microphone 6 and 7. Shapers 9 and 14 are designed to generate pulses from the envelope peaks. The control device 15 operates in such a way that when the first pulse arrives at its input, a signal is generated that opens the key 10, and when the second arrives, a signal that closes the 1 switch. Thus, the indicator 12 will be fixed (the number of impulses that passed after 1 switch 10 for the period between the first and second AND | M. pulses at the output of the driver 14 is proportional to the length of the unfilled portion of the measuring tube 5. The use of a compensation tube 5 is fixed length. permits measurement of the level regardless of the change in sound velocity in the gaseous medium.

Claims (2)

1. Authorship certificate USSR № 117806, cl. G 01 F 23/28, 1958. 2. USSR author's certificate No. 230448, CL. G 01 F 23./28, .1967.