SU648840A1 - Electromagnetic rate-of-flow meter - Google Patents

Description

I

This invention relates to flow measurement by electromagnetic flow meters.

Electromagnetic flowmeters are known that contain a flow transducer including an electromagnet and a pipe section with electrodes, an input amplifier, a quadrature interference compensation unit, a band-pass filter, a phase-sensitive detector / synchronous Detector, a switching signal generator, a frequency controlled oscillator, an electromagnet power amplifier, a reference signal unit and indicator device. LIJ. One output of the flow converter is connected via an input amplifier, a band-pass filter and a phase-sensitive detector with an indicator device, and the other is connected via a quadrature-compensating block of quadrature interference connected to the output of the switching signal generator to the input of a band-pass filter. Another output of the switching signal generator is connected to the reference input.

a synchronous detector, the signal input of which is connected to the output of the phase-sensitive detector, and the output to the input of a frequency controlled oscillator. The output of this generator is connected via an electromagnet power amplifier and a reference signal unit with an electromagnet winding to convert the flow rate. At the same time, the output of the reference signal unit is connected to the reference input

phase sensitive detector.

A disadvantage of the known electromagnetic decoder is the occurrence of a significant measurement error due to a decrease in the goat {) length

transmission of a band pass filter with significant detuning of the generator frequency and phase detuning in the measuring path, owing to the limb

phase builds.

The aim of the invention is to increase the measurement accuracy of the travel to fit the error in the compensation

significant rystroyek frequency w phase in vzmervtelvom path.

This is achieved by the fact that the input of the bandpass filter is connected to the output of the op signal block, and the output to the reference input of the phase-sensitive detector, and the signal input of the phase-sensitive detector is connected to the output of the input amplifier.

In this case, the change in the transmission coefficient of the bandpass filter for the measurement accuracy of the flow rate is practically completely excluded, since the output sinusoidal filter voltage that is varied during compensation of detunings is used in the synchroine detector unit as a meander reference voltage of standard amplitude, the threshold of the corresponding curve is formed. can easily be chosen small enough.

At that. At the same time, the efficiency of the automatic phase adjustment system is completely cated, since the transmission coefficient of the synchronous detector depends on the phase difference between the input and reference voltages, regardless of which phase is adjusted to maintain fine tuning.

The drawing shows a flowchart of the flow meter.

The flow meter contains a flow converter 1, consisting of an electromagnet and a pipeline section with electrodes, an input amplifier 2i quadrature disturbance compensation unit 3, a band-pass filter 4, a fuzzach detector 5, an indicator device 6; a synchronous detector 7, a collision signal generator 8, a frequency controlled oscillator 9, a magnet power amplifier 10 and a reference signal block 11.

The flow meter works as follows.

The voltage between the electrodes of the converter 1, which contains the useful component and kVA, is applied to the input amplifier 2. From the amplifier output, the signal goes to the phase-sensitive detector 5, the reference signal of which is formed from the output voltage of the bandpass filter 4. The input voltage of the latter goes from unit 11, generating a signal in phase with the power supply current of the electromagnet.

To fine tune the oscillator 9 frequency to the filter 4 tuning frequency, the quadrature disturbance compensation level in block 3 periodically changes with the help of oscillator 8. At the output of the synchronous detector 7, changes in the reference signal for which are matched with the beat of the quadrature noise level change in block 3, the increment it is allocated only if the filter 4 is not tuned exactly to the frequency of the electromagnet. The signal at the output of the detector 7 is used to adjust the frequency of the generator 9.

Claims (1)

1. Copyright certificate №462085, cl. (01 F 1/64, 1973.