SU1610285A1 - Electromagnetic flowmeter - Google Patents

Abstract

This invention relates to instrumentation engineering and is intended to measure the flow rate of ionically conductive liquid media. The aim of the invention is to improve the speed and accuracy of flow measurement without increasing the frequency of the power flow conversion. The sum signal from the output of the electrodes 3 and 4 consists of the main component and transformer induction interference. Transformer interference is suppressed in the flowmeter device and the main component is separated from the sum signal. Transformer interference is suppressed in the absence of flow by moving the slider of potentiometer 6 to the optimum position. The selection of the main component is provided by short-term switching with the key 21 of the output of the amplifier-converter 12 with the storage device 22 in the intervals when the induction interference is close to zero. The consumption is judged by the indicators of the indicator connected to the output of the matching amplifier 23. 2 Il.

Description

the house of the first comparator 10 and through an electronic switch 15 with an inverting input 13, and through an electronic switch 16 - with a non-inverting input 14. The output of the first comparator 10 is connected to the control circuit 25 of the electronic switch 16 and to the input of the inverter 11, the output of which is connected to the control

out of phase with respect to the main component, 90 is provided by a compensation device with a stationary liquid by moving the slider 9 of potentiometer L to the optimum position. The signal enters the measuring circuit with the electrode 4 and the slider of the potentiometer 9 through the trans5

The transformer 7 provides a transition to an unbalanced gain circuit, which is produced first by the preamplifier 8 with a high input impedance and then by the converter amplifier 12. When the flow rate changes according to curve 31, the total signal at the output of the preamplifier 8 looks as on curve 34, and the components of the sum signal are shown by curves 32 and 33, respectively. At the same time, at the output of converter-amplifier 12, the signal is unipolar, i.e. pulsating (curve 35), which is provided by switching the total signal when its sign changes from positive to negative from non-inverting input 14 and inverting input 13 of the forcing generator 12, and control pulses for the key 16 are generated directly by the first comparator 10 and are supplied from it along the circuit 25 in the negative half-period together with the comparator 10 and the inverter 11 and are fed along the control circuit 26. When converting the signal, the condition of proportionality between its amplitude is maintained where mi and inlet. the output of the amplifier converter 12 in both half periods.

The selection of the main component from the sum signal is provided by short-term switching by an additional electronic key 21 of the output of the converter-amplifier 12 with the memory 22 at intervals when the induction interference is close to zero, which occurs every half-period when its sign changes. To control an additional electronic battery 21, an electrical signal is used, in phase with induction interference, which is produced by a magnetic flux sensor placed in the magnetic field of the flow converter. This control signal after the block of amplifier 18 is supplied to one of the diagonals of the diode bridge 19, to the other diagonal 28 of which a bipolar asymmetrical DC voltage is applied and to which the input 27 of the second comparator 20 is connected. Curve 36 shows the change in voltage at the input to comparat56

The torus 20, by changing the constant component of which sets the moments for switching on and off the storage device 22, i.e. the duration of the switching of the additional switch 2i, is shown on curve 37. Under the influence of pulses in the control circuit 29, the additional electronic switch 21 periodically switches the output of the converter converter 12 and the storage device 21, made in the form of a capacitor, which is charged to voltage, - coinciding with the amplitude of the ripple voltage at the output of the amplifier converter 12. Due to the large input resistance (several tens of Ω) the matching amplifier 23 provides close to hundred nnomu voltage on the capacitor until the next actuation of additional apektronnoGo key 21, which does not decrease prevsch1aet 1.0- 1.3% (in any type of voltmeter connected to the output 30 of the matching amplifier 23). Curve 38 shows that a constant voltage corresponds to a constant voltage, and a variable is close to a stepwise approximation of the real law of variation of the flow with a voltage on a lead 30, and its quantization, i.e. the transition from stage to stage occurs twice during the period of change in the supply voltage of the excitation windings 1 of the flow converter.

Claims (1)

Claims of the invention Electromagnetic flowmeter comprising an alternating current source connected to the excitation winding of a flow converter made in the form of a pipeline section with two electrodes, a preamplifier and a magnetic flux sensor connected to the amplifier, in order to improve the speed and accuracy of flow measurement without increasing the frequency of the flow converter power supply, the first and second comparators, an inverter, a converter amplifier, a matching amplifier, d Iodine bridge, first, second and third keys, memory, potentiometer and transformer, with the amplifier output connected to one short-circuit diode diagonals the bridge, to the other diagonal of which is connected a two-pole DC voltage source and a second comparator, the output of which is connected to the control input of the third key, the output of the preamplifier is connected via the first switch to the direct, and through the second switch to the inverting inputs of the amplifier; converter, the output of which through the third key is connected to a memory device and a matching amplifier, controlling , d 102858 the inputs of the first and second switches are connected respectively to the input and output of the inverter, the input of which is connected to the output of the first comparator, the input of the first comparator is connected to the output of the preamplifier whose input is connected to the secondary winding of the transformer, the primary winding of which is connected to the slider of the potentiometer and one of the electrodes, and the other electrode is connected to the terminals of the potentiometer. .9 flfCtK 3f tf: etfl