SU627343A1 - Electromagnetic flowmeter calibrating and testing method - Google Patents

Description

(54) METHOD OF CALIBRATION AND VERIFICATION OF ELECTROMAGNETIC

FLOWMETERS

Claims (1)

This invention relates to a technique for measuring flow using electro magnetic flux meters. There is a method of calibration and calibration of an electromagnetic flowmeter by measuring the distribution of magnesium koro flow meter field 1. The disadvantage of the method is the discreteness of measurement and the complexity of the device that implements the method leading to a decrease in reliability. In the proposed method, in order to increase the accuracy and reliability of calibration and verification, the measurement is carried out at the level lines of the surface weight function of the flow converter. FIG. 1 shows a device that implements the described method, with the induction coil unrolled on a plane; in fig. 2 - voltage converter. A device for calibrating electromagnetic flowmeters includes an induction coil 1 and a voltage converter 2 {FIG. one). The induction coil is made, for example, in the form of a flexible printed circuit board, the conductive layer 3 of which is made according to the line level of the surface weight function Wtj determined from the expression VJBwvdirjB w de, where is the volume bounded by the surface S of the induction coil; 5, W, V are the calculated values of the vectors of, respectively, magnetic induction, volume weight function and skrehgti flow in the volume calibrated by the flow rate, corresponding to volume f; BH is the normal induction component of the magnetic field on the surface of the SS; - the calculated value of the signal flow converter. The surface S may be located, for example, on the surface of the channel, in the median plane of the channel, etc. At points 4 and 5, the electrodes are located on the converter. The induction coil has output terminals b and 7. The voltage converter (Fig. 2) contains a zero-indicator 8, a mutual inductance coil 9, an adjustable current source 10 and an adjustable resistor 11. Input I of the voltage converter is connected to the output terminals L-7 of the induction catuyasi, and input II is connected to the power supply circuit of the flow meter of the calibrated flow meter. The output of the voltage converter is connected to the input of a measuring device of a calibrated flow meter. The device works as follows. The induction coil 1 is installed in the flow transducer channel of the calibrated flow meter along the channel surface so that the electrodes are located at points 4 and 5 of the spirals and the axis of the frame coincides with the axis of the channel. The input I of the voltage converter 2 is connected to the terminals b and 7 of the induction coil, the input II is connected to the current supply circuit 3 of the converter of the flow rate of the calibrated flow meter, and the measuring device of the calibrated flow meter is connected to the output. The power of the calibrated flow meter is turned on, in accordance with the predetermined 1M measurement limit O., the value T of the resistor I is set, calculated by the formula QM. -1 where M is the mutual inductance of the coil 9; d is the channel diameter of the calibrated flow meter; N is the total area of the turns of induction cat 1, (Fig. 1), which is determined upon certification of the coil; Sj / is the cross-sectional area of the channel of the calibrated flow meter. The current source 10 (Fig. 2) is adjusted so that the current 3 flowing in the primary winding of the mutual inductance coil 9 generates an emf in the secondary winding equal to the voltage e at the input 1 of the voltage converter. At the same time, e jtoMtt, and the voltage at the output of the voltage converter is equal to the proportional consumption of the component and the voltage on the electrodes of the flow converter rpajjyHpyeMoro running meter for a given flow rate Q, which allows tuning the measuring device to this n EMF, induced by. The case TV and body, in a coil, is equal to e, where is an averaged value of the normal component of the magnetic field on the channel surface; to is the angular frequency of the supply current. For a flat flow velocity profile Y, the signal of the flow converter, equal to the ratio of the voltage U to the current 3 of the flow converter supply, can be represented as GB "V. I GB"; k When the turns of the induction coil are arranged along the level lines on top of the weight function The flow transducer can be represented as and vde Q de QdM3 d wND 5 HjwJi Thus, using the described method, the flow meter can be calibrated and calibrated without the use of a flow meter. If the current source is designed in such a way that its transmission coefficient v) / tJ i can be determined, then with known R) M, d, N and & and O11 can be determined. The calibration characteristic of the conversion of flow bodies (I / I dependence on flow ). This provides control over changes in the internal characteristics of the flow transducer during operation and the possibility of calibration and calibration of the measuring device by reproducing the calibration characteristics of the flow transducer, which gives a significant economy. The cusk effect by eliminating the need to dismantle the flow transducer when the measuring device fails. The proposed method takes into account the distribution of the magnetic field over the entire surface S without discontinuities. The invention method of calibration and calibration of electromagnetic flowmeters by measuring the distribution of the magnetic field of the flow converter, characterized in that, in order to improve the accuracy and reliability of calibration and calibration, the measurement is performed on the level lines of the surface weight function of the flow converter. Sources of information taken into account in the examination: 1. USSR Author's Certificate No. 512382, cl. C 01 R 25/00, 1974. Put f