DE2743954A1 - Inductive current meter to measure flow of liq. - uses two magnets and two electrodes outside pipe, and varies magnetisation of electromagnetic coil - Google Patents

Abstract

The liq. flows through an insulating pipe, (1). Two magnets (21, b) of which at least one is an electromagnet, generate magnetic field transverse to the pipe, and two electrodes inside the pipe collect voltage generated by charge drift. Magnetic field distribution in the flow cross-section, considered as stationary, is varied, and a signal is derived from the varying measurement voltages, corresp. to the flow to be measured. When the position of magnets and electrode relative to the pipe is fixed, effective magnetisation of the electromagnet is changed in order to obtain at least two measurement voltages.

Description

Method for measuring the flow of a liquid by means of

of an inductive flow meter The invention relates to a method for measuring the current of a liquid containing electrical charges which a pipe section made of electrically insulating material at least on the inside flows through, with a device, the two magnets, of which at least one is an electromagnet, to generate the current substantially diametrically opposite Has pipe section penetrating magnetic field and the decrease in measurement voltages has two electrodes influenced by charge shifts in the liquid, whose middle line connects the flow essentially diametrically to the pipe section and substantially perpendicular to the central line connecting the magnets interspersed, in which the spatial distribution of the magnetic field relative to the than spatially fixed viewed flow profile of the stream changed and from the changing measurement voltages a signal is derived that the to be measured Electricity.

There are methods known to form the magnetic field so that measurement errors - in particular due to a disturbance in the rotational symmetry of the flow profile the liquid - be as small as possible. For this purpose it is known to use the magnetic field the value vector field, which is created by the design and geometry of the pipe section and Electrodes is given to adapt. Using such a procedure is already out of general Complete error suppression is not possible for theoretical reasons.

It is known to provide more than two electrodes and those between to evaluate measured voltages tapped from different pairs of electrodes in such a way that that a measurement result that is as error-free as possible is achieved. These procedures are always more than two electrodes required and also relatively expensive electronic circuits. The large number of electrodes is particularly annoying, because Each of these electrodes can get dirty, leak and in their properties be affected by any aggressiveness of the liquid.

It is also known to use more than two magnets and the spatial one Distribution of the magnetic field relative to that which is viewed as spatially fixed Change the flow profile of the stream by changing the excitation of the individual Magnet changes. The measuring voltages tapped off by the electrodes become one Evaluation circuit supplied, which is to emit a measurement signal that is as error-free as possible. With this method there are always three or more magnets and thus the associated one Effort required.

The object of the invention is to provide a method of the type mentioned at the beginning indicate the usual, the preamble of claim 1 sufficient devices can be exercised, so without the expense of additional electrodes or additional Magnets, but still delivers a measurement result that is as interference-free as possible.

In particular, the method should be designed so that after him the known, the preamble of claim 1 sufficient simple devices can be retrofitted.

To solve this problem, the method is characterized in that that with a fixed arrangement of the magnets and the electrodes relative to the pipe section for Obtaining at least two measuring voltages the extent of the effective magnetization at least one of the magnets is changed.

In carrying out the teaching of the invention, all different effective magnetizations of the magnets measuring voltages supplied to an evaluation circuit and there by means of empirically obtained parameters to a practically trouble-free one Measurement result processed.

The method is preferably characterized in that for the extraction of the measuring voltages the magnetic field generated by the electromagnet in the liquid the strength and spatial distribution of the magnetic field generated by the other magnet in a known manner mirror-symmetrical with respect to the center plane between the Magnet made and switched to change its polarity and / or switched off will.

If the magnetic field generated by one of the electromagnets in its polarity would have to be changed with complete rotational symmetry of the flow profile the measuring voltage tapped off by the electrodes must be zero. If there is a deviation from the Rotational symmetry, this voltage is not zero, but provides a measure for the rotational asymmetry and thus for the error of the measuring voltage with the same direction Polarity of both magnets. If one of the electromagnets is switched off, the Electrodes, in turn, tapped a measurement voltage caused by disturbances of the rotational symmetry is dependent. That’s the one Current density in the vicinity of the excited Magnet larger than in a corresponding place near the switched off Electromagnet, the measuring voltage picked up by the electrodes is greater than In the opposite case. This is just an example to make it clear that in the event of a shutdown of one of the electromagnets also the measuring voltage tapped by the electrodes, as with opposing polarity of the magnets, deviations in the flow profile of the rotational symmetry and its position depends.

Both of these voltages can thus be used to correct the measurement voltage used by the electrodes with the same polarity of the magnets is tapped.

It goes without saying that this method can also be used in the state of equal polarity both magnets the magnetic field to the valence vector field in a manner known per se be adjusted. Thus, in particular, a short length in the longitudinal direction of the pipe section Magnetic field can be used. But it can also be in the longitudinal direction of the pipe section long homogeneous magnetic field can be used, as is also known.

To, without changing the device, the number of measuring voltages that can be used for correction, to enlarge, is preferred also the other Magnet designed as an electromagnet and is used to obtain further measurement voltages operated as explained for the first-mentioned electromagnet.

The invention is illustrated below using an exemplary embodiment Reference to the attached drawing explained.

The drawing shows schematically in cross section at least one inside made of electrically insulating material pipe section 1 and two electromagnets 2a, 2b for the production of a pipe section 1 which penetrates essentially diametrically Pipe section. Two electrodes 3a, 3b influenced by charge shifts in the liquid lie in such a way that their central connecting line X the flow essentially diametrically to the pipe section 1 and essentially at right angles to the central connecting line Y penetrated between the magnets 2a, 2b. The electromagnet 2a is immediate connected to a supply device 13. The electromagnet 2b is on the supply device 13 parallel to the electromagnet 2a via a polarity reversal switch 4 and a switch 5 switched. It is obvious that with appropriate modification of the circuit the Electromagnets can also be connected in series and that to change the excitation of the electromagnet 2a or the electromagnet 2b each have an additional winding can be provided on the electromagnet, the one for exciting the main winding causes opposite polarity excitation.

The electrodes 3a, 3b are connected to a signal amplifier 6, the output of which is connected to a signal switch 7. A clock 11 switches synchronously the polarity reversal switch 4 and the switch 5 to output channels of the signal switch 7, which lead to a signal memory 8 for polarity in the same direction of the electromagnets 2a, 2b to a signal memory 9 for opposite polarity of the electromagnets 2a, 2b and lead to a signal memory 10 when the electromagnet 2b is switched off.

The signals stored in the latches 8, 9 and 10 become processed in a correction circuit 12 by means of empirical parameters, so that a signal occurs at the output 14 of the correction circuit 12 which essentially of disturbances of the flow profile in the pipe section 1, in particular of deviations of the flow profile is free of rotational symmetry.

State of the art taken into account: DT-PS 1 295 223 DT-AS 1 963 901 DT-OS 2 103 895 DT-OS 1 648 143. ~ L e r s e i t e

Claims (3)

Method for measuring the current of an electrical Liquid containing charges, at least on the inside from electrically insulating material flowing through existing pipe section, with a device that two magnets, at least one of which is an electromagnet, to generate one having the current substantially diametrically to the pipe section penetrating magnetic field and for the decrease of measuring voltages two of charge displacements in the liquid has influenced electrodes, the middle connecting line of which the current essentially diametrically to the pipe section and essentially at right angles to the central connecting line interspersed between the magnets, in which the spatial distribution of the magnetic field changed relative to the flow profile of the stream, which is viewed as spatially fixed and a signal is derived from the measuring voltages changing in the process, which corresponds to the corresponds to the current to be measured, characterized in that in the case of a fixed arrangement the magnets and the electrodes relative to the pipe section to obtain at least two measuring voltages changed the amount of effective magnetization of the electromagnet will. 2. The method according to claim 1, characterized in that for extraction of the measuring voltages the magnetic field generated by the electromagnet in the liquid the strength and spatial distribution of the magnetic field generated by the other magnet substantially mirror symmetry with respect to the median plane between the magnets made and reversed to change its polarity and / or switched off. 3. The method according to any one of the preceding claims, characterized in, that the other magnet is designed as an electromagnet and to obtain more Measurement voltages according to claim 2 is operated.