SU964454A2 - Contact-free induction flowmeter - Google Patents

Description

The invention relates to measuring the flow rate of electrically conductive fluid flowing in a pipeline by a non-contact induction method g and can be used in metallurgical, mining, chemical, energy and other industries.

According to the main author. St. W 805069 | θ known non-contact induction flow meters containing a phase-sensitive measuring circuit and a flow transducer · consisting of a measuring section of a non-magnetic pipeline and three toroidal sectioned windings; induction, measuring and compensation / placed on the measuring section of the pipeline coaxially with it. jq

The inductor winding is made up of six sections, two of which are located in the middle of the measuring section of the pipeline, the other two are located on the edges of the measuring section, interconnected according to, and the remaining two sections are located between each pair of extreme and middle sections, connected to four, specified sections counter.

The measuring winding is made of two sections connected in the opposite direction. ”Each section of the measuring winding is placed between a pair of middle sections and a pair of sections of the inductor winding.

Compensation winding consists of two counter-activated sections. The first section is located between the two middle sections of the inductor winding, and the second section is placed on top of one of the middle sections of the inductor winding.

In known non-contact flowmeters, the magnetic field in the region of the sections of the measuring winding is induced by two adjacent sections ^{: the} sections of the inductor winding with it and directed in one of the sections of the measuring winding to the axis of the measuring section of the pipeline, and in the second, from the axis. The components of the magnetic field in the region where the sections of the measuring winding are adjacent to the measuring section induce opposite directions in the transformer EMF [1].

Induced transformer EMF in the sections of the measuring winding are not the same in value, due to the following reasons; the sections of the inductor winding can never be strictly 'identical, therefore, the induced magnetic fields' of the sections of the inductor winding are also unequal in value, moreover, the sections of the measuring winding cannot be distributed exactly 5 symmetrically with respect to the magnetic fields of the adjacent sections of the inductor winding.

A disadvantage of the known non-contact induction flow meters is the difficulty to fully compensate for transformer EMF in the sections of the measuring winding. These uncompensated transformer EMFs create interference comparable with a useful signal for small values of conductivity and measured velocity. electrically conductive liquid medium, which degrades the sensitivity of the known non-contact induction. consumption of 20 measures and limits their application in ’speed and conductivity.

The purpose of the invention is to increase the sensitivity and expansion of the measurement region in terms of speed and conductivity, j, of the measured liquid media.

This goal is achieved by the fact that in the non-contact induction flow meter, on top of each section of the measuring winding, there is an additional - -, _n additional 'movable section connected in series with the measuring' section of the winding.

The drawing shows a General diagram of the proposed device.

The flow transmitter consists of 35 non-magnetic measuring section of the pipeline. 1, on which three toroidal sectioned windings are worn: induction, measuring and compensation. 40

Sections of the inductor winding 2-4 are connected in series, wound with a wire of the same cross section, powered by a source of periodic frequency, Sections 2 and 3 are the same. Sections 4 are identical to each other, and each separately is equal to half the number of turns and the length of section 3. Sections 4 are designed to create a law of distribution of the magnetic field of sections 3 similarly to sections 2, Sections 2 and 4 are included according to each other, but counter to sections 3 Such a connection of the sections of the inductor winding allows you to create in the area of the sections of the compensation winding sections 55 a magnetic field parallel to the axis of the measuring section of the pipeline, in the area of the sections of the measuring winding - a radial mag filament field. Moreover, in one of the sections of the measuring winding, the field is directed to the axis of the pipeline of the measuring section, and in the other “from the axis.

The sections of the compensation windings 5 and b are connected in series, * 65 * tany wires of the same cross section and the same number of turns ^ are connected in opposite directions. Section S is located in the center of the flow transducer, designed to compensate for errors introduced into the flow meter readings when the conductivity of the measured electrically conductive liquid medium changes. Section 6 is wound over one of sections 2 and is designed to compensate for transformer EMF in section 5, due to magnetic coupling with a pair of sections • 2 of the inductor winding.

The measuring winding consists of two pairs of sections 7 and 8 connected in series, wound with a wire of the same diameter, connected relatively. counter each other. Sections ^{1 to} 7, identical in design, are dressed directly on the pipeline of the measuring section. Additional measuring sections 8 are placed individually on top of section 7 and move freely along its surface. The measuring and compensation windings are connected to the measuring device 9.

With a stationary liquid inside the pipeline of the measuring section, moving sections 8 along the surface of sections 7 achieve complete compensation of transformer noise in the measuring winding.

when the fluid moves, an EMF proportional to the measured flow rate is induced in the measuring winding.

Due to its high sensitivity, the proposed non-contact induction flow meter is the most promising for monitoring and controlling the flow rate of aggressive conductive liquids and pulps with high abrasiveness and a tendency to precipitate in the energy, coal, chemical, metallurgical industries,

Claims (1)

The invention relates to the measurement of the flow rate of electrically conductive liquid media flowing in a pipeline by a contactless induction method. It can be used in the metallurgical, mining, chemical, energy, and other industries. According to the main author. St. No. 805069 are known non-contact induction flowmeters containing a phase-sensitive measuring circuit and a flow converter, consisting of a measuring section of a non-magnetic pipeline and three toroidal sectional windings: .. an inductor measuring and compensating one placed on the measuring section of the pipeline with it. The inductor winding is made of six sections, two of which are placed in the middle of the measuring section of the pipeline, the other two are placed on the edges of the measuring section, interconnected according to, and the other two sections are placed between each pair of extreme and middle sections, connected to four these sections are counter. The measuring winding is made of two sections connected in opposite,. Each section of the measuring winding is located between a pair of middle sections and a pair of inductor winding sections. The compensation winding consists of two, counter-included sections. The first section is located between the two middle sections of the inductor winding, and the second section is placed on top of one of the middle sections of the inductor winding. . In the known contactless flow meters, the magnetic flux in the area of the measuring winding sections is induced by two adjacent inductor winding sections and directed in one of the measuring winding sections to the axis of the measuring section of the pipeline, to the second one - from the axis. The components of the magnetic field in the region of the measuring winding sections, adjacent to the measuring section, induce in the latter transformer EMF of opposite directions 1. The induced transformer EMF in the sections of the measuring winding are not the same for the following reasons; the sections of the inductor winding are strictly identical to perform geo-possible, therefore, n. The magnetic fields of the inductor winding sections are also unequal in value, besides the measuring winding sections cannot be. Distributed strictly symmetrically with respect to the magnetic fields of the adjacent sections of the inductor winding. A disadvantage of the known non-active induction flow meters is the difficulty to fully compensate for the transformer EMF in the measuring winding section. These uncompensated transformer EMFs interfere with the desired signal at low values of conductivity and speed of the measured electrically conductive liquid medium, which degrades the sensitivity of known non-contact induction flow meters and limits their use in speed and conductivity. The purpose of the invention is to increase the sensitivity and expansion of the measurement area in terms of the speed and conduct of the measured liquid media. This goal is achieved by the fact that in a contactless induction flow meter, an additional mobile section is placed on top of each section of the measuring winding, which is connected in series in accordance with the section of the measuring winding. The drawing shows a general diagram of the device prior to paging. The flow converter consists. from a non-magnetic measuring section of the pipeline, 1, on which three toroidal partitioned windings are worn: inductor, measuring and compensating. The sections of the inductor winding 2-4 are connected in series, wired with a single cross section, fed from the source of the periodic frequency of Section 2 and 3 are the same. Sections 4 are the same among themselves, and each separately equals half of the number of turns and spins of section 3. Sections 4 are designed to create a law of distribution of the magnetic field of section 3 similarly to sections 2, Sections 2 and 4 are included according to each other, but oppositely with respect to sections 3. Taco connecting the sections of the inductor winding allows creating in the area of the compensation winding sections a magnetic field parallel to the axis of the measuring section of the pipeline, in the area of the measuring winding sections ole.pri it in one of the sections of the measuring field coil directed ESTATE measuring pipe axis ka, in another - from the axis. The sections of the compensation winding 5b are connected in series, the nimo tans with a wire of the same section and the same number of turns are connected oppositely to each other. Section 5 is located in the center of the flow transducer, designed to compensate for errors introduced in the flow meter readings when the conductivity of the measured electrically conductive liquid medium changes. Section b is wound over one of sections 2 and is intended to compensate for the transformer EMF in section 5 due to a magnetic coupling with a pair of sections; 2 inductor windings. The measuring winding consists of two pairs of sections 7 and 8 connected in series, wound with a wire of the same diameter, connected relative to each other. Sections 7. the same nor designs are worn directly on the pipeline of the measuring section. Additional measuring sections 8 are placed each separately over the section 7 and freely move along its surface. Measuring and compensating - the windings are connected to the measuring device 9. With a stationary liquid inside the pipeline of the measuring section, moving the sections 8 to the fineness of sections 7 achieve complete compensation of transformer interference in the mounting winding. when fluid moves, EMF is induced in the measuring winding, proportional to the flow rate being measured. Thanks to the high sensitivity ;. The proposed contactless induction flow meter is most promising for controlling and controlling the flow of aggressive electrically conductive liquids and slurries with high abrasiveness and a tendency to precipitate in the energy, coal, chemical, and metallurgical industries. Claims of the Contactless Induction Flowmeter according to the ed. St. No. 805069, in order to increase the sensitivity and expand the flow measurement area, an additional mobile section is placed on top of each section of the measuring winding, connected in series in accordance with the section of the measuring winding. Sources of information taken into account in the examination 1. USSR author's certificate f 805069, cl. G 01 F 1/58, 1978. n. 0 0 b