RU2315266C1 - Vertical electromagnetic converter of a liquid meter - Google Patents

Abstract

FIELD: the invention may be used for definition of consumption of liquids with ionic conductivity polluted with ferromagnetic additives.

SUBSTANCE: inside of the measuring section of a pipeline there is a flow around body after which in the direction of motion of liquid there is a sensitive element in the shape of two electrodes whose signal goes to a block of processing of the output signal. At least one of the electrodes is put inside the measuring section of the pipeline and electrically isolated with a bushing. The length of the electric contact part of the electrode does not exceed the diameter of the pipeline. In the upper part of the pipeline nearby to the field of introduction of the electrodes there are outside two magnets of the magnetic system installed with the same poles in the direction of the longitudinal axle of the electrode introduced inside the measuring section.

EFFECT: the invention has increased reliability and low material capacity due to using of magnets of small power and dimensions.

1 dwg

Description

The invention relates to measuring technique and can be used to determine the flow rate of electrically conductive liquids in water, heat supply, energy, chemical, food, pulp and paper and other industries.

A device for measuring an electrically conductive liquid is known as a vortex electromagnetic flowmeter-liquid counter (RF patent No. 2142614, MKI G01F 1/32, publ. 10.12.1999), which includes a measuring section of a pipeline with a flow body, the longitudinal axis of which is perpendicular to the axis of the pipeline, a magnetic system located in the flow around the body or outside the measuring section, creating a magnetic field directed parallel to the longitudinal axis of the flow around the body, two electrodes, at least one of which is introduced into the controlled area inside tritar space and is oriented by the longitudinal axis parallel to the longitudinal axis of the body flow, the processing unit of the output signal. The electrode introduced into the controlled area of the tube interior is electrically insulated by the current-carrying part. The contact part of the electrode does not exceed the distance between the pole pieces of the magnetic system.

The disadvantage of this device is the deposition of mechanical ferromagnetic inclusions and corrosion products contained in the liquid on the walls of the pipeline in the field of action of the magnetic field. This affects the quality of the output signal of the flow meter, up to the complete inoperability of the device. Deterioration of signal quality leads to metrological failure of the device. This device is also characterized by a sufficiently large material consumption of the magnetic system.

A device for measuring the flow rate of electrically conductive liquid (RF patent No. 2137094, MKI G01F 1/32, publ. 09/10/1999), comprising a pipeline with a flow around it, two electrically isolated electrodes arranged in series behind the flow around, a third electrode connected with a pipeline, a magnetic system consisting of two magnets located with opposite poles on opposite walls of the pipeline parallel to the longitudinal axis of the body and electrodes, an output signal processing unit.

The disadvantage of this system is the location of magnets on opposite walls of the pipeline, which leads to the need to use sufficiently powerful magnets to create a magnetic field in the area of the contact part of the electrode, sufficient to form an acceptable level of the output signal, which also leads to an increase in the material consumption of the magnetic system and the device as a whole . Another disadvantage of this device is the accumulation of deposits of mechanical ferromagnetic inclusions and corrosion products contained in the liquid on the walls of the pipeline in the area of the magnet. This disadvantage affects all fluid flow measuring devices with ferromagnetic inclusions, in which the magnetic system has a magnet in the lower flow part of the pipeline. Such liquids include not only almost any liquid used in technological processes, but also ordinary drinking water. Ferromagnetic impurities (sawdust, shavings, scale, etc.) in the fluid flow due to their high density compared to the fluid density are located in the lower part of the internal section of the pipeline, which at low flow rates practically guarantees their capture by the magnetic field, created magnet located on the outside of the bottom of the pipeline. This affects the quality of the output signal of the flow meter and can lead to a complete loss of the device’s performance.

Closest to the claimed invention (prototype) is a device - a vortex flowmeter of liquids with ionic conductivity (see, for example, the book P.P. Kremlevsky. Flowmeters and counters of the amount of substance. Publishing house Polytechnic, St. Petersburg, 2004, p. 298-299; Mitin AM “VEPS; Current state of development prospects.” Materials of the 12th conference: Improving the measurement of flow of liquid, gas and steam. - St. Petersburg: Borey-Art, April 2002, p.214-222), containing a measuring section of a pipeline of non-magnetic material, a flow body installed in accordance with the diameter of the pipeline, an electrically insulated electrode introduced into the controlled area of the pipeline, an output signal processing unit, a permanent magnet mounted on the outside of the pipeline coaxially with the electric contact part of the electrode.

The location of the magnet in this device leads to the same disadvantages that are inherent in the device for measuring the flow rate of electrically conductive liquid (RF patent No. 2137094, MKI G01F 1/32, publ. 10.09.1999), this is the deposition of mechanical ferromagnetic inclusions and corrosion products contained in the liquid on the walls of the pipeline in the region where the magnet is located, especially in the region located behind the flow around the body in the lower part of the pipeline, which leads to a deterioration in the quality of the output signal of the flow meter, up to the complete inoperability of the device according to Ichin electric-circuit of the electrode on the wall of the conduit. This device is also characterized by a sufficiently large material consumption of the magnetic system.

The technical result provided by the present invention is to increase the reliability of the device, increase the life of the device, reduce the material consumption of the device.

The essence of the invention lies in the fact that in the device for measuring the flow rate of the liquid containing the measuring section of the pipeline, the processing unit of the output signal, the magnetic system, the body of the flow, installed in the inner space of the measuring section of the pipeline, and located behind it in the direction of movement of the liquid sensing element in the form two electrically insulated electrodes, at least one of which is inserted inside the measuring section and is made in the form of an extended body having an electric length the contact part, not exceeding the diameter of the pipeline in this section, and electrically insulated from the pipeline by a sleeve, part of which is located inside the pipeline, characterized in that the magnetic system consists of two magnets located in the upper part of the pipeline, which is closest to the electrode introduction region, installed outside the pipeline the same poles towards the longitudinal axis of the electrode inserted into the measuring section.

The use in the present invention of a magnetic system of two magnets located in the upper part of the pipeline closest to the electrode introduction region, installed on the outside of the pipeline by the same poles towards the longitudinal axis of the electrode introduced into the measuring section, leads to the following advantages with respect to the known analogue (prototype):

- elimination of the sticking of large and medium fractions of ferromagnetic inclusions and corrosion products to the walls of the pipeline at the locations of the magnets in the area of introduction of the sensing element - the electrical contact part of the electrode into the measuring section. This is due to the fact that ferromagnetic impurities in the fluid flow due to their high density compared to the density of the liquid are in the lower part of the internal section of the pipeline,

- more favorable conditions are created for washing away the ferromagnetic impurities by the fluid flow from the places of possible sticking of small ferromagnetic inclusions and corrosion products in the areas where the magnets are located. This is due to the fact that the zones of possible sticking of ferromagnetic inclusions in the device are located along the cross section of the pipeline outside the pipeline section located directly behind the flow body,

- reducing the material consumption of the magnetic system, due to the fact that in comparison with the prototype to create the magnetic field necessary to form an acceptable output signal level, the present invention uses magnets smaller in power and size,

- the exception of the short circuit of the electrode on the pipe wall of the measuring section in connection with the use of an insulator in the upper part of the electrode.

Figure 1 presents the proposed vortex electromagnetic transducer of the liquid meter in the plane of the longitudinal axis of the body flow around the cross section of the pipeline aa. The vortex electromagnetic transducer of the liquid meter contains a measuring section of the pipeline 1, a flow around the body 2 is installed along the diameter of the pipeline, electrodes are located behind the body around the flow, at least one of which is introduced into the controlled area of the measuring section of the pipeline and is made in the form of an extended body - rod 3, magnets 4, located in the upper part of the pipeline closest to the electrode introduction region and installed on the outside of the pipeline by equal poles towards the longitudinal axis 3 ektroda inputted into the measurement pipe section 1, the output signal processing unit 5, the sleeve insulator 6, a diametral axis of the pipeline 7.

Figure 2 presents the proposed vortex electromagnetic transducer of the liquid meter in the plane of the longitudinal axis of the body flow around in the longitudinal section of the pipeline. The vortex electromagnetic transducer of the liquid meter contains a measuring section of the pipeline 1, a flow around body 2, installed along the diameter of the pipeline, electrodes located behind the flow around the body, at least one of which is introduced into the controlled area of the measuring section of the pipeline and is made in the form of an extended body - rod 3, the processing unit of the output signal 5, the sleeve-insulator 6, the diametrical axis of the pipeline 7, the longitudinal axis of the pipeline 8.

The vortex electromagnetic transducer of the liquid meter operates as follows. The fluid flow with ionic conductivity, when passing through the measuring section of the pipeline 1, moves along its longitudinal axis 8 and interacts with the flow around body 2, rigidly fixed in the in-pipe space along the diametrical axis 7 of the pipeline 1. Periodic disruption of the Karman vortices on one side and on the other side of the body forms a double vortex path of Karman, which creates synchronous oscillations of the fluid propagating in a plane perpendicular to the longitudinal axis 8 of the pipe 1. Fluctuations of the fluid in a magnetically field generated by two magnets 4, induces in the sensor element 3, an alternating electrical signal. The signal from the electrodes enters the processing unit of the output signal 5.

Claims (1)

A vortex electromagnetic transducer of a liquid meter, which includes a measuring section of the pipeline, an output signal processing unit, a magnetic system, a flow body installed in the inner space of the measuring section of the pipeline and a sensing element located behind it in the direction of fluid motion in the form of two electrically insulated electrodes at least one of which is inserted inside the measuring section of the pipeline and is made in the form of an extended body having an electrical contact length part, which does not exceed the diameter of the pipeline in this section, and is electrically insulated from the pipeline by a sleeve, part of which is located inside the pipeline, characterized in that the magnetic system consists of two magnets located in the upper part of the pipeline, which are located near the electrode introduction region and are installed on the outside of the pipeline poles towards the longitudinal axis of the electrode inserted into the measuring section.

Images