RU137366U1 - ELECTROMAGNETIC FLOW METER - Google Patents

Abstract

An electromagnetic flowmeter comprising a housing, a terminal box, a measuring tube, on the outer surface of which a magnetic system is placed, consisting of two magnetic field excitation coils with cores, in the cross section of the measuring tube two diametrical openings are made in which two electrodes are installed, electrical wires from magnetic field coils and electrodes are led out into a terminal box, characterized in that stiffeners are placed on the outer surface of the measuring tube.

Description

The utility model relates to the field of instrumentation, in particular, to heat and flow metering and allows measuring the flow rates of electrically conductive liquid and coolant in pressure pipelines.

A known electromagnetic flowmeter comprising a housing, a terminal box, a measuring pipe with flanges at its ends, on the outer surface of which is a magnetic system consisting of two magnetic field excitation coils with magnetic cores, two counter-holes are made in diameter in the cross section of the measuring pipe in diameter, of which two electrodes are installed, while the electric wires from the excitation coils and electrodes are brought out into the terminal box; the measuring tube is made of two layers, the outer and inner, the outer layer is made of non-magnetic material, and the inner layer is of a chemically resistant non-conductive polymer material, the length of the inner layer exceeds the length of the outer layer, while the ends of the inner layer are flared and pressed to the flanges by means of pressure rings , RU 107859 U1.

The disadvantage of this flow meter is the dependence of its readings on the flow regime of the liquid in the measuring tube, and therefore it is necessary to use additional elements to stabilize the flow regime after flow perturbators - curved sections, in particular, a straight section of the pipeline must be in front of the flow meter.

A known electromagnetic flowmeter comprising a housing, a terminal box, a measuring tube, on the outer surface of which there is a magnetic system consisting of two magnetic field excitation coils with cores, two counter openings are made in diameter in the cross section of the measuring tube, in which two electrodes are installed, with the electrical wires from the magnetic field coils and electrodes are led out into the terminal box, the measuring tube consists of five sections: middle, two intermediate and the two extreme, the middle portion of the measuring tube has a flat inner surface at the place of installation of the cores of the magnetic field excitation coils and the cylindrical inner lateral surface, the intermediate portions of the flow tube extend outward from its middle portion and smoothly into the edge portions having a cylindrical shape; the cores of the magnetic field excitation coils have a rectangular or T-shaped cross-section, RU 122767 U1.

This technical solution, adopted as a prototype of this utility model, ensures the independence of the flow meter readings from the regime of fluid flow in the measuring tube

However, the weakness of this flowmeter is the lack of reliability. During installation, the device experiences stresses - compression, bending, and with increased pressure, the elements of the connection to the pipeline can be deformed, which will lead to loss of tightness and failure of the device.

The objective of this utility model is to increase the strength of the measuring tube and the durability of the device as a whole.

According to a utility model, in an electromagnetic flowmeter containing a housing, a terminal box, a measuring tube, on the outer surface of which there is a magnetic system consisting of two magnetic field excitation coils with cores, two counter openings are made in diameter in the cross section of the measuring tube in diameter, in which two an electrode, wherein the electric wires from the magnetic field excitation coils and the electrodes are led out to the terminal box; stiffeners are placed on the outer surface of the measuring tube.

The applicant has not identified any technical solutions identical to the claimed one, which allows us to conclude that the utility model meets the criterion of “Novelty”.

The essence of the utility model is illustrated by drawings, which depict:

figure 1 is a longitudinal section of a device;

figure 2 is a section aa in figure 1;

figure 3 is a front view of the measuring channel;

figure 4 is a section bB in figure 3;

figure 5 - section bb in figure 3.

The electromagnetic flow meter comprises a housing 1 made of plastic, a non-metallic terminal box 2 and a measuring tube 3. On the outer surface of the measuring tube 3 there is a magnetic system consisting of two magnetic field excitation coils 4, 5. Coils 4, 5 have cores 6, 7. Two counter openings are made in the cross section of the measuring tube, in which two electrodes 8, 9 are installed. Electrical wires 10 from the magnetic field excitation coils 4, 5 and electrodes 8, 9 are led into the terminal box 2 .

On the outer surface of the measuring tube made of plastic, stiffeners 11, 12 are formed, which allow to increase its stiffness and strength without increasing the wall thickness.

The device is mounted in a pipeline (not shown) and is in this case its section. The principle of operation of the device is based on the phenomenon of induction of electromotive force (EMF) in a conductor moving in a magnetic field created by coils, which is a measured liquid electrically conductive medium, in particular water. Water flowing through the pipeline also flows through the measuring pipe. EMF induced in the water moving in the pipe is proportional to the speed and, accordingly, the volumetric flow rate of water. EMF is perceived by electrodes 8, 9 and enters the electronic signal conversion and processing unit in terminal box 2.

Due to the fact that stiffeners are placed on the external surface of the measuring channel, the elements of the connection to the pipeline withstand heavy loads during installation without deformation of the channel.

Thus, as a result of the implementation of the features of this utility model, a technical result is achieved consisting in increasing the strength of the measuring tube and the durability of the device as a whole.

Claims (1)

An electromagnetic flowmeter comprising a housing, a terminal box, a measuring tube, on the outer surface of which a magnetic system is placed, consisting of two magnetic field excitation coils with cores, in the cross section of the measuring tube two diametrical openings are made in which two electrodes are installed, electrical wires from magnetic field coils and electrodes are led out into a terminal box, characterized in that stiffeners are placed on the outer surface of the measuring tube.

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