RU173992U1 - UNDERGROUND PIPELINE CORROSION MONITORING DEVICE ON FLEXIBLE SUBSTRATE - Google Patents

Abstract

The utility model relates to the field of corrosion protection and can be used to determine the corrosion state of underground pipelines and evaluate the effectiveness of their protection. The device contains a flexible substrate on which individual indicators are placed, with the individual indicators covering the pipeline attached to the flexible substrate directly and the individual parallel to the pipeline indicators are attached on narrow flexible insulating substrates under each single indicator, the beginning of all single indicators they are electrically connected to a common conductor, the ends of a single indicator covering the pipeline are electrically connected to the information wires of the transverse corrosion of the pipeline, the ends of the individual indicators parallel to the pipeline are electrically connected to the information wires of the longitudinal corrosion of the pipeline. The device increases the accuracy of measurements by directly enclosing the pipeline with a flexible substrate with covering and parallel pipes single indicators, which is especially important when strong electromagnetic fields from external sources, ensures timely detection and prevention of accidents may occur due to increased corrosion, as well as simplifies the installation of the device in the pipeline. 2 ill.

Description

The utility model relates to the field of corrosion protection and can be used to determine the corrosion state of underground pipelines and evaluate the effectiveness of their protection.

Known multi-channel corrosion sensor of underground pipelines, containing a dielectric housing with a built-in measuring module, made in the form of a set of plates of different sections with the output windings placed on them and combining the magnetic circuit with the input winding (Utility Model Patent RU No. 98243, class G0lN 17/04, publ. 06/01/2010).

The main disadvantage of the device is the inability to measure the corrosion rate under the influence of fields from external electrical equipment in various directions with respect to the underground pipeline.

A device is known that contains a housing made in the form of separate loops, single indicators of the same material as underground metal structures, each indicator has a specific design diameter that provides a specified operating time from the moment it is installed in the ground until it is completely destroyed by soil corrosion, general conductor and information conductors of the contours, moreover, the dielectric casing is made in the form of three orthogonally located circuits, in the first circuit there are single landmark indicators along the direction of occurrence of the underground pipeline, in the second - across, and in the third circuit - vertically relative to the occurrence of the underground pipeline (Utility Model Patent RU No. 160685, class G01N 17/04, published March 27, 2016).

The disadvantage of this device is the low accuracy of corrosion measurements in the immediate vicinity of the surface of the pipeline when exposed to strong electromagnetic fields from external sources and the complexity of installing the device on the pipeline.

Closest to the claimed utility model, the device containing single indicators made of the same material as underground pipelines, each indicator has a specific design diameter that provides a specified time from the moment it is installed in the ground until it is completely destroyed by soil corrosion, a common conductor and information conductors circuits (Patent for utility model RU No. 167042, CL G01N 17/04, publ. 20.12.2016).

The device does not provide high measurement accuracy when exposed to strong electromagnetic fields from external sources in the immediate vicinity of the surface of the pipeline, leading to significant local damage and the occurrence of emergency situations on the pipeline due to increased corrosion, and also has a rather great difficulty when installing the device on the pipeline.

The technical problem solved by the proposed utility model is to increase the measurement accuracy by directly covering the pipeline with a flexible substrate with individual indicators covering and parallel to the pipeline, which is especially important when exposed to strong electromagnetic fields from external sources, ensuring timely detection and prevention of the possibility of emergency situations from due to increased corrosion, as well as to simplify the installation of the device on the pipeline.

The technical problem is solved in that in the known device containing single indicators made of the same material as the underground pipelines, each indicator has a certain calculated diameter that provides a predetermined time from the moment it is installed in the ground until it is completely destroyed by soil corrosion, common conductor and information conductors of circuits, a flexible substrate is additionally introduced, on which individual indicators are placed, and the individual indicators covering the pipeline are attached they are attached directly to the flexible substrate, and unit parallel indicators are attached to narrow flexible insulating substrates under each unit indicator, the beginnings of all unit indicators are electrically connected to a common conductor, the ends of the unit indicators covering the pipeline are electrically connected to the transverse corrosion information wires of the pipeline, the ends of the unit parallel to the pipeline indicators are electrically connected to the information wires of the longitudinal cor Uzia Pipeline.

The figure 1 shows the design of the device, the figure 2 presents a fragment of the placement of individual indicators of the device for monitoring corrosion of underground pipelines on a flexible substrate.

The device comprises a flexible substrate 1, single indicators enclosing the pipeline 2, attached to the flexible substrate 1, single indicators parallel to the pipeline 3, mounted on narrow flexible insulating substrates 4, single indicators are made of the same material as the pipeline, each indicator has a specific design diameter providing a specified operating time from the moment of its installation in the soil to complete destruction under the influence of soil corrosion, common conductor 5, information conductors echnoy corrosion conduit 6, the longitudinal conductors information corrosion pipeline 7.

The device operates as follows.

A corrosion monitoring device for underground pipelines on a flexible substrate is placed on the pipeline by embracing the flexible substrate 1 around the entire circumference and placed in the ground. The device is most convenient to place during the construction or repair of pipelines, especially in those sections of the underground pipeline, where the manifestation of strong electromagnetic fields from external sources, such as electric vehicles, substations, power lines, etc. Moreover, the entire circumference of the underground pipeline is covered by a flexible substrate 1 of the device. This achieves monitoring of corrosion under the influence of external electric fields along the entire circumference of the underground pipeline.

The single indicators 2 located on the flexible substrate 1 provide monitoring of corrosion over the entire covering surface of the underground pipeline from the effects of electromagnetic fields from external sources on the covering surface of the pipeline.

Located on narrow flexible electrically insulating substrates 4, unit 3 parallel indicators of the pipeline monitor corrosion along the longitudinal surface of the underground pipeline from the effects of electromagnetic fields from external sources on the longitudinal surface of the pipeline. Narrow flexible electrically insulating substrates 4 are mounted on the flexible substrate 1 of the device and provide electrical insulation between single indicators covering the pipeline 2 and single parallel to the pipeline indicators 3.

The various indicators leading to corrosion affect the individual indicators covering the pipeline 2 and the individual indicators 3 parallel to the pipeline, including the effect of stray currents from various electrical equipment and electric vehicles located in the zone of underground pipelines. These external influences lead to the appearance of variable, pulsed or constant electromagnetic fields acting on the underground pipeline and, accordingly, on the individual indicators covering the pipeline indicators 2 and the individual indicators parallel to the pipeline 3.

Given that these fields, as a rule, have uneven effects along the surface of the pipeline, they are often local in nature, which leads to uneven corrosion on the surface of the underground pipeline and significant local damage to its walls.

In this case, the single indicators covering the pipeline 2 monitor corrosion in the transverse relative to the pipeline direction of exposure to electromagnetic fields, stray currents from various electrical equipment and electric vehicles located in the zone of underground pipelines.

Single indicators parallel to the pipeline 3 monitor corrosion in the longitudinal direction of the exposure to electromagnetic fields, stray currents, etc.

Single indicators covering the pipeline 2 and single indicators parallel to the pipeline 3 are made in the form of wires of various diameters from the same material as the underground pipeline. First, the wire of a smaller diameter is completely destroyed, then the medium and larger diameters, etc.

When the destruction of a single indicator covering the pipeline indicators 2 is broken electrical contact between the common conductor 5 and the information conductors of transverse corrosion 6 of the pipeline.

When the destruction of a single parallel to the pipeline indicators 3 is broken electrical contact between the common conductor 5 and the information conductors of longitudinal corrosion 7 of the pipeline.

Measuring the conductivity between the common conductor 5 and the information wires of the transverse corrosion 6 and the information wires of the longitudinal corrosion 7 of the pipeline, we obtain information about the amount of corrosion in the transverse and longitudinal directions of the underground underground pipeline.

Thus, the device for monitoring corrosion of underground pipelines on a flexible substrate increases the accuracy of measurements due to the direct coverage of the pipeline with a flexible substrate with individual indicators covering and parallel to the pipeline, which is especially important when exposed to strong electromagnetic fields from external sources, provides timely detection and prevention of emergency situations due to increased corrosion, and also simplifies the installation of the device on the pipeline.

Claims (1)

Corrosion monitoring device for underground pipelines on a flexible substrate, containing single indicators made of the same material as underground pipelines, each indicator has a specific design diameter that provides a specified operating time from the moment it is installed in the ground until it is completely destroyed by soil corrosion, general conductor and information conductors of circuits, characterized in that a flexible substrate is additionally introduced into the device, on which individual indicators are placed, and The individual indicators covering the pipeline are attached directly to the flexible substrate, and the individual indicators parallel to the pipeline are attached to the narrow flexible insulating substrates under each individual indicator, the beginnings of all the individual indicators are electrically connected to a common conductor, the ends of the individual indicators covering the pipeline are electrically connected to the information wires of the transverse corrosion of the pipeline, the ends of a single parallel to the pipeline indicators electrically connected inens to information conductors of longitudinal corrosion of the pipeline.

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