RU201504U1 - UNDERGROUND PIPELINE CORROSION MONITORING DEVICE UNDER STANDING CURRENTS - 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 assess the effectiveness of their protection. The device contains single indicators made of the same material as underground pipelines, each indicator has a certain design diameter, providing a given time work from the moment of its installation in the ground until complete destruction, the contours of single indicators of a certain design diameter are located horizontally at a certain angle and vertically relative to the protected underground pipeline and are fixed on the outer frame along the common perimeter of the contours, the first and second common conductors, the first, second and third information conductors, the beginnings of single indicators are connected to common conductors, and the ends with informational. The device increases the measurement accuracy by additional measurement of corrosion from stray currents at a certain angle relative to the protected under of an earth pipeline for timely detection and prevention of significant local damages leading to emergencies on the pipeline, and simplifies the installation of the device on the pipeline. 1 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 assess the effectiveness of their protection.

A device is known that contains a housing made in the form of separate circuits, single indicators made of the same material as underground metal structures, each indicator has a certain design diameter, which provides a given operating time from the moment of its installation in the ground to complete destruction under the influence of soil corrosion, common conductor and information conductors of the circuits, and the dielectric body is made in the form of three orthogonally located circuits, in the first circuit, single indicators are oriented along the direction of the buried pipeline, in the second - across, and in the third circuit - vertically relative to the occurrence of the underground pipeline (Patent for utility model RU No. 160685, class G01N 17/04, publ. 03/27/2016).

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

A device is known that contains single indicators made of the same material as underground pipelines, each indicator has a certain design diameter, which provides a given operating time from the moment it is installed in the ground to complete destruction under the influence of soil corrosion, a common conductor and information conductors of the circuits ( Utility model patent RU No. 167042, class G01N 17/04, publ. 20.12.2016).

The device does not provide high measurement accuracy due to the lack of measurements at a certain angle relative to the protected underground pipeline for timely detection and prevention of significant local damage leading to emergencies on the pipeline and has a rather complicated technology of installation on the pipeline.

The closest to the claimed utility model is a device for monitoring corrosion of underground pipelines on a flexible substrate, containing single indicators made of the same material as underground pipelines, each indicator has a certain design diameter, which provides a specified operating time from the moment it is installed in the ground until complete destruction (Patent for utility model RU No. 173992, class G01N 17/04, publ. 09/25/2017).

The device does not provide high measurement accuracy due to the lack of measurements at a certain angle relative to the protected underground pipeline for timely detection and prevention of significant local damage leading to emergencies on the pipeline and has a rather complicated technology of installation on the pipeline.

The technical problem solved by the proposed utility model consists in increasing the measurement accuracy by means of additional measurement of corrosion from stray currents at a certain angle relative to the protected underground pipeline for timely detection and prevention of significant local damage leading to emergencies on the pipeline, and simplifying the installation of the device on the pipeline ...

The technical problem is solved by the fact that in a known device containing single indicators made of the same material as underground pipelines, each indicator has a certain design diameter, which provides a given operating time from the moment it is installed in the ground until complete destruction, the contours of single indicators of a certain of the calculated diameter are located horizontally at a certain angle and vertically relative to the protected underground pipeline and are fixed on the outer frame along the common perimeter of the contours of single indicators, the first and second common conductors and the first, second and third information conductors are introduced, the beginning of the single indicators of the circuit, located horizontally relative to the protected underground of the pipeline, connected to the first common conductor, the beginnings of single circuit indicators located at a certain angle and vertically relative to the protected underground pipeline, connected to the second common conductor, the beginning of the first and second common conductors are electrically connected to each other, the ends of the single indicators of the circuit located horizontally relative to the protected underground pipeline are connected to the first information conductor, the ends of the single indicators of the circuits located at a certain angle relative to the protected underground pipeline are connected to the second information conductor, the ends single indicators of circuits located vertically relative to the protected underground pipeline are connected by a third common conductor.

Figure 1 shows the design of a device for monitoring the corrosion of underground pipelines under the influence of stray currents.

The device contains single indicators 1, made of the same material as underground pipelines, each indicator has a certain calculated diameter, providing a given operating time from the moment of its installation in the ground until complete destruction, the contours of 2 single indicators of a certain calculated diameter, located horizontally under a certain angle and vertically relative to the protected underground pipeline, the outer frame 3, the first 4 and second 5 common conductors, the first 6, second 7 and third 8 information conductors, the beginnings of the single indicators of the loop located horizontally relative to the protected underground pipeline, are connected to the first 4 common conductor, the beginnings of the single indicators of the contours, located at a certain angle and vertically relative to the protected underground pipeline, are connected to the second 5 common conductor, the beginning of the first 4 and second 5 common conductors are electrically connected to each other, the ends of the single indicators to The structure located horizontally relative to the protected underground pipeline is connected to the first 6 information conductor, the ends of the single indicators of the contours located at a certain angle relative to the protected underground pipeline are connected to the second 7 information conductor, the ends of the single indicators of the circuits located vertically relative to the protected underground pipeline, connected by the third 8 information conductor.

The device works as follows.

The device is placed on the pipeline by means of its coverage, and the contour of single indicators of a certain calculated diameter, located horizontally, is placed along the pipeline, and the contour, located vertically, is placed across the pipeline, placed in the ground.

The device is located in those sections of an underground pipeline where strong stray currents from external sources, such as railroad electric vehicles, substations, power lines, etc. are possible.

In this case, the entire circumference of the underground pipeline is covered by single indicators 1 of a certain calculated diameter along, across and at a certain angle relative to the underground pipeline.

This achieves the measurement of corrosion in three directions relative to the pipeline: longitudinal, transverse and at a certain angle to its surface.

Single indicators 1 are affected by various factors leading to corrosion, including the effect of stray currents from various electrical equipment and electrical vehicles located in the zone of occurrence of underground pipelines.

These external influences lead to the appearance of alternating, pulsed or constant electromagnetic fields affecting the underground pipeline and, accordingly, single indicators 1 located along, across and at a certain angle relative to the protected underground pipeline.

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

At the same time, single indicators, located horizontally relative to the protected underground pipeline, provide corrosion monitoring in the longitudinal direction relative to the pipeline, the influence of stray currents, single indicators located at a certain angle relative to the protected underground pipeline provide monitoring of corrosion at an angle relative to the pipeline in the direction of the influence of stray currents, single indicators, located vertically relative to the protected underground pipeline, provide monitoring of corrosion in the direction of stray currents transverse to the pipeline. This ensures the most complete monitoring of corrosion in all directions of the flow of stray currents from various electrical equipment and electrical vehicles located in the zone of occurrence of underground pipelines.

Single indicators 1 are made in the form of wires of various diameters from the same material as the underground pipeline. First, the wire of smaller diameter is completely destroyed, then of medium and larger diameters. When single indicators are destroyed, the electrical contact between the common and information conductors is broken.

The destroyed single indicators 1, located horizontally relative to the protected underground pipeline, are determined by means of the first 4 common and the first 6 information conductors.

Destroyed single indicators 1, located at a certain angle relative to the protected underground pipeline, are determined by means of the second 5 common and second 7 information conductors.

The destroyed single indicators 1, located vertically relative to the protected underground pipeline, are determined by means of the second 5 common and third 8 information conductors.

The number of destroyed single indicators located horizontally relative to the protected underground pipeline determines the intensity of stray currents in the longitudinal direction relative to the underground pipeline, the number of destroyed single indicators located at a certain angle relative to the protected underground pipeline determines the intensity of stray currents at this angle, the number of destroyed single indicators, located vertically relative to the protected underground pipeline, determines the intensity of stray currents in the transverse direction relative to the underground pipeline. This ensures the most complete corrosion monitoring in all directions of the flow of stray currents.

Thus, the device provides an increase in measurement accuracy by additional measurement of corrosion from stray currents at a certain angle relative to the protected underground pipeline for timely detection and prevention of significant local damage leading to emergencies on the pipeline, and simplifies the installation of the device on the pipeline.

Claims (1)

A device for monitoring the corrosion of underground pipelines under the influence of stray currents, containing single indicators made of the same material as the underground pipelines, each indicator has a certain design diameter, which provides a given operating time from the moment it is installed in the ground until complete destruction, characterized in that the contours of single indicators of a certain design diameter are located horizontally at a certain angle and vertically relative to the protected underground pipeline and are fixed on the outer frame along the common perimeter of the single indicators, and the first and second common conductors and the first, second and third information conductors are additionally introduced into the device, and the beginning single indicators of a circuit located horizontally relative to the protected underground pipeline, connected to the first common conductor, the beginning of single indicators of circuits located at a certain angle and vertically relative but the protected underground pipeline is connected to the second common conductor, the beginnings of the first and second common conductors are electrically connected to each other, the ends of the single indicators of a circuit located horizontally relative to the protected underground pipeline are connected to the first information conductor, the ends of the single indicators of the circuits located at a certain angle, relatively to the protected underground pipeline, are connected to the second information conductor, the ends of the individual indicators of the contours, located vertically relative to the protected underground pipeline, are connected by the third information conductor.

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