RU207152U1 - DEVICE FOR MONITORING THE DIRECTION OF STAYING CURRENTS AND CORROSION OF UNDERGROUND PIPELINES - Google Patents

Abstract

The utility model relates to the field of corrosion protection and can be used to determine stray currents in the zone of underground pipelines. soil until complete destruction, the outer frame of single indicators, common and information conductors, while the outer frame is made circular with a radius equal to the length of the single indicator, the single indicators have the same cross-sectional area and are located along the diameters of the circumference of the circular outer frame evenly through a certain angle, beginning single indicators are connected to a common conductor, and the end of each single indicator is connected to the corresponding information conductor. The device increases the accuracy of determining the direction of flow of stray currents for timely detection and prevention of significant local damage leading to emergencies on the pipeline. 1 ill.

Description

The utility model relates to the field of corrosion protection and can be used to determine stray currents in the area of buried pipelines.

A device is known that contains single indicators made of the same material as underground pipelines, each indicator has a certain calculated diameter that provides a given operating time from the moment it is installed in the ground until 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 damages leading to emergencies on the pipeline and has a rather complicated technology of installation on the pipeline.

There is a known device for monitoring the 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, providing a given 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 installation technology.

The device for monitoring the corrosion of underground pipelines under the influence of stray currents, which is closest to the claimed utility model, contains single indicators made of the same material as underground pipelines with a design cross-section that provides a specified operating time from the moment of its installation in the ground to complete destruction, the outer frame of single indicators, general and information conductors (Patent for utility model RU No. 201504, class G01N 17/04, publ. 12/18/2020).

The device does not provide high accuracy in determining the direction of flow of stray currents relative to the protected underground pipeline for timely detection and prevention of significant local damage leading to emergencies on the pipeline.

The technical problem solved by the proposed utility model is to improve the accuracy of determining the direction of flow of stray currents relative to the protected underground pipeline for timely detection and prevention of significant local damage leading to emergencies 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 with a design cross-section that provides a given operating time from the moment of its installation in the ground until complete destruction, the outer frame of single indicators, general and informational conductors, the outer frame of the single indicators is made circular with a radius equal to the length of the single indicator, the single indicators have the same cross-sectional area and are located along the diameters of the circumference of the circular outer frame of the single indicators evenly through a certain angle, the beginnings of the single indicators are located in the center of the circular outer frame of the single indicators, the ends of the single indicators are located on the circumference of the circular outer frame of the single indicators, the beginnings of the single indicators are connected to each other and to a common conductor, the end of each single indicator is connected to the corresponding information conductor.

The figure shows the design of a device for monitoring the direction of stray currents and corrosion of underground pipelines.

The device contains single indicators 1, made of the same material as underground pipelines with a design cross-section that provides a given operating time from the moment it is installed in the ground until complete destruction, an outer frame of 2 single indicators, common 3 and information 4 conductors, outer frame 2 the single indicators are made circular with a radius equal to the length of the single indicator 1, the single indicators 1 have the same cross-sectional area and are located along the diameters of the circumference of the circular outer frame 2 of the single indicators 1 evenly through a certain angle, the beginnings of the single indicators 1 are located in the center of the circular outer frame 2 single indicators 1, the ends of the unit indicators 1 are located on the circumference of the circular outer frame 2 of the unit indicators 1, the beginnings of the unit indicators 1 are connected to each other and to a common 3 conductor, the end of each unit indicator 1 is connected to the corresponding information 4 conductor.

The device works as follows.

The device is located in the area of the underground pipeline, and the orientation of the device is maintained in a direction vertically upward relative to the earth's surface. This arrangement provides a determination of the direction angle of each unit indicator 1 of the device relative to the horizontal plane.

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.

The angle of the relative direction of each unit indicator 1 of the device is determined by the number of unit indicators 1. So with 24 unit indicators, the angle of the relative direction of each unit indicator 1 is 15 degrees relative to the neighboring unit indicator 1. currents relative to the protected underground pipeline.

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 in all directions relative to the protected underground pipeline.

Considering that these fields, as a rule, exert uneven effects in different directions relative 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 1, located at different angles relative to the protected underground pipeline, provide monitoring of the effect of stray currents and corrosion in the directions of single indicators 1.

This ensures the most complete monitoring of the effect of stray currents and corrosion in all directions of the flow of stray currents from various electrical equipment and electric vehicles located in the zone of occurrence of underground pipelines.

Single indicators 1 are made in the form of wires of the same cross-section from the same material as the underground pipeline.

Depending on the direction of flow of the most significant stray currents and under the influence of corrosion, it is precisely those single indicators 1, the direction of which coincides with the direction of flow of the most significant stray currents, are destroyed first.

When the single indicators 1 are destroyed, the electrical contact between the common 3 and information 4 conductors of the device is broken.

The direction of the destroyed single indicator 1 indicates the direction of the most significant stray currents and the greatest corrosion effect.

The proposed solution allows monitoring the direction of flow of stray currents and the greatest effect of corrosion in the range from 0 to 360 degrees with a small value of the discreteness of angular measurements, the value of which is determined by the number of single indicators used in the device 1.

On the basis of monitoring the direction of flow of stray currents and corrosion in the area where the pipeline passes, a warning signal is generated for the operational dispatch services to take preventive measures to prevent emergencies associated with damage to the integrity of the pipeline walls.

Thus, the device improves the accuracy of determining the direction of flow of stray currents relative to the protected underground pipeline for timely detection and prevention of significant local damage leading to emergencies on the pipeline.

Claims (1)

A device for monitoring the direction of stray currents and corrosion of underground pipelines, containing single indicators made of the same material as underground pipelines with a design cross-section that provides a given operating time from the moment it is installed in the ground until complete destruction, an outer frame of single indicators, general and informational conductors, characterized in that the outer frame of the single indicators is made circular with a radius equal to the length of the single indicator, the single indicators have the same cross-sectional area and are located along the diameters of the circumference of the circular outer frame of the single indicators evenly through a certain angle, the beginnings of the single indicators are located in the center of the circular outer single indicator frames, the ends of the single indicators are located on the circumference of the circular outer frame of the single indicators, the beginnings of the single indicators are connected to each other and to a common conductor, the end of each single indicator is connected to an appropriate information guide.

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