RU207171U1 - UNDERGROUND PIPELINE CORROSION DYNAMICS MONITORING DEVICE - Google Patents

Abstract

The utility model relates to the field of corrosion protection and can be used to determine the dynamics of corrosion of underground pipelines and assess the effectiveness of their protection. The device contains single indicators, the contours of single indicators are located horizontally, at a certain angle and vertically relative to the protected underground pipeline and are fixed on the outer frame, the beginnings of the single indicators of the circuits are connected to the common ones, and the ends with information conductors, the switch of the single indicators, the resistance meter of the single indicators, the resistance divider, the mode switch, the memory of the initial resistances of the single indicators, the resistance conductors, the corrosion assessment of the single indicators and control. All elements are made as a whole in a micromodular design and are placed in a waterproof and electrically insulating shell. The device increases the measurement accuracy by periodically measuring the current resistance values of single indicators and comparing them with initial values, assessing the magnitude and dynamics of corrosion of underground pipelines for the timely detection of significant corrosion damage. 1 ill.

Description

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

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 accuracy of measurements of the corrosion value, assessment of the dynamics of corrosion of underground pipelines for the timely detection of significant corrosion damage, leading to emergencies on the pipeline.

Known indicator device for monitoring the corrosion rate of underground pipelines, containing single indicators, common and information conductors of the circuits, the beginning of all single indicators are electrically connected to a common conductor, the ends of the single indicators covering the pipeline are electrically connected to the information conductors of the transverse corrosion of the pipeline, and the ends of the single indicators parallel to the pipeline are electrically connected to information conductors of pipeline longitudinal corrosion, flexible insulating centering element of pipeline transverse corrosion indicators has uniformly spaced holes, centering ends of single indicators covering the pipeline, flexible insulating centering element of pipeline longitudinal corrosion indicators has uniformly spaced holes, centering ends of single indicators parallel to the pipeline, insulating elements single indicators are placed at the intersection of the indicator a ditch of transverse and longitudinal corrosion of the pipeline, which pass through the fixing holes of the insulating elements of single indicators of a certain calculated diameter (Patent for utility model RU No. 200638, cl. G01N 17/04, publ. 03.11.2020).

The device does not provide high accuracy of measurements of the corrosion value, assessment of the value and dynamics of corrosion of underground pipelines for the timely detection of significant corrosion damage, leading to emergencies on the pipeline.

The device closest to the claimed utility model is 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 pipelines, each indicator has a calculated diameter that provides a specified operating time from the moment it is installed in the ground until complete destruction, the contours of single indicators 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 beginnings of the single indicators of the circuit located horizontally relative to the protected underground pipeline are connected to the first common conductor, the beginning of the single indicators of the circuits, located at a certain angle and vertically relative to the protected underground pipeline, are connected to the second common conductor, the beginning of the first and second common conductors are electrically connected to each other, the end s of the single indicators of a contour located horizontally are connected to the first information conductor, the ends of the single indicators of the contours located at a certain angle are connected to the second information conductor, the ends of the single indicators of the contours located vertically are connected by the third information conductor (Patent for utility model RU # 201504 , cl. G01N 17/04, publ. 12/18/2020).

The device does not provide high accuracy of measurements of the corrosion value, periodic measurement of the current resistance values of single indicators and their comparison with the initial values, assessment of the magnitude and dynamics of corrosion of underground pipelines for the timely detection of significant corrosion damage leading to emergency situations on the pipeline.

The technical problem solved by the proposed utility model consists in increasing the accuracy of the device by periodically measuring the current values of the resistances of single indicators and comparing them with the initial values, assessing the magnitude and dynamics of corrosion of underground pipelines for the timely detection of significant corrosion damage leading to emergencies on the pipeline.

The technical problem is solved by the fact that in a device for monitoring the dynamics of corrosion of underground pipelines, containing single indicators made of the same material as the pipelines, each indicator has a design diameter that provides a specified operating time from the moment it is installed in the ground to complete destruction, the contours of single indicators 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 the single indicators, the beginnings of the single indicators of the circuit located horizontally relative to the protected underground pipeline are connected to the first common conductor, the beginnings of the single indicators of the circuits located under a certain angle and vertically relative to the protected underground pipeline, are 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 the circuit pa located horizontally are connected to the first information conductor, the ends of the unit indicators of the contours located at a certain angle are connected to the second information conductor, the ends of the unit indicators of the contours located vertically are connected by the third information conductor, the first, second and third information conductors are connected through the first , the second and third conductors with the inputs of the switch of single indicators, the output of the switch of single indicators is connected to the first input of the resistance meter of the single indicators, the second input of which is connected to the base conductor connected to the first and second common conductors, the output of the resistance meter of the single indicators through the mode switch is connected to the memory of the initial resistances of the unit indicators, with the second input of the resistance divider and the resistance conductor of the unit indicators, the memory of the initial resistances of the unit indicators is connected to the first input of the divider I resistances, the output of the resistance divider is connected to the conductor for evaluating the corrosion of single indicators, the control conductor is connected to the control inputs of the switch, the mode switch and memory of the initial resistances of the single indicators, the base conductor, the conductor of resistances, the conductor for evaluating the corrosion of single indicators and the control conductor are placed in an insulating sleeve, all elements are made as a whole in a micromodular design and placed in a waterproof and electrically insulating shell.

Figure 1 shows the design of a device for monitoring the dynamics of corrosion of underground pipelines.

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 first 6, the second 7 and the third 8 information conductors through the first 9, the second 10 and the third 11 conductors are connected to the inputs of the switch 12 of the unit indicators.

The output of the switch 12 of the unit indicators is connected to the first input of the resistance meter 13 of the unit indicators, the second input of which is connected to the base conductor 14. The base conductor 14 is connected to the first 4 and second 5 common conductors.

The output of the resistance meter 13 of the unit indicators through the mode switch 15 is connected to the memory 16 of the initial resistances of the unit indicators, with the second input of the resistance divider 17 and the conductor 18 of the resistances of the unit indicators.

The memory 16 of the initial resistances of the unit indicators is connected to the first input of the resistance divider 17. The output of the resistance divider 17 is connected to a conductor 19 for evaluating the corrosion of the unit indicators.

The control conductor 20 is connected to the control inputs of the switch 12 of the unit indicators, the mode switch 15 and the memory 16 of the initial resistances of the unit indicators.

The base conductor 14, the resistance conductor 18 of the unit indicators, the conductor 19 for evaluating the corrosion of the unit indicators, and the control conductor 20 are located in the insulating sleeve 21.

All elements are made as a whole in a micromodular design and are placed in a waterproof and electrically insulating shell 22.

The device works as follows.

The device is placed on the pipeline, and the contour of single indicators, located horizontally, is located along the pipeline, and the contour, located vertically, is located across the pipeline.

After placing in the ground, the initial resistance value of each unit indicator is measured by applying a signal through the control conductor 20. The switch 12 of the unit indicators sequentially connects each unit indicator 1 to the resistance meter 13 of the unit indicator. As a result, the initial resistance of each single indicator is measured. These values through the mode switch 15 are written into the memory 16 of the original resistances of the unit indicators. As a result, the memory 16 stores the resistance values of the single indicators before the onset of corrosion.

During use, the individual indicators 1 are affected by various factors leading to corrosion. These factors tend to have irregular effects along, across and at an angle to the pipeline, resulting in uneven corrosion along the surface of the underground pipeline. In the process of corroding, corrosion forms on the surface of single indicators.

In this case, the cross-section of the metal part of the individual indicators decreases, which leads to an increase in the electrical resistance of the conductors.

Periodically, on a signal through the control conductor 20, the switch 12 of the unit indicators sequentially connects each unit indicator 1 to the resistance meter 13 of the unit indicator. The current resistance of each single indicator is measured.

On the divider 17 of the resistance, the growth of the current resistance of the single indicators 1 is calculated in relation to the values of the resistances of the single indicators before the onset of corrosion.

The values of the current resistance of the single indicators are fed from the resistance meter 13 through the mode switch 15 to the resistance divider 17, the resistance values of the single indicators before the start of corrosion are fed to the divider 17 from the memory 16 of the initial resistances of the single indicators.

As a result, a signal is formed at the output of the resistance divider 17, reflecting how much the resistance of the unit indicator has increased in relation to the initial value. The larger this value, the more corrosive this single indicator is.

With complete corrosion destruction of a single indicator, its resistance increases sharply and the signal reflecting how much the resistance of a single indicator increased in relation to the initial value becomes maximum.

Data is transmitted by means of conductors placed in an insulating sleeve 21.

All elements are made as a whole in a micromodular design and are placed in a waterproof and electrically insulating shell 22.

As a result, signals of the current values of the resistances of single indicators and signals for assessing the corrosion of single indicators by the ratio of the current resistances to the initial ones are formed on the conductors, which reflect the dynamics of corrosion and serve as warning measures for the timely adoption of preventive measures to prevent corrosive expansion of the pipeline.

Thus, the device provides an increase in the measurement accuracy by periodically measuring the current resistance values of single indicators and comparing them with the initial values, assessing the magnitude and dynamics of corrosion of underground pipelines for the timely detection of significant corrosion damage leading to emergency situations on the pipeline.

Claims (1)

A device for monitoring the dynamics of corrosion of underground pipelines, containing individual indicators made of the same material as the pipelines, each indicator has a calculated diameter that provides a specified operating time from the moment it is installed in the ground until complete destruction, the contours of the individual indicators 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 the single indicators, the beginnings of the single indicators of the circuit located horizontally relative to the protected underground pipeline are connected to the first common conductor, the beginnings of the single indicators of the circuits located at a certain angle and vertically relative to of the protected underground pipeline are 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 the contour located horizontally are are connected with the first information conductor, the ends of the single indicators of the contours, located at a certain angle, are connected to the second information conductor, the ends of the single indicators of the contours, located vertically, are connected by the third information conductor, characterized in that in the device the first, second and third information conductors are connected through the first, second and third conductors with the inputs of the switch of single indicators, the output of the switch of single indicators is connected to the first input of the resistance meter of the single indicators, the second input of which is connected to the base conductor connected to the first and second common conductors, the output of the resistance meter of the single indicators is connected through the mode switch with the memory of the initial resistances of the unit indicators, with the second input of the resistance divider and the resistance conductor of the unit indicators, the memory of the initial resistances of the unit indicators is connected to the first input of the divider resistances, the output of the resistance divider is connected to the conductor for evaluating the corrosion of single indicators, the control conductor is connected to the control inputs of the switch, the mode switch and memory of the initial resistances of the individual indicators, the base conductor, the conductor of resistances, the conductor for evaluating the corrosion of single indicators and the control conductor are located in the insulating sleeve, all the elements are made as a whole in a micromodular design and are placed in a waterproof and electrically insulating shell.

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