KR20180066525A - The cladding damage detection system of pipes buried underground - Google Patents

Abstract

The present invention relates to a cladding damage detection system of an underground buried pipe, which can accurately detect a damage point of a pipeline cladding by operation of an alarm generating unit without checking a display screen of a terminal when there is an error in a measured potential value. The cladding damage detection system comprises: a detection stick (10) for detecting a potential difference of cathodic protection of an underground-buried pipeline (1) using a lower electrode (11) of the stick; and a terminal (20) having an amplifying unit (21) for amplifying a signal detected by the detection stick (10), a signal processing unit (22) for removing noise of the amplified signal and restricting and processing an inputted signal, an A/D converting unit (23) for converting the processed detection signal into a digital signal, a control unit (24) for calculating and analyzing a current value applied to the pipeline (1) by analyzing information converted into the digital signal and for displaying the degree of damaged cladding of the pipeline, a memory unit (25) for storing the information processed in the control unit (24), a display unit (26) for displaying the information processed in the control unit (24) into graphic images, and a power supply unit (27) for supplying electric power to the units. The detection stick (10) and the terminal (20) are connected by cable, and the detection stick includes an alarm generating unit (12) for generating a signal.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a cladding damage detection system,

More particularly, the present invention relates to a system and method for detecting damage of a covered pipe in an underground buried pipe, and more particularly, Even when the display screen of the terminal is not confirmed, the alarm generating unit is activated so that the damage point of the pipe covering can be accurately grasped.

In general, gas pipes, oil pipelines and water supply and sewage pipes buried underground are covered with outer surfaces of pipes to prevent corrosion. However, when corrosion occurs due to the external environment, Which causes a serious disaster such as environmental pollution or human accidents.

Therefore, in order to prevent the leakage of the gas by detecting the coating damage of the pipe in advance, a buried pipe covering damage detector for indicating the covering condition of the buried pipe or generating a danger signal is used.

However, in general buried pipe covering damage detection work, the worker moves while sticking the bottom of the road to the electrode of the detection stick, and when the electric current flowing through the pipe collects at the damaged part of the coating, the potential difference with the reference electrode is judged, And the detection stick is used for both hands while viewing the display screen of the terminal when moving. Therefore, the working method is not only inconvenient, but also the moving speed is decreased and the work efficiency can not be improved.

In the prior art, Patent No. 10-0734923 entitled "Piping Corrosion Measuring Device and Cover for Piping Corrosion Measuring Device" (Prior Art 1) and Published Japanese Patent Application No. 10-2016-0060304 "Apparatus for Measuring Pipe Cladding Damage Ratio and Piping Corrosion Judgment Using Such Device Method "(prior art 2) has been proposed.

The prior art 1 discloses a piping corrosion measurement device comprising a test case, a lid covering the test case, a measurement part installed in a space formed by the test case and the lid, and an antenna connected to the transceiving part of the measurement part Wherein the cover is formed with grooves extending laterally from the through holes and the through holes and the grooves are filled with fillers and the antenna passes through the through holes and is positioned in the filling material of the grooves. to be.

The above-mentioned prior art 2 is an apparatus for measuring a pipe covering damage rate of a pipe to which a method current is applied by an external power source method or a forced discharge method, in which a current is applied to the pipe so that the pipe maintains a reference potential value A detecting unit for measuring a value of a potential applied to the pipe, a receiving unit for receiving a value of a current applied to the pipe from the source unit, And a terminal for calculating a damage rate of the piping.

However, the above prior art 1 is described to be a through-hole and the groove formed in the cover of the pipe corrosion measurement device, by installing the antenna within the filling material filled in the groove to prevent the shielding caused by the cover, the prior art 2 The present invention relates to a process for remotely measuring the amount of electric current required for an electric system and measuring the degree of damage of the buried pipeline by comparing the amount of electric current with the amount of electric current applied to the electric system. , There is no technique for allowing the alarm generating unit to damage the piping cover even if the display screen of the terminal is not checked if an abnormality occurs in the measured potential value.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide an alarm generating unit composed of a vibrator and a speaker on a detection stick connected to a terminal by wire, The present invention also provides a system for detecting damage of a covered pipe in an underground pipeline, which can confirm a point where a pipeline covering is damaged by an alarm generating unit.

According to an aspect of the present invention, there is provided a detection stick comprising: a detection stick (10) for detecting a potential difference of a negative electrode type with respect to an underground pipe (1) using a lower electrode (11) of a stick; An amplification unit 21 for amplifying a signal sensed by the detection stick 10, a signal processing unit 22 for eliminating noise of the amplified signal and processing the inputted signal by limiting the signal, A control unit 24 for analyzing information converted into a digital signal and calculating and analyzing the value of the current applied to the pipe 1 and outputting the degree of coating damage of the pipe as an image, A memory unit 25 for storing information processed by the control unit 24, a display unit 26 for displaying information processed by the control unit 24 as graphic images, and a power unit 27 for supplying power to the respective units The detection stick 10 and the terminal 20 are connected to each other by a wire and an alarm generating unit 12 for generating a signal is provided on the detection stick 10, ) Generates a signal at the site where damage has occurred to the cover of the cover The present invention has been made in view of the above problems,

The alarm generating unit 12 of the detection stick 10 may be any one of a vibrator 12a, a lamp 12b, and a speaker 12c, or a combination thereof The present invention can be achieved by a cover damage detection system for an underground buried pipeline.

As described above, according to the present invention, as the worker wearing the terminal 20 moves along the pipe 1 in a state where current is being supplied by the power supply 2 to the pipe 1 embedded in the underground, A potential difference is generated between the adjacent electrodes 11 due to the current concentration phenomenon when the damaged portion is located between the detection sticks 10 held on both hands of the terminal 20, The operator can accurately grasp the damage point of the pipe covering and the measurement signal is also transmitted to the alarm generating unit 12 provided in the detection stick 10 so that the vibrator 12a, the lamp 12b, (12c) and the like are operated to detect the damaged area of the pipe covering. Therefore, when the operator moves continuously along the pipe (1), it is possible to move without viewing the display screen. In addition, when the abnormal signal is transmitted from the alarm generating unit 12, it is possible to accurately grasp the degree of the damage of the pipe through the display screen. Thus, it is possible to detect the coating damage of the high- System can be implemented.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic diagram illustrating the use state of the present invention,
2 is a perspective view illustrating an embodiment of the present invention,
3 is a perspective view illustrating a detection stick according to the present invention,
4 is a block diagram illustrating an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4, a cover damage detection system for an underground buried pipe according to the present invention is configured such that a detection stick 10 and a terminal 20 are connected to each other by a wire, The detection stick 10 held on both hands while moving along the pipe 1 in a state of wearing on the upper body detects the potential difference between the electrodes 11 of both the detection sticks 10 when the bottom of the road is struck If the sign of the potential is reversed, it can be seen that it is the damaged part of the coating.

Of course, the pipeline 1 buried in the basement is connected to the ground power supply 2 and the electric wire so that the electric current can be applied.

The detection stick 10 is configured to detect the potential difference of the negative electrode type with respect to the underground pipeline 1 by using the lower electrode 11 of the stick, So that the potential difference between the two electrodes 11 can be measured.

The terminal 20 is configured to be able to be worn around the operator's body by using the belt 20a so that a worker wearing a detection stick in both hands can move and visually confirm the display screen of the terminal 20 Consists of.

The terminal (20) comprises: An amplifying unit 21 for amplifying a signal sensed by the detection stick 10, a signal processing unit 22 for eliminating noise of the amplified signal and for limiting the input signal, a signal processing unit 22 for converting the processed sensing signal into a digital signal A control unit 24 for analyzing the information converted into the digital signal to calculate and analyze the value of the current applied to the pipe 1 and to output the degree of damage of the coating damage of the pipe to the image, A display unit 26 for displaying information processed by the control unit 24 as graphic images and a power unit 27 for supplying power to the respective units, Consists of.

The detection stick 10 and the terminal 20 are connected to each other by a wire and the detection stick 10 is provided with an alarm generating part 12 for generating a signal, An abnormal signal can be generated and transmitted to the operator.

The alarm generating unit 12 of the detection stick 10 may be any one of a vibrator 12a, a lamp 12b and a speaker 12c or a combination thereof.

According to the present invention having the above-described configuration, a phenomenon in which a current flows through a pipeline 1 buried in an underground is concentrated in an area where a coating is damaged while an amount of current is increased. At this time, when the worker moves along the pipe 1 while wearing the terminal 20, when the bottom of the road is struck by the detection stick 10 held by both hands, a portion where the covering is damaged is positioned between the both detection sticks 10 The signal processing unit 22, the A / D conversion unit 23, and the control unit 24, and the signal processing unit 22, the A / D conversion unit 23, and the control unit 24, So that the operator can grasp the damaged point of the pipe covering.

When the covering damage portion of the pipe 1 is located between the two detection sticks 10, a measurement signal is also transmitted to the alarm generating unit 12 provided on the detection stick 10, and the vibrator 12a, the lamp 12b The speaker 12c and the like can be operated and the damaged part of the pipe covering can be known. Therefore, even if the operator does not check the display screen of the terminal 20, the covering damage of the pipe 1 can be accurately grasped.

Therefore, when the operator moves continuously along the pipe 1, it is possible to move without looking at the display screen when the detection operation is performed. Therefore, the detection operation can be performed very conveniently and quickly, thereby improving the efficiency of the operation, If the controller 12 transmits an abnormal signal, it can accurately grasp the degree of coating damage of the pipe through the display screen.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the scope of the invention. It will be understood by those skilled in the art that various changes may be made and equivalents may be resorted to without departing from the scope of the appended claims.

1: Piping 2: Power supply
10: detection stick 11: electrode
12: an alarm generating unit 12a: a vibrator
12b: lamp 12c: speaker
20: terminal 20a: belt
21: amplification unit 22: signal processing unit
23: A / D conversion section 24:
25: memory unit 26: display unit
27:

Claims (2)

A detection stick 10 for detecting a potential difference of the cathode type to the underground pipeline 1 by using the lower electrode 11 of the stick; And
An amplifying unit 21 for amplifying a signal sensed by the detection stick 10, a signal processing unit 22 for eliminating noise of the amplified signal and for limiting the input signal, a signal processing unit 22 for converting the processed sensing signal into a digital signal A control unit 24 for analyzing the information converted into the digital signal to calculate and analyze the value of the current applied to the pipe 1 and to output the degree of damage of the coating damage of the pipe to the image, A display unit 26 for displaying information processed by the control unit 24 in the form of a graphic image and a power unit 27 for supplying power to the respective units, And a terminal (20)
The detection stick 10 and the terminal 20 are connected to each other by a wire and the detection stick 10 is provided with an alarm generating part 12 for generating a signal. In a part where the coating of the pipeline 1 is damaged, And to transmit the detected damage to the user.
The method according to claim 1,
Wherein the alarm generating unit 12 of the detection stick 10 is composed of any one of a vibrator 12a, a lamp 12b and a speaker 12c or a combination thereof.

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