KR101949768B1 - Detecting method of pore area in underground pipes - Google Patents

Abstract

The present invention relates to a method for controlling a pipeline, comprising the steps of: grasping a path of a pipe buried in a basement; supplying a method current to the pipe periodically on / off while moving a pair of electrodes spaced along the top surface of the pipe; And determining a piercing point of the piping while confirming the leaked position of the gas to be pumped after injecting the pumped gas into the piping, Provides an exploration method.

Description

Technical Field [0001] The present invention relates to a method of detecting a pore area in an underground buried pipe,

The present invention relates to a method for locating a piercing point of a pipe buried under an earth surface.

In general, leakage and leakage of pipes buried underground are commonly used as techniques to detect leakage, such as shade ceremonies or blue food, and leak exploration is conducted using human hearing trained in the leak sound. Some computers and electronic equipment combine to detect leaks and leaks, all of which relies on sound (leakage, leak). That is, when leakage or leakage occurs in a pipe or the like where a certain pressure is generated, a sound having a high and low specific frequency is generated. This sound wave is tracked and analyzed to detect a leak or leakage point.

However, the leak detection method for detecting a conventional leak sound is problematic in that it is not effective in exploring accurate locations such as a place with a heavy noise in the field, a large system, a large-scale water pipe network, and minute leaks or leaks. In particular, in the case of a large-scale system or a large-scale water pipe network, it takes a long time to check the leak sound for the entire piping, and it is difficult to quickly grasp the position of leakage and leakage by the leak of the leak sound through the experience of the operator There is a problem that is difficult to apply.

Such a conventional leak detection method is disclosed in Korean Patent Laid-Open Publication No. 2000-0034666 (Jun. 26, 2000).

It is an object of the present invention to provide a method for locating a piercing hole in an underground buried pipe which can locate a piercing point of a pipe buried beneath a surface of the earth in a fast and accurate manner.

The present invention relates to a method of controlling a piping system, comprising the steps of: grasping a path of a piping embedded in a basement; supplying a method current to the piping periodically on / off while moving a pair of electrodes spaced along a top surface of the piping; And determining a piercing point of the piping while confirming the leaked position of the pumped gas after injecting the pumped gas into the pipeline by measuring a potential difference of the pipeline To provide a method for exploring underground buried pipeline pore areas.

The step of determining the path of the pipe may include the steps of connecting a transmitter to the pipe, magnetizing the pipe by applying an electromagnetic field, locating the pipe while sensing the magnetic flux with the receiver directly above the pipe, . ≪ / RTI >

The step of determining the puncture point of the pipe may include injecting the probe gas into the pipe, detecting whether the probe gas is leaking from the ground on the cover damaged portion of the pipe detected through the gas sensor And determining a leak point of the gas in the gas detector, and determining a puncture point of the pipe through the air filter.

Further, in the step of grasping the damaged portion of the pipe, water may be sprayed on the ground, and then the pair of electrodes may be brought into contact with the ground.

The method for detecting the underground buried pipeline piercing part according to the present invention is a method for detecting a path of a buried underground pipe and moving a pair of electrodes along the path of the pipe while periodically supplying a method current to the pipe, The position of the damaged portion of the pipeline is identified through the potential difference measured in the pipeline, and the pore region is first specified in the path of the pipeline. In addition, after the injection of the test gas into the inside of the pipe, it is possible to accurately determine the final pierce point of the pipe regardless of the surrounding conditions by confirming the leakage of the test gas to the first specified pore zone, And the time spent in exploring the pore region is shortened.

FIG. 1 is a flowchart illustrating a method of exploring a pitting area of an underground buried pipe according to an embodiment of the present invention.
2 is a schematic state diagram of the step S100 shown in FIG.
3 is a schematic state diagram of the step S110 shown in FIG.

Hereinafter, a method of probing a pierced portion of an underground pipe according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 3. FIG.

First, as shown in FIG. 2, the route of the pipe 10 buried in the ground under the ground is grasped (S100). The pipeline 10 is connected to the transmitter 20 through a cable and then transmitted to the pipeline 10 from the transmitter 10 so as to detect an electromagnetic field. Thereby magnetizing the pipe 10. The position of the pipe 10 is detected while sensing the magnetic flux of the pipe 10 from the ground directly above the pipe 10 to the receiver 21 in a state where the pipe 10 is magnetized. After the position of the piping 10 is determined, a piping line (not shown) may be provided to indicate the position of the piping 10 on the ground. Here, the pipe line may be painted on the ground, or the cable may be fixedly disposed on the ground. However, the present invention is not limited thereto.

After the path of the pipe 10 buried in the ground below the ground is grasped, the covered portion of the pipe 10 is grasped (S110). At this time, the covered portion of the piping 10 can be grasped by the operator without being crushed on the ground, thereby preventing the occurrence of economic loss, inconvenience of passage, time limitation, .

3, a method current is periodically supplied to the piping 10 while the piping 10 is turned on and off, and the piping 10 is moved along a straight upper surface of the piping 10 The potential difference between the pair of electrodes 30 and 31 is measured while the worker moves the spaced pair of electrodes 30 and 31. More specifically, first, when the test section of the pipe 10 is in the unsealing state, the external damaging system is temporarily installed to perform the inspection of the damaged part. Generally, steel structures (guard rails, fences, etc.) are used as positive electrodes in an area of more than 100m away from the anode of the external power type system. Lead wires are taken out from the test box or pipe exposed part and used as negative electrode. On the other hand, if the test section is operating as an external power system, a pre-installed rectifier is utilized. Or magnesium (Mg) anode is connected to the pipeline in the test box of the measurement section, it is necessary to separate the connection beforehand, so that the error caused by the magnesium (Mg) anode can be reduced. In this case, when the magnesium (Mg) anode is directly connected to the pipe and buried, the position of the magnesium anode should be grasped in advance. The section of the pipe 10 to be measured is electrically insulated from the periphery which is not measured if possible, and the accuracy of the probe is increased because the method current is concentrated within the section of the pipe 10 to be measured. Therefore, by using the insulation flange, the section to be surveyed is selected, and the connection is temporarily disconnected to make the insulation state when the electrical connection of the piping is needed. Thereafter, a current interrupter is provided, and a pair of electrodes 30, 31 to be used for probing the damaged portion of the piping 10 is inspected. At this time, electrolytic drug replenishment and replacement of the electrodes 30 and 31 are performed so that the potential difference between the pair of electrodes 30 and 31 is within 10 mV. Here, the (-) electrode of the pair of electrodes 30 and 31 is connected to the ground and the (+) electrode is connected to the terminal connected to the pipe line of the test box to measure On / Off potential according to rectifier interrupting do. At this time, the On / Off potential difference should be in the range of 150mV ~ 500mV. If the range is not satisfied, adjust the output of the rectifier. In this way, the on / off potential difference in the test box must be measured before conducting the test, and the test box in the test section should be measured to check whether the area is capable of probing the coating damage, / Off Potential difference value is stored in the coating damage inspection equipment.

In this way, when the coating damage inspection device operates normally and the potential difference in the test box falls within the above-mentioned appropriate range, the coating damage inspection of the pipe 10 is performed. That is, the potential difference measurement is performed while moving the pair of electrodes 30 and 31 in the direction in which each operator probes, that is, along the path of the pipe 10 at intervals of 2 to 3 m. At this time, since the sensitivity of the electrodes 30 and 31 is lowered when the paper is dried, water is sufficiently sprayed so that the electrodes 30 and 31 are brought into contact with the ground in a wet state. In this case, when the potential difference is inverted from (-) to (+), it is necessary to find an accurate rectilinear portion at the inverted portion. In the vicinity of the rectilinear portion, When the potential difference of the electrodes 30 and 31 is 0 mV, the central portion of the pair of electrodes 30 and 31 becomes the position immediately above the damaged portion. After the straight portion of the damaged portion is found, it is necessary to confirm whether the potential difference is the potential difference caused by the damaged portion of the pipeline 10 to be measured or the potential difference from the other pipeline. The checking operation can be found by measuring the potential of the right and left sides of the piping. The electrode 31 on the rear side, which is a reference, is brought into contact with the upper portion of the piping 10 and the left and right potentials are measured. It becomes a covered damage signal of the pipe 10 to be measured. If both values are not positive and one measured potential difference value is negative, it can be said that the negative value has different interference in the measured direction or the coating of the other pipe in that direction is damaged. Here, where the potential signal changes from positive to negative, it is not a covering damage signal.

After confirming the signal of the damaged portion of the pipe 10, paint on the upper surface of the damaged portion of the pipe 10 is painted with spray lacquer or wire like a cord, Display number and location. In addition, the coordinates of the damaged portion of the pipe 10 can be measured and used for maintenance and management at a later time.

Thereafter, a penetration point of the pipe 10 is accurately determined in the coverage damage area of the pipe 10, which is previously determined, after injecting the probe gas into the pipe 10 (S130). That is, when the test gas is injected into the pipe 10, the test gas is discharged through the puncture point of the pipe 10 over time and spreads to the ground, After determining the approximate location of the point, listen to the ground and find the exact point of the pierce. More specifically, first, the tank in which the gas for detection is stored is connected to the piping 10 by a hose, and then the gas for the test gas is injected into the piping 10. At this time, the gas to be used is lighter than air with no explosion. Thereafter, the operator moves the gas detector from the ground in the direction of the path of the pipe 10, more preferably moves the portion of the pipe 10 damaged by the cover, Determine whether the leaked gas is leaked. Thereafter, when the leakage of the navigation gas is detected in the gas sensor, a sound sensor is installed on the ground where the leakage of the navigation gas is detected, This allows precise pinpointing.

According to the above-described method of exploring an underground buried pipe piercing part, the path of the pipe 10 buried in the underground can be grasped, and the pipe current can be periodically supplied to the pipe 10 on / The pair of electrodes 30 and 31 are moved along the path of the pipe 10 and the position of the damaged part of the pipe 10 is detected through the potential difference measured by the electrodes 30 and 31. In this case, 10) is predominantly specified. Then, after the penetration of the test gas into the inside of the pipe 10, the leakage of the test gas is confirmed in the first predetermined pore area, so that the final puncture point of the pipe 10 can be precisely As can be confirmed, the loss and risk of unnecessary hoisting operation is eliminated and the time spent exploring the pore area is shortened.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: piping 20: transmitter
21: receiver 30,31: electrode

Claims (4)

Determining a path of a pipe embedded in the basement;
Measuring a potential difference between the electrodes while moving a pair of electrodes spaced along a straight upper surface of the pipe while periodically turning on / off the method current to the pipe, and determining a covered damage portion of the pipe ; And
Determining a piercing point of the piping while confirming a leaking position of the probe gas after injecting the probe gas into the piping,
(-) of the pair of electrodes is performed so that the potential difference between the pair of electrodes is within 10 mV before exploration of the coating damage using the electrode in the step of grasping the covered part of the pipe. The electrode is connected to the ground and the (+) electrode is connected to the terminal connected to the pipeline of the test box. The on / off potential is measured according to the on / off of the rectifier and the on / off potential difference is in the range of 150 mv to 500 mV. Performing a potential difference measurement while moving a pair of electrodes by an operator at intervals of 2 to 3 meters along a path of a pipe after a process of adjusting output,
When the potential difference is reversed from (-) to (+), the electrode is moved in 15 cm increments while the electrode is in contact with the electrode at a distance of 2 m, and the potential difference between the two electrodes is 0 mV. Establishing an upper ground position;
After the straight portion of the damaged portion is found, a rear electrode serving as a reference is brought into contact with the upper portion of the pipe in order to check whether the generated potential difference is a potential difference caused by the pipeline covering damaged portion or the potential difference coming from another pipeline. And determining the covered damage portion of the pipe to be measured when the measured value of the potential difference is both positive. The method according to claim 1,
The step of determining the path of the pipe includes:
Connecting a transmitter to the pipe, applying an electromagnetic field to magnetize the pipe,
And locating the pipe at a position directly above the pipe while sensing magnetic flux from the pipe to the receiver. The method according to claim 1,
The step of determining the puncture point of the pipe includes:
Injecting a probe gas into the pipe;
Determining whether or not the leaked gas of the test gas is leaking from the ground of the coated damage portion of the pipe detected through the gas sensor,
And determining a piercing point of the piping through the air cleaner when the gas detector detects leakage of the probe gas. The method according to claim 1,
Wherein the step of grasping a damaged portion of the pipe causes water to be sprinkled on the ground so that the pair of electrodes are brought into contact with the ground.

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