KR20050074238A - Method for measuring the corrosion of the underground laying pipe and system for performming the same - Google Patents

Abstract

Measure the initial potential of various underground pipes and set it as the reference potential, and then measure the degree of corrosion to easily identify the corrosion of underground buried pipes by comparing the measured potential and the reference potential measured periodically. A method and a system for performing the same are disclosed. The present invention comprises the steps of initially measuring the potential between a pipe buried underground and a reference electrode on the ground surface and setting the average value of the average value; Receiving a measurement potential for periodically measuring the potential between the pipe and the reference electrode on the ground surface after the reference potential is set; And comparing the reference potential with the measured potential and transmitting an alarm signal to the management center using the wired / wireless communication means when the difference is greater than or equal to the set value.

Description

Method for measuring the corrosion of the underground laying pipe and system for performming the same

The present invention relates to a method for measuring the degree of corrosion of underground buried pipes and a system for performing the same, in particular to measure the initial potential of the various pipes buried underground and set it as the reference potential, and then periodically measured measurement potential The present invention relates to a method for measuring the degree of corrosion and a system for performing the same that can easily identify the degree of corrosion of underground buried pipe by comparing the reference potential with.

In general, as the industry is advanced and the space on the ground is reduced, various pipes for discharging various fluids such as oil, gas, and water are buried underground. If the underground pipes are used for a long period of time, corrosion of the pipes occurs due to oxidation. If the underground pipes are corroded, the pipes that send gas are not only lost, but also safety You will be exposed to the risk of

Therefore, in order to prevent corrosion of pipes buried underground, various plans are being studied. One of the plans is to cover pipes buried underground. In this way, even if the pipe is used for coating, the speed of corrosion can be reduced, but if it is used for a long time, the coating part is separated and the corrosion phenomenon in the pipe cannot be prevented.

Therefore, if it is determined that the pipes are corroded by measuring the degree of corrosion of the pipes buried underground, replacing them as soon as possible is the only way to prevent loss and safety accidents. Because pipes buried underground cannot measure the corrosion of the pipe with the naked eye due to the peculiarity of the underground, use the potential difference to measure the corrosion of the pipe.

In this way, the device for measuring the degree of corrosion of the pipe using the potential difference is measured by an electrical potential test box installed at intervals of about 300m on the road. The corrosion degree measurement system of a pipe using such a potential difference connects a reference electrode installed on the ground and a pipe buried underground to measure the potential difference and displays the measured potential value through a display device.

However, the conventional system for measuring the degree of corrosion of a pipe using a potential difference merely displays the potential difference between a reference potential and a buried pipe through a display device on the ground, so that the measurement personnel periodically check the display device on the ground. The status is checked. Therefore, accurate measurement is not possible according to the external temperature, the position of the pipe and the state of the display device, and there is a problem that the reliability is lowered because the state of the pipe is judged by visual observation records of the measurement personnel.

In addition, there is a problem that the risk of traffic obstacles and traffic accidents exist when the measurement personnel to measure the corrosion degree of the pipe due to the structure of the pipe corrosion degree measurement system installed on the road through which the vehicle passes.

The present invention has been invented to solve the above problems, by measuring the initial potential of the various pipes buried underground and set it as the reference potential, and then compare the measured potential and the reference potential periodically measured, and compare Result When the potential difference exceeds the set value, the corrosion risk alarm is sent to the control center through the communication module so that the measurement personnel can easily identify the corrosion of the underground buried pipe without having to check the display device. The primary purpose is to provide a method.

In addition, a second object of the present invention is to provide a system for performing the above-described method for measuring the degree of corrosion of underground buried pipe.

The present invention for achieving such a first object,

Measuring a potential between the pipe embedded in the basement and the reference electrode on the ground at least two times, and setting the average value of the average value;

Receiving a measurement potential for periodically measuring the potential between the pipe and the reference electrode on the ground surface after the reference potential is set; And,

Comparing the reference potential with the measured potential and transmitting an alarm signal to the management center by using a wired or wireless communication means when the difference is greater than or equal to the set value.

In addition, the present invention for achieving the above-described second object, the potential measurement unit for measuring the potential connected to the pipe buried underground and the reference electrode of the ground surface; The reference potential is set as the average value of the first at least two measured values measured by the potential measuring unit. After that, the measured potential and the reference potential measured periodically are compared. A control unit for controlling an alarm signal to be sent to the center; A communication unit for transmitting an alarm signal to a management center connected through a wired or wireless communication line under control of a control unit; And a power supply unit for supplying power to the potential measurement unit, the control unit, and the communication unit.

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

1 is a block diagram showing the structure of the corrosion degree measurement system of underground buried pipe according to the present invention, Figure 2 is a flow chart for explaining the operation of the corrosion degree measurement system of underground buried pipe according to the present invention. .

Corrosion degree measurement system of underground buried pipe according to the present invention is electrically connected to the underground pipe 400, as shown in Figure 1, is electrically connected to the reference electrode (A) of the ground surface for measuring the potential It includes a potential measuring unit 100. The potential measuring unit 100 transmits an electric signal to a pipe buried underground to measure the potential of the pipe 500, and calculates data on the potential difference between the measured potential and the reference electrode A. FIG.

The control unit 200 connected to the output side of the potential measuring unit 100 receives at least two or more initial measurement values measured by the potential measuring unit 100, averages them, sets a reference potential, and then measures the potential measuring unit 100. ) And compare the measured potential and reference potential input periodically to determine if the difference is over the set value, and if the difference is over the set value, use the wired / wireless communication line to alert the control center (not shown). Control to send.

A communication unit 300 for transmitting an alarm signal to a management center connected through a wired or wireless communication line is connected to an output side of the control unit 200 by a control signal of the control unit 200. In addition, the system according to the present invention includes a power supply unit 500 for supplying power to the potential measuring unit 100, the control unit 200 and the communication unit 300, the power unit 500 is preferably the light energy of sunlight A solar cell 510 for converting the electric energy into electrical energy and a charging device 520 for charging the electric energy from the solar cell 510 and supplying the pre-charged electric energy in an environment without light.

The operation of the present invention configured as described above will be described with reference to FIG.

In the state where the underground buried pipe corrosion degree measurement system according to the present invention is installed, the potential measurement unit 100 is electrically connected to the pipe 400 buried underground, and electrically connected to the reference electrode (A) of the ground surface underground The electrical signal is sent to the embedded pipe to measure the potential of the pipe 500, and data about the potential difference between the measured potential and the reference electrode A is calculated. In this case, a constant potential difference is generated in the pipe which is initially embedded, that is, in the state where corrosion does not proceed at all.

At this time, the control unit 200 is to set the average value of the potential difference of two to four times first input from the potential measuring unit 100 to the reference potential. Subsequently, if the pipe 400 buried underground is used for a long time, the coated layer is also damaged to prevent corrosion of the pipe 400, and the pipe with such a damaged coating layer is corroded in the pipe due to prolonged oxidation. As the degree gradually increases, the potential difference between the pipe 400 and the reference electrode A input from the potential measuring unit 100 increases.

After the reference potential is set, if the potential difference periodically input from the potential measurement unit 100 is greater than or equal to the set value, the controller 200 controls to transmit an alarm signal to the management center through wired or wireless communication means. That is, the control unit 200 compares the measured potential and the reference potential input periodically and if the difference is more than the set value, and sends a control signal to the communication unit 300 to transmit an alarm signal to the management center connected through the wired or wireless communication line will be. This alarm signal allows the management center to quickly identify the corrosion level of the pipe and replace it quickly. Therefore, it is possible to easily identify the degree of corrosion of underground buried pipes without the measurement personnel having to know the degree of corrosion of the vessels.

In addition, the power supply unit 500 for supplying power to the potential measuring unit 100, the control unit 200, and the communication unit 300 includes a solar cell 510 and a solar cell 510 for converting light energy from sunlight into electrical energy. It is configured to include a charging device 520 for supplying charged electrical energy by charging the electrical energy from) to prevent the hassle of having to replace the battery from time to time. That is, in daylight, the solar cell 510 converts light energy into electrical energy, and the converted electrical energy is charged by the charging device 520 to charge the rechargeable battery. Even at night is operated by the electrical energy charged by the charging device 520.

As described above, the corrosion level measurement system of the underground buried pipe according to the present invention can easily identify the corrosion state and location of the pipe because the measuring personnel automatically alarms according to the corrosion of the pipe even without looking at the pipe. .

1 is a block diagram showing the structure of a corrosion degree measurement system of underground buried pipe according to the present invention.

2 is a flow chart for explaining the operation of the corrosion degree measurement system of the underground buried pipe according to the present invention.

<Description of the code | symbol about the principal part of drawing>

100; potential measurement unit 200; control unit

300; communication unit 400; piping

500: power supply 510: solar cell

520: charging device A: reference electrode

Claims (3)

Measuring a potential between the pipe embedded in the basement and the reference electrode on the ground at least two times, and setting the average value of the average value; Receiving a measurement potential for periodically measuring a potential between a pipe and a reference electrode on the ground surface after the reference potential is set; And, And comparing the reference potential with the measurement potential and transmitting an alarm signal to a management center using a wired / wireless communication means when the difference is greater than or equal to a set value. A potential measurement unit 100 connected to the pipe 400 embedded in the basement and the reference electrode A on the ground to measure the potential; The reference potential is set as an average value of at least two initial measured values measured by the potential measuring unit 100, and then the measured potential and the reference potential measured periodically are compared. Control unit 200 for controlling to send an alarm signal; Supplying power to the communication unit 300 and the potential measurement unit 100, the control unit 200, and the communication unit 300 for transmitting an alarm signal to a management center connected through a wired or wireless communication line under the control of the control unit 200. Corrosion degree measurement system of underground buried pipe including a power supply unit 500 for. The charging device of claim 2, wherein the power supply unit 500 supplies a charged electric energy by charging the solar cell 510 for converting light energy of sunlight into electric energy and the electric energy from the solar cell 510. Corrosion degree measurement system of the underground buried pipe, characterized in that it comprises a (520).