KR101811428B1 - Corrosion prevention potential measurement device with surface structure attachment type - Google Patents

Abstract

According to the present invention, a ground structure attachment type protection potential measurement device, comprises: a battery box charging electric energy generated through a solar panel; and a data logger receiving power from the battery box to measure a protection potential of a buried pipe through a reference electrode buried in the ground, and transmitting measured protection potential data to the ground. The reference electrode and the data logger are buried in the ground. However, the battery box and the solar panel is attached to each predetermined position of a ground structure installed near a road.

Description

TECHNICAL FIELD [0001] The present invention relates to an apparatus for measuring a potential of a ground structure,

More particularly, the present invention relates to a structure for attaching a battery box, a solar panel, and a data logger and an antenna, if necessary, at regular intervals to the body of the ground structure This system maximizes the power supply efficiency to the data logger and the data transmission efficiency to the external data collection vehicle, and it can measure the remote method potential using the external data collection vehicle and the continuous method potential monitoring system using the narrow band internet (IoT) To a ground structure attachment type potential measurement device which enables a ground structure attachment type potential measurement device to be realized.

Corrosion prevention measures are to be carried out in accordance with KGS GC202 (Gas Facility Electricity Standard) in order to prevent corrosion caused by buried underground or underwater pipes.

The electric corrosion prevention measures are generally referred to as the electric type. In the KGS GC202, "electric type" refers to a method of preventing electric corrosion of piping by introducing current into the outer surface of steel pipes and storage tanks .

Electricity types can be divided into a sacrificial anode method, an external power method, and a pumping method. In order to effectively maintain the electric system, the city gas company requires that the ground potential is checked at least once a year.

In order to measure the tube potential, a terminal for measuring potential (T / B) (test box) shall be installed. The distance to the piping according to the sacrificial anode method or the discharging method should be less than 300m Respectively.

FIG. 1A shows a configuration of an underground buried-type potential measuring apparatus according to the related art, and FIG. 1B shows an example of a conventional floor-mounted solar panel mounted on a road.

1A, an underground buried-type potential measurement apparatus 100 according to the related art includes a buried pipeline 10 buried in a basement, a data logger 120 built in a test box 20, a reference electrode 110, A floor type solar panel 140 installed on the road R1 and an embedded battery box 130 connected to a lower portion of the solar panel 140. [

In this case, the data logger 120 is installed inside the test box 20, and the potential difference generated between the buried pipe 10 installed in the field and the reference electrode 110 provided around the buried pipe 10 To measure the degree of corrosion of the buried pipe 10 and then transmit the measured data to an external data collection vehicle (not shown) by radio.

The data logger 120 receives power from a battery box 130 that is charged with electrical energy generated through the solar panel 140.

However, in the related art, as shown in FIG. 1B, the bottom type solar panel 140 installed on the road R1 is damaged by scratches and dust due to the vehicle wheels such as cars passing on the road R1, There is a problem that power generation efficiency is not good.

In the prior art, the data logger 120 is installed in the lower portion of the test box 20, and the antenna is installed on the lid of the test box 20, so that the external data collection vehicle (not shown) There is a problem that transmission efficiency is poor.

Korean Patent Publication No. 2001-0067724

According to an aspect of the present invention, there is provided a structure for attaching a battery box, a solar panel, and a data logger and an antenna, respectively, to a data logger, And a ground structure attachment system that enables a remote potential measurement using an external data collection vehicle and an always-on potential monitoring system using a narrow-band object internet (IoT), by maximizing data transmission efficiency to an external data collection vehicle And a method potential measuring apparatus.

According to an aspect of the present invention, there is provided an apparatus for measuring the potential of a ground structure attached type comprising: a battery box for charging electrical energy generated through a solar panel; a reference electrode embedded in the ground under power supplied from the battery box; Wherein the reference electrode and the data logger are embedded in a basement, and the battery box and the data logger are connected to each other through the battery box and the data logger, The solar panel provides a technique having a structure in which each of the solar panels is attached to a predetermined position of a ground structure installed around the road.

According to another aspect of the present invention, there is provided an apparatus for measuring the potential of a ground structure, comprising: a battery box for charging electrical energy generated through a solar panel; And a data logger for measuring the method potential of the buried pipe through the first and second electrodes and transmitting the measured method potential data to the ground, wherein the reference electrode is buried underground, , The data logger and the antenna are attached to a predetermined position of a ground structure installed around the road, respectively.

According to another aspect of the present invention, there is provided an apparatus for measuring the potential of a ground structure, comprising: a battery box for charging electrical energy generated through a solar panel; Wherein the reference electrode and the data logger are embedded in the basement, and the battery box, the data logger, and the data logger are embedded in the basement, The solar panel and the antenna provide a structure having a structure attached to a predetermined position of a ground structure installed in the vicinity of a road.

The present invention maximizes the power supply efficiency to the data logger and the data transmission efficiency to the external data collection vehicle, thereby making it possible to perform the remote potential measurement using the external data collection vehicle and the constant potential potential monitoring system using the narrow band Internet (IoT) Which is a technological effect.

FIG. 1A shows a configuration of an underground buried-type potential measuring apparatus according to the prior art.
FIG. 1B is a view showing a floor-mounted solar panel installed on a road according to a prior art example.
Fig. 2 shows a configuration of a ground structure attachment type potential potential measuring apparatus according to a first embodiment of the present invention.
Fig. 3 is a second embodiment of the present invention, which shows the configuration of a ground structure attachment type electrostatic potential measuring device.
Fig. 4 shows a configuration of a ground structure attachment type electrostatic potential measuring device according to a third embodiment of the present invention.

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

Fig. 2 shows a configuration of a ground structure attachment type potential potential measuring apparatus according to a first embodiment of the present invention.

Referring to FIG. 2, a ground structure attachment type potential measurement apparatus 200 according to the present invention includes a reference electrode 210, a data logger 220, a battery box 230, and a solar panel 240.

The electric energy generated through the solar panel 240 is charged in the battery box 230 and the battery box 230 supplies the charged electric power to the data logger 220 at all times The data logger 220 measures the process potential of the underground pipeline (not shown) via the reference electrode 210 and transmits the measured process potential data to the ground data collection vehicle (not shown) The same applies to the first and second embodiments as well as the first embodiment.

In the first embodiment of the present invention, the reference electrode 210 and the data logger 220 are embedded in the underground of the road R1, while the other battery box 230 and the solar panel 240 are connected to the road R1. And is attached to a predetermined position of the ground structure 30 installed at the periphery.

In other words, the ground structure 30 may be installed around the road R1, for example, a pole, a streetlight support, a traffic light support, or the like.

In this case, the battery box 230 is attached to a certain position of the ground structure 30 at a predetermined vertical height h from the ground, and the solar panel 240 Respectively.

Here, the vertical height h is preferably 1.6 m to 2.5 m from the ground in order to prevent damage to the battery box 230 due to playfulness of young children, installation and maintenance, and the like.

Also, the vertical height (h) may be less than 1.6m when there is no problem with solar power generation and where children are not likely to play with it, considering the convenience of installation and maintenance.

As described above, the solar panel 240 is installed in the ground structure 30 capable of absorbing the optimal sunlight, so that the present invention can prevent the solar panel 240 from being damaged by automobiles passing on the road R1, It provides technological advantages without being damaged and maximizing efficiency of solar power generation.

In addition, since the battery box 230 is installed at a predetermined height of the ground structure 30, the present invention can prevent the battery box 230 from being intentionally damaged, provide convenience in installation and replacement, .

Fig. 3 is a second embodiment of the present invention, which shows the configuration of a ground structure attachment type electrostatic potential measuring device.

3, the ground structure attachment type potential measurement apparatus 200 according to the present invention includes a reference electrode 210, a data logger 220, a battery box 230, a solar panel 240, and an antenna 250 ).

In the second embodiment of the present invention, only the reference electrode 210 is embedded in the underground of the road R1, and the other data logger 220, the battery box 230, the solar panel 240 and the antenna 250 And is attached to a predetermined position of the ground structure 30 installed around the road R1.

In other words, the ground structure 30 may be installed around the road R1, for example, a pole, a streetlight support, a traffic light support, or the like.

In this case, the battery box 230 is attached to a certain position of the ground structure 30 at a predetermined vertical height h from the ground, and the solar panel 240 A data logger 220, and an antenna 250 are sequentially attached.

The data logger 220 is attached to the highest point of the ground structure 30 and has a structure in which the antenna 250 is installed in the body of the data logger 220. In this case, 210 and the data logger 220 are relatively distant from the first embodiment, there is a possibility that a method potential measurement error may occur. However, it is advantageous for maintenance such as change or replacement of facilities due to ground installation Therefore, it is preferable to install the apparatus in consideration of such advantages and disadvantages.

Here, the vertical height h is preferably 1.6 m to 2.5 m from the ground in order to prevent the battery box 230 from being damaged due to the playfulness of young children, and to provide installation and maintenance.

Also, the vertical height (h) may be less than 1.6m when there is no problem with solar power generation and where children are not likely to play with it, considering the convenience of installation and maintenance.

As described above, the solar panel 240 is installed in the ground structure 30 capable of absorbing the optimal sunlight, so that the present invention can prevent the solar panel 240 from being damaged by automobiles passing on the road R1, It provides technological advantages without being damaged and maximizing efficiency of solar power generation. (Same as the first embodiment)

In addition, since the battery box 230 is installed at a predetermined height of the ground structure 30, the present invention can prevent the battery box 230 from being intentionally damaged, provide convenience in installation and replacement, . (Same as the first embodiment)

Further, due to the structure in which the data logger 220 and the antenna 250 are attached to the highest point of the ground structure 30, the present invention can maximize the transmission / reception efficiency of the method potential data between external data collection vehicles (not shown) Provides the advantages of. (Difference from the first embodiment and the third embodiment)

In other words, the present invention can maximize the efficiency of the method potential remote monitoring using RoLa, NB_IoT, etc. of the mobile communication company as well as the remote method potential measurement using the data collection vehicle. (Difference from the first embodiment)

In addition, due to the structure in which the data logger 220 is attached to the highest point of the ground structure 30, the present invention can simultaneously perform the method potential remote measurement and the method potential monitoring using the wireless local communication in the data logger 220 , And the positional information of the method potential measurement using GPS can also be managed by computerization. (Difference from the first embodiment and the third embodiment)

Fig. 4 shows a configuration of a ground structure attachment type electrostatic potential measuring device according to a third embodiment of the present invention.

4, the ground structure attachment type potential measurement apparatus 200 according to the present invention includes a reference electrode 210, a data logger 220, a battery box 230, a solar panel 240, and an antenna 250 ).

In the fourth embodiment according to the present invention, the reference electrode 210 and the data logger 220 are buried in the underground of the road R1, while the other battery box 230, the solar panel 240 and the antenna 250 And is attached to a predetermined position of the ground structure 30 installed around the road R1.

In other words, the ground structure 30 may be installed around the road R1, for example, a pole, a streetlight support, a traffic light support, or the like.

In this case, the battery box 230 is attached to a certain position of the ground structure 30 at a predetermined vertical height h from the ground, and the solar panel 240 Respectively.

Here, the vertical height h is preferably 1.6 m to 2.5 m from the ground in order to prevent damage to the battery box 230 due to playfulness of young children, installation and maintenance, and the like.

Also, the vertical height (h) may be less than 1.6m when there is no problem with solar power generation and where children are not likely to play with it, considering the convenience of installation and maintenance.

As described above, the solar panel 240 is installed in the ground structure 30 capable of absorbing the optimal sunlight, so that the present invention can prevent the solar panel 240 from being damaged by automobiles passing on the road R1, It provides technological advantages without being damaged and maximizing efficiency of solar power generation. (Same as the first embodiment)

In addition, since the battery box 230 is installed at a predetermined height of the ground structure 30, the present invention can prevent the battery box 230 from being intentionally damaged, provide convenience in installation and replacement, . (Same as the first embodiment)

Also, due to the structure in which the antenna 250 is attached to the highest point of the ground structure 30, the present invention provides an advantage of maximizing transmission / reception efficiency of the method potential data between external data collection vehicles (not shown). (Difference from the first embodiment)

In other words, the present invention can maximize the efficiency of the method potential remote monitoring using RoLa, NB_IoT, etc. of the mobile communication company as well as the remote method potential measurement using the data collection vehicle. (Same as the second embodiment)

Through the above-described first to third embodiments, the ground structure attachment type potential measurement device 200 according to the present invention maximizes power supply efficiency to the data logger 220 and data transmission efficiency to an external data collection vehicle, It is possible to realize a remote potential measurement using an external data collection vehicle and a constant potential monitoring system using a narrowband Internet (IoT).

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention.

210: Reference electrode
220: Data logger
230: Battery box
240: Solar panel
250: antenna
30: Ground structure
R1: Road
h: vertical height

Claims (9)

delete delete delete A battery box for charging electric energy developed through a solar panel, a method for measuring the potential of a buried pipe through a reference electrode embedded in the ground by receiving power from the battery box, and transmitting the measured potential data to the ground A method for measuring a potential, comprising a data logger,
Only the reference electrode is buried underground,
The battery box, the solar panel, the data logger, and the antenna are attached to a predetermined position of a ground structure installed in the vicinity of the road,
The solar cell panel, the data logger, and the antenna are sequentially arranged in the upward direction with the battery box attached to the body of the ground structure at a point having a predetermined vertical height h from the ground, Attached to the body of the ground structure,
The vertical height (h) is 1.6 m to 2.5 m,
The ground structure uses any one of a telephone pole, a streetlight support, and a traffic light support already installed around the road,
Wherein the data logger and the antenna are attached to the top of the body of the ground structure, thereby realizing the remote method potential measurement using the data collection vehicle and the method potential remote monitoring using RoLa or NB_IoT of the mobile communication company. Attachment type potential measuring device.


delete delete delete delete delete

Images