KR101671766B1 - Information writing or reading method on underground pipe line indication marker - Google Patents

Abstract

The present invention relates to a method for recording and confirming information in a buried pipe marker, and includes an antenna for wireless communication and an NFC tag having a built-in memory chip. The RFID tag is classified according to the type of buried underground pipe, (100); A dedicated application 200 installed in a smartphone of an operator who manages the buried pipeline in the field and tagging the NFC tag to record the buried channel data 300 or to display the buried channel data 300 on the screen ;
The application 200 includes a recording mode 210 in which the operator inputs the itemized per channel data 300 and records the itemized pertinent channel data 300 in the NFC tag and the sub channel data 300 already stored in the NFC tag, A confirmation mode 220 for displaying on the screen a screen 222 and a side view 223;
The pipeline information 221, the sectional view 222 and the side view 223 of the confirmation mode 220 are stored in a predetermined position of the predetermined basic screens 221a, 222a, and 223a, respectively, Data 300 is inserted and displayed for each item;
A step S10 of setting an NFC function built in the smartphone and tagging the indicator 100, a step S20 of checking whether the embedded channel data 300 is recorded in the NFC tag, (S60 and S30 '), the dedicated application 200 is executed and an operator selects the recording mode 210 or the confirmation mode 220 to record the buried channel data 300 (S60) (Step S70). Accordingly, a field worker can quickly and easily record and confirm buried channel data using a smartphone.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for recording and confirming information on a buried pipe marker,

The present invention relates to a method of recording and confirming information on a buried pipe marker, and more particularly, to a mark reader equipped with an NFC tag capable of storing information such as burial depth, diameter, and material of a buried underground pipe, The present invention relates to a method for enabling a user to easily record and confirm information on a buried channel in the field.

In general, the marker is buried and exposed on the land surface in order to grasp the buried state of the buried channel such as the gas pipe buried in the underground such as roads, the water supply pipe, the sewer pipe, and the communication pipe.

In recent years, most of the communications, electric lines, oil and heating pipelines that inhibit the beauty of the city are buried underground. Most of the existing and unused pipelines remain in the ground, It is not easy to grasp the buried condition.

Particularly, the importance of buried pipe markers is high because it can lead to large-scale accidents when the construction is carried out without properly grasping the buried state of the buried pipe in various excavation works as well as during the expansion, maintenance and management of the buried pipe, I can do it.

Typical markers consist of signs that are exposed on the land surface to indicate the type of duct, and landfill pins that land the signboard in the ground. In the sign, basic information such as the pipe name or the arrow indicating the direction of the pipeline is briefly displayed, and the operator confirms this with the naked eye and refers to the work.

However, since the amount of information that can be displayed on the signboard is extremely limited, it is difficult for the operator to grasp information on the buried pipeline.

Therefore, in recent years, a new type of technology has been developed and provided, which is provided with a barcode or a QR code in a marking machine and is connected to a management server that is separately constructed to receive the buried channel information.

As a representative example thereof, a device for providing underground facility information through a location indicator of a QR code type buried underground pipe is known in Japanese Patent No. 10-1197088, and a schematic configuration thereof will be described below.

An underground pipeline location indicator for entering a road surface on the ground and linking to a management site where the name, location, and photograph of the underground facility are stored through the QR code of the surface on which the identification ID is set; And a web application module for locating underground facilities for displaying the name, location and photograph of underground facilities.

In addition, another example of a method of providing cross-sectional information of an underground buried object based on an augmented reality known in Patent No. 10-1450133 is known, and the configuration is as follows.

Searching for a marker corresponding to the location in response to the location-based underground buried information request and transmitting it to the augmented reality module, and transmitting the cross-sectional information of the specific marker to the augmented reality module in response to the information request of the specific marker Lt; / RTI >

The underground buried material includes a marker in a pipe unit and a database.

Patent No. 10-197088-0000 Registration No. 10 - 1450133 - 0000

The underground facilities information providing device through the QR code type underground buried pipe location indicator to which the related art is applied is linked to the management site through the QR code on the surface of the markers and the application connects to the site along the link, It is inconvenient to use the large-capacity data transmission service by connecting to the data communication network in order to download the data.

In addition, the method of providing the section information of the underground augmented reality based on the augmented reality, which is another example of the prior art, takes a lot of time, effort, and cost to construct an augmented reality module implemented with a complicated algorithm. So it is possible to exclude narrow alleys, etc., and it may take a long time to update and there may be a difference in matching with actual site.

In addition, since the amount of data to be downloaded is much larger than that of the QR code type, there is a problem such as an increase in cost.

Accordingly, the present invention has been made to solve the above-mentioned problems,

A marker 100 mounted with an antenna for wireless communication and an NFC tag having a built-in memory chip, the marker 100 being divided into categories according to underground buried pipes to be buried;

A dedicated application 200 installed in a smartphone of an operator who manages the buried pipeline in the field and tagging NFC tags to record buried channel data 300 or display stored buried channel data 300 on the screen and;

The application 200 includes a recording mode 210 in which the operator inputs the item-specific pipeline data 300 and records the item-specific pipeline data 300 in the NFC tag, the pipeline information 221 of the embedded pipeline data 300 already stored in the NFC tag, A sectional view 222, and a side view 223, and displays it on the screen;

The pipeline information 221, the sectional view 222 and the side view 223 of the confirmation mode 220 are stored in a predetermined position of the predetermined basic screens 221a, 222a, and 223a, respectively, Data 300 is inserted and displayed for each item;

A step S10 of setting an NFC function built in the smartphone and tagging the indicator 100, a step S20 of checking whether the embedded channel data 300 is recorded in the NFC tag, (S60 and S30 '), the dedicated application 200 is executed and an operator selects the recording mode 210 or the confirmation mode 220 to record the buried channel data 300 (S60) (S70).

In addition, in step S20, the buried channel data 300 is recorded in the NFC tag. In step S30, whether the dedicated application 200 is installed in the smartphone of the worker, In the case where the battery 200 is not installed,

It is possible to download and install the application 200 on the worker's smartphone (S40) through the address (URL) of the dedicated application 200 previously stored in the NFC tag at the time of launching the markers 100, It is possible to display the embedded pipeline data 300 in a text form (S50) through a tag information display program so that basic information contained in the embedded pipeline data 300 can be confirmed even in a smartphone in which the application 200 is not installed .

In addition, there is no buried channel data 300 recorded in the step S20 of checking whether or not the buried channel data 300 is recorded in the NFC tag, and when the dedicated application 200 is installed in the worker's smartphone in the step S30 ' When the application 200 is installed, the recording mode 210 of the dedicated application 200 is activated;

After storing the buried channel data 300 before the worker inputs the itemized buried channel data 300 in the recording mode 210 and stores the buried channel data 300 in the NFC tag, the operator can not rewrite or modify the buried channel data 300 And a screen for confirming whether or not it is correctly input.

In addition, there is no buried channel data 300 recorded in the step S20 of checking whether or not the buried channel data 300 is recorded in the NFC tag, and when the dedicated application 200 is installed in the worker's smartphone in the step S30 ' If the application 200 is not installed,

The application 200 is downloaded and installed (S40) to the worker's smartphone through the address (URL) of the dedicated application 200 previously stored in the NFC tag when the marker 100 is launched.

In addition, the buried pipe data 300 may include at least one of a first number and a second number including a control number, a depth of burial, a diameter, a throughput, a voltage capacity, a material of a pipe, The sixth item (a1-a6);

In the recording mode 210, an input value for each item classified into the first to sixth terms (a1 to a6) is stored in an NFC tag;

In the confirmation mode 220, the first to sixth items (a1 to a6) stored through the recording mode 210 are displayed at predetermined positions of the predetermined basic screens 221a, 222a, and 223a, It is possible to quickly and easily record and confirm the buried channel data 300 using the phone.

The present invention constitutes a dedicated application for recording buried channel data on a marking machine and an NFC tag equipped with an NFC tag or displaying previously stored buried channel data on a screen effectively so that an operator can easily place the buried channel data on a self- There is an advantage in that data is recorded and confirmed.

Also, as in the prior art, it is possible to transmit data to the buried channel only by a short distance communication between the indicator and the smartphone of the worker without using the data communication network, so that it is not affected by the data communication network connection environment.

The dedicated application is implemented with a very simple algorithm composed of a recording mode and a confirmation mode, so that the process can be performed quickly, and the troubles such as the construction of a separate server as in the prior art are eliminated.

Particularly, in the recording mode, the data input values of each item are stored in the NFC tag, and the items made up of the pipe information, the section view, and the side view, which are the most effective structures for grasping the buried state of the pipe through the confirmation mode, And the display mode of the confirmation mode is also configured to display the data of the subway line by item at a predetermined position while the predetermined basic screen is loaded so that the worker who is not burdened with the decoding of the drawing can perform the subway line data more intuitively, There is an appreciable advantage.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a method for recording and confirming information in a buried pipe marker of the present invention. FIG.
2 is a flow chart showing a process of a method for recording and confirming information in a buried pipe marker of the present invention.
3 to 4 are views showing an example of a recording mode screen display example of an application according to an embodiment of a method of recording and confirming information in a buried pipe marker of the present invention.
5 is an image showing an example of a confirmation mode screen display of an application according to an embodiment of a method of recording and confirming information in a buried pipe marker of the present invention.
FIG. 6 is a diagram illustrating an example of screen display in which the buried pipe data is displayed in a text form (S50) through an NFC tag information display program installed in a smart phone in an embodiment of a method for recording and checking information on a buried pipe marker of the present invention Configured image.
FIGS. 7, 9, 11, and 13 are diagrams showing an example of a cross-sectional screen display according to each type of buried pipe in a confirmation mode according to an embodiment of a method for recording and confirming information in a buried pipe marker of the present invention.
FIGS. 8, 10, 12, and 14 are views showing examples of screen display on the side view of each type of buried pipe in the confirmation mode according to the embodiment of the method for recording and checking information on the buried pipe marker of the present invention.

Hereinafter, the structure and operation of a method for recording and confirming information in a buried pipe marker according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram of a method for recording and confirming information in a buried pipe marker of the present invention, FIG. 2 is a flowchart showing an implementation process of a method for recording and confirming information in a buried pipe marker of the present invention, FIG. 4 is a diagram illustrating an example of a recording mode screen display example of an application according to an embodiment of a method for recording and confirming information in a buried pipe marker of the present invention. FIG. 5 is a flowchart illustrating a method of recording and checking information in a buried pipe marker of the present invention FIG. 6 is a view showing an example of an image constituting an example of a confirmation mode screen display of an application according to an embodiment of the present invention. FIG. 6 is a flowchart illustrating an NFC tag information display program Figs. 7, 9, 11 and 13 show images constituting a screen display example in which the buried pipe data 300 is displayed in text form (S50) FIGS. 8, 10, 12, and 14 are views showing examples of a cross-sectional screen display according to each type of buried pipe in a confirmation mode according to an embodiment of a method for recording and confirming information in a buried pipe marker according to an embodiment of the present invention. The side view for each type of buried pipe in the confirmation mode according to the embodiment of the recording and confirming method will be described together with the constitutional view showing a screen display example.

A method for recording and confirming information in a buried pipe marker to which the technique of the present invention is applied includes an antenna for wireless communication and an NFC tag having a built-in memory chip, and is divided into categories according to the type of buried underground pipe A buried marker 100 is installed on a smartphone of an operator who manages the buried channel in the field and tagged NFC tags to record buried channel data 300 or display previously stored buried channel data 300 on the screen And a dedicated application (200) for performing the function.

The NFC tag is an electronic tag, and it has an antenna and a memory chip for short range wireless communication. Since the NFC tagging function is basically built in most smartphones currently on the market, an NFC tag is inserted into a signboard exposed on the indicator in the marker 100, an operator tags the NFC tag using a smart phone, .

Therefore, in order to solve the problem caused by the present invention, the markers of the prior art are extremely limited in terms of the expression and utilization of the buried channel data 300, and the buried channel data 300 is NFC Tag 100 stored in the tag.

In addition, the operator can easily record the pipeline data 300 in the NFC tag using the smartphone and efficiently display the previously stored buried pipeline data 300, so that the operator can quickly and accurately grasp information on the buried state of the pipeline In the present invention, an application 200 dedicated to the marker 100 is included.

The application 200 includes a recording mode 210 in which an operator inputs the item-specific channel data 300 and records the item-specific channel data 300 in the NFC tag, the channel information 220, And a confirmation mode 220 for displaying on the screen by dividing the screen 222 into a sectional view 222 and a side view 223. The operator selects the recording mode 210 and the confirmation mode 220 to perform a task.

The pipeline information 221, the sectional view 222 and the side view 223 of the confirmation mode 220 are stored in predetermined positions of the predetermined basic screens 221a, 222a, and 223a in the recording mode 210 The buried channel data 300 is inserted and displayed for each item so that the operator can intuitively recognize the buried channel data 300 in the process of confirming the screen displayed in the confirmation mode 220.

That is, the application 200 receives the buried channel data 300 in the recording mode 210 and stores the buried channel data 300 in the NFC tag. When the confirmation mode 220 is executed, the application 200 displays the basic screen 221a, 222a, and 223a are displayed in advance, the information on the screen is very intuitive, and the process is also simple and light, so that it can be executed quickly.

In addition, in the present invention, an operator sets an NFC function installed in the smartphone as a base and tags the markers 100 using the marker 100 and the application 200 as described above (S10) (S30, S30 '), a dedicated application (200) is executed and a worker executes the recording mode (S30, S30) (S60) or checking (S70) the buried channel data 300 by selecting the check mode 210 or the confirmation mode 220 in the step S70.

At this time, the download address (URL) of the dedicated application 200 according to the type of the marker 100 is stored in advance in the NFC tag in the marker 100, and the dedicated application 200 is installed in the smartphone of the operator If you do not have it, you should be able to download and install it.

That is, the embedded pipe data 300 is recorded in the step S20 of checking whether or not the embedded pipeline data 300 is recorded in the NFC tag. In step S30, in which the exclusive application 200 is installed in the worker's smartphone, The application 200 is downloaded and installed to the worker's smartphone through the address (URL) of the dedicated application 200 previously stored in the NFC tag when the marking machine 100 is launched (S40) Even if the dedicated application 200 is not installed, the embedded pipe data 300 is displayed in a text form (S50) through an NFC tag information display program installed in the smartphone basically, It is possible to confirm the basic information included in the buried channel data 300 without installing the application 200 in a situation where installation is impossible or in the case of a general person Lock configuration.

Meanwhile, the embedded channel data 300 stored in the NFC tag by the recording mode 210 of the application 200 can be rewritten or modified once it is recorded and stored, It is preferable to eliminate the crosstalk.

Therefore, there is no embedded pipeline data 300 recorded in the step S20 of checking whether the embedded pipeline data 300 is recorded in the NFC tag. In step S30 'in which the dedicated application 200 is installed in the worker's smartphone, (200) is installed, the recording mode (210) of the dedicated application (200) is activated.

Further, after storing the buried channel data 300 before the operator inputs the item-specific channel data 300 in the recording mode 210 and before storing the item-specific channel data 300 in the NFC tag, Screen and a screen for confirming whether or not the data has been correctly input, so that the operator can carefully record the buried channel data 300.

In addition, there is no buried channel data 300 recorded in the step S20 of checking whether or not the buried channel data 300 is recorded in the NFC tag, and when the dedicated application 200 is installed in the worker's smartphone in the step S30 ' If the application 200 is not installed, the address (URL) of the dedicated application 200 previously stored in the NFC tag at the time of product launch of the marking device 100 is recorded in order to record the embedded channel data 300 in the NFC tag And the application 200 is downloaded and installed in the worker's smartphone (S40).

The buried pipeline data 300 may include at least one of a first number and a second number including a control number, a depth of buried depth, a diameter, a passing number, a voltage capacity, a material of a pipe, (A1-a6). In the recording mode 210, the input values classified by the first to sixth terms (a1-a6) are stored in the NFC tag. In the confirmation mode 220, The first to sixth terms a1 to a6 stored in the mode 210 are inserted and displayed at predetermined positions of the predetermined basic screens 221a, 222a, and 223a.

The items of the buried pipeline data 300 such as the depth of buried depth, the diameter of the pipe, and the buried form are displayed on the sectional view 222 or the side view 223 in comparison with the expressions summarized in the form of text in the pipeline information 221 It is more effective in recognizing a worker who is familiar with decryption.

Therefore, in order to easily apply each item on the screen of the pipeline information 221, the sectional view 222 and the side view 223 of the confirmation mode 220, the embedded pipeline data 300 in the recording mode 210 is divided into the first to sixth 222 and 223a of the respective channel information 221, the sectional view 222 and the side view 223 in the confirmation mode 220 in a predetermined position on the basic screen 221a, 222a, 223a, .

Hereinafter, the process of recording and confirming the buried channel data 300 by the operator through the method of recording and confirming information in the buried pipe marker of the present invention having the above-described structure will be described with reference to the flowchart shown in FIG. 2 The following is an example.

First, a download address (URL) of the dedicated application 200 is basically stored and released in the NFC tag to be inserted into the marker 100. The marker 100 on which the NFC tag is mounted is buried in the ground on which the mark object is placed.

A field worker such as a buried pipe management worker sets a basic NFC tagging function of his own smartphone to tag the markers 100 and confirms whether or not the buried channel data 300 is recorded in the NFC tag in step S20. do.

If the embedded channel data 300 is not recorded in the NFC tag, the presence or absence of the dedicated application 200 is searched for (S30 ') in the worker's smartphone, and if the application 200 is not installed At the time of product launch of the marking device 100, a connection is established with a dedicated application 200 address (URL) previously stored in the NFC tag, and downloading and installation (S40 ') is induced.

When the application 200 is installed, a recording mode 210 is executed and an operator records the buried channel data 300 (S60). The concrete procedure of the recording mode 210 is as follows.

First, when the operator selects the recording mode 210 for recording the buried channel data 300, the operator inputs the buried channel data for each item made up of the first to sixth terms a1 to a6 according to the buried channel type, (300) input screen is displayed.

Table 1 below illustrates the embedded pipe data 300 for each item made up of the first to sixth columns (a1 to a6) according to the type of buried pipe.

Pipe type First line (a1) The second term (a2) The third term (a3) The fourth term (a4) Fifth term (a5) The sixth term (a6) Gas pipe Control Number Depth of burial
(m) Tube diameter
(mm) Material of pipe Name of Management Body Phone number Water pipe Control Number Depth of burial
(m) Tube diameter
(mm) Material of pipe Name of Management Body Phone number Sewer line Control Number Depth of burial
(m) Tube diameter
(mm) Material of pipe Name of Management Body Phone number By telecommunications Control Number Depth of burial
(m) Passing player Buried form Name of Management Body Phone number All institutions Control Number Depth of burial
(m) Voltage capacity
(KV) Buried form Name of Management Body Phone number Oil duct Control Number Depth of burial
(m) Tube diameter
(mm) Passing pressure
(Kg / cm ² ) Name of Management Body Phone number Heating duct Control Number Depth of burial
(m) Tube diameter
(mm) Passing pressure
(Kg / cm ² ) Name of Management Body Phone number

The management number means a unique ID assigned by the management organization for tracking the position of each burial channel or for efficient management in the future.

Depth of burial, pipe diameter, and pipe material are the items that indicate the length of the pipeline buried at several meters (m) from the surface, and the diameter and material of the pipeline.

In addition, the number of passing lines, voltage capacity, and burial type may also be important indicators in the case of a communication line or an electric line.

In addition, in the case of oil and heating ducts, the passing pressure is an important indicator and should be included in the items of the duct.

It is desirable that the name and telephone number of the management institution should be included in the item regardless of the type of pipeline so that it can notify the management agency immediately in case of an emergency such as breakage of the buried pipeline.

It is a matter of course that the buried channel data 300 for each item consisting of the first to sixth terms (a1-a6) are illustrative and that further items can be added or changed depending on the type of channel.

Since the item-by-item embedded pipe data 300 consisting of the first to sixth items (a1 to a6) inputted by the operator through the recording mode 210 can not be rewritten or modified once stored in the NFC tag, , A screen for displaying the main screen as shown in FIG. 4 is displayed and a screen for confirming whether or not the input values of the respective items are correct is displayed.

When all the input processes are completed, the data is stored in the NFC tag, and the buried channel data 300 consisting of the first to sixth terms a1 to a6 is stored and the recording mode 210 is terminated.

If the buried channel data 300 is recorded in the NFC tag in the step S20 of checking whether the buried channel data 300 is recorded in the NFC tag, it is checked whether or not the dedicated application 200 is installed in the worker's smartphone S30 )do.

If the dedicated application 200 is not installed, the address (URL) of the dedicated application 200 stored in the NFC tag at the time of product launch of the marker 100 is displayed to download and install (S40) , Or if the installation is not desired, basic information included in the embedded channel data 300 is displayed in a text form (S50) with the NFC tag information display application installed in the smart phone as shown in FIG.

If the embedded pipeline data 300 is recorded in the NFC tag in the step S20 of checking whether the embedded pipeline data 300 is recorded in the NFC tag and the dedicated application 200 is installed in the operator's smartphone, (220) to divide the pipeline data recorded in the NFC tag into the pipeline information (221), the section view (222), and the side view (223). The concrete execution procedure of the confirmation mode 220 is as follows.

The confirmation mode 220 is displayed by dividing the screen into the pipeline information 221, the sectional view 222, and the side view 223 as shown in FIG. 222a and 223a of the pipeline information 221, the sectional view 222 and the side view 223 set in the dedicated application 200 are displayed and the first to sixth stored terms a1- a6) are inserted and displayed at predetermined positions of the basic screens 221a, 222a, and 223a.

For example, FIG. 7 is a screen display in which the first to sixth terms (a1 to a6) are arranged at predetermined positions in the main screen 222a of the cross section 222 of the gas, the constant and the sewage pipe 222 in the confirmation mode 220 of the dedicated application 200 FIG.

Fig. 9 shows a screen display example of a sectional view 222 of an electric conduit, and the first to sixth terms (a1 to a6) are shown in Table 1 The value entered in the recording mode 210 and pre-stored in the NFC tag is displayed in the confirmation mode 220 according to the item of the pipe type described.

8 is a view showing a screen in which the first to sixth terms a1 to a6 in the basic screen 223a of the gas, the constant, and the sewerage line 223 are arranged at predetermined positions in the confirmation mode 220 of the dedicated application 200. [ Fig.

14 is a side view (223) of an electric conduit, and the first to sixth terms (a1 to a6) of the electric pipe are shown in Table 1 The value entered in the recording mode 210 and pre-stored in the NFC tag is displayed in the confirmation mode 220 according to the item of the pipe type described.

Therefore, the operator can recognize the buried channel data 300 more effectively through the confirmation mode 220 including the channel information 221, the sectional view 222 and the side view 223 of the dedicated application 200, It is possible to grasp the information such as the state of precise pipeline burial.

As described above, the method of recording and confirming information in the buried pipe marker according to the present invention as described above includes a marking device 100 equipped with an NFC tag and a dedicated application (hereinafter referred to as " 200).

Therefore, it is possible to transmit the pipeline data 300 embedded in the marking device 100 only by the local wireless communication using a smart phone in the field, without constructing a separate data storage server as in the prior art or using a large capacity data transmission service of the data communication network It is very easy and quick to check the recorded or stored buried channel data 300. In addition to the professional operators who are familiar with the decoding of the drawings, There is an advantage.

100: Signs
200: dedicated application
210: recording mode
220: Confirmation mode
221: Channel information
222: Sectional view
223: Side view
221a: Channel information main screen
222a: Section Main Screen
223a: Side view Basic screen
300: buried channel data
a1, a2, a3, a4, a5, a6: the first to sixth terms

Claims (5)

A marker 100 mounted on an indicator and mounted on a smartphone of a field worker managing a buried pipe, tagging the NFC tag to map buried pipe data 300, And a dedicated application (200) for displaying the stored buried channel data (300) on a screen, the method comprising:
The dedicated application 200 includes a recording mode 210 in which the operator inputs the itemized per channel data 300 and records the itemized pertinent channel data 300 in the NFC tag and the pertinent channel data 300 stored in the NFC tag, A sectional view 222, and a side view 223, and displays it on the screen;
The pipeline information 221, the sectional view 222 and the side view 223 indicate the embedded pipeline data 300 input in the recording mode 210 at predetermined positions of the predetermined basic screens 221a, 222a, and 223a, respectively In addition,
The buried pipeline data 300 includes the first to sixth columns including the control number, the depth of burial, the diameter of the pipe, the diameter of the pipe, the capacity of the pipe, the material of the pipe, (a1-a6). In the recording mode 210, input values for each item classified by the first to sixth terms a1-a6 are stored in the NFC tag. In the confirmation mode 220, (A1-a6) stored at predetermined positions of the basic screens 221a, 222a, and 223a through the display unit 210;
A worker sets an NFC function installed in the smartphone and tagging the marker 100 (S10), a step (S20) of checking whether the buried channel data 300 is recorded in the NFC tag (S20) In step S30 and S30 ', the dedicated application 200 is executed and the operator selects the recording mode 210 or the confirmation mode 220 to record the embedded pipe data 300 ) Or checking (S70) whether or not the information is recorded in the buried pipe marker. delete delete delete delete

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