WO2018147546A1 - System for maintaining and safety-managing infrastructure measurement instrument by using mobile application - Google Patents

Abstract

The present invention relates to a system for maintaining and safety-managing an infrastructure measurement instrument by using a mobile application, the system: conveniently and efficiently inspecting, through a mobile terminal, a measurement instrument provided in infrastructure including a bridge, a tunnel, an underground structure, and the like; and uploading, to a server of a control center in a site, damage to the structure, corrective measures, or the like through a visual examination so as to provide support such that the same can be reflected in the maintenance and safety management of the structure. Specifically, the system comprises: one or more sensors provided in a particular member of a structure to be managed and generating and outputting sensing information according to the movement of the member; a wireless tag having unique identification information, and connected to the sensors so as to collect sensing information outputted from the sensors and transmit the identification information and the collected sensing information by an external request signal; a manager terminal for receiving and displaying the identification information and the sensing information transmitted from the wireless tag, and inputting inspection information on the visual examination of a corresponding sensor and member and transmitting the same; and an operation server including a database in which management information for each member for the structure to be managed is stored, providing access authority of the manager terminal to the database, and uploading the inspection information transmitted from a selected manager terminal so as to update the management information stored in the database.

Description

Instrument maintenance and safety management system of infrastructure structure using mobile app

The present invention is to conveniently and efficiently perform the inspection of the instrument installed in the infrastructure, including bridges, tunnels, underground structures, etc. through the mobile terminal, and the damage or measures of the structure through visual inspection in the field server of the control center The present invention relates to a measuring instrument maintenance and safety management system of an infrastructure structure using a mobile app that can be uploaded to the structure maintenance and safety management by uploading.

Since the 20th century, drastic weather changes have changed the environment of the present earth, and the occurrence of great floods, tsunamis, earthquakes, and typhoons are gradually increasing as compared to the past as factors of the weather abnormalities. Increasingly, underground structures are demanding more secure designs.

In Korea, after a major construction accident, the government enacted the 'Special Act on the Safety Management of Facilities' in 1995 and established the Facility Safety Management Corporation to actively manage and manage various social-based infrastructure facilities and private facilities. Is leading.

In addition, new building structures as well as existing building structures are expected to develop technologies for securing early warning signs of catastrophic events, the possibility of collapse, and other safety diagnoses and reliability, and effective maintenance management through the application of soundness monitoring to structures. The importance of technology development is increasing.

In accordance with these requirements, conventionally, various sensors are installed to measure the behavior of the main parts of a building structure, and the sensing data measured from the sensors are collected at a remote control center and the displacement of the building structure is confirmed based on the same. Maintenance and safety management solutions have been developed, but the various sensors installed at specific locations on the structure require a lot of equipment for inspection, and because they are distributed in a narrow, inaccessible and dangerous area due to the characteristics of the structure, the site manager inspects the site. However, there is a problem that can be exposed to dangerous situations during maintenance.

Therefore, the present invention is to conveniently and efficiently carry out on-site inspection of infrastructure structures including bridges, tunnels, underground structures, etc. through mobile terminals, and the damage or measures of the structure through visual inspection at the site of the control center. It aims to provide a measuring instrument maintenance and safety management system of an infrastructure structure using a mobile app that can be uploaded to a server to be reflected in the maintenance and safety management of the structure.

As a means for solving the above problems, the instrument maintenance and safety management system of the infrastructure structure using the mobile app of the present invention is installed on a specific member of the structure to be managed one or more to generate and output sensing information according to the behavior of the member sensor; A wireless tag having unique identification information, connected to the sensor, collecting sensing information output from the sensor, and transmitting identification information and collected sensing information by an external request signal; An administrator terminal for receiving and displaying identification information and sensing information transmitted from the wireless tag, inputting check information for visual inspection of the sensor and the member, and transmitting the check information; And a database storing management information for each member of the structure to be managed, granting access authority of the manager terminal to the database, uploading check information transmitted from the selected manager terminal, and uploading management information stored in the database. It is characterized by including; operating server to update.

As an example, the wireless tag may be a near field communication (NFC) tag, and the manager terminal may automatically transmit a request signal to the corresponding wireless tag when the wireless terminal recognizes a wireless tag adjacent to a communication range.

As an example, the inspection information may include abnormality information of displayed sensing information, damage information of a member according to visual inspection, field action contents information, and future inspection plan information.

As an example, the manager terminal may include a camera for capturing an image, and the inspection information may further include photograph or video information photographed through a camera of the manager terminal.

As an example, the manager terminal stores reference sensing information indicating a normal range for each member of the management target structure, and compares the sensing information collected from the selected sensor with the stored reference sensing information to detect abnormality of the sensing information. Can be determined and displayed.

As one example, the wireless tag collects and accumulates sensing information of sensors connected at predetermined times, and the manager terminal may display the sensing information history according to the long-term behavior of the member in a list or a graph. .

Instrument maintenance and safety management system of the infrastructure structure using the mobile app of the present invention, by inputting the check items or check items according to visual inspection in the field through the mobile app of the field manager, uploaded to the control center, the control located in a remote location The center can easily check for any abnormality of the site without having to visit the site for visual inspection, and the site manager can also inspect without having a separate inspection equipment for the inspection of sensors. It has the effect of improving the convenience and safety of the field manager.

In addition, the instrument maintenance and safety management system of the infrastructure structure using the mobile app of the present invention, unlike the past to evaluate the safety of the structure based on the sensing data of the infrastructure structure by adding inspection information according to visual inspection of the site more reliable There is an effect that can lead to an evaluation result.

1 is a schematic diagram showing the configuration of the instrument maintenance and safety management system of the infrastructure structure using a mobile app of the present invention.

2 is a block diagram showing the configuration of a manager terminal according to an embodiment of the present invention.

3 to 7 is a display screen of a mobile app (App) running in the manager terminal according to an embodiment of the present invention.

Hereinafter, the configuration and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

1 is a schematic diagram showing the configuration of a measuring instrument maintenance and safety management system of an infrastructure structure using a mobile app of the present invention, Figure 2 is a block diagram showing the configuration of a manager terminal according to an embodiment of the present invention, Figures 3 to 7 is a display screen of a mobile app running on a manager terminal according to an embodiment of the present invention.

Instrument maintenance and safety management system (hereinafter referred to as 'management system') of the infrastructure structure using the mobile app of the present invention, on-site checks for infrastructure structures, such as bridges, tunnels, underground structures through a mobile app, By collecting photographs of the conservation status, it is possible to support the maintenance and safety management of the infrastructure more efficiently.

Referring to FIG. 1, the management system of the present invention includes one or more sensors 100 installed in a structure to be managed, and a wireless tag 200 connected to the sensor 100 to transmit sensing information output from the sensor 100. And an administrator server 300 that recognizes the wireless tag 200 and receives the sensing information, and an operation server 400 that receives and stores site inspection information input from the administrator terminal 300. Can be.

The sensor 100 may be installed in a specific member capable of measuring the behavior of the structure to be managed, and may generate and output sensing information according to the behavior of the member.

The sensor 100 may be provided in plurality in consideration of the size of the structure to be managed, and various sensors may be applied according to the type of measurement. For example, the sensor 100 may include a displacement meter, a strain gauge, an accelerometer, a thermometer, a wind direction / windometer, an inclinometer, and the like.

The wireless tag 200 has unique identification information, is connected to the sensor 100 to collect sensing information output from the sensor 100, and the identification information and collected sensing information by an external request signal. I can send it.

For example, the wireless tag may be an NFC (Near Field Communication) tag that can exchange data at a short range of about 10 cm using a frequency of 13.56 MHz band.

The identification information of the wireless tag 200 may include location information on which the corresponding sensor 100 is installed, sensor serial number, resource information of the sensor, name and image information of the sensor, and the like, and is input by the administrator in advance. Or can be modified.

The manager terminal 300 receives and displays identification information and sensing information transmitted from the wireless tag 200, and inputs site inspection information for visual inspection of a member in which the sensor 100 and the sensor 100 are installed. And, it can be transmitted to the operation server 400.

The manager terminal 300 may be any one of a portable administrator's smartphone or tablet PC, may be installed in advance by downloading a specific mobile app (App) distributed from the operation server 400, the mobile app ( Through the various interface screens provided by the App), it is possible to perform management tasks such as displaying sensing information or entering field inspection information.

In addition, the mobile app (App) running on the manager terminal 300 can access the database of the operation server 400 described below and transmit the input field inspection information to the operation server through a communication network.

Meanwhile, when the wireless tag 200 is configured as an NFC tag, the manager terminal 300 may recognize the NFC tag when the wireless tag 200 is located within a communication range of about 10 cm, which is a communication range of the NFC tag, and recognize the NFC tag. If installed, the installed mobile app may be automatically executed.

The manager terminal 300 may transmit a request signal for requesting sensing information of a corresponding sensor to the recognized wireless tag 200 when the mobile app is executed, and receive a response signal accordingly.

In detail, as illustrated in FIG. 2, the mobile app of the manager terminal 300 may include a tag recognition unit 310, an information requesting unit 320, an input unit 330, and a display unit 340.

The tag recognition unit 310 recognizes the wireless tag 200 adjacent to the communication range, and supports data communication with the recognized wireless tag 200. For example, the tag recognition unit 310 may receive identification information transmitted from the recognized wireless tag 200. The tag recognition unit 310 may be equipped with a communication module based on a contactless communication using a specific frequency band according to the type of the wireless tag.

In addition, the tag recognition unit 310 may instruct to display all identification information of a plurality of received sensors when two or more sensors 100 are adjacent within a communication range, and guide the selection of one sensor 100.

The information requesting unit 320 may request sensing information collected from the wireless tag 200 selected by the tag recognizing unit 310 and transmitted from the wireless tag 200 through the tag recognizing unit 310. Information can be received.

The input unit 330 provides a keypad for inputting text, and whether there is an abnormality of the sensing information displayed, as well as the member's damage, field action contents, and future inspection plan according to visual inspection such as cracks for the member. Allows administrators to enter site inspection information, including details.

Here, the manager terminal 300 may further include a camera 350 for capturing an image, so that the user can input a picture or a video taken by the camera 350 through the input unit 30 of the mobile app. This makes it easy for the control center to check the actual damage to the member and the action taken.

The display unit 340 may display all information processed in the mobile app. For example, as shown in FIG. 3, when an administrator executes a mobile app during an on-site inspection, the user may display an authentication screen of the user, and as shown in FIG. 4, a screen for guiding recognition of a wireless tag may be displayed. I can display it.

In addition, the display unit 340 may display identification information received from the wireless tag recognized by the tag recognition unit 310 as shown in FIG. 5, and the information requesting unit 320 as shown in FIG. 6. In response to a request of), sensing information of the sensor received from the wireless tag 200 may be graphically displayed.

As described above, the display unit 340 may photograph the damage or the action of the member, as shown in FIG. 7, and may display an input screen for inputting the inspection details and a picture.

Meanwhile, the wireless tag 200 may collect and accumulate the sensing information of the sensor 100 connected for each preset time. In this case, the predetermined time is preferably set in monthly or weekly units. The hourly sensing information may be used as data for confirming long-term behavior of the member.

In addition, the manager terminal 300 processes the cumulative sensing information history received from the wireless tag 200 in order to check the long-term behavior of the member and displays it in a list or in a graph, so that the manager displays the mobile app screen. It can help to easily determine whether there is more than that.

In addition, the manager terminal 300 may store reference sensing information indicating a normal range for each member of the structure to be managed, and compares the sensing information collected from the selected sensor 100 with the stored reference sensing information. By determining whether there is an abnormality and indicating it, it is possible to immediately determine whether there is an abnormality of the member in the field.

The operation server 400 includes a database in which management information for each member is stored in the structure to be managed, grants access authority of the manager terminal 300 to the database, and transmits the selected manager terminal 300. The inspection information may be uploaded to update management information stored in the database.

Although not shown in the drawings, the database may have a plurality of divided storage spaces, and management information may be stored in each storage space by setting one or more categories, such as for each structure to be managed, for each member, or for each location.

The operation server 400 may statistically check the check information received from the manager terminal 300 in the field, and output appropriate statistics information in response to a request of the control center manager.

Although not shown in the drawing, the operation server 400 may monitor management information stored in a database including a display device.

As described above, the management system of the present invention inputs the check points or measures of the site through the mobile app of the site manager and uploads them to the control center so that a site visit for visual inspection is unnecessary at the control center located at a remote location. Unlike the past, which evaluates the safety of structures based on the sensing data, it is possible to support more reliable evaluation results by adding inspection information based on visual inspection of the site.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (6)

1. At least one sensor installed in a specific member of the structure to be managed to generate and output sensing information according to the behavior of the member;

   A wireless tag having unique identification information, connected to the sensor, collecting sensing information output from the sensor, and transmitting identification information and collected sensing information by an external request signal;

   An administrator terminal for receiving and displaying identification information and sensing information transmitted from the wireless tag, inputting check information for visual inspection of the sensor and the member, and transmitting the check information; And

   Update management information stored in the database by uploading the check information transmitted from the selected manager terminal, including a database in which the member-specific management information is stored in the management target structure, granting access rights of the manager terminal to the database; Operating server; Instrument maintenance and safety management system of the infrastructure structure using a mobile app comprising a.
2. The method of claim 1,

   The wireless tag is,

   Near field communication (NFC) tags.

   The manager terminal,

   Instrument maintenance and safety management system of the infrastructure structure using a mobile app, characterized in that the automatic transmission of the request signal to the corresponding wireless tag when recognizing the wireless tag adjacent to the communication range.
3. The method of claim 1,

   The check information,

   Instrument maintenance and safety management system of the infrastructure structure using a mobile app, characterized in that it includes abnormal information of the sensing information displayed, damage information of the member due to visual inspection, on-site action content information and future inspection plan information.
4. The method of claim 3, wherein

   The manager terminal,

   It includes a camera for taking an image,

   The inspection information measuring system maintenance and safety management system of the infrastructure structure using a mobile app, characterized in that it further comprises a picture or video information taken through the camera of the manager terminal.
5. The method of claim 3, wherein

   The manager terminal,

   The reference sensing information indicating the normal range for each member of the structure to be managed is stored, and the sensing information collected from the selected sensor and the stored reference sensing information are compared and analyzed to determine whether there is an abnormality of the sensing information and to display it. Instrument maintenance and safety management system of infrastructure using mobile app.
6. The method of claim 1,

   The wireless tag is,

   Collects and accumulates the sensing information of the connected sensor for each preset time.

   The manager terminal,

   Measuring system maintenance and safety management system of the infrastructure structure using a mobile app, characterized in that the list of sensing information history according to the long-term behavior of the member displayed or displayed in a graph.

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