KR102470402B1 - Underground facility integrated management system for QR code - Google Patents

Abstract

The present invention relates to an integrated management system for underground facilities of inlet pipes using a QR code. When constructing and repairing underground facilities of inlet pipes, various information including location information, property information, and accident/repair history of a pipe conduit is generated as a QR code, and the QR code attached to a manhole cover of a manhole connected to the underground facilities of the inlet pipes. When a manager needs confirmation, corresponding information can be confirmed by requesting confirmation to a remote integrated management server based on the location information of the manhole and manhole cover and scanning a corresponding QR code which becomes scannable according to the request. The integrated management system for underground facilities of inlet pipes using a QR code according to the present invention comprises: a manhole cover; a storing/displaying unit of inlet pipe information installed on am inner surface of the manhole cover; a manager smart mobile device; and an integrated management server. Accordingly, various information about the underground facilities of inlet pipes can be confirmed.

Description

Underground facility integrated management system for QR code}

In the present invention, when constructing and repairing the inlet pipe underground facilities, various information such as location information, attribute information, and accident/repair history for the pipe is generated as a QR code and attached to the manhole cover of the manhole linked to the inlet pipe underground facilities Then, when the manager needs to confirm this, the QR code that allows the manager to scan the corresponding QR code that becomes scannable by requesting the remote integrated management server based on the GPS location information of the manhole and manhole cover to check the corresponding information It relates to an integrated management system for underground facilities using codes.

In general, underground facilities in the form of service pipes, such as water supply or sewerage through which water or sewage flow, power lines or communication lines through which power or communication lines flow, and city gas pipelines through which city gas flows, are national infrastructure facilities and are subject to long-term review. It is built after establishment, and its maintenance and management are very important. And in the following description, the term “inlet pipe underground facility” will be used for such an underground facility in the form of an inlet pipe.

In addition, the manhole is a structure installed so that workers can enter and exit for maintenance of the inlet pipe underground facility, and this manhole is also a type of underground facility.

In addition, in the central commercial district or major business district of the city, the inlet pipe underground facilities are densely buried like a spider's web, so systematic and accurate management of the facility date, size, repair history, accident history, location information, etc. is essential. An efficient technology has not yet been provided.

Accordingly, the applicant of the present application has proposed the present invention as a more efficient and systematic management technology for inlet pipe underground facilities.

Korean Patent Registration No. 10-1487017 (February 2, 2015), “Self-marker type underground facility management system” Korean Registered Patent No. 10-2399227 (Announced on May 17, 2022), “Underground Facility Management System Using GPR Exploration”

An embodiment of the present invention provides various information such as location information for the pipeline, plan and side views of the service pipe, service pipe size, use, repair history and accident history, facility date, etc. It is created with a QR code and attached to the manhole cover of the manhole associated with the inlet pipe underground facilities, and when the manager needs to inquire information about the inlet pipe underground facilities, based on the GPS location information of the manhole and the manhole cover After making a confirmation request to the remote integrated management server, scan the QR code that can be checked through the manhole cover of the manhole accordingly to check various information about the inlet pipe underground facilities. It provides an integrated management system for inlet pipes and underground facilities.

An integrated management system for underground facilities using a QR code according to an embodiment of the present invention is installed in a manhole to which a plurality of underground facilities of an inlet pipe are connected to allow integrated management of the underground facilities of the inlet pipe. As an integrated management system for pipe underground facilities, the manhole cover of the manhole to which a vertically penetrating code display hole and a transparent cover blocking the code display hole from the outside are coupled to the upper surface, and located directly below the code display hole A code plate installed on the inner surface of the manhole cover and performing a vertical inversion type rotation operation and a QR code installed on one side of the code plate, wherein the QR code includes the facility date, size, and purpose of each underground facility of the inlet pipe Inlet pipe information storage / display unit for storing information on the plan view and side view of the inlet pipe, repair details, accident details, and location information, and the inlet pipe underground facility manager uses the GPS location information of the manhole as identification information, and the inlet pipe information A manager smart mobile device that transmits a confirmation request signal for the QR code of the storage/display unit to a remote integrated management server, and an operation control signal to the rotation drive unit of the inlet pipe information storage/display unit according to reception of the confirmation request signal It may include the integrated management server that transmits.

In addition, the inlet pipe information storage / display unit is installed on the inner surface of the manhole cover to be located directly below the code display hole, and a housing coupled to the inner surface of the manhole cover so that the open top faces the code display hole The code plate installed to perform a vertical inversion rotational operation inside the housing, a rotation drive unit installed in the housing to provide rotational power to the code plate, and the QR code installed on one side of the code plate can include

In addition, the integrated management system of the inlet pipe underground facilities using the QR code according to the embodiment of the present invention is installed for the inlet pipe underground facilities of the transmission cable connected to the ground transformer through the manhole among the inlet pipe underground facilities It further includes a transmission cable tension monitoring unit, and the transmission cable introduced into the manhole is connected to the ground transformer while forming a horizontal section, an arc section, and a vertical section sequentially formed, and the transmission cable tension monitoring unit, It is installed at the same height along the length of the horizontal section to prevent sagging of the transmission cable in the horizontal section and the connection area between the horizontal section and the arc section, and the side of the manhole into which the transmission cable is inserted. and a first post adjacent to the arc section, a second post adjacent to the arc section, and a third post located in the center between the first and second posts, and the transmission cable is provided on the upper surface of each of the first to third posts. A rectangular cable support ring is provided for support in a passing manner, and a through hole is formed on the upper surface of the cable support ring of the third post to penetrate in a vertical direction and extend to a side surface in a direction toward the first post. a cable horizontal support module, an infrared sensor installed on the upper surface of the cable support ring of the second post, and a reflector installed on the transmission cable so as to protrude upward through the through hole on the upper surface of the cable support ring of the third post. Including, the distance measurement for the reflector is periodically performed through the operation of the infrared sensor according to a preset operating cycle, and the distance measurement value measured at each operating cycle is transmitted to an external receiving target in real time. It is installed on the top of the module and the manhole, and is installed to shoot in the horizontal direction to shoot a predetermined vertical shooting section among the vertical sections of the power transmission cable, and the same operation as the operation cycle of the distance measurement module. It operates in a cycle and receives the image data acquired at every operating cycle from the outside in real time. A camera module transmitted to the target, a cable sagging mark installed on the vertical shooting section of the vertical section of the power transmission cable and photographed through the camera module, and a cable sagging mark installed inside the manhole and received from the camera module If the cable sagging mark is not displayed in the image data to be displayed and the distance measurement value received from the distance measurement module exceeds a preset threshold distance value, the cable abnormality check including the distance measurement value of the distance measurement module as display information It may include a control module that generates and outputs a QR code for request, and a display module installed directly below the code display hole of the manhole cover to display the QR code for requesting cable abnormality check output from the control module on the screen. .

According to an embodiment of the present invention, when constructing and renovating an inlet pipe underground facility, various information such as location information for the pipe, plan view and side view information of the inlet pipe, size of the inlet pipe, use, repair history and accident history, facility date, etc. As the information is created as a QR code and attached to the manhole cover of the manhole associated with the inlet pipe underground facilities, the manager can search for information about the inlet pipe underground facilities, the GPS location information of the manhole and the manhole cover After making a confirmation request to the remote integrated management server based on , it is possible to check various information about the inlet pipe underground facilities by scanning the QR code that can be checked through the manhole cover of the corresponding manhole.

1 is a configuration diagram illustrating an integrated management system for an inlet pipe underground facility using a QR code according to an embodiment of the present invention.
2 is a side view illustrating an inlet pipe information storage/display unit in an integrated management system for an inlet pipe underground facility using a QR code according to an embodiment of the present invention.
3 is a block diagram illustrating an electrical configuration of an integrated management system for an inlet pipe underground facility using a QR code according to an embodiment of the present invention.
4 is a side view illustrating an example in which some components are added to the integrated management system for an inlet pipe underground facility using a QR code according to an embodiment of the present invention.
5 is a block diagram illustrating an example in which an additional configuration according to FIG. 4 is added to an integrated management system for an underground facility using a QR code according to an embodiment of the present invention.

The detailed description of the present invention below refers to the accompanying drawings shown as examples of embodiments in which the present invention can be practiced. These embodiments are described in detail so that those skilled in the art will be able to practice the present invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in one embodiment in another embodiment without departing from the spirit and scope of the invention. Additionally, it should be understood that the location or arrangement of individual components within each described embodiment may be changed without departing from the spirit and scope of the invention.

Accordingly, the detailed description set forth below is not to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all equivalents as claimed by those claims. Like reference numbers in the drawings indicate the same or similar function throughout the various aspects.

The terms used in the present invention have been selected from general terms that are currently widely used as much as possible while considering the functions in the present invention, but these may vary depending on the intention of a person skilled in the art or precedent, the emergence of new technologies, and the like. In addition, in a specific case, there is also a term arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, not simply the name of the term.

In the invention, when a certain part “includes” a certain component in the whole, this means that it may further include other components, rather than excluding other components, unless otherwise stated. In addition, as described in the specification, "... wealth", "… A term such as “module” refers to a unit that processes at least one function or operation, which may be implemented as hardware or software or a combination of hardware and software.

Referring to FIGS. 1 to 5, an integrated management system for an underground facility using a QR code according to an embodiment of the present invention will be described.

1 is a configuration diagram illustrating an integrated management system for an inlet pipe underground facility using a QR code according to an embodiment of the present invention, and FIG. 2 is a configuration diagram of an inlet pipe underground facility using a QR code according to an embodiment of the present invention. It is a side view illustrating an inlet pipe information storage/display unit in the integrated management system, and FIG. 3 is a block diagram illustrating an electrical configuration of an integrated management system for an inlet pipe underground facility using a QR code according to an embodiment of the present invention.

As shown, the integrated management system for the inlet pipe underground facility using the QR code according to an embodiment of the present invention is installed in the manhole 20 to which the plurality of inlet pipe underground facilities 10 are connected, so that the inlet pipe underground facility As an integrated management system for inlet pipe underground facilities that allows integrated management of (10), manhole cover 100, inlet pipe information storage / display unit 200, manager smart mobile device 300 and integrated management server (400).

The manhole cover 100 is a cover of the manhole 20, and its basic configuration and use are the same as those of the existing manhole cover. It is differentiated from the existing manhole cover in that the transparent cover 120 that blocks the code display hole 110 from the outside is coupled to the upper surface.

The inlet pipe information storage / display unit 200 is installed on the inner surface of the manhole cover 100 so as to be located directly below the code display hole 110 of the manhole cover 100, and the inlet pipe information storage / display unit 200 is composed of a QR code 220 installed on one side of the code plate 210 and the code plate 210 performing a vertical inversion type rotation operation. In addition, the QR code 220 stores the facility date, size, use, plan view and side view of the inlet pipe, repair history, accident history, and location information for each underground facility 10 of the inlet pipe.

In addition, if a more specific configuration of the inlet pipe information storage / display unit 200 is described, the inlet pipe information storage / display unit 200 is located directly below the code display hole 110 of the manhole cover 100, the manhole cover ( 100) and the housing 230 coupled to the inner surface of the manhole cover 100 so that the open top faces the code display hole 110 of the manhole cover 100, and the housing 230 A code plate 210 installed to perform a vertical inversion type rotation operation from the inside, a rotary drive unit 240 installed in the housing 230 to provide rotational power to the code plate 210, and a code plate 210 It may be configured to include a QR code 220 installed on one side of the.

In addition, the rotation drive unit 240 includes a base plate 241 protruding from the housing 230 and a normal and reverse rotation motor 242 and a reducer 243 installed on the upper surface of the base plate 241, and a reducer ( The driving shaft 243a of the housing 243 may be inserted into the housing 230 through the shaft insertion hole 231 of the housing 230 and coupled to the code plate 210 .

The manager smart mobile device 300 uses the GPS location information of the manhole 20 as identification information by the inlet pipe underground facility manager to remotely integrate the confirmation request signal for the QR code 240 of the inlet pipe information storage / display unit 200 It performs a function to transmit to the management server 400.

When the confirmation request signal is received from the manager smart mobile device 300, the integrated management server 400 transmits an operation control signal to the rotation drive unit 230 of the inlet pipe information storage/display unit 200. . In other words, as the integrated management server 400 receives the confirmation request signal from the manager smart mobile device 300, the code plate 210 of the inlet pipe information storage/display unit 200 displays the QR code 220 at the top. Controls the operation of the rotation drive unit 240 to perform a positioning rotation operation.

According to the configuration described above, various information such as location information for the pipe, plan and side view of the service pipe, service pipe size, use, maintenance history and accident history, facility date, etc. It is created with a QR code and attached to the manhole cover of the manhole associated with the inlet pipe underground facilities, and when the manager needs to inquire information about the inlet pipe underground facilities, based on the GPS location information of the manhole and the manhole cover After a confirmation request is made to the remote integrated management server, various information about the inlet pipe underground facilities can be checked by scanning the QR code that can be checked through the manhole cover of the corresponding manhole.

And FIGS. 4 and 5 illustrate an example in which some components are added to the integrated management system of the inlet pipe underground facility using the QR code according to the above-described embodiment, and FIG. 4 is a QR code according to an embodiment of the present invention. A side view illustrating an example in which some configurations are added to the integrated management system for inlet pipe underground facilities using It is a block configuration diagram illustrating an example in which an additional configuration according to FIG.

Referring to this, the integrated management system of the inlet pipe underground facility using the QR code according to an embodiment of the present invention is a transmission cable connected to the ground transformer through the manhole 20 among the inlet pipe underground facilities 10 described above. A power transmission cable tension monitoring unit 500 installed for the underground facility 10 of the service pipe 510 is further included. At this time, the power transmission cable 500 introduced into the manhole 20 is connected to the ground transformer while forming a horizontal section 511, an arc section 512, and a vertical section 513 sequentially formed.

In addition, the transmission cable tension monitoring unit 500 includes a cable horizontal support module 520, a distance measurement module 530, a camera module 540, a cable sagging marker 550, a control module 560, and a display module 570. composed of

The cable horizontal support module 520 includes first to third posts 521 to 523, and these first to third posts 521 to 523 are the horizontal sections 511 and It is installed at the same height along the longitudinal direction of the horizontal section 511 to prevent sagging of the transmission cable 510 in the connection area between the horizontal section 511 and the arc section 512, but the transmission cable 510 The first post 521 adjacent to the side of the incoming manhole 20, the second post 522 adjacent to the arc section 512 of the transmission cable 510, and the center between the first and second posts 521 and 522. It consists of a third post 523 located on.

In addition, square cable support rings 521a, 522a, and 523a are provided on the upper surface of each of the first to third posts 521 to 523 to support the transmission cable 510 in a form passing through, and the third post 523 A through hole 523b is formed on the upper surface of the cable support ring 523a and extends to the side surface in the direction toward the first post 521 while penetrating in the vertical direction.

The distance measurement module 530 includes an infrared sensor 531 installed on the upper surface of the cable support ring 522a of the second post 522 and a through hole 523b on the upper surface of the cable support ring 523a of the third post 523. It includes a reflector 532 installed on the power transmission cable 510 so as to protrude upward through. The distance measurement module 530 periodically measures the distance to the reflector 532 through the operation of the infrared sensor 531 according to a preset operating cycle, and transmits the distance measurement value measured at each operating cycle to the outside in real time. It is transmitted to the receiving target, that is, to the control module 560 to be described later.

The camera module 540 is installed at the top of the manhole 20, and such a camera module 540 is installed to take pictures in the horizontal direction and takes vertical pictures determined in advance among the vertical sections 513 of the power transmission cable 510. The section 513a is photographed. Here, the camera module 540 operates at the same operating cycle as the operating cycle of the distance measurement module 530 and transmits image data acquired at every operating cycle to the control module 560 in real time.

The cable sagging mark 550 is installed on the vertical shooting section 513a of the vertical section 513 of the power transmission cable 510 and is photographed through the camera module 540 .

The control module 560 is installed inside the manhole 20, and this control module 560 does not display the cable sagging mark 550 in the image data received from the camera module 540 and at the same time the distance measurement module 530 When the distance measurement value received from ) exceeds the preset threshold distance value, a QR code for requesting a cable abnormality check including the distance measurement value of the distance measurement module 530 as display information is generated and output.

The display module 570 is installed directly below the code display hole 110 of the manhole cover 100 to display the QR code for the cable abnormality check request output from the control module 560 on the screen.

According to the configuration described above, among the inlet pipe underground facilities 10 connected to the manhole 20, the inlet pipe underground facility 10 of the power transmission cable 510 connected to the transformer on the ground through the corresponding manhole 20 The tension of the transmission cable 510 can be periodically and automatically monitored, and when the transmission cable 510 is excessively pulled in a direction opposite to the connection direction to the transformer on the ground, the cable sags through the camera module 130. It is confirmed that the corresponding region of the transmission cable 12 is pulled downward because the mark 140 is not photographed, and at the same time, through the distance measurement module 120, the corresponding region of the transmission cable 120 connects to the ground transformer 13 in the direction of connection. As it is confirmed that the cable is pulled in the opposite direction, the control module 560 generates the above-described QR code for the cable abnormality check request and outputs it to the display module 570.

Accordingly, in the process of checking the QR code 220 of the inlet pipe information storage/display unit 200, the manager also checks the QR code for the cable abnormality inspection request displayed on the display module 570, and thus grasps the situation and takes action can take

As described above, in the present description, specific details such as specific components and limited embodiments and drawings have been described, but this is only provided to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. No, and those skilled in the art can make various modifications and variations from these descriptions.

Therefore, the spirit of the present invention should not be limited to the described embodiments and should not be defined, and all things that have modifications equivalent or equivalent to these claims as well as the claims described below will fall within the scope of the spirit of the present invention.

10: inlet pipe underground facility 20: manhole
100: manhole cover 110: code display hole
120: transparent cover 200: inlet pipe information storage / display unit
210: code plate 220: QR code
230: housing 231: shaft insertion hole
240: rotation drive unit 241: base plate
242: forward and reverse rotation motor 243: reducer
243a: drive shaft 300: manager smart mobile device
400: integrated management server 500: transmission cable tension monitoring unit
510: transmission cable 511: horizontal section
512: arc section 513: vertical section
513a: vertical shooting section 520: cable horizontal support module
521: first post 521a: cable support hook
522: second post 522a: cable support hook
523: third post 523a: cable support hook
523b: through hole 530: distance measurement module
531: infrared sensor 532: reflector
540: camera module 550: cable sagging mark
560: control module 570: display module

Claims (2)

delete An integrated management system for inlet pipe underground facilities installed in a manhole 20 to which a plurality of inlet pipe underground facilities 10 are connected so that integrated management of the inlet pipe underground facilities 10 is achieved,
The manhole cover 100 of the manhole 20 to which the code display hole 110 penetrating vertically and the transparent cover 120 blocking the code display hole 110 from the outside are coupled to the upper surface:
It is installed on the inner surface of the manhole cover 100 so as to be located directly below the code display hole 110, and is installed on one side of the code plate 210 and the code plate 210 that performs a vertical inverted rotation operation. Including a QR code 220 that is, but in the QR code 220, the facility date, size, use, plan view and side view of the inlet pipe for each underground facility 10, information on repair details, accident details, and location of the inlet pipe An inlet pipe information storage/display unit 200 in which information is stored:
The inlet pipe underground facility manager uses the GPS location information of the manhole 20 as identification information to send a confirmation request signal for the QR code 220 of the inlet pipe information storage/display unit 200 to the remote integrated management server 400 Administrator smart mobile device to transmit to (300); and
The inlet pipe underground facility using the QR code including the integrated management server 400 that transmits an operation control signal to the rotation drive unit 230 of the inlet pipe information storage/display unit 200 upon reception of the confirmation request signal. In the integrated management system,
The inlet pipe information storage / display unit 200 is installed on the inner surface of the manhole cover 100 so as to be located directly below the code display hole 110, and the open top faces the code display hole 110. The housing 230 coupled to the inner surface of the manhole cover 100, the code plate 210 installed to perform a vertical inverted rotational motion inside the housing 230, and the code plate 210 ) and a rotation driving unit 240 installed on the housing 230 to provide rotational power to the QR code 220 installed on one side of the code plate 210,
Among the inlet pipe underground facilities 10, a transmission cable tension monitoring unit 500 installed for the inlet pipe underground facility 10 of the transmission cable 510 connected to the ground transformer through the manhole 20 is further installed. include,
The power transmission cable 510 introduced into the manhole 20 forms a horizontal section 511, an arc section 512 and a vertical section 513 sequentially formed and connected to the ground transformer,
The transmission cable tension monitoring unit 500,
Along the length direction of the horizontal section 511 to prevent sagging of the transmission cable 510 in the horizontal section 511 and the connection area between the horizontal section 511 and the arc section 512. Installed at the same height, the first post 521 adjacent to the side of the manhole 20 through which the transmission cable 510 is introduced, the second post 522 adjacent to the arc section 512, and the first and second posts 522 adjacent to the arc section 512 It includes a third post 523 located in the center between the second posts 521 and 522, and the transmission cable 510 is supported on the upper surface of each of the first to third posts 521 to 523 in a form passing through. rectangular cable support hooks 521a, 522a, and 523a are provided, and the upper surface of the cable support hook 523a of the third post 523 penetrates in a vertical direction and is directed toward the first post 521. A cable horizontal support module 520 in which a through hole 523b extending to the side of the cable is formed;
Through the infrared sensor 531 installed on the upper surface of the cable support ring 522a of the second post 522 and the through hole 523b on the upper surface of the cable support ring 523a of the third post 523 It includes a reflector 532 installed on the power transmission cable 510 so as to protrude upward, and periodically measures the distance to the reflector 532 through the operation of the infrared sensor 531 according to a preset operating cycle. and a distance measuring module 530 which transmits the distance measurement value measured at each operation period to an external receiving target in real time;
It is installed at the top of the manhole 20 and is installed to shoot in the horizontal direction to shoot a predetermined vertical shooting section 513a of the vertical section 513 of the power transmission cable 510, but the distance a camera module 540 that operates at the same operating cycle as the operating cycle of the measuring module 530 and transmits image data acquired at every operating cycle to an external receiving target in real time;
a cable sagging mark 550 installed on the vertical photographing section 513a of the vertical section 513 of the power transmission cable 510 and photographed through the camera module 540;
It is installed inside the manhole 20, and the cable sagging mark 550 is not displayed in the image data received from the camera module 540, and the distance measurement value received from the distance measurement module 530 is displayed in advance. a control module 560 generating and outputting a QR code for requesting a cable abnormality check including the distance measurement value of the distance measurement module 530 as display information when the set threshold distance value is exceeded; and
Characterized in that it comprises a display module 570 installed directly below the code display hole 110 of the manhole cover 100 to display the QR code for the cable abnormality check request output from the control module 560 on the screen An integrated management system for underground facilities using QR codes to

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