KR20110093505A - System for managing buried pipe with damage sensing tape - Google Patents

Abstract

PURPOSE: The damage sensing tape firstly senses the damage of the pipes before the damage of the laid pipes. The warning message is on a real time basis known as to operator and administrator. CONSTITUTION: A buried pipe management system with the damage sensing tape comprises a pipe(100), a sensing wire(110), a damage sensing tape(200), and a remote monitoring device(300). All kinds of the materials move from the pipe. Two wires of the sensing wire is parallelly installed in the outer circumference of the pipe. The exterior of the pipe is damaged with an external force. The wire is shorted as the disconnection. The sensing wire senses the damage of the pipe. The damage sensing tape is laid to be separated on the top of the pipe as the fixed interval. The damage sensing tape in advance senses the damage of the pipe by the external force. The remote monitoring device transmits a message the pulse signal in the sensing wire and damage sensing tape. It again receives a message the pulse signal returned from the disconnected or short-circuited spot and the remote monitoring device produces the disconnection or the shorted spot. The remote supervisory equipment transmits result to administrator.

Description

Buried pipe management system with damage detection tape {SYSTEM FOR MANAGING BURIED PIPE WITH DAMAGE SENSING TAPE}

The present invention relates to a buried pipe management system provided with a damage detection tape, and more particularly, by installing a damage detection tape together to be spaced apart by a predetermined interval on top of various pipes buried in the ground, excavation by heavy equipment such as an excavator It relates to a buried pipe management system equipped with a damage detection tape to notify the manager in advance as the damage detection tape is broken before the buried pipe is damaged during operation.

Buried pipes such as city gas pipes, sewer pipes, oil pipes, etc., are spaced apart by a predetermined interval at the top to inform that pipes are buried in the vicinity of the excavation, or to allow the pipe to be explored from the outside in the case of resin pipes such as PE or PVC pipes. This is to bury the ID strip together and just bury it without any other management system.

Therefore, even if the ID strip is damaged during other construction, this fact cannot be checked unless the manager always waits at the work site, so it is impossible to check the location of the pipeline. There is a problem that many cases occur.

Therefore, the present invention, in order to solve the above problems, by embedding the damage detection tape to be spaced apart by a predetermined interval on the upper part of the various pipes buried in the ground, the damage detection tape first when the excavation work by heavy equipment such as excavators In case of damage, messages are sent to workers and managers in real time, so that workers and managers can take care to prevent damage to buried pipes in advance, and by always repairing damaged damage detection tapes It is to provide a buried pipe management system equipped with a damage detection tape to prevent the pipe from breaking.

In order to achieve the above object, it is installed in parallel with the two wire strands through which the pulse signal flows in the pipe, the various materials are moved, the outer circumferential surface of the pipe, the pipe is damaged by the external force, disconnection or leaks due to breakage of the pipe A detection line for detecting that the tube is damaged when it is shortened, a damage detection tape which is buried at a predetermined interval on the upper part of the tube to detect the damage of the pipe by external force in the excavation work, and a detection line and damage detection The damage detection tape includes a remote monitoring device for transmitting a pulse signal to the tape, receiving a pulse signal returned from a disconnected or shorted point, calculating a disconnected or shorted point, and transmitting the result to a manager. To provide a buried pipe management system.

According to the present invention, the operator notices a warning message in real time when the damage detection tape is broken before various pipes buried in the ground, such as city gas pipes, sewer pipes, oil pipes, etc., are damaged during operation by heavy equipment. It is effective to protect the buried pipe by inclined to work.

In addition, the material supplied through the various pipes to prevent the supply is stopped due to the breakage of the pipe, to reduce the inconvenience of the user due to the interruption of supply, and to increase the useful life by preventing the damage of the source at the source There is.

1 is a view showing a buried pipe management system provided with a damage detection tape according to the present invention.

The terms or words used in the specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors are able to properly define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meanings and concepts corresponding to the technical spirit of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the buried pipe management system provided with a damage detection tape according to the present invention.

1 is a view showing a buried pipe management system provided with a damage detection tape according to the present invention.

As shown in FIG. 1, the buried pipe management system provided with the damage detection tape according to the present invention is manufactured in a state in which a sensing line is wound on an outer surface of the pipe 100 embedded in the ground, and a predetermined interval in the upper portion of the pipe 100. The damage detection tape 200 embedded as far apart as possible, and a remote monitoring device 300 for transmitting and receiving a pulse signal to the damage detection tape 200 to determine the abnormality of the damage detection tape to notify workers or managers in real time. do.

First, the sensing line 110 is wound on the outer circumferential surface of various tubes 100 in a spiral manner, and the sensing line 110 through which a pulse signal flows detects an echo wave generated by disconnection or short circuit by external equipment under construction. Detects the damage of the 100 and delivers it to the remote sensing device 500 so that the damage of the pipe 100 is confirmed.

The pipe 100 is a plurality of pipes 100 are connected to the connection socket 130 long, the sensor 120 is installed at the joints of the two pipes to follow, moving inside the pipe due to damage to the connection portion Make sure that the substance is leaking.

The remote monitoring apparatus 300 is connected to the sensing line 110 wound around the outer circumferential surface of the pipe 100 and the damage detecting tape 200 to the pulse signal transmitting / receiving unit 310, short or disconnection for transmitting and receiving pulse signals. The control unit 320 for calculating the location of the damage occurs, the display unit 330 to be displayed to the administrator or operator to confirm, the message transmission unit 340 and the message transmission unit for transmitting the fact of the damage to the manager or worker in real time The manager 340 includes the manager DB 350 in which information of the manager or worker is stored in order to deliver the message.

In more detail, the pulse signal transmitting and receiving unit 310 of the remote monitoring device 300 is a damage detection tape embedded in the upper line of the detection line 110 and the tube 100 wound on the outer circumferential surface of the tube 100 ( It is connected to the wire 210 of the 200 and transmits a pulse signal, and receives the pulse signal of the echo wave returned from the detection line 110 and the short or disconnected portion of the wire 210.

The control unit 320 that receives the pulse signal of the echo wave received by the pulse signal transmitter / receiver 310 calculates the position of the shorted or disconnected part.

For example, in the case of the damage detection tape 200 installed in a straight line, it can be easily confirmed that the damage occurred at the position of the pipe at the same distance as the distance of the disconnection or short circuit, but the spiral circumference of the pipe 100 In the case of the sensing line 110 installed, if the 3M line is required to wind the tube 100 once, and the sensing line 110 is wound 10 times in a tube 100 having a length of 10M, one tube The sensing line 110 wound around 100 is a total of 30M.

Therefore, in the case of the damage detecting tape 200 installed in a straight line, when the speed of the pulse signal is 5 m / s and the time taken for the remote sensing device 300 to receive the echo wave is 4 sec, the remote sensing device 300 is caught. Since time is a round trip time, the point where disconnection or short occurs occurs is calculated as 10M point of 5m / s * 2sec.

On the other hand, in the case of the sensing line 110 installed in a spiral manner, since the length of the tube 100 per line 3M corresponds to 1M, if the speed and time are the same conditions as above, the control unit 320 of the remote sensing device 300 The point where disconnection or short occurs occurs as 3.3M point.

 On the other hand, the message transmission unit 340 receives information about this point when the damage occurs in the pipe 100 or damage detection tape 200 from the control unit 320, the manager or worker of the manager stored in the manager 350 (350) By transmitting to the mobile terminal number, a quick action of the administrator or worker can be made, and the information transmitted to the main server, etc. so that the information can be managed.

Although not shown, the above-described main server is connected to a plurality of remote monitoring apparatuses 300 installed at a specific distance or a specific region according to a rule set by a management institution, and manages the information collected by the remote monitoring apparatus 300 and further repairs. It can be used as information such as work.

Although the present invention has been described in detail only with respect to specific examples described in the embodiments, it is apparent that various modifications and variations can be made by those skilled in the art within the scope of the present invention, and such variations and modifications also belong to the appended claims. Of course it is.

100 tube 110 detection line
120: sensor 130: connection socket
200: damage detection tape 210: wire
220: insulator 300: remote monitoring device
310: pulse signal transmitting and receiving unit 320: control unit
330: display unit 340: message transmission unit
350: manager DB

Claims (3)

Pipe 100 through which various materials move;
Installed on the outer circumferential surface of the tube 100 in parallel with two wire strands through which a pulse signal flows, and detects that the tube 100 is damaged when the outer surface of the tube 100 is damaged or disconnected due to external force. Sensing line 110;
A damage detection tape 200 embedded in the upper portion of the tube 100 to be spaced apart by a predetermined interval to detect in advance a damage occurrence of the tube by external force; And
Remote monitoring that transmits a pulse signal to the detection line 110 and the damage detection tape 200, re-receives a pulse signal returned from a disconnected or shorted point to calculate a disconnected or shorted point and transmits it to the manager Buried pipe management system with a damage detection tape, characterized in that it comprises a device (300). The method of claim 1,
The remote monitoring device 300
A pulse signal transmitting / receiving unit 310 connected to the sensing line 110 of the pipe 100 and the damage detecting tape 200 to transmit a pulse signal and to receive a pulse signal returned at a point where disconnection or short occurs. ,
A control unit 320 for receiving a pulse signal returned by the pulse signal transmitting / receiving unit 310 and calculating a point at which the direct damage of the pipe 100 has occurred or a risk of occurrence is expected;
A display unit 330 for displaying a determination result received from the control unit 520 as a warning sound or a warning light; And
When the damage occurs in the pipe 100 or the damage detecting tape 200 from the control unit 320, the information of the point is received, and the manager information for managing the point is extracted from the manager DB 350. Buried pipe management system provided with a damage detection tape comprising a; message transmission unit for transmitting to the manager's mobile terminal (340). 3. The method according to claim 1 or 2,
The remote monitoring device 300
Buried pipe with damage detection tape, characterized by extracting the damage occurrence point of the buried pipe with the speed of the transmitting pulse signal and the time taken to receive the pulse signal of the echo wave returned from the short or discharged point as variables. Management system.

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