KR101375123B1 - Safety diagnosis system of underground cable - Google Patents

Abstract

The present invention relates to a safety diagnosis system of an underground cable for power transmission, transformation, and supply, a safety diagnosis system of a cable pipe (10) which comprises the following: a protective frame body (21) opened toward the upper side; a cover (22) covering the upper side of the protective frame body; multiple supporting walls (23) installed inside the protective frame body toward the longitudinal direction with constant intervals; and multiple unit anchors and couplers (26) connecting the unit anchors. The multiple supporting walls are formed of anchor bars (24) fixing the multiple supporting walls by being combined to left and right sides of the supporting walls toward the longitudinal direction. The cable pipe (10) is wired through the multiple supporting walls to a cable protective frame buried underground. The safety diagnosis system comprises the following: a sensor module (110) detecting the ground for installing the protective frame and the inside of the protective frame; a controller (100) determining the collapse of the protective frame, the subsidence of the ground, and the internal condition of the protective frame based on the detection value of the sensor module; a display (120) outputting data including the detection value of the sensor module on a screen; and an alarm (130) operated by the control of the controller. [Reference numerals] (100) Controller; (111) First water level sensor; (112) Second water level sensor; (113) Photo coupler; (114) Protective frame temperature sensor; (115) Protective frame humidity sensor; (116) Camera; (117) Gray sensor; (120) Display; (130) Alarm

Description

Safety diagnosis system for underground cables for power transmission, substation and distribution {SAFETY DIAGNOSIS SYSTEM OF UNDERGROUND CABLE}

The present invention relates to a safety diagnosis system for underground cables, and more particularly, to a safety diagnosis system for transmission, substation and distribution underground cables that can predict damage of underground cables (power cables, etc.) buried underground. .

Recently, in order to prevent accidents caused by high-voltage cables and the like, the cables such as power lines have been buried underground.

As the cable is buried in the ground, it is difficult to make a quick diagnosis unless the administrator enters and checks the cable directly. In other words, the safety diagnosis of the cable is impossible, and only the broken cable is possible, resulting in disruption of power supply and wasteful recovery cost.

In order to solve these disadvantages, there is a prior art that can perform a safety diagnosis of the cable, but it is usually impossible to reliably diagnose the safety by detecting only the displacement of the cable due to ground subsidence, and the configuration for the safety diagnosis between the cable and the ground surface Buried underground, there is a risk of collapse and loss.

Patent Registration No. 10-0484519 Patent Registration No. 10-0859014

The present invention has been made to solve the problems described above, the transmission of the underground cable to prevent the enormous cost and work for the replacement of the underground cable by predicting the settlement of the underground box wiring and the collapse of the ceiling of the underground box in advance The aim is to provide a safety diagnosis system for underground cables for power transmission, substation and distribution.

Safety diagnosis system for underground cables for power transmission, substation and distribution according to the present invention, the sensor module for detecting the ground and the inside of the protection frame is installed a protection frame embedded in the ground; A controller configured to determine settlement of the ground, collapse of the protection frame, and the situation inside the protection frame based on the detection value of the sensor module; A display for outputting data including the detection value by the sensor module; And an alarm operated under the control of the controller, wherein the sensor module includes: first and second observation holes which are drilled at different depths in the ground of the protection frame, and protective casings installed on inner walls of the first and second observation holes; First and second level sensors, a light emitting part and a light receiving part, which are installed inside the protective casing and are connected to the coupler through the bottom of the main body of the protective frame and detect the level of groundwater in the first and second observation holes. Photo couplers installed to be close to the bottom of the cover to the coupler of the anchor bar installed so as to face each other, a protective frame temperature sensor mounted on the coupler and detecting the temperature inside the cable protection frame, mounted on the coupler and the cable Humidity sensor for detecting the humidity inside the protective frame, a camera mounted on the coupler and photographing the inside of the cable protective frame It characterized in that it comprises.

According to the safety diagnosis system of the underground cable for power transmission, substation and distribution according to the present invention, by detecting the change of the groundwater level through the water level sensor, it predicts the settlement of the lower ground where the underground cable is buried through the change of the water vein By detecting the displacement of the cover on the upper part of the frame (surface side), it predicts the collapse by the load transferred from the upper part of the protective frame, and predicts the change of the cable through the temperature and humidity inside the protective frame and optimizes the protective frame. The condition can be quickly repaired before the underground cable is disconnected, thereby preventing the power supply disruption caused by the cable disconnection and reducing the huge cost due to the replacement of the cable.

In addition, by detecting and extinguishing the fire inside the protection frame to protect the cable it can prevent the loss caused by the fire.

1 is an installation state diagram of a safety diagnosis system of underground cables for power transmission, substation and distribution according to the present invention.
Figure 2 is an exploded perspective view of a cable protection frame to which the safety diagnosis system of underground cables for power transmission, substation and distribution according to the present invention is applied.
Figure 3 is an exploded perspective view of the anchor bar applied to the safety diagnosis system of the underground cable for power transmission, substation, distribution according to the present invention.
Figure 4 is an installation state of the photo coupler applied to the safety diagnosis system of the underground cable for power transmission, substation, distribution according to the present invention.
5 is a block diagram showing the configuration of a safety diagnosis system for underground cables for power transmission, substation and distribution according to the present invention.

In the safety diagnosis system of underground cables for power transmission, substation and distribution according to the present invention, it is possible to predict the settlement of the ground by investigating the ground in which the cable pipe 10 (a plurality of power cables 11 are built) is embedded. (10) Provides data that can predict the collapse of the upper part and is applied to the following underground cables.

The cable pipe 10 is wired inside the cable protection frame 20.

The cable guard frame 20 (hereinafter, abbreviated as 'protection frame') includes a guard frame body 21 which is open toward the upper side, a lid 22 covering the upper portion of the guard frame body 21, and a guard frame body 21. An anchor fixed to a plurality of support walls 23 and a plurality of support walls 23 for supporting the cable pipe 10 and being erected at regular intervals along the longitudinal direction of the anchors for fixing the plurality of support walls 23. It consists of a bar 24.

The support wall 23 is joined to both inner side surfaces and the bottom surface of the protection frame body 21, and is provided with a 'U' shaped seating portion 23a on which the cable tube 10 is seated, and the anchor bar 24 is provided. The connection hole 23b fitted is provided.

As shown in FIG. 2 and FIG. 3, the anchor bar 24 includes a plurality of unit anchors 25 connected through a coupler 26.

4 and 5, the safety diagnosis system of the present invention, the controller 100 for predicting and determining the settlement of the cable pipe 10, etc. based on the detection value of the sensor module 110, the sensor module 110. ), A display 120 for outputting the detection value by the sensor module 110, and an alarm 150 that operates under the control of the controller 100.

The sensor module 110 includes first and second level sensors 111 and 112 for checking ground subsidence in which the cable pipe 10 is embedded, a photo coupler 113 for checking collapse due to an upper load, and a protective frame ( 20) Detects the fire inside the protection frame temperature sensor 114 and the protection frame humidity sensor 115, the camera 116 for photographing the inside of the protection frame 20, the protection frame 20 to detect the temperature and humidity inside. It consists of a fire sensor (117).

The first and second water level sensors 111 and 112 are embedded in the ground of the bottom of the protection frame 20 to detect the level of the ground (groundwater), and the change of the vein occurs when the ground subsides. Internal groundwater is discharged and based on this, earthquake fluctuations (sedimentation) can be determined.

The first and second water level sensors 111 and 112 are respectively installed in the first and second observation holes 1 and 2 formed in the ground of the bottom of the protection frame 20.

The first and second observation holes 1 and 2 are drilled at the bottom of the protection frame 20, and protective casings 1a and 2a may be installed to prevent collapse. The protective casings 1a and 2a may be installed only in the section where the ground is expected to collapse or may be installed in the first and second observation holes 1 and 2 as a whole. It is preferable that the inside of the two observation holes (1, 2) is made of porous so that ground water can flow in and out.

The first and second water level sensors 111 and 112 are installed to be submerged in the groundwater inside the first and second observation holes 1 and 2 to detect the water level inside the first and second observation holes 1 and 2 (the water level due to the outflow of groundwater). It is preferable to install so close to the surface of the groundwater to detect the change of).

The signal lines 111a and 112a of the first and second water level sensors 111 and 112 pass through the bottom of the protective frame main body 21 (sealed with a seal to prevent penetration of groundwater, etc.), and then the signal lines 111a and 112a of the signal lines 111a and 112a. The end part is connected to the coupler 26 of the anchor bar 24 via a connecting pin or the like.

In this case, the first and second water level sensors 111 and 112 are installed at different depths to check more accurate ground changes, and are connected to two anchor bars 24 respectively disposed on both left and right sides.

As shown in FIG. 4, the photo coupler 113 detects deformation of the cover 22 due to the load applied to the upper portion of the protection frame 20, and the light emitting portion 113a and the light receiving portion 113b are disposed at both left and right sides thereof. Corresponding anchor bars 24 (couplers 26).

An anchor bar 24 is disposed at the bottom of the cover 22 to quickly detect the deformation of the cover 22 by the photo coupler 113, the photo coupler 113 is a coupler (26) for more rapid detection It is preferable to be installed at the upper part of the upper side, ie, close to the bottom of the cover (22).

The protection frame temperature sensor 114 and the protection frame humidity sensor 115 are respectively installed in the coupler 26 to detect the temperature and humidity inside the protection frame 20. Temperature and humidity in the housing 20 is not a sensor for predicting the collapse of the ground or the cover 22, it is to confirm the environment inside the housing 20.

The camera 116 is installed in the coupler 26 and photographs the inside of the protective frame 20. The image photographed by the camera 116 may be analyzed through an image analysis program.

As described above, the present invention can be easily applied through the installation of the coupler 26 by applying the sensor module 110 to the coupler 26. The sensor module 110 may be installed at a certain distance, and thus may not be applied to all the couplers 26.

The controller 100 diagnoses the embedding situation of the cable pipe 10 based on the detected value of the sensor module 110.

In more detail, the controller 100 stores the reference water level range (set based on the groundwater level at the time of initial installation) of the ground through the memory in advance, and through the first and second water level sensors 111 and 112. By comparing the detected current level with the previously stored standard level range, if the current level is out of the standard level range, it is determined that there is a change in the water vein, which may cause ground subsidence.

In addition, since the cover 22 has no deformation due to the load when the protective frame 20 is initially installed, the light receiving portion 113b of the photo coupler 113 receives a constant value. If the cover 22 deflects downward due to the load, the cover 22 blocks the light emitting unit 113a and the light receiving unit 113b so that a signal emitted from the light emitting unit 113a is applied to the light receiving unit 113b. Therefore, the controller 100 determines that the cover 22 is warped and deformed when the received value is changed based on the received value of the light receiver 113b.

The controller 100 stores the temperature and humidity at the time of initial installation of the cable pipe 10 through the memory, or the optimal temperature and humidity for maintaining the cable pipe 10 as the reference temperature, and the protective frame temperature sensor 114. ) And the current temperature and humidity detected by the protective frame humidity sensor 115 is compared with the reference temperature.

The controller 100 determines the aforementioned situation and controls the operation of the alarm 130 to enable more rapid repair, and the operation of the alarm 130 changes the groundwater level of the first and second observation holes 1 and 2. In this case, when the reception value of the photo coupler 113 is different, the temperature and humidity inside the protection frame 20 is different.

On the other hand, the present invention may further include a fire sensor 117 for detecting a fire inside the protective frame 20.

The fire sensor 117 is also installed in the coupler 26 to detect the occurrence of fire in the protection frame 20.

The present invention may be configured to extinguish a fire instead of merely detecting a fire through the fire sensor 117.

It is preferable to use the structure applied to the protection frame 20, and the anchor bar 24 is used as a spraying means.

The unit anchor 25 and the coupler 26 of the anchor bar 24 are hollow inside (the sensor module 110 is mounted on the outside of the coupler 26, so the coupler 26 can also be hollow). The coupler 26 is provided with a spray nozzle 26a to spray the suppressor such as water supplied through the unit anchor 25 into the protection frame 20. The configuration for supplying a suppressor such as water to the anchor bar 24 is composed of a suppressor tank, a pump, and the like, and thus a detailed description thereof will be omitted.

1,2: 1st, 2nd observation hole, 10: Cable pipe
20: cable protection frame, 21: the body of the protective frame
22: cover, 23: support wall
24: anchor bar, 25: unit anchor
26: coupler, 26a: watering nozzle
100: controller,
110: sensor module, 111,112: first and second water level sensor
113: photo coupler, 114: protective frame temperature sensor
115: humidity sensor frame, 116: camera
117: fire sensor, 120: display
130: alarm,

Claims (2)

A protective frame body 21 opening toward the upper portion, a cover 22 covering the upper portion of the protective frame body 21, a plurality of support walls erected at regular intervals along the longitudinal direction of the protective frame body ( 23), the anchor bar consisting of a plurality of unit anchors 25 and the coupler 26 connecting the unit anchors and coupled to the left and right sides of the plurality of support walls in the longitudinal direction, respectively, to fix the plurality of support walls. A safety diagnosis system of a cable pipe (10) composed of (24) and wired through the support wall to a cable protection frame (20) embedded in the ground,
A sensor module (110) for sensing the ground on which the protection frame is installed and the inside of the protection frame; A controller (100) for determining settlement of the ground, collapse of the protection frame, and the situation inside the protection frame based on the detection value of the sensor module; A display 120 for outputting data including the detected value by the sensor module; An alarm 130 that operates under the control of the controller,
The sensor module includes first and second observation holes 1 and 2 which are drilled at different depths in the base of the protective frame, protective casings 1a and 2a which are installed on inner walls of the first and second observation holes, and the protective casing. First and second water level sensors 111 and 112 which are installed inside the signal line and are connected to the coupler 26 by penetrating the bottom of the protective frame main body and detect the level of groundwater in the first and second observation holes. A photo coupler 113 and a coupler 26 mounted on the coupler 26 of the anchor bar installed to face each other and the light receiving unit face each other, and the cable protection frame 20. Protective frame temperature sensor 114 for detecting the temperature inside, mounted on the coupler 26 and the protective frame humidity sensor 115, the coupler 26 to detect the humidity inside the cable protection frame 20 The camera 116 photographing the inside of the cable And also,
The controller compares the current level detected by the first and second level sensors with a previously stored reference level to control operation of the alarm when the current level is out of the reference level, and a signal received by the light receiving unit of the photo coupler If different, the operation of the alarm is controlled, and the current temperature and humidity of the protection frame temperature sensor and the protection frame humidity sensor are compared with the stored reference temperature and humidity when the current temperature and humidity are out of the reference temperature and humidity. Safety diagnosis system for underground cables for power transmission, substation and distribution, characterized in that the operation of the control. The coupler of claim 1, wherein the sensor module includes a fire sensor 117 installed at the coupler 26, wherein the unit anchor of the anchor bar and the coupler are formed in a tubular shape with a hollow inside. Included, the controller is supplied to the anchor bar when the fire is detected by the fire sensor to ensure the fire by spraying through the sprinkling nozzle of the coupler characterized in that the transmission, substation, safety of underground cables for distribution Diagnostic system.

Images