KR102632339B1 - System for protecting transmission and transformation cables of electric power - Google Patents

Abstract

The present invention relates to a power transmission and substation cable protection system, which includes an approach detection switch unit and a vibration detection sensor unit, and detects when an excavating tool approaches the upper part of the cable protection pipe where a plurality of cables are inserted without directly contacting it. By notifying with a horn or light, the excavation worker can quickly and accurately recognize the proximity of the excavating tool to the cable protection pipe and proceed with the excavation work carefully or stop the excavation operation, so that the excavation worker can quickly and accurately recognize the proximity of the excavation tool to the cable protection pipe and proceed with the excavation operation carefully or stop the excavation operation, including the cable, channel, protection pipe, support, and cover. All components can be reliably protected and can be reused later, preventing waste of resources and contributing to recycling of resources. The power to the warning light and horn is normally turned “off” and turned “on” before excavating the surrounding area, so that the approach detection operation, vibration detection operation, control of the control unit, and operation of the warning light and horn are not performed in normal times. , This is done only during excavation work to prevent unnecessary movements from occurring.

Description

Transmission and transformation cable protection system {System for protecting transmission and transformation cables of electric power}

The present invention relates to a power transmission and substation cable protection system among power transmission technologies. More specifically, the present invention detects when an excavation tool approaches the upper part of a cable protection pipe where a plurality of cables are inserted without directly contacting it, and emits a horn or light. By notifying the excavator to quickly and accurately recognize the proximity of the excavating tool to the cable protection pipe and proceed with the excavation work carefully or to stop the excavation operation, all components, including the cable, channel, protection pipe, support, and cover, are safely secured. The components are not damaged by excavation work and can be reused later, preventing waste of resources and contributing to recycling of resources. The access detection switch unit and vibration detection installed on the cover The sensor unit and wiring pipe are prevented from leaving the cover arbitrarily, and unnecessary movements are prevented by ensuring that the approach detection operation, vibration detection operation, control of the control unit, and operation of the warning light and horn are not performed in normal times, but only during excavation work. It is about a transmission and substation cable protection system that prevents damage.

Generally, transmission and substation cables are installed and operated as overhead lines or underground lines.

For overhead lines, cables are installed on steel towers or utility poles, and for underground lines, cables are installed within pipes buried underground.

Recently, the number of underground lines has been increasing for various reasons such as urban aesthetics and safety management.

The process of conducting ground excavation work for periodic maintenance of underground lines or the construction of various underground facilities such as city gas pipes, communication pipes, water supply and sewage pipes, etc. buried underground along with underground lines. There is a risk of damage.

Therefore, underground cables are required to protect cables from various ground excavation operations.

As a prior art according to this demand, Korea Patent No. 10-0859014 (2008.09.10.) "Transmission, substation and distribution cable protection device" includes a cable protection device frame for inserting a cable pipe, and a cable protection device frame within the cable protection device frame. A reinforcing end portion that reinforces the inside and positions the cable pipe, a plurality of anchor bars connected to the plurality of reinforcing end portions, an anchor ring at both ends of which are fixed to each other between the plurality of anchor bars, and the cable protection device frame. We are disclosing a technology to prevent multiple cables inserted into the cable pipe from being damaged due to damage to the cable pipe buried in the ground due to soil compression due to ground subsidence by using a cover that covers the upper part. .

However, Republic of Korea Patent No. 10-0859014 inserts a cable pipe into which multiple cables are inserted into a cable protection frame buried at a certain depth from the ground surface, covers the upper part of the cable protection frame, and has multiple cable pipes. Since it is supported on the cable protection frame by two reinforcing ends, there is a problem that if the cover is damaged during various excavation works, the cable pipe installed below it is damaged and the cable inserted in the cable pipe is easily damaged.

As a prior art that attempts to solve these problems, Republic of Korea Patent No. 10-1326860 (2013.11.01.) “Protection structure for transmission, substation, and distribution cables” has one or more of the transmission, substation, and distribution cables inserted into the interior. cable insertion tube; When seated in the cable insertion tube, a seating groove is formed in the center, a first coupling hole is formed in the lower surface, inclined surfaces are formed on both sides of the upper surface, and second coupling holes are formed in the inclined surfaces to be spaced apart from the cable insertion tube. support block; a support rod coupled to the first coupling hole and inserted into the ground on both sides of the cable insertion pipe to support the support block; Fixing rods each inserted into the second coupling hole, having a male thread at the top and a female thread at the bottom, the length of which is adjusted according to the embedment depth of the cable insertion tube; And a net formed in a square shape and located on the upper side of the cable insertion pipe to cover between the support blocks, an elastic band each coupled to a corner of the net, and coupled to the elastic band to a male thread of the fixing rod. A technology for protecting a cable including a cover portion consisting of a locking ring and a nut fastened to the male screw to prevent the locking ring from coming off is disclosed.

However, Republic of Korea Patent No. 10-1326860 installs support blocks at regular intervals in a cable insertion pipe into which a plurality of cables are inserted, installs a fixing bar on the support block, and installs a cover including a net on this fixing bar. Since the cover part is spaced upward from the cable insertion pipe, during various excavation works, for example, the bucket of a backhoe first contacts the net of the cover part before contacting the cable insertion pipe, so the excavator recognizes this and carefully excavates or excavates. This is to protect the cable insertion pipe and cable by stopping the drilling process, but even if an excavating tool such as a backhoe bucket or shovel touches the cover during excavation work, the excavator cannot quickly and accurately recognize the fact that the excavating tool is in contact with the cover. Therefore, there is a problem that the cable protection effect is reduced.

In addition, during the excavation process, the cover contacts the excavation tool and only after the cover is exposed does the excavator become aware of the fact that the cover is in contact with the excavation tool. Therefore, when the excavator becomes aware of the fact that the cover is in contact with the excavation tool, the cover has already been constructed. There is a problem in that the net is damaged and cannot be reused as a cover, so it has no choice but to be discarded, resulting in a waste of resources.

Republic of Korea Patent No. 10-0859014 (2008.09.10.) “Transmission, substation and distribution cable protection device” Republic of Korea Patent No. 10-1326860 (2013.11.01.) “Protection structure for cables for transmission, substation, and distribution”

Therefore, the purpose of the present invention is to detect when an excavation tool approaches the upper part of the cable protection pipe where a plurality of cables are inserted without directly contacting it, and to notify the excavation worker of the proximity of the excavation tool to the cable protection pipe by emitting a horn or light. The goal is to provide a transmission and substation cable protection system that can quickly and accurately recognize and carefully proceed with or stop excavation work, thereby reliably protecting all components, including cables, channels, protection pipes, supports, and covers. .

Another object of the present invention is to provide a transmission and substation cable protection system that prevents waste of resources and contributes to recycling of resources by ensuring that components are not damaged by excavation work and can be reused later.

Another object of the present invention is to provide a transmission and substation cable protection system that prevents the approach detection switch unit, vibration detection sensor unit, and wiring pipe installed in the cover from arbitrarily leaving the cover.

Another purpose of the present invention is to protect transmission and substation cables by preventing unnecessary operations from occurring by ensuring that the approach detection operation, vibration detection operation, control of the control unit, and operation of the warning light and horn are not performed in normal times, but only during excavation work. The goal is to provide a system.

The present invention includes a channel buried in the ground to achieve the above object; a protective tube inserted into the channel and into which a plurality of cables are inserted; A plurality of supports installed at regular intervals inside the channel to support the protection tube; In a power transmission and substation cable protection system comprised of a cover covering the upper surface of a channel, a plurality of flow prevention protrusions formed at intervals in the longitudinal direction are formed on the lower surface of the support, and a flow prevention protrusion is formed on the bottom surface of the channel. An approach detection switch unit is formed with a flow prevention groove corresponding to the protrusion and is installed on the cover to detect the approach of an excavation tool; A vibration detection sensor unit installed on the cover to detect vibration caused by excavation; A warning light unit installed on the cover; horn unit; And a control unit that controls the warning light unit and the horn unit according to the detection signal of the approach detection switch unit and/or the vibration detection sensor unit; The approach detection switch unit includes a switch case body with an open bottom, and a switch case body of the switch case body. It includes a switch case equipped with a switch case blocking plate that blocks the bottom, a B contact reed switch installed on the inner lower side of the switch case, and a permanent magnet installed on the upper side, and the vibration detection sensor unit is a sensor case body with an open bottom. It includes a sensor case equipped with a sensor case blocking plate that blocks the bottom of the sensor case body, and a vibration detection sensor installed inside the sensor case. The warning light unit includes a warning light case body with an open bottom, and a bottom of the warning light case body. It includes a warning light case with a warning light case blocking plate that blocks the warning light case, and a warning light installed inside the warning light case, and the horn unit includes a horn case body with an open bottom, and a horn case blocking plate that blocks the bottom of the horn case body. It includes a horn case and a horn installed inside the horn case, and the planar area of the switch case blocking plate, sensor case blocking plate, warning light case blocking plate, and horn case blocking plate is divided into a switch case body, a sensor case body, and a warning light case body. and a power transmission and substation cable protection system, which is formed to be larger than the planar area of the horn case main body so that the switch case, sensor case, warning light case, and horn case are not arbitrarily separated while buried in the cover.

Additionally, the control unit can be installed in the management center, the B contact reed switch and vibration detection sensor can be connected to the control unit with signal wires, the warning light and horn are connected to the power supply provided in the management center by power wires, and the bottom of the cover has It is provided in a wiring pipe for wiring signal wires and power wires. The wiring pipe is formed with a rectangular cross-section with a wiring space, and the upper part is installed partially buried in the cover, and a breakaway prevention piece is formed at the top of the wiring pipe. By doing so, the wiring pipe is configured so that it does not come off arbitrarily while buried in the cover, and the power to the warning light and horn is turned "off" in normal times and turned "on" before excavating the surrounding area to detect approach and vibration. The operation, control of the control unit, warning lights, and horn can be configured to not operate in normal times, but to operate only during excavation work.

According to the transmission and substation cable protection system of the present invention, it is equipped with an approach detection switch unit and a vibration detection sensor unit, and detects when an excavation tool approaches the upper part of the cable protection pipe where a plurality of cables are inserted without directly contacting it, and emits a horn sound or sounds. By notifying the excavator with a warning light, the excavator can quickly and accurately recognize the proximity of the excavating tool to the cable protection pipe and proceed with the excavation work carefully or stop the excavation operation, so that all components including the cable, channel, protection pipe, support, and cover are removed. can be reliably protected.

According to the transmission and substation cable protection system of the present invention, components are not damaged by excavation work and can be reused later, preventing waste of resources and contributing to recycling of resources.

According to the transmission and substation cable protection system of the present invention, the structure of the approach detection switch case, vibration detection sensor case, and wiring pipe partially buried in the cover has been improved to prevent the approach detection switch unit, vibration detection sensor unit, and wiring pipe from arbitrarily leaving the cover. won't do it.

According to the power transmission and substation cable protection system of the present invention, the power to the warning light and horn is turned "off" in normal times and turned "on" before excavating the surrounding area to perform approach detection operation, vibration detection operation, control of the control unit, The operation of the warning light and horn is not performed in normal times, but is performed only during excavation work, so that unnecessary operations do not occur.

1 to 8 show a preferred embodiment of the transmission and substation cable protection system according to the present invention.
1 is a cross-sectional view of the installation state of the transmission and substation cable protection system according to this embodiment;
Figure 2 is a perspective view of a transmission and substation cable protection system according to this embodiment;
Figure 3 is a block diagram showing control means;
Figure 4 is an exploded perspective view of the channel, support, and protection pipe;
Figure 5 is an exploded perspective view of the cover, wiring pipe, approach detection switch unit, vibration detection sensor unit, warning light unit, and horn unit;
Figure 6 is a longitudinal front view passing through the approach detection switch unit and the warning light unit;
Figure 7 is a longitudinal front view passing through the horn unit and the approach detection switch unit;
Figure 8 is a longitudinal front view passing through the vibration detection sensor unit and the horn unit.

Hereinafter, the transmission and substation cable protection system according to the present invention will be described in detail according to the preferred embodiment illustrated in the accompanying drawings.

1 to 8 show a preferred embodiment of the transmission and substation cable protection system according to the present invention.

As shown in FIGS. 1 to 8, the transmission and substation cable protection system according to this embodiment includes a channel 100 buried underground; a protective tube (200) inserted into the channel (100) and into which a plurality of cables (C) are inserted; A plurality of supports 300 installed at regular intervals inside the channel 100 to support the protection tube 200; It includes a cover 400 that covers the upper surface of the channel 100.

In addition, according to the present invention, an approach detection switch unit 500 is installed on the cover 400 to detect the approach of an excavation tool; A vibration detection sensor unit 600 installed on the cover 400 to detect vibration caused by excavation; A warning light unit 700 and a horn unit 800 installed on the cover 400; It includes a control unit 900 that controls the warning light unit 700 and the horn unit 800 according to the detection signal of the approach detection switch unit 500 and/or the vibration detection sensor unit 600.

The channel 100 is made of reinforced concrete and can be installed by pouring it on site or manufacturing it at a factory and transporting it to the site and assembling it.

The protection pipe 200 can be a synthetic resin pipe or a concrete pipe.

The support 300 is installed on the upper surface and is coupled to a plurality of support blocks 310 formed with a semicircular support groove 311 into which the lower half of the outer peripheral surface of the protection tube 300 is inserted, and the upper surface of the support block 310 to form the protection tube 300. ) includes a tightening band 320 that tightens the upper half of the outer circumferential surface.

The support block 310 may be made of synthetic resin or concrete, and the tightening band 320 may be formed by bending a steel plate.

A plurality of flow prevention protrusions 330 are formed on the lower surface of the support 300 at a distance in the longitudinal direction, and a plurality of flow prevention protrusions 330 are formed on the bottom surface of the channel 100 to correspond to the flow prevention protrusions 330. A prevention groove 110 is provided to prevent the support 300 from flowing in the longitudinal direction with respect to the channel 100.

The flow prevention protrusion 330 may be formed in the process of manufacturing the support 300, and the flow prevention groove 110 may be formed in the process of installing the channel 100 by casting in situ or manufacturing it in a factory. .

The cover 400 is made of reinforced concrete, and can be manufactured in a factory, transported to the site, and covered over the channel 100.

The approach detection switch unit 500 includes a switch case 510, the lower part of which is embedded in the cover 400, a B contact reed switch 520 inserted into the lower part of the switch case 510, and a switch case ( 510) includes a permanent magnet 530 that is inserted into the upper part of the B contact reed switch 520 to be able to be lifted.

The B contact reed switch 520 uses a B contact operation format that turns “off” when the permanent magnet 530 is in contact, and turns “on” when the permanent magnet 530 is spaced apart.

The switch case 510 is molded from synthetic resin and consists of a switch case body 511 with an open bottom, and a blocking plate 512 that blocks the bottom of the switch case body 511.

The switch case 510 is made by sequentially inserting a permanent magnet 530 and a B contact reed switch 520 into the switch case body 511 and attaching a blocking plate 512 to the bottom of the switch case body 511. It can be configured as one unit.

The entire blocking plate 512 and the lower part of the switch case body 511 are buried in the cover 400.

The vibration detection sensor unit 600 includes a sensor case 610 whose lower part is partially embedded in the cover 400, and a vibration detection sensor 620 inserted into the sensor case 610.

The sensor case 610 is molded from synthetic resin and consists of a sensor case body 611 with an open bottom, and a sensor case blocking plate 612 that blocks the bottom of the sensor case body 611.

The sensor case 610 can be configured as one unit by attaching the sensor case blocking plate 612 to the bottom of the sensor case main body 611 with the vibration detection sensor 620 inserted into the sensor case main body 611. You can.

The entire sensor case blocking plate 612 and a portion of the lower part of the sensor case main body 611 are buried in the cover 400.

The warning light unit 700 includes a warning light case 710 and a warning light 720 inserted into the interior of the warning light case 710.

The warning light case 710 is molded from synthetic resin and consists of a warning light case body 711 with an open bottom, and a warning light case blocking plate 712 that blocks the lower end of the warning light case body 711.

The warning light case 710 can be configured as a unit by attaching the warning light case blocking plate 712 to the bottom of the warning light case body 711 with the warning light 720 inserted into the warning light case body 711. .

The entire warning light case blocking plate 712 and a lower part of the warning light case body 711 are buried in the cover 400.

The horn unit 800 includes a horn case 810 and a horn 820 inserted into the horn case 810.

The horn case 810 is molded from synthetic resin and consists of a horn case body 811 with an open bottom, and a horn case blocking plate 812 that blocks the bottom of the horn case body 811.

The horn case 810 can be formed as one unit by attaching the horn case blocking plate 812 to the bottom of the horn case main body 811 with the vibration sensing horn 820 inserted into the horn case main body 811. You can.

The entire horn case blocking plate 812 and the lower part of the horn case body 811 are buried in the cover 400.

The approach detection switch unit 500, vibration detection sensor unit 600, warning light unit 700, and horn unit 800 are fixed to reinforcing bars placed in the molding frame during the process of molding the cover 400 with reinforced concrete. , the lower end can be buried in the cover 400 by injecting concrete into the mold.

At this time, the planar areas of the switch case blocking plate 512, the sensor case blocking plate 612, the warning light case blocking plate 712, and the horn case blocking plate 812 are divided into the switch case body 511 and the sensor case body 611. , the switch case 510, sensor case 610, warning light case 710, and horn case 810 are embedded in the cover 400 by forming a planar area larger than that of the warning light case body 711 and the horn case body 811. It can be configured so that it does not come off arbitrarily.

In Figure 5, H5, H6, H7, H8, and H4 are connected to an approach detection switch unit 500, a vibration detection sensor unit 600, a warning light unit 700, and a horn unit ( 800), showing a buried hole formed when the wiring pipe 410 is buried.

The control unit 900 can control the warning light 720 and the horn 820 to operate when an approach detection signal is received from the approach detection switch unit 500 or a vibration detection signal is transmitted from the vibration detection sensor unit 600. .

The control unit 900 can be installed in a management center, and the B contact reed switch 520 and vibration detection sensor 620 can be connected to the control unit 900 with a signal wire (L1), and a warning light 720 and a horn are connected to the control unit 900. (820) can be connected to the power supply provided in the management center with a power wire (L2).

A wiring pipe 410 is provided on the lower surface of the cover 400 to wire the signal wire (L1) and the power wire (L2).

The wiring pipe 410 is formed with a rectangular cross-section with a wiring space 411 formed therein, and the upper end is partially buried in the cover 400.

The wiring pipe 410 is fixed to the reinforcing bars placed in the mold during the process of molding the cover 400 into reinforced concrete, and a portion of the upper end can be buried in the cover 400 by injecting concrete into the mold. there is.

At this time, a separation prevention piece 412 is formed on the upper end of the wiring pipe 410 to prevent the wiring pipe 410 from being arbitrarily separated while buried in the cover 400.

When constructing the transmission and substation cable protection system according to the present invention configured as described above, the ground is excavated and the channel 100 is placed in the excavated hole.

Here, when the channel 100 is cast on site, the channel 100 can be installed continuously throughout the entire section, and since the cover 400 is manufactured at the factory, it can be manufactured to be about 1 to 2 meters in length.

Additionally, when the channel 100 is manufactured in a factory, both the channel 100 and the cover 400 can be manufactured to about 1 to 2 meters.

The support block 310 is seated on the bottom of the channel 100 mounted in the excavation hole.

At this time, a plurality of flow prevention protrusions 330 on the lower surface of the support block 310 and the flow prevention groove 110 formed at the bottom of the channel 100 are engaged so that the support 300 does not flow in the longitudinal direction of the channel 100. As a result, the protection tube 200 can be stably supported.

The protection pipe 200 into which the cable (C) is inserted is supported by inserting it into the support groove 311 of the support block 310, and the tightening band 320 is placed on the support block 310 and the cable (C), and then By passing the tightening bolt (B) partially buried and protruding in the block 310 through the tightening pieces 321 formed on both sides of the tightening band 320, and fastening the tightening nut (N) to the tightening bolt (B) Ensure that the protection pipe 200 is firmly supported on the support 300.

The upper part of the channel 100 is covered with a cover 400 in which the approach detection switch unit 500, the vibration detection sensor unit 600, the warning light unit 700, the horn unit 800, and the wiring pipe 410 are combined. .

At this time, in the process of covering the channel 100 with the cover 400, the signal wire (L1) and the power wire (L2) are inserted into the wiring pipe (410).

After the channel 100 is covered with the cover 400, construction is completed by backfilling the soil that was excavated for installation of the channel 100 and performing a leveling operation to make it flat with the surrounding ground.

After construction is completed, the power to the warning light 720 and the horn 820 is turned "off" in normal times, and turned "on" before excavating the surrounding area to perform approach detection operation, vibration detection operation, control of the control unit, The warning light 720 and the horn 820 do not operate in normal times and can be activated only during excavation work.

When the transmission and substation cable protection system according to the present invention is installed, the permanent magnet 530 of the approach detection switch unit 500 descends due to its own weight and comes into contact with the B contact reed switch 520. ) The B contact reed switch 520 maintains the B contact “off” state due to the permanent magnet 530.

The transmission and substation cable protection system of the present invention, configured in this way, performs periodic maintenance after installation or construction of various underground facilities such as city gas pipes, communication pipes, water supply and sewage pipes, etc. buried underground along with surrounding underground lines. When ground excavation work is in progress, the warning light 720 turns on and the horn 820 sounds according to the approach detection signal of the approach detection switch unit 500 and the vibration detection signal of the vibration detection sensor unit 600. This occurs to warn the excavation worker that an excavation tool such as a backhoe bucket or shovel is approaching the cable (C).

That is, when the digging tool approaches the approach detection switch unit 500, the permanent magnet 530 rises due to the attractive force between the permanent magnet 530 and the digging tool and is separated from the B contact reed switch 520, and thus B When the contact reed switch 520 is turned “on,” an approach detection signal is generated.

When an approach detection signal from the B contact reed switch 520 is generated, the control unit 900 receives the approach detection signal and outputs an operation command for the warning light 720 and the horn 820, so that the warning light 720 turns on. And the horn 820 generates a horn to warn the excavation worker that the excavation tool is approaching the cable (C).

Additionally, when the excavating tool approaches the vibration detection sensor unit 600, vibration occurs, and the vibration detection sensor 620 detects the vibration and generates a vibration detection signal.

When a vibration detection signal from the vibration detection sensor 620 is generated, the control unit 900 receives this vibration detection signal and outputs an operation command for the warning light 720 and the horn 820, so that the warning light 720 turns on. The horn 820 generates a horn sound to warn the excavation worker that the excavation tool is approaching the cable (C).

Therefore, before the excavation tool directly contacts the cover 400 as well as the approach detection switch unit 500 and the vibration detection sensor unit 600, a warning light and a horn sound are generated, so that the excavation worker sees the excavation tool approaching the cable (C). Recognizing that there is a presence, it is possible to carefully proceed with the excavation work or stop the excavation work, so that the cable (C) and protection pipe (200) as well as the cover (400), the approach detection switch unit (500), the vibration detection sensor unit (600), It is possible to protect the warning light unit 700 and the horn unit 800.

In addition, before the excavation tool contacts the cover 400 as well as the approach detection switch unit 500, vibration detection sensor unit 600, warning light unit 700, and horn unit 800, the excavation worker must ensure that the excavation tool is connected to the cable (C). ) and proceed with the excavation work carefully or stop the excavation work, so the cover (400) as well as the approach detection switch unit (500), vibration detection sensor unit (600), warning light unit (700), and horn Since the unit 800 is not damaged, all component parts can be reused when reinstalling after excavation work, thereby preventing waste of resources.

In the above, the present invention has been described as a preferred embodiment illustrated in the drawings, but the present invention is not limited by the description and drawings of the illustrated embodiments, and is within the scope of the technical spirit and claims of the present invention, and can be understood by those skilled in the art. Of course, various modifications can be made.

C: Cable 100: Channel
200: protection tube 300: support
400: Cover 500: Approach detection switch unit
600: Vibration detection sensor unit 700: Warning light unit
800: Horn unit 900: Control unit

Claims (2)

a channel buried underground; a protective tube inserted into the channel and into which a plurality of cables are inserted; A plurality of supports installed at regular intervals inside the channel to support the protection tube; In the transmission and substation cable protection system comprising a cover that covers the upper surface of the channel,
A plurality of flow prevention protrusions are formed at intervals in the longitudinal direction on the lower surface of the support, and flow prevention grooves corresponding to the flow prevention protrusions are formed on the bottom surface of the channel,
An approach detection switch unit installed on the cover to detect the approach of an excavating tool; A vibration detection sensor unit installed on the cover to detect vibration caused by excavation; A warning light unit installed on the cover; horn unit; And a control unit that controls the warning light unit and the horn unit according to the detection signal from the approach detection switch unit or the vibration detection sensor unit,
The approach detection switch unit consists of a switch case with an open bottom, a switch case blocking plate that blocks the bottom of the switch case, a B contact reed switch installed on the inside lower part of the switch case, and a switch case installed on the upper side. Contains a permanent magnet,
The vibration detection sensor unit includes a sensor case having a sensor case body with an open bottom and a sensor case blocking plate that blocks the bottom of the sensor case body, and a vibration detection sensor installed inside the sensor case,
The warning light unit includes a warning light case body with an open bottom, a warning light case having a warning light case blocking plate that blocks the bottom of the warning light case body, and a warning light installed inside the warning light case,
The horn unit includes a horn case having a horn case body with an open bottom, a horn case blocking plate that blocks the bottom of the horn case body, and a horn installed inside the horn case,
By forming the planar area of the switch case blocking plate, sensor case blocking plate, warning light case blocking plate, and horn case blocking plate to be larger than the planar area of the switch case body, sensor case body, warning light case body, and horn case body, the switch case, sensor case, and warning light are formed. The case and horn case are constructed so that they cannot be removed arbitrarily while embedded in the cover.
The control unit can be installed in the management center, the B contact reed switch and vibration detection sensor can be connected to the control unit with a signal wire, and the warning light and horn are connected to the power supply provided in the management center with a power wire.
The bottom of the cover is provided with a wiring pipe for wiring signal wires and power wires.
The wiring pipe is formed with a rectangular cross-section with a wiring space, and the upper part is partially buried in the cover.
A separation prevention piece is formed at the top of the wiring pipe to prevent the wiring pipe from coming off arbitrarily while buried in the cover.
The power to the warning light and horn is normally turned off, and turned on before excavating nearby, so that the approach detection operation, vibration detection operation, control unit control, warning light and horn are not normally activated, and the excavation operation is performed. A transmission and substation cable protection system, characterized in that it is configured to operate only during operation.
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