KR102565437B1 - Lightning protection system for transmission tower and its installation method - Google Patents

Abstract

The present invention relates to a system for protecting a worker for an extra high voltage transmission line from lightning and an installation method thereof. More specifically, the present invention relates to an installation method of a system for preventing lightning, which is to protect a worker for an extra high voltage transmission line from lightning by being installed on a transmission tower and preventing the transmission tower from being damaged. The method comprises: an installation preparation step to clean and remove foreign matter or filthy material attached to the upper side of the transmission tower; a transmission tower lightning protection system installation step to install the lightning protection system to prevent the upper side of a transmission tower and a cable from being damaged by lightning; and a finishing step to remove foreign matter generated while the lightning protection system is being installed and other foreign matter attached to the transmission tower. The transmission tower lightning protection system installation step additionally includes a transmission tower checking guide step to identify the work status of the site by a transmission tower checking guide means and the capacity to transmit a danger signal in case of an emergency. Therefore, the present invention is able to install a lightning rod and a conductor in a sufficiently insulated status from the transmission tower, maintain a sufficient insulated status from the transmission tower in the whole discharge path from the lightning rod to a grounding line, prevent a lightning strike from flowing along the transmission tower, definitely prevent a lightning strike involving a pedestrian or a worker around the transmission tower, and relieving the impact of a lightning induction unit by elasticity.

Description

Lightning protection system for workers in extra-high voltage transmission lines and its installation method {Lightning protection system for transmission tower and its installation method}

The present invention relates to a lightning protection system for workers on an extra-high voltage transmission line and a method for installing the same, and more particularly, to a discharge path from a lightning rod to a ground wire while installing a lightning rod and a conductor sufficiently insulated from a transmission tower through which extra-high voltage is transmitted. Ensure that the entire insulation state with the transmission tower is sufficiently maintained so that lightning does not flow along the transmission tower to prevent accidents caused by lightning strikes by pedestrians or workers on extra-high voltage transmission lines around the transmission tower. It relates to a lightning protection system for a worker in a special high voltage transmission line and an installation method thereof to buffer the impact of a lightning induction unit by means of a lightning strike.

In general, lightning is a phenomenon in which tremendous electric energy generated by being charged like static electricity by the active flow of air is discharged to the ground surface.

In order to prevent various damages caused by lightning, transmission towers, transmission and reception towers for broadcasting and communication, power generation or transformer equipment, military bases (laser bases), high-rise buildings, and high-rise apartments are equipped with various lightning rods to discharge currents such as lightning strikes into the ground. installed

Extra-high voltage generally refers to a voltage of 7,000 volts or more, but it is quite natural that it may refer to a higher voltage if necessary.

A conventional lightning protection device installed on a transmission tower installs an overhead branch wire on top of the transmission tower so that lightning disappears through a ground wire buried in the ground without affecting the transmission overhead wire when lightning strikes the transmission tower. .

However, if a lightning strike occurs around the transmission pylon, even though the lightning is extinguished (discharged) through the transmission pylon and the earth ground wire and does not affect the overhead power transmission line, it is also affected by the steel structure of the transmission pylon that is wet or flowing down. Lightning strikes directly. As a result, there is a problem in that a pedestrian or an extra-high voltage transmission line worker passing around the transmission tower at the moment of lightning strike is seriously injured due to the effect of the lightning strike.

The foregoing invention refers to the background art in the technical field to which the present invention belongs, and does not mean the prior art.

Korean Patent Publication No. 10-2009-0019946 (published in 20090226) "Lightning treatment device for transmission line structure"

The present invention has been made to solve the above conventional problems, and an object of the present invention is to install a lightning rod and a conductor in a sufficiently insulated state with respect to a transmission tower, and to transmit power in the entire discharge path from the lightning rod to the ground wire. It is possible to sufficiently maintain the insulation state with the steel tower so that lightning does not flow along the transmission tower, so that it is possible to reliably prevent lightning accidents for pedestrians or workers on extra-high voltage transmission lines around the transmission tower. An object of the present invention is to provide a lightning protection system for a worker on a special high voltage transmission line and an installation method thereof to buffer the impact.

The present invention is a method for installing a lightning protection system for workers on an extra-high voltage transmission line installed on a transmission tower to protect workers on an extra-high voltage transmission line from lightning and to prevent damage to the transmission tower. An installation preparation step of washing and removing dirt, a transmission tower lightning protection system installation step of installing a lightning protection system to prevent damage to the transmission tower and cables by lightning on the top of the transmission tower, and the lightning protection system It consists of a finishing treatment step of removing foreign substances generated during the installation process and foreign substances attached to the transmission pylon. Characterized in that a steel tower confirmation work guide step is further included to transmit a danger signal when it occurs.

The present invention is a lightning protection system for workers on an extra-high voltage transmission line installed on a transmission tower to protect workers on an extra-high voltage transmission line from lightning and to prevent damage to the transmission tower. member, a hollow insulating casing having a lower end connected to and fixed to an upper portion of the bracket member, a hollow insulating fixing pipe disposed inside the insulating casing fastened to the bracket member, and one end connected to and fixed to the insulating fixing pipe. A lightning induction rod, a lightning induction part composed of lightning rods formed on the top of the lightning induction rod, a ground cable to which one end of the lightning induction rod of the lightning induction section is connected and fixed, and a ground cable connected to and fixed to the other end of the ground cable. A ground plate embedded in the insulated fixing tube, a detection sensor fastened to the insulated fixing pipe and configured to detect a lightning strike induced in the lightning induction unit, and a transmitting and receiving unit provided on the bracket member to receive and transmit the detection signal detected by the detection sensor. It is characterized in that, when lightning is induced by the lightning induction unit, the lightning is induced to the ground to discharge, and the lightning is induced signal is transmitted to the outside to inform.

The lightning protection system for workers on extra-high voltage transmission lines and its installation method according to the present invention can install lightning rods and conductors in a state of sufficient insulation with respect to transmission pylons, and ensure sufficient insulation from transmission pylons in the entire discharge path from lightning rods to ground wires. It has the effect of buffering the impact of the lightning inducing part by elasticity. .

1 is a diagram showing a lightning protection system for a worker on a special high voltage transmission line according to the present invention.
2 is a partially enlarged view showing a lightning protection system for operators of extra-high voltage transmission lines according to the present invention.
3 is a partially enlarged cross-sectional view showing a lightning protection system for a worker on an extra-high voltage transmission line according to the present invention.
4 is an operating state diagram showing a lightning protection system for a worker on a special high voltage transmission line according to the present invention.
5 is a view showing an elastic buffer support means of a lightning protection system for a worker in a special high voltage transmission line according to the present invention.
6 is a diagram showing a lightning side induction means of a lightning protection system for workers on a special high voltage transmission line according to the present invention.
7 is a cross-sectional view showing the lightning side induction means of the lightning protection system for workers on the extra-high voltage transmission line according to the present invention.
8 is a view showing a bracket elastic buffer fixing means of a lightning protection system for a worker in a special high voltage transmission line according to the present invention.
9 is a view showing a steel tower confirmation operation guide means of the lightning protection system for workers on extra-high voltage transmission lines according to the present invention.
10 is a view showing another embodiment of a steel tower confirmation work guide means of the lightning protection system for workers on extra-high voltage transmission lines according to the present invention.
11 is a conceptual diagram showing a means for guiding a tower check operation of a lightning protection system for a worker on a special high voltage transmission line according to the present invention.

Since the description of the present invention is only an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiments described in the text. That is, since the embodiment can be changed in various ways and can have various forms, it should be understood that the scope of the present invention includes equivalents capable of realizing the technical idea.

On the other hand, the meaning of terms described in the present invention should be understood as follows.

Terms such as "first" and "second" are used to distinguish one component from another, and the scope of rights should not be limited by these terms. For example, a first element may be termed a second element, and similarly, a second element may be termed a first element.

It should be understood that when an element is referred to as being “connected” to another element, it may be directly connected to the other element, but other elements may exist in the middle. On the other hand, when an element is referred to as being "directly connected" to another element, it should be understood that no intervening elements exist. Meanwhile, other expressions describing the relationship between components, such as “between” and “immediately between” or “adjacent to” and “directly adjacent to” should be interpreted similarly.

Expressions in the singular number should be understood to include plural expressions unless the context clearly dictates otherwise, and terms such as “comprise” or “having” refer to an embodied feature, number, step, operation, component, part, or these. It should be understood that it is intended to indicate that a combination exists, and does not preclude the possibility of the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof.

In each step, the identification code (eg, a, b, c, etc.) is used for convenience of explanation, and the identification code does not describe the order of each step, and each step clearly follows a specific order in context. Unless otherwise specified, it may occur in a different order than specified. That is, each step may occur in the same order as specified, may be performed substantially simultaneously, or may be performed in the reverse order.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs, unless defined otherwise. Terms defined in commonly used dictionaries should be interpreted as consistent with meanings in the context of related art, and cannot be interpreted as having ideal or excessively formal meanings unless explicitly defined in the present invention.

1 is a diagram showing a lightning protection system for a worker on a special high voltage transmission line according to the present invention. 2 is a partially enlarged view showing a lightning protection system for operators of extra-high voltage transmission lines according to the present invention. 3 is a partially enlarged cross-sectional view showing a lightning protection system for a worker on an extra-high voltage transmission line according to the present invention. 4 is an operating state diagram showing a lightning protection system for a worker on a special high voltage transmission line according to the present invention. 5 is a view showing an elastic buffer support means of a lightning protection system for a worker in a special high voltage transmission line according to the present invention. 6 is a diagram showing a lightning side induction means of a lightning protection system for workers on a special high voltage transmission line according to the present invention. 7 is a cross-sectional view showing the lightning side induction means of the lightning protection system for workers on the extra-high voltage transmission line according to the present invention. 8 is a view showing a bracket elastic buffer fixing means of a lightning protection system for a worker in a special high voltage transmission line according to the present invention. 9 is a view showing a steel tower confirmation operation guide means of the lightning protection system for workers on extra-high voltage transmission lines according to the present invention. 10 is a view showing another embodiment of a steel tower confirmation work guide means of the lightning protection system for workers on extra-high voltage transmission lines according to the present invention. 11 is a conceptual diagram showing a means for guiding a tower check operation of a lightning protection system for a worker on a special high voltage transmission line according to the present invention.

As shown in the drawing, the lightning protection system 10 for workers of the extra-high voltage transmission line according to the present invention (hereinafter referred to as a lightning protection system for convenience of explanation) is installed in the transmission tower 100 and protects the workers of the extra-high voltage transmission line by lightning. As a lightning protection system 10 for workers of an extra-high voltage transmission line, which protects and prevents damage to the transmission tower 100, the lightning protection system 10 for workers of an extra-high voltage transmission line includes a bracket member 20 and an insulating casing. (30), an insulated fixing pipe (40), a lightning induction unit (50), a ground cable (53), a ground plate (60), a detection sensor (70), and a transmission and reception unit (21).

The bracket member 20 is formed with a through hole screwed and fixed to the transmission tower 100 .

The bracket member 20 is screwed and fixed to the upper end of the transmission tower 100.

The insulating casing 30 is fixed by screwing or attaching a lower end to the upper surface of the bracket member 20 and is formed in a hollow tubular structure.

The insulating casing 30 is made of stone or synthetic resin to be insulated.

The insulating fixing pipe 40 is disposed inside the insulating casing 30 fastened to the bracket member 20 .

The insulated fixing tube 40 is fitted and fixed to the insulated casing 30, and it is also possible to fix it by screwing it to the insulated casing 30 after being fitted.

The insulating fixing pipe 40 is formed in a hollow tubular structure, and is made of stone or synthetic resin material to be insulated.

The lightning guide part 50 is composed of a lightning guide rod 51 having one end connected to and fixed to the insulated fixing pipe 40, and lightning rods 52 formed on top of the lightning guide rod 51.

The lightning rod 51 and the lightning rod 52 are made of a metal material to induce lightning, and one end of the lightning rod 52 is welded and fixed to an upper end of the lightning rod 51.

The lower end of the lightning induction rod 51 is inserted into the upper portion of the insulated fixing pipe 40 and then screwed or attached to fix it, and it is also possible to fix it by forcibly fitting it.

The ground cable 53 is a conductor that is a coated wire that guides lightning strikes, and one end of the lightning guide rod 51 of the lightning guide unit 50 is connected and fixed.

The ground cable 53 is a wire, and one end passes through the through-hole of the bracket member 20 and is inserted into the lower end of the insulated fixing pipe 40, and then the lightning guide rod 51 inserted into the insulated fixing pipe 40. ), the lightning induced by the lightning induction unit 50 moves along the ground cable 53.

The ground cable 53 uses a covered wire to prevent leakage to the outside, and the coating of the portion connected to the lower end of the lightning induction rod 51 is peeled off.

The ground plate 60 is connected to and fixed to the other end of the ground cable 53, and is buried in the ground.

The ground plate 60 is made of a metal material and is electrically connected to the other end of the ground cable 53 .

The ground plate 60 discharges the lightning transmitted from the ground cable 53 to the ground and extinguishes it.

The detection sensor 70 is fastened to the insulated fixing tube 40 to detect lightning induced in the lightning induction unit 50 .

The detection sensor 70 is attached to and fixed to the inner surface of the insulated fixing tube 40, and one surface is closely attached to the lightning induction rod 51 to sense lightning (electricity) induced by the lightning induction part 50. Then, the signal is transmitted to the transmitting and receiving unit 21.

The transmission/reception unit 21 is screwed to the bracket member 20, receives and transmits the detection signal detected by the detection sensor 70.

That is, when lightning is induced by the lightning induction unit 50, the lightning is induced to the ground and discharged, and the lightning is induced signal is transmitted to the outside to notify, so that the manager confirms the detection signal received by the manager terminal, so that the lightning is It is possible to recognize the induced situation, and it is possible to increase the efficiency of maintenance by checking whether there is any damage or damaged part of the device configuration according to the lightning induction.

The installation method of the lightning protection system 10 for workers on the extra-high voltage transmission line installed on the transmission tower 100 configured as above to prevent damage to the transmission tower 100 by lightning is An installation preparation step (S1) of washing and removing foreign substances or dirt stuck to the top, and a lightning protection system (10) to prevent damage to the transmission tower (100) and cables caused by lightning on the top of the transmission tower (100). ) Installation step (S2) of the lightning protection system 10 of the transmission tower to install the lightning protection system 10, and a finishing process of removing foreign substances generated in the installation process of the lightning protection system 10 and foreign substances attached to the transmission tower 100 By going through (S3), a series of processes is completed.

At this time, in the installation step (S2) of the transmission tower lightning protection system 10, the work situation at the site is grasped by the steel tower confirmation work guide means 90, and a danger signal is transmitted in the event of an emergency. -1) is further included.

Here, the insulating casing 30 supports the insulating fixing tube 40 to which the lightning induction part 50 and the ground cable 53 are fastened with elasticity and has an elastic type so as to buffer an impact transmitted from the outside. A buffer support means 80 is further provided, and the elastic buffer support means 80 is inserted into the insulation casing 30 while surrounding the insulation fixing tube 40 and fixed to the inner surface of the insulation casing 30. an operating pipe 81, operating brackets 82 screwed to the inner surface of the operating pipe 81, and a pressure coil spring 83 having one end screwed and fixed to the operating bracket 82; It consists of a pressure panel 84 welded to the other end of the pressure coil spring 83, and an elastic panel made of a synthetic resin material having elasticity attached to the pressure panel 84.

By supporting the insulating fixing pipe 40 to which the lightning inducing part 50 is fastened by the elasticity of the pressure coil spring 83 and the elastic panel, the lightning inducing part 50 and the insulating fixing pipe 40 are formed by wind or external force. It buffers the transmission of shock, and allows the lightning induction unit 50 and the insulation fixing pipe 40 to return to their original positions when moved.

A buffer space is formed between the insulating fixing pipe 40 and the operating pipe 81.

The operating brackets 82 are arranged in an annular shape while maintaining a predetermined interval.

In addition, by screwing and fixing a vibrator, which is a vibrator, to the outer surface of the insulating fixing pipe 40, the vibration of the vibrator is transmitted to the insulating fixing pipe 40 and the lightning induction unit 50 connected to the insulating fixing pipe 40. In order to remove foreign substances or dust attached to the outer surfaces of the lightning rod 51 and the lightning rod 52 of the lightning induction unit 50, the lightning induction efficiency is increased and the cost and time associated with maintenance are reduced. desirable.

In addition, the status confirmation camera is further screwed and fixed to the upper surface of the bracket member 20, and the status confirmation camera is electrically connected to the transmission and reception unit 21, thereby transmitting the photographing information of the status confirmation camera. , It is preferable to transmit to the receiver 21 so that the insulation casing 30, the insulation fixing pipe 40, and the lightning induction unit 50 can be checked in real time for damage and foreign matter attached so that maintenance can be performed. .

At this time, a lightning strike of a transmission tower in which a lightning protection system 10 is installed on the top of the transmission tower 100 to prevent damage to the transmission tower 100 and the cables connected to and guided by the transmission tower 100 due to lightning strikes. In the prevention system installation step (S2), a steel tower confirmation work guide step (S2-1) is further added so that the work situation at the site is grasped by the steel tower check work guide means 90 and a danger signal is transmitted in case of an emergency.

The tower confirmation operation guide means 90 is connected to a connection fixing module unit 91 fixed by screwing to the transmission tower 100, and a lower end connected to the upper surface of the connection fixing module unit 91 to be fixed. A pair of guide shafts 92, a first panel transfer module 931 and a second panel transfer module 932 that are inserted through the guide shaft 92 and guided along the guide shaft 92; The transfer module unit 93 composed of the three-panel transfer module 933 and the lower end are screwed and fixed to the upper surface of the connection fixing module unit 91, and the lifting shaft is the lower surface of the first panel transfer module 931. The first lift guide unit 941 screwed to and fixed to the upper surface of the first panel transfer module, the lower end is screwed and fixed, and the lift shaft is screwed to the bottom surface of the second panel transfer module 932. The fixed second lift guide unit 942 and the lower end are screwed to the upper surface of the second lift guide unit 942, and the lift shaft is screwed to the lower surface of the third panel transfer module 933. The lift guide part 94 composed of the third lift guide unit 943 fixed by being screwed to the lower surface of the first panel transfer module 931 is screwed and fixed, and the first rotation module unit 951-1 is attached to the rotation shaft. ) is screwed to the first rotation guide units 951, the second panel transfer module 932 is screwed and fixed to the bottom surface, and the second rotation module unit 952-1 is screwed to the rotating shaft. Rotation guide units 952 and third rotation guide units 953 in which the third panel transfer module 933 is screwed and fixed to the bottom surface and the third rotation module unit 953-1 is screwed to the rotation shaft. The rotation guide part 95 made of, the first situation recording units 961 screwed and fixed to the lower surface of the first rotation module unit 951-1, and the second rotation module unit 952-1 ) consisting of second situation recording units 962 screwed and fixed to the lower surface of the third rotation module unit 953-1 and third situation recording units 963 screwed and fixed to the lower surface of the third rotation module unit 953-1. It is screwed and fixed to the situation photographing unit 96 and the connection fixing module unit 91, and is electrically connected to and controlled by the elevation guide unit 94 and the rotation guide unit 95, and the first situation capture The control unit 97, which receives the photographing information of the units 961, the second situation photographing units 962, and the third situation photographing unit 963, and the third panel transfer module 933 are screwed and fixed. and a transmitting and receiving unit 98 that transmits the photographing information of the first situation photographing units 961, second situation photographing units 962, and third situation photographing units 963 transmitted from the control unit 97. And, it is screwed and fixed to the third panel transfer module 933, and consists of a status guide speaker 99 that receives a signal from the control unit 97 to guide a voice or generate an alarm.

The connection fixing module unit 91 has a panel structure made of a metal material and is disposed on the ground.

The first panel transfer module 931, the second panel transfer module 932, and the third panel transfer module 933 are formed of metal or synthetic resin panels, and are inserted through the guide shaft 92. A transfer hole is formed.

The first lift guide unit 941, the second lift guide unit 942, and the third lift guide unit 943 are cylinders, and the first rotation guide unit 951 and the second rotation guide unit ( 952) and the third rotation guide unit 953 are motors, and the first situation capturing units 961, the second situation capturing units 962, and the third situation capturing unit 963 are cameras.

In addition, the first rotation module unit 951-1, the second rotation module unit 952-1, and the third rotation module unit 953-1 are formed in a circular or square panel structure.

The first situation photographing units 961, the second situation photographing units 962, and the third situation photographing unit 963 include the first elevation guidance unit 941 and the second elevation guidance unit 942. ) and the driving of the third lift guide unit 943, the height can be changed, and it is possible to photograph the ground or field conditions or risk factors on the ground.

The control unit 97 receives the signal received by the transmission/reception unit 98 through the manager terminal and controls the status guide speaker 99 to transmit voice or generate an alarm.

That is, after recognizing a dangerous situation of a phenomenon through the photographing information, a danger signal is transmitted through the status guide speaker 99 to prevent safety accidents in the field.

In addition, the control unit 97 controls driving of the lift guide unit 94 and the rotation guide unit 95 by receiving a signal received by the transmitter and receiver unit 98 through the manager terminal, Positions of the situation capturing units 961, the second situation capturing units 962, and the third situation capturing unit 963 can be changed.

A lightning side inducing means 54 is further provided in the insulating casing 30 to induce lightning from the outside.

The lightning side induction means 54 is inserted into the side induction holes 541 formed on the outer surface of the insulating casing 30, and one end penetrates the side induction hole 541, and the lightning induction rod 51 It consists of a side induction rod 542, one end of which is connected and fixed, and side lightning rods 543 and 52 formed at the other end of the side induction rod 542, and the side induction hole 541 moves from the inside to the outside. The side induction bar 542 is obliquely disposed in an oblique direction to be formed to be inclined upward as it increases, and to be inserted into the side induction hole 541 to prevent sagging due to its own weight.

In addition, lightning induction efficiency can be increased by the lightning side induction means 54, and damage to the transmission tower due to lightning can be prevented again.

In the bracket member 20, an insulating fixing pipe 40 and a lightning guide 50 connected to the insulating casing 30 and the insulating casing 30 by an external force by supporting the insulating casing 30 by elasticity are provided. Bracket elastic buffer fixing means 22 is further provided to prevent movement.

The bracket elastic buffer fixing means 22 is fitted with an annular jaw 221 formed in a groove structure on the upper side of the outer surface of the insulating casing 30 while surrounding the insulating casing 30, and the lower end thereof A guide support pipe 222 fixed by screwing to the upper surface of the bracket member 20, and a support flange integrally formed on the upper inner surface of the guide support pipe 222 and disposed on the upper part of the jaw portion 221 ( 223), guide fixing coil springs 224 having one end connected to and fixed to the inner surface of the guide support pipe 222, and a guide pressing panel 225 connected to and fixed to the other end of the guide fixing coil spring 224. ) and a guide elastic panel 226 attached to and fixed to one surface of the guide pressing panel 225 and pressing the insulating casing 30 by the elasticity of the guide fixing coil spring 224.

That is, the support flange 223 is caught on the jaw portion 221 to prevent the insulation casing 30 from being moved upward by an external force, and the guide fixing coil spring 224 and the guide elastic panel ( 226) supports the insulating casing 30 by elasticity, prevents it from moving outward, and buffers the transmission of impact.

The guide fixed coil spring 224 is screwed or attached to the guide support pipe 222 , and the guide pressing panel 225 is attached to the other end of the guide fixed coil spring 224 .

Although the present invention has been described in detail so far, it is clear that the embodiments mentioned in the process are only illustrative and not limiting, and the present invention is the technical spirit or field of the present invention provided by the claims below. Within the range that does not deviate from, it will be said that component changes to the extent that can be equally coped with fall within the scope of the present invention.

10: lightning protection system 20: bracket member
21: transmission and reception unit 22: bracket elastic buffer fixing means
221: chin part 222: guide support pipe
223: support flange 224: guide fixed coil spring
225: guide pressing panel 226: guide elastic panel
30: insulating casing 40: insulating fixing pipe
50: lightning guidance unit 51: lightning guidance rod
52: lightning rod 53: grounding cable
54: lightning side induction means 541: side induction tool
542: side induction rod 543: side lightning rod
60: ground plate 70: detection sensor
80: elastic buffer support means 81: operating pipe
82: operating bracket 83: pressurized coil spring
84: pressing panel 85: elastic support panel
90: steel tower confirmation work guidance means 91: connection fixing module unit
92: guide shaft 93: transfer module unit
931: first panel transfer module 932: second panel transfer module
933: third panel transfer module 94: lift guide
941: first lift guide unit 942: second lift guide unit
943: third lift guide unit 95: rotation guide unit
951: first rotation guide unit 951-1: first rotation module unit
952: second rotation guide unit 952-1: second rotation module unit
953: 3rd rotation guide unit 953-1: 3rd rotation module unit
96: situation shooting unit 961: first situation shooting unit
962: second situation recording unit 963: third situation recording unit
97: control unit 98: transmission and reception unit
99: status information speaker 100: transmission pylon

Claims (2)

A method of installing an extra-high voltage transmission line worker lightning protection sheath installed on a transmission tower to protect workers on the extra-high voltage transmission line from lightning and to prevent damage to the transmission tower,
An installation preparation step of washing and removing foreign substances or dirt adhering to the top of the transmission tower;
A transmission tower lightning protection system installation step of installing a lightning protection system to prevent damage to the transmission tower and cables by lightning on the top of the transmission tower; and
It consists of a finishing treatment step of removing foreign substances generated in the installation process of the lightning protection system and foreign substances attached to the transmission pylon,
In the installation step of the transmission tower lightning protection system, the work situation of the site is grasped by the tower confirmation work guidance means, and the tower confirmation work guidance step is further included to transmit a danger signal in the event of an emergency. In the installation method,
The transmission tower lightning protection system,
a bracket member having a through hole fastened to and fixed to the transmission tower;
a hollow insulating casing having a lower end connected to and fixed to an upper portion of the bracket member;
a hollow insulating fixing tube disposed inside the insulating casing fastened to the bracket member;
a lightning induction unit composed of a lightning induction rod having one end connected to and fixed to the insulated fixing pipe, and lightning rods formed on an upper portion of the lightning induction rod;
A ground cable to which one end of the lightning induction rod of the lightning induction unit is connected and fixed;
a ground plate connected to and fixed to the other end of the ground cable and buried in the ground;
a detection sensor fastened to the insulated fixing pipe to detect a lightning strike induced in the lightning induction unit; and
It is provided on the bracket member and consists of a transmission and reception unit for receiving and transmitting the detection signal detected by the detection sensor,
When lightning is induced by the lightning induction unit, it is induced to the ground and discharged, and also transmits and informs the outside of the lightning induced signal,
The steel tower confirmation operation guide means,
A connection fixing module unit screwed and fixed to the transmission tower;
A pair of guide shafts having lower ends connected to and fixed to the upper surface of the connection fixing module unit;
A transfer module unit composed of a first panel transfer module, a second panel transfer module, and a third panel transfer module that are inserted through the guide shaft and guided along the guide shaft;
The first lift guide unit, the lower end of which is screwed to the upper surface of the connection fixing module unit and the lifting shaft is screwed to the lower surface of the first panel transfer module, and the lower end of the upper surface of the first panel transfer module. The second lifting guide unit, which is screwed and fixed, and the lifting shaft is screwed and fixed to the bottom surface of the second panel transfer module, and the lower end is screwed and fixed to the upper surface of the second lifting guide unit, and the lifting shaft An elevation guide portion composed of a third elevation guide unit screwed and fixed to the bottom surface of the third panel transfer module;
The first rotation guide units to which the first rotation module unit is screwed to the rotation shaft are screwed and fixed to the bottom surface of the first panel transfer module, and the second panel transfer module is screwed to the bottom surface and fixed to the rotation shaft. Rotation guidance consisting of second rotation guide units to which the second rotation module unit is screwed, and third rotation guide units to which the third rotation module unit is screwed to the rotation shaft and the third panel transfer module is screwed and fixed to the bottom surface. wealth,
First situation recording units fixed by being screwed to the bottom of the first rotation module unit, second situation recording units screwed to and fixed to the bottom of the second rotation module unit, and the third rotation module unit A situation photographing unit composed of third situation photographing units screwed and fixed to the bottom of the;
It is screwed and fixed to the connection fixing module unit, is electrically connected to and controlled by the lift guide unit and the rotation guide unit, and takes pictures of the first situation recording units, the second situation recording units, and the third situation recording units. A control unit receiving information;
Transmitters and receivers screwed to and fixed to the third panel transfer module and transmitting photographing information of the first situation photographing units, second situation photographing units, and third situation photographing units transmitted from the control unit;
A method of installing a lightning protection system for workers on an extra-high voltage transmission line, characterized in that it is screwed and fixed to the third panel transfer module, and consists of a status guide speaker that receives a signal from the control unit to guide a voice or generate an alarm.

delete