KR100988580B1 - Installation method of safety net hang in midair for wiring using established pylons - Google Patents

Abstract

PURPOSE: A method for installing an air guard net for a stringing is provided to prevent a transmission line from being separated by surrounding the side and lower side of the transmission line with a guard network. CONSTITUTION: A basis wire is connected between pylons(1,1'). A pair of upper wires(20) are connected to the basis wire. A guard net(30) is connected between the pair of upper wires. The guard net includes a side fixing loop, a lower fixing loop, a space maintaining loop, and a movement preventing loop. The upper end of the side fixing loop is connected to the upper wire. The lower side fixing loop is connected to the lower side of the side fixing loop. The space maintaining loop regularly maintains the space between adjacent side fixing loops. The movement preventing loop is fixed to the ground.

Description

Installation method of safety net hang in midair for wiring using established pylons}

The present invention stranded the base wire and the top wire between the pylon and the pylon, and connected to the top wire of the protection net located on the lower portion of the transmission line to the top wire to pull safely to the place where safety accidents are concerned, even if the transmission line falls safely without supporting the tower The present invention relates to a method of installing a public protective net for a ship using an existing steel tower.

The power system of Korea has grown into a large power transmission line for economic power transportation, improved reliability of power supply and efficient land use due to the steady increase in power demand caused by continuous economic growth. As a result, transmission lines are being built on a large scale, such as large transmission towers, the use of large-capacity wires, and multi-conductors.

The main obstacles to be traversed during overhead line work are power lines such as transmission lines, distribution lines and tram lines. When the protection network is installed for the power line crossing, line interruption must be accompanied to prevent electric shock accidents and power system accidents. However, in reality, power lines are often short-time truces, one-line truce of two lines or any truce work is difficult, so the accidents frequently occurred due to the construction conditions in which the protection network was in danger of being exposed to danger.

In order to solve this problem, as shown in Figure 1, the pylon footrest (3) is installed on both sides of the main obstacle workpiece traversed by the overhead transmission line (1), and the net (4) between the pylon footrest (3) It was installed to prevent safety accidents even if the overhead transmission line fell.

However, in the case of installing the net 4 using the conventional pylon footrest (3) is difficult to install the portion of the pylon footrest (3) due to the topographical influence, or when installing the overhead transmission line, There is a problem that needs to be installed. In addition, there is a problem in that the time required for the licensing of the construction of the pylon footrest is required separately.

In addition, when the overhead transmission line 1 falls, there is a problem of falling from the net 4 and falling underground due to the weight of the overhead transmission line.

The present invention stranded the base wire and the top wire between the pylon and the pylon, and connected to the top wire of the protection net located on the lower portion of the transmission line to the top wire to pull safely to the place where safety accidents are concerned, even if the transmission line falls safely without supporting the tower It is to provide a method of installing a public protective net for wires using existing steel towers.

Another problem of the present invention is to protect the side and the bottom of the power transmission line because the transmission line is dropped even if the transmission line is located in the protection net provides a public protection net installation method using a conventional steel tower that can prevent the transmission line from falling outside the protection net. There is.

Method of installing a wire protection net using the existing steel tower of the present invention is the basic wire stranding step of connecting the base wire 10 to the top between the pylon and the pylon, and connects a pair of top wire 20 to the base wire 10 And the top wire twisted pair step of connecting the top wire to the top of the pylon located on both sides of the transmission line by pulling the base wire 10, and a pair of top wire 20 to the protection net 30 surrounding the side and the bottom of the transmission line It consists of a protective net mounting step to connect to, and the protective net twisted wire step of placing the protective net 30 to be located at the bottom of the transmission line of the safety accident by pulling the top wire 20 while installing the protective net 30,
The protection net 30 is fastened to the upper end of the wire 20, the lower end of the side fixed rope 31 extending to the lower portion of the power transmission line, and the lower side of the side fixing rope 31 located on the lower side of the power transmission line facing each other The lower fixing rope 32 which is fastened to prevent falling to the ground when the transmission line falls, and is maintained at the bottom of the side fixing rope 31 which is located at the lower part of the transmission line and is adjacent to each other in the front and rear to maintain the distance to maintain a constant distance. Rope 33, and extending from the lower end of the first and last side fixing rope is fixed to the ground is characterized by consisting of a movement preventing rope 34 to minimize shaking.

Preferably, the basic wire stranding step is characterized in that using the helicopter twisted pair method.

Preferably, the foundation wire is characterized in that the wire or nylon rope.

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Preferably, the upper end of the side fixing rope 31 is a ring-shaped upper wire creep 35 is wrapped around the twisted line, the lower end of the side fixing rope ring-shaped wire creep 36 is fixed, the lower wire The creep 36 is characterized in that the lower fixing rope 32 and the front and rear interval maintaining rope 33 is fixed, respectively.

According to the construction method of the aerial protection net for the wire using the existing steel tower of the present invention, there is an advantage that can easily install the protection net without the need to install the existing pylon footrest in the area of safety accidents when the transmission line falls between the pylon and the tower have.

In addition, since the protection net surrounds the side and the bottom of the transmission line, even if the transmission line falls, the transmission line can be prevented from falling outside the protection net because it is located in the protection net.

In addition, there is an advantage that can save the installation cost and installation period when installing the protection net using the existing pylon footrest.

In addition, there is an advantage that can prevent forest damage when installing the transmission line passing through the mountain.

In addition, in the case of installing the existing pylon footrest it is necessary to cease the transmission line in order to prevent safety accidents, the present invention can be installed in the protection net uninterrupted.

1 is a perspective view of the installation of a general pylon protection net.
Figure 2 is a state of installation of the tower protection net according to the invention.
Figure 3 is an installation state of the base wire according to the present invention.
Figure 4a and 4b is an installation state of the top wire according to the present invention.
5 is a perspective view of a protective net according to the present invention.
6 is an installation state of the protection net according to the invention.
7 is a flowchart of the installation process of the tower protection net according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the construction method of the public protective net for the wire using the existing steel tower according to the present invention.

The construction method of the aerial protection net for wire using the existing steel tower of the present invention is a twisted pair of foundation wires connecting the foundation wire 10 to the uppermost portion between the pylon 1 and the pylon 1 ', and a pair of foundation wires 10. A top wire twisted pair step of connecting the top wire 20 and connecting the top wire 20 to the uppermost portion between the pylon 1 and the pylon 1 'so as to be positioned on the top of the power transmission line, and a pair of top wires 20 Protection net mounting step of connecting the protection net 30 to each of the transmission line to surround the transmission line), while installing the protection net 30 to pull the upper wire 20 while the safety net is located in the lower transmission line of the safety concerns point 30 It consists of a twisted pair of guard nets to position the.

With reference to Figures 2 to 6 will be described in detail with respect to the installation method of the public protective net for the wire using the existing steel tower of the present invention.

As shown in FIG. 3, the twisted pair of foundation wires connects the foundation wires 10 to be positioned at the top between the pylon 1 and the pylon 1 ′. The base wire 10 is stranded on the left and right sides of the top of the tower when the transmission lines of the tower are respectively located on the left and right sides. The twisted pair of basic wires may be a twisted pair method of connecting by a manpower or a helicopter twisted pair method of connecting by a helicopter, and in particular, it is preferable to use a helicopter twisted pair method. In this case, a roller for easily moving the foundation wire 10 is installed on the pylon 1 and the pylon 1 ', and the foundation wire 10 is preferably connected to the towing apparatus and moved while being towed. In addition, the base wire 10 uses a 12mm wire, in order to reduce the weight of the wire can be used to replace the high strength nylon rope.

As shown in Figures 4a and 4b, the upper wire stranding step is connected so that the pair of the top wire 20 is located at the top of the power transmission line at the top between the pylon (1) and the pylon (1 '). When the upper wire 20 is connected to the base wire 10 connected to the iron tower 1 on one side as two wire ropes, the upper wire 20 is pulled and connected to the other steel tower 1 '. At this time, it is preferable to install the roller at the position where the upper wire 20 is installed, and pull it using a wire traction device. In addition, the top wire 20 uses 18mm wire, it is possible to reduce the weight by using a high strength nylon rope.

As shown in FIG. 5, the protective net mounting step connects the protective net 30 surrounding the transmission line to the upper wire 20, respectively. At this time, the lower portion of the protection net 30 is preferably located in the lower 6 ~ 8m of the transmission line.

The protection net 30 is fastened to the upper end of the wire 20, the lower end of the side fixed rope 31 extending to the lower portion of the power transmission line, and the lower side of the side fixing rope 31 located on the lower side of the power transmission line facing each other The lower fixing rope 32 which is fastened to prevent falling to the ground when the transmission line falls, and is maintained at the bottom of the side fixing rope 31 which is located at the lower part of the transmission line and is adjacent to each other in the front and rear to maintain the distance to maintain a constant distance. Rope 33, and extending from the lower end of the first and last side fixing rope is fixed to the ground consisting of a movement preventing rope 34 to minimize shaking.

At this time, the upper end of the side fixing rope 31 is formed in a ring is fixed to the ring-shaped upper wire creep 35 surrounding the working strand. In addition, the lower end of the side fixing rope 31 is formed of a ring is connected to the ring-shaped lower wire creep 36, the lower wire crepe 36 to the lower fixing rope 32 and the front and rear space maintaining rope 33 Each is fixed.

As shown in FIG. 6, the twisted-pair wire protection step pulls the upper wire 20 in which the protection net 30 is installed, and places the protection net 30 under the transmission line at a point where a safety accident is concerned. In this case, the protection net 30 is preferably installed sequentially while the upper wire 20 is moved from one side of the pylon (1) to the other side of the tower (1 ').

Referring to Figure 7 describes the installation process of the public protection net for the household using the existing steel tower of the present invention having such a configuration as follows.

Rollers are installed at positions where the base wire 10 is placed and the top wires 20 are placed among the tops of the transmission tower.

First, the base wire 10 is placed on a roller installed at the uppermost portion between the pylon 1 and the pylon 1 'by using a helicopter twisted line method or the like, and is pulled and installed by a traction device or the like (step S1). In general, since the transmission line is installed on the left and right sides of the pylon, the foundation wires installed on the left and right sides are sequentially stranded.

Thereafter, the top wire 20 made of two sets of wire ropes is connected to the end of the base wire 10 of one side of the pylon 1 on a roller, and the base wire 10 of the other end is pulled by a traction device or the like. It moves to the other steel tower 1 '(step S2). The upper wire 20 moved to the other steel tower 1 'is placed on a roller so that the upper wire 20 is positioned above the power transmission line.

When the upper wire 20 is installed between the pylon 1 and the pylon 1 ', the upper wire 20 of the other side is connected to the upper wire 20 of one of the pylons to connect the protection net 30 surrounding the side and the bottom of the transmission line ) And move it to the lower part of the transmission line at the point where the safety accident is concerned (steps S3 and S4). The protection net 30 maintains the gap between the side fixing rope 31 positioned on the side of the transmission line, the lower fixing rope 32 and the side fixing rope 31 positioned below the power transmission line. The rope 33 is manufactured by being connected to the lower wire creep 36, and the completed protection net 30 is wrapped to position the transmission line inward. Accordingly, even when the transmission line falls to the ground when the transmission line is installed, the falling transmission line may fall into the protection net 30 to prevent a safety accident.

On the other hand, when the installation of the transmission line is completed between the pylon (1) and the pylon (1 ') (step S5), while pulling the upper wire 20 to the one side of the pylon (1), the wire 30 to the upper wire (20) ) To recover it (step S6). The guard net 30 can be easily disassembled because it is connected to the wire clips 35 and 36.

When the removal of the protection net 30 is completed, the upper wire 20 is pulled and recovered by the one side steel tower 1 (step S7), and the basic wire 10 connected to the upper wire 20 is pulled and recovered (step S8).

1, 1 ': steel tower 10: foundation wire
20: upper wire 30: protection net
31: side fixing rope 32: lower fixing rope
33: spacing rope 35: upper wire creep
36: lower wire creep

Claims (5)

A foundation wire stranding step of connecting the foundation wire 10 to the top between the pylon 1 and the pylon 1 ',
A pair of top wires 20 are connected to the base wire 10 and the base wires 10 are pulled to connect the top wires to the uppermost portion between the pylon 1 and the pylon 1 'located at both upper portions of the transmission line. The upper wire stranded phase,
A protective net mounting step of connecting the protective net 30 surrounding the side and the bottom of the transmission line to a pair of upper wires 20;
While installing the guard net 30 is made of a guard net twisted wire step to position the guard net 30 to be located on the lower transmission line of the point where the safety accident is concerned by pulling the upper wire 20,
The protection net 30 is the upper side is fixed to the top wire 20 and the lower side fixed rope 31 extending to the lower portion of the transmission line,
A lower fixing rope 32 which is located at a lower portion of the transmission line and is fastened to the lower end of the side fixing ropes 31 facing each other to prevent falling to the ground when the transmission line falls;
A spacing maintaining rope 33 positioned at a lower portion of the power transmission line and fastened to a lower portion of the side fixing ropes 31 adjacent to each other in the front and rear, and maintaining a constant distance;
Method for installing a wire protection net using a conventional steel tower, characterized in that consisting of a movement preventing rope (34) which is fixed to the ground extending from the bottom of the first and last side fixed rope to minimize shaking. The method of claim 1, wherein the wire stranding step is based on a helicopter twisted wire method. The method of claim 1, wherein the basic wire is a wire or nylon rope, the aerial protection net installation method using a conventional steel tower. delete The method of claim 1, wherein the upper end of the side fixing rope 31 is a ring-shaped upper wire creep 35 is wrapped around the working strand, the lower end of the side fixing rope ring-shaped wire creep 36 is connected, The lower wire creep 36, the lower fixing rope 32 and the front and rear spacing maintaining rope 33 is fixed to each other, the method of installing a wire protection net for a wire using an existing steel tower.

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