KR102651031B1 - Tower structure for supporting line of extra-high voltage electric power transmission - Google Patents

Abstract

In the present invention, a concrete foundation is installed in a place that does not go beyond the existing transmission line area, but a pair of pillars spaced apart from the concrete foundation are erected, and a plurality of transmission line supports are formed on both sides of each pillar with a plurality of transmission line supports protruding in the opposite direction of the adjacent pillars. However, the lowest transmission line support among the transmission line supports is installed at a height of 20 m or more from the ground, the spacing between each support is at least 6 m, and the transmission line connected to the end of the transmission line support is installed at a height of more than 20 m above the ground. It is intended to provide a line separation device for underground transmission work that is configured to be connected to a plurality of connectors for underground work formed on both sides. The effect of the present invention is to install a concrete foundation without leaving the existing transmission line area, and to install the foundation without leaving the existing transmission line area. By installing a pair of supports on top to be spaced apart from each other, and having a plurality of transmission line supports protruding from the supports in opposite directions, ultimately, the existing transmission line area does not go beyond the existing transmission line area, so there is no need to obtain permission from the landowner again, and a separate There is no need to obtain a construction permit, which makes it possible to proceed with undergrounding the transmission line while significantly reducing construction costs.
In particular, the pair of supports and each transmission line support are spaced sufficiently apart to prevent flashover phenomena, thereby preventing safety accidents, and at the same time, making it possible to underground the transmission line without having to shut down both transmission lines at the same time. It is a very useful invention.

Description

Line separation device for underground transmission work {Tower structure for supporting line of extra-high voltage electric power transmission}

The present invention relates to a line separation device for underground transmission work, and more specifically, to install a transmission line installed on the ground underground, but to enable undergrounding work of the transmission line without simultaneously shutting down two transmission line circuits. This relates to a line separation device for underground transmission work that can be installed between the existing transmission steel tower and the underground work area, that is, the existing transmission line area, to enable line separation work.

In general, electricity used in each home, office, and various facilities is supplied through substations installed in each region. These substations receive power produced by power plants through transmission lines and then transform voltage or current into power. etc. are distributed and sent back to recipients.

Therefore, in most of the transmission lines located on the ground, high-voltage wires are exposed to the outside in order to re-send high-voltage current. High-voltage wires exposed to the outside not only harm the surrounding landscape but are also prone to bad weather or external interference. Because the risk of electric leaks and short circuits is a major disadvantage, there is a recent trend to install high-voltage wires underground.

However, when installing a high-voltage wire underground like this, the existing transmission line must be connected to a connector installed underground. In this case, if the transmission line tower supporting the existing transmission line is connected directly to the connector installed in the underground work area, a serious problem arises. There is no choice but to be exposed to.

In other words, all of KEPCO's conventional transmission lines and towers consist of 2 or 4 circuits, and it is impossible to power off both transmission lines at the same time. This is because, as shown in Figure 3, the structure of the existing transmission line tower is formed with branches extending to both sides, so that when the line of the tower arm on one side is alive, high-voltage current flows through the tower arm on the other side due to flashover phenomenon. This is because it can cause a fatal safety accident.

Therefore, conventionally, it is essential to install a separate temporary line in a place outside the existing transmission line area, that is, the area that connects the transmission line tower and the underground work area in a straight line. In order to secure a temporary line like this, the existing transmission line area is essential. There is no choice but to leave, and if you leave the existing transmission line area like this, you will not only have to obtain permission from the landowner, but also a separate construction permit. Above all, construction costs will increase significantly, and KEPCO does not prefer this, so the transmission line From the perspective of companies carrying out underground work, various attempts have been made to solve this problem, but at least so far, no one has been able to solve this problem.

[Prior art literature]

1. Republic of Korea Patent Registration No. 10-1833053

In order to solve the serious problem of undergrounding of transmission lines as described above in a very simple and innovative way, the present inventor installed a concrete foundation between the existing transmission line tower and the undergrounding work area, that is, in a place that does not go beyond the existing transmission line area. However, a pair of struts are installed on the concrete foundation to be spaced apart at a predetermined interval, and a plurality of transmission line supports are formed on the props, but the props adjacent to each other are installed in opposite directions, so that the transmission line connected to one prop is live. Even if the transmission line connection work is performed on the other side, each transmission line support is spaced sufficiently apart to prevent flashover phenomenon, thereby preventing safety accidents, and undergrounding the transmission line without having to shut down both transmission lines at the same time. The purpose is to make this possible.

According to an embodiment of the present invention to achieve the above-described object, a line separation device for underground transmission work installs a concrete foundation in a place that does not go beyond the existing transmission line area and includes a pair of supports spaced apart from the concrete foundation. erected, and on both sides of each of the props, a plurality of transmission line supports protrudes in the opposite direction of the adjacent struts, and the lowest transmission line support of the transmission line supports is installed at a height of 20 m or more from the ground, and each of the above props The props are installed so that the spacing between them is at least 6 m or more, and the transmission line connected to the end of the transmission line support is configured to be connected to a plurality of connectors for undergrounding work formed on each side of the prop.

The effects of the present invention as described above include installing a concrete foundation without leaving the existing transmission line area, having a pair of supports installed on the foundation to be spaced apart, and a plurality of transmission line supports protruding from the support in opposite directions. By forming it, it does not deviate from the existing transmission line area at all, so there is no need to obtain permission from the land owner again or a separate construction permit. This makes it possible to proceed with undergrounding the transmission line while significantly reducing construction costs.

In particular, a plurality of transmission line supports are formed on a pair of struts to support the transmission line, but they are installed in opposite directions, so that even when the transmission line connected to one prop is live and the transmission line is connected to the other prop, each transmission line support must be spaced sufficiently apart. Because they are separated from each other, it is possible to block flashover phenomena, thereby preventing safety accidents, and at the same time, it is possible to underground the transmission line without shutting down both transmission lines at the same time, making it possible for no one in the industry to install a temporary line. It is a very useful invention that solved the problem of line separation for underground transmission work, which could not be solved by any other method, in a simple yet innovative way.

Figure 1 is a perspective view of a line separation device for underground transmission work according to an embodiment of the present invention.
Figure 2 is a front view of the present invention.
Figure 3 is a reference diagram showing the state of use of the present invention.

Hereinafter, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily practice the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. The terminology used herein is only intended to refer to specific embodiments and is not intended to limit the invention. Also, as used herein, singular forms also include plural forms, unless phrases clearly indicate the contrary. As used in the specification, the meaning of "comprising" is to specify a specific characteristic, area, integer, step, operation, element and/or component, and to specify another specific property, area, integer, step, operation, element, component and/or group. It does not exclude the existence or addition of . Although not defined differently, all terms including technical and scientific terms used herein have the same meaning as those generally understood by those skilled in the art in the technical field to which the present invention pertains. Terms defined in commonly used dictionaries are further interpreted as having meanings consistent with the related technical literature and currently disclosed content, and are not interpreted as ideal or official meanings unless defined.

Embodiments of the present invention described with reference to the perspective view specifically represent ideal embodiments of the present invention. As a result, various variations in the illustrations, for example variations in manufacturing methods and/or specifications, are expected. Accordingly, the embodiments are not limited to the specific shape of the illustrated area and also include variations in shape due to manufacturing, for example. For example, areas shown or described as flat may generally have rough/rough and non-linear characteristics. Additionally, portions shown as having sharp angles may be rounded. Accordingly, the areas shown in the drawings are only approximate in nature, and their shapes are not intended to illustrate the exact shape of the areas, nor are they intended to narrow the scope of the present invention.

Hereinafter, preferred embodiments of a line separation device for underground transmission work according to the present invention will be described in detail with reference to the attached drawings.

Figure 1 is a perspective view of a line separation device for underground transmission work according to an embodiment of the present invention, Figure 2 is a front view of the present invention, and Figure 3 is a reference diagram of the use state of the present invention.

First of all, it should be noted that in the drawings, identical components or parts are indicated by the same reference numerals whenever possible. Additionally, in describing the present invention, detailed descriptions of related well-known functions or configurations will be omitted in order to make the gist of the present invention unambiguous.

In the present invention, the line separation device 100 for underground transmission work installs a concrete foundation 110 in a place not exceeding the existing transmission line area C, and erects a pair of supports 120 spaced apart from the concrete foundation 110. , On both sides of each prop 120, a plurality of transmission line supports 121 are formed to protrude in the opposite direction of the adjacent struts 120, and the transmission line support 121 is located at the lowest of the transmission line supports 121. ) is installed at a height of 20 m or more from the ground, the spacing of each prop 120 is at least 6 m or more, and the transmission line 123 connected to the end of the transmission line support 121 is connected to the prop 120. It is configured to be connected to a plurality of connectors 125 for undergrounding work formed on each side. At this time, the transmission line support 121 and the transmission line 123 are connected by an insulator 122.

In general, existing transmission line pylons (A) usually support 3-phase 2 circuits, or 6 wires, with insulators. The distance between pylons is 200 to 300 m, and the lowest distance from the ground of the transmission line installed on the pylon is 200 to 300 m. The height is 20m for a 150,000V line.

As such, the conventional flash line has a structure in which a very high voltage current flows, so the line separation device 100 of the present invention must also necessarily meet the conditions necessary for safety.

Therefore, in the circuit separator 100 of the present invention, a pair of supports 120 are installed on the concrete foundation 110 to prevent flashover, etc., and are spaced at least 6 m apart. At this time, the support 120 may be installed on one concrete foundation 110, but may also be installed independently on each concrete foundation 110.

In this way, in the present invention, a pair of struts 120 are spaced apart by at least 6 m, so one transmission line 123 of the pair of struts 120 is kept in a live state, and the other transmission line 123 is in a truce state. Even when working, workers can work safely. Therefore, the present invention does not require a separate temporary line and does not require a simultaneous ceasefire on two lines. At this time, the support 120 is preferably constructed by connecting cylindrical steel pipes through a flange connection.

In addition, the lowest transmission line support 121 among the transmission line supports 121 is installed at a height of 20 m or more from the ground, and the height of each transmission line support 121 is installed at intervals of 3.8 m.

Therefore, in the present invention, a pair of struts 120 is 6 m or more, and since a plurality of transmission line supports 121 installed on each strut 120 are formed by protruding in opposite directions, each transmission line support 121 and the strut Energization, short-circuiting, and flashover phenomena can be minimized among (120) units, enabling safe underground transmission work.

As described above, although the present invention has been described in terms of limited embodiments, the present invention is not limited thereto, and the technical idea of the present invention will be described below by a person skilled in the art to which the present invention pertains. Various modifications and variations are possible within the scope of equivalency of the patent claims.

110: Concrete foundation
120: holding
121: Transmission line support
121a, 121b: Transmission line support for position adjustment
124: Underground transmission line connection part
125: Connector for underground work
A: Existing transmission line tower
B: Underground work part

Claims (1)

A pair of struts (120) are installed spaced apart from each other on a concrete foundation installed in a location that does not exceed the existing transmission line area, and a plurality of transmission line supports (121) protruding in the opposite direction of adjacent struts are provided on both sides of each prop. In the line separation device that does,
The spacing between each of the supports 120 is installed to be at least 6 m apart,
Among the transmission line supports 121 installed on each of the pillars 120, the lowest transmission line support is installed at a height of 20 m or more from the ground,
Transmission line supports (121a, 121b) for position adjustment perpendicular to the direction of the transmission line support (121) are installed on the props or a predetermined number of transmission line supports (121),
The transmission line connected to the end of the transmission line support 121 and the position adjustment transmission line support 121a, 121b is connected to a plurality of connectors 125 for undergrounding work formed on each side of the support,
A line separation device for underground transmission work, characterized in that each of the connectors 125 for underground work is installed in a row on the underground transmission line connector 124 separately formed on one side of the support and spaced apart at a predetermined interval.

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