KR102643036B1 - Precast pad mount structure for underground distribution line of Integral ground - Google Patents

Abstract

The foundation installation structure of the ground-integrated underground distribution line of the present invention is an upper ground integrated through a mesh network 60 and a plurality of hooks 62, which prevent cracks and improve electrodeposition performance on the lower surface of the lower foundation 30. A conductive mortar ground plate 40, which is a combination of the plate 42 and the lower ground plate 44, is coupled, and a mesh network 60 is formed between the combination of the upper ground plate 42 and the lower ground plate 44. The first grounding rod 50, which is inserted to be supported, is installed, and a number of uneven portions 46 are formed on the lower surface of the lower ground plate 44 to increase the adhesive area with the soil and increase grounding efficiency, so grounding is possible. Since additional construction such as excavation for installation of enclosures and concrete plates is unnecessary, it not only reduces the amount of excavation, but also improves constructability by minimizing noise complaints, reducing construction costs, and shortening the construction period. It also prevents interference from adjacent underground structures and improves underground construction. It has the advantage of minimizing damage during construction and preventing safety accidents by maintaining grounding performance for a long period of time.

Description

{Precast pad mount structure for underground distribution line of Integral ground}

The present invention relates to a foundation installation structure for a ground-integrated underground distribution line. More specifically, the foundation of a ground-integrated underground distribution line in which a conductive mortar ground plate installed on the foundation can function as a grounding body without separate grounding equipment. It is about the installation structure.

High-voltage electricity transmitted from power plants or substations is converted to a certain level of voltage and then distributed to consumption areas. For this purpose, transformers, switchboards, etc. are installed as ground equipment for distribution on roadsides, parks, etc.

And as a means to support these ground equipment for distribution evenly and safely, a facility called a foundation is installed.

In general, the foundation is made of concrete and has a box shape with an open top, and a plurality of holes are formed on the sides for the entry or exit of underground distribution lines.

Accordingly, moisture, foreign substances, soil, etc. can easily flow into the interior of the foundation through the holes on the side of the foundation, and in some cases, small animals such as rats may enter the foundation, which is caused by underground distribution lines within the foundation. It can be a factor that undermines the stable installation and maintenance of.

Such a conventional foundation includes Republic of Korea Patent No. 10-1594067 (foundation installation structure for underground distribution lines), which allows smooth entry and exit of underground distribution lines while also blocking the inflow of foreign substances from the outside. The technology has been disclosed.

However, in the case of the above-described prior art, there was no means to fix the distribution line leading inside, so there was a very high risk that the distribution line would easily come off and become disconnected when tension was applied to the line.

In addition, there was no means to actually protect the connection part of the distribution line when water infiltrated from the outside, making it very vulnerable to accidents such as electrical short circuits.

Republic of Korea Patent Publication No. 10-1594067 (2016.02.04.)

The purpose of the present invention is to solve existing problems by improving the structure of the conductive mortar ground plate on the bottom of the foundation.

The purpose is to provide a foundation installation structure for a ground-integrated underground distribution line.

The foundation installation structure of a ground-integrated underground distribution line according to an embodiment of the present invention for solving the above technical problem includes an upper foundation in which a first ground wire is inserted; a lower base installed on the lower surface of the upper base and having a second ground wire inserted therein to be connected to the first ground wire; A conductive mortar ground plate coupled to the lower surface of the lower foundation; a first grounding rod inserted into the conductive mortar ground plate; A mesh network inserted into the conductive mortar ground plate; And a second ground rod that protrudes above the conductive mortar ground plate and connects the first ground rod and the second ground wire,
The conductive mortar ground plate includes an upper ground plate coupled to the lower surface of the lower foundation; and a lower ground plate formed on the lower surface of the upper ground plate,
After arranging the mesh network, the first grounding rod, and the second grounding rod on the upper surface of the lower ground plate so that the mesh mesh and the first grounding rod are inserted between the upper base and the lower ground plate, The upper base and the lower ground plate are integrated,
A plurality of irregularities are formed on the lower surface of the lower ground plate in the form of a trapezoid in which valleys that narrow from the bottom to the top and peaks that widen from the bottom to the top alternate with each other,
A compression terminal to which the lower part of the second ground wire is connected is installed on the upper part of the second grounding rod,
The mesh network is characterized in that a plurality of hooks are coupled vertically upward to the intersection of the mesh network to increase the adhesive force between the upper ground plate and the lower ground plate.

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As another embodiment, the first copper grounding rod and the second copper grounding rod of the present invention are characterized in that they are one of copper wire, bare copper wire, and stainless steel.

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As another embodiment, the mesh network of the present invention is characterized by intersecting wires.

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As another embodiment, the mesh network of the present invention is characterized in that it is coupled at intervals of 200 mm through intersection portions.

The foundation installation structure of the ground-integrated underground distribution line of the present invention is a conductive structure that is a combination of the upper ground plate and the lower ground plate integrated through a mesh network that prevents cracks and improves electrodeposition performance on the lower surface of the lower foundation and a plurality of hooks. A mortar ground plate is combined, and a first ground rod inserted to be supported by a mesh network is installed between the upper ground plate and the lower ground plate assembly, and increases grounding efficiency by increasing the adhesive area with the soil on the lower surface of the lower ground plate. Because it is a structure in which multiple uneven parts are formed, additional construction such as excavation for installation of ground rods and concrete plates is unnecessary, so it is possible to increase constructability by reducing the amount of excavation, minimizing noise complaints, reducing construction costs, and shortening the construction period. In addition, it can prevent interference from adjacent underground structures and minimize damage during underground construction, and has the advantage of preventing safety accidents by maintaining grounding performance for a long period of time.

Figure 1 is a combined perspective view showing the foundation installation structure of a ground-integrated underground distribution line according to the present invention;
Figure 2 is a front view showing the foundation installation structure of a ground-integrated underground distribution line according to the present invention;
Figure 3 is an exploded perspective view showing a conductive mortar ground plate in which the upper and lower ground plates are separated according to the present invention;
Figure 4 is a combined perspective view showing a conductive mortar ground plate in which a mesh net, a first ground rod, and a second ground rod are inserted between the upper ground plate and the lower ground plate according to the present invention;
Figure 5 is a perspective view showing a state in which the conductive mortar ground plate according to the present invention is coupled to the lower surface of the lower foundation;
Figure 6 is a bottom perspective view showing a state in which uneven portions are formed on the lower surface of the conductive mortar ground plate according to the present invention.

Hereinafter, in order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings FIGS. 1 to 6. Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. Therefore, the shapes of elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that the same configuration may be indicated by the same reference numeral in each drawing. Detailed descriptions of well-known functions and configurations that are judged to unnecessarily obscure the gist of the present invention are omitted.

Referring to Figures 1 to 6, the base installation structure of a ground-integrated underground distribution line according to an embodiment of the present invention includes an upper base 20 into which a first ground wire 10 is inserted; A lower base 30 installed on the lower surface of the upper base 20 and having a second ground wire 12 inserted therein to be connected to the first ground wire 10; A conductive mortar ground plate (40) coupled to the lower surface of the lower base (30) to improve durability; A first grounding rod (50) inserted into the conductive mortar ground plate (40); A mesh network (60) inserted into the conductive mortar ground plate (40) to prevent cracking of the conductive mortar ground plate (40); and a second grounding rod 52 that is inserted to protrude above the conductive mortar ground plate 40 and connects the first grounding rod 50 and the second grounding wire 12.

That is, the conductive mortar ground plate 40 includes an upper ground plate 42 coupled to the lower surface of the lower base 30; and a lower ground plate 44 formed on the lower surface of the upper ground plate 42.

At this time, the mesh is installed on the upper surface of the lower ground plate 44 so that the mesh net 60 and the first grounding rod 50 are inserted between the upper base 20 and the lower ground plate 44. After arranging the net 60, the first grounding rod 50, and the second grounding rod 52, it is preferable that the upper base 20 and the lower ground plate 44 are integrated.

On the lower surface of the lower ground plate 44, a plurality of irregularities 46 are formed that are repeated at regular intervals to increase the adhesive area of the lower ground plate 44 with the soil and increase grounding efficiency. The portion 46 is preferably formed on the lower surface of the lower ground plate 44 in the left and right directions to form a trapezoid in which valleys narrowing from the bottom to the top and peaks widening from the bottom to the top alternate with each other.

The first copper ground rod 50 and the second copper ground rod 52 are preferably made of one of copper wire, bare copper wire, and stainless steel.

It is preferable that a compression terminal 54 to which the lower part of the second ground wire 12 is connected is installed on the second grounding rod 52.

The mesh network 60 is preferably composed of intersecting wires.

A plurality of hooks 62 are coupled to the mesh network 60 to increase the sense of unity between the upper ground plate 42 and the lower ground plate 44 and improve adhesive performance. It is preferable to be coupled vertically upward to the intersection of the mesh network 60 and at intervals of 200 mm through the intersection of the mesh network 60.

As such, the foundation installation structure of the ground-integrated underground distribution line of the present invention is integrated through a mesh network 60 and a plurality of hooks 62, which prevent cracks and improve electrodeposition performance on the lower surface of the lower foundation 30. A conductive mortar ground plate 40, which is a combination of the upper ground plate 42 and the lower ground plate 44, is coupled, and a mesh network is formed between the combination of the upper ground plate 42 and the lower ground plate 44. A first grounding rod 50 inserted to be supported on 60 is installed, and a plurality of uneven portions 46 are formed on the lower surface of the lower ground plate 44 to increase the adhesive area with the soil and increase grounding efficiency. Therefore, additional construction such as excavation for installation of ground rods and concrete plates is unnecessary, which not only reduces the amount of excavation, but also improves constructability by minimizing noise complaints, reducing construction costs, and shortening the construction period, as well as reducing interference from adjacent underground structures. Damage can be minimized during construction and underground construction, and it has the advantage of preventing safety accidents by maintaining grounding performance for a long period of time.

Meanwhile, the present invention is not limited to the above-described embodiments, but can be implemented with modifications and modifications without departing from the gist of the present invention, and the technical idea to which such modifications and modifications are applied also falls within the scope of the following patent claims. Must see.

10: first ground wire 12: second ground wire
20: upper base 30: lower base
40: Conductive mortar ground plate 42: Upper ground plate
44: lower ground plate 46: uneven portion
50: 1st grounding rod 52: 2nd grounding rod
54: compression terminal 60: mesh network
62: hook

Claims (11)

an upper base in which a first ground wire is inserted;
a lower base installed on the lower surface of the upper base and having a second ground wire inserted therein to be connected to the first ground wire;
A conductive mortar ground plate coupled to the lower surface of the lower foundation;
a first grounding rod inserted into the conductive mortar ground plate;
A mesh network inserted into the conductive mortar ground plate; and
It includes a second grounding rod that protrudes above the conductive mortar ground plate and connects the first grounding rod and the second grounding wire,
The conductive mortar ground plate is,
an upper ground plate coupled to the lower surface of the lower base; and
It consists of a lower ground plate formed on the lower surface of the upper ground plate,
After arranging the mesh network, the first grounding rod, and the second grounding rod on the upper surface of the lower ground plate so that the mesh mesh and the first grounding rod are inserted between the upper base and the lower ground plate, The upper base and the lower ground plate are integrated,
A plurality of irregularities are formed on the lower surface of the lower ground plate in the form of a trapezoid in which valleys that narrow from the bottom to the top and peaks that widen from the bottom to the top alternate with each other,
A compression terminal to which the lower part of the second ground wire is connected is installed on the upper part of the second grounding rod,
Foundation installation of a ground-integrated underground distribution line, characterized in that the mesh network is coupled with a plurality of hooks vertically upward at the intersection of the mesh network to increase the adhesive force of the upper ground plate and the lower ground plate. structure. delete delete delete delete In claim 1,
A foundation installation structure for a ground-integrated underground distribution line, wherein the first grounding copper rod and the second grounding copper rod are made of one of copper wire, bare copper wire, and stainless steel. delete In claim 1,
The mesh network is a foundation installation structure for a ground-integrated underground distribution line, characterized in that the mesh network is a cross wire. delete delete In claim 1,
A foundation installation structure for a ground-integrated underground distribution line, characterized in that it is joined at intervals of 200 mm through the intersection of the mesh network.

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