KR102560576B1 - Lead cable integrated equipment for air branch and method for constructing the same - Google Patents

Abstract

The present invention is an air branch connection lead wire integrated equipment, and more specifically, an upper T-shaped compression sleeve to which a first wire is connected, a lower T-shaped compression sleeve to which a second wire is connected, and the upper T-shaped compression sleeve and the lower T-shaped compression sleeve. It is possible to provide an air branch connection lead wire integrated equipment suitable for branching wires in the air, including an air branch lead wire to which both ends are respectively connected to the compression sleeve.

Description

Aerial branch connection lead wire integrated equipment and aerial branch installation method using the same {LEAD CABLE INTEGRATED EQUIPMENT FOR AIR BRANCH AND METHOD FOR CONSTRUCTING THE SAME}

It relates to an aerial branch for distribution lines, and more particularly, to an integrated equipment for an aerial branch connection lead wire for indirect live lines and an aerial branch installation method using the same.

In general, when power is distributed, the special high voltage of 22.9kV is used as the distribution voltage and supplied to the pole transformer at the place of electricity supply, and then converted to low voltage of 220V and 380V at the pole pole transformer for distribution, and then supplied to consumers of electricity such as households or industries. will do

When a line is separated from the main line of such a distribution line or power is supplied from the main line to a pole-type transformer, the main line and the branch line are generally connected using an air branch connection lead wire equipment such as a branch sleeve made of aluminum.

However, in the conventional distribution line, manual manufacturing is required for connection of aerial branch connection lead wire equipment, and the direct live wire method is applied to the 22.9kV power line aerial branch compression point, so there is a problem in that safety accidents occur. In addition, there is an environmental problem that is difficult to work because the area around the Gongjun branch installation location is located in a difficult place such as an intersection or a narrow alley.

Korean Registered Patent Publication No. 10-1154493

In view of the above problems, an object of the present invention is to provide an aerial branch connection lead wire integrated equipment and an aerial branch installation method using the same for installing the aerial branch equipment more simply and safely by the indirect live wire method rather than the direct live wire method.

In order to achieve the above object, the present invention is an air branch connection lead wire integrated equipment, an upper T-shaped compression sleeve to which a first wire is connected, a lower T-shaped compression sleeve to which a second wire is connected, and the upper T-shaped compression sleeve and the above It includes an aerial branch lead wire having both ends respectively connected to the lower T-shaped compression sleeve.

In the aerial branch connection lead wire integrated equipment of the present invention, the upper T-shaped compression sleeve has a first receiving groove portion formed to accommodate a first wire located on the upper side, and the first wire coupling part of the first wire is seated in the second receiving groove portion. a first compression unit for compressing and fixing, an upper lead wire connection unit extending downward from the first compression unit and accommodating and connecting one end of the aerial branch lead wire, and an upper lead wire connection unit made of an insulating material and connecting the upper lead wire connection unit and the aerial branch lead wire. An upper lead wire connection part cover covering the area may be included.

In the aerial branch connection lead wire integrated equipment of the present invention, the lower T-shaped compression sleeve has a second receiving groove portion formed to accommodate a second wire located on the upper side, and a second wire coupling portion of the second wire is formed in the second receiving groove portion. A second compression part seated on and compressed and fixed, a lower lead wire connection part extending upward from the second compression part and receiving and connecting one end of the air branch lead wire, and an insulating material made of a lower lead wire connection part and the air branch lead wire A lower lead wire connection portion cover covering the connected portion may be included.

In order to achieve another object, the aerial branch installation method using the aerial branch connection lead wire integrated equipment described above is, (a) the upper T-shaped compression sleeve and the lower T-shaped compression sleeve in the aerial branch connection lead wire integrated equipment to the aerial branch lead wire Connecting and (b) compressing and fixing the upper T-shaped compression sleeve to the first wire and compressing and fixing the lower T-shaped compression sleeve to the second wire in the aerial branch connection lead wire integrated equipment that has undergone the aerial branch lead wire connection step Include steps.

In the aerial branch installation method using the air branch connection lead wire integrated equipment of the present invention, the step (a) is to connect one end of the air branch lead wire to the upper lead wire connection part of the upper T-shaped compression sleeve in the air branch connection lead wire integrated equipment. It may include a first connecting step, and a second connecting step of connecting the other end of the aerial branch lead wire to the lower lead wire connection part of the lower T-shaped compression sleeve in the aerial branch connection lead wire integrated equipment.

In the aerial branch installation method using the aerial branch connection lead wire integrated equipment of the present invention, the step (b) compresses and fixes the upper T-shaped compression sleeve to the first wire in the air branch connection lead wire integrated equipment. and a second wire compression fixing step of compressing and fixing the lower T-shaped compression sleeve to a second wire in the aerial branch connection lead wire integrated equipment.

The first wire compression and fixing step, after the first wire coupling part of the first wire is seated in the second receiving groove part of the first receiving groove part of the upper T-shaped compression sleeve in the aerial branch connection lead wire integrated equipment, the upper part The first wire may be fixed by compressing the T-shaped compression sleeve.

In the second wire compression fixing step, after the second wire coupling part of the second wire is seated in the second receiving groove portion of the lower T-shaped compression sleeve in the aerial branch connection lead wire integrated equipment to be seated in the second receiving groove portion, the The second wire may be fixed by compressing the lower T-shaped compression sleeve.

The aerial branch connection lead wire-integrated equipment of the present invention can be easily installed by simply compressing construction in a field where work is difficult, such as an intersection or a narrow alley, around the installation point of a blank branch, so work efficiency can be improved.

In addition, air branch connection lead wire integrated equipment has a risk of safety accidents due to close work in a live wire state, but the indirect activation method that can perform compression construction using an indirect live wire tool can be applied, so problems such as safety accidents can be solved.

1 is a schematic diagram of an air branch connection lead wire integrated equipment according to an embodiment of the present invention.
Figure 2 shows the appearance of the upper T-shaped compression sleeve in the air branch connection lead wire integrated equipment according to an embodiment of the present invention.
Figure 3 shows the appearance of the lower T-shaped compression sleeve in the air branch connection lead wire integrated equipment according to an embodiment of the present invention.
4 and 5 show a state in which the aerial branch lead wire is connected in the upper T-shaped compression sleeve of the aerial branch connection lead wire integrated equipment according to an embodiment of the present invention.
6 and 7 are flowcharts of an aerial branch installation method using an air branch connection lead wire integrated equipment according to an embodiment of the present invention.

Hereinafter, the aerial branch connection lead wire integrated equipment of the present invention will be described in detail with reference to the accompanying drawings, which are examples and can be implemented in various different forms by those skilled in the art to which the present invention belongs. It is not limited to what is described in

1 is a schematic diagram of an aerial branch connection lead wire integrated equipment according to an embodiment of the present invention.

As shown in FIG. 1, the aerial branch connection lead wire integrated equipment 100 includes an upper T-shaped compression sleeve 10, a lower T-shaped compression sleeve 20, the upper T-shaped compression sleeve 10 and the lower T-shaped compression sleeve 10. It consists of a branch lead wire (30) formed between the female-shaped compression sleeve (20).

Figure 2 shows the appearance of the upper T-shaped compression sleeve in the air branch connection lead wire integrated equipment according to an embodiment of the present invention.

As shown in FIG. 2, the upper T-shaped compression sleeve 10 is connected to the first electric wire 200 located on the upper side, and the first compression part 11 to which the first electric wire 200 is connected and the first compression part It extends downward from (11) and includes an upper lead wire connection portion 13 for receiving and connecting one end of the aerial branch lead wire 30.

The upper lead wire connection part cover covers the upper lead wire connection part 13 and the aerial branch lead wire 30 to cover the upper lead wire connection part 13 and the aerial branch lead wire 30 made of an insulating material so as to protect the connection part from the external environment. (14) is formed.

The insulating material constituting the upper lead wire connection part cover 14 is not particularly limited as long as it is generally a material providing insulation, and may be formed of, for example, a metal oxide such as silicon oxide, a polymer, or an acrylic resin.

In the upper T-shaped compression sleeve 10, the first compression part 11 is formed with a first receiving groove 12 so that the first wire 200 is accommodated therein.

After disposing the first wire 200 so that the first wire coupling part 210, which is the area covered by the first wire 200, is seated in the first receiving groove 12, the first compression part 11 is The first wire 200 is fixed to the upper T-shaped compression sleeve 10 by compression.

Figure 3 shows the appearance of the lower T-shaped compression sleeve in the air branch connection lead wire integrated equipment according to an embodiment of the present invention.

As shown in FIG. 3, the lower T-shaped compression sleeve 20 is connected to the second electric wire 300 located on the lower side, and from the second compression part 21 to which the second electric wire is connected and the second compression part 21 It extends upward and includes a lower lead wire connection portion 23 for receiving and connecting the other end of the aerial branch lead wire 30 .

The lower lead wire connection part cover covers the lower lead wire connection part 23 and the aerial branch lead wire 30 to cover the lower lead wire connection part 23 and the aerial branch lead wire 30 made of an insulating material so as to protect the connection part from the external environment. (24) is formed.

The material of the lower lead wire connection part cover 24 may be the same as the insulating material constituting the upper lead wire connection part cover 14 described above, and is not particularly limited.

In the lower T-shaped compression sleeve 20, the second compression part 21 is formed with a second receiving groove 22 so that the second wire 300 is accommodated therein.

After disposing the second wire 300 so that the second wire coupling part 310, which is the area covered by the second wire 300, is seated in the second receiving groove 12, the second compression part 21 is compressed. By doing so, the second wire 300 is fixed to the upper T-shaped compression sleeve 20.

4 and 5 exemplarily show the state in which the aerial branch lead wires are connected in the upper T-shaped compression sleeve of the aerial branch connection lead integrated equipment of the present invention.

As shown in FIG. 4, one end of the upper lead wire connection part 13 in the upper T-shaped compression sleeve 10 is formed with an accommodation groove (not shown) so that the air branch lead wire 30 can be accommodated therein, The branch lead wire 30 may be connected to the upper T-shaped compression sleeve 10 through the upper lead wire connection part 13 .

In the upper T-shaped compression sleeve 10 of the air branch connection lead wire integrated equipment, the first compression part 11 has a first receiving groove 12 formed with one surface concave so that the electric wire can be accommodated.

The part connected to the first compression part 11 in the first wire coupling part 210 has a bellows shape, and the distance between the wires connected to the upper and lower parts of the aerial branch connection lead wire integrated equipment It has excellent mitigation and applicability against contraction or expansion due to the external environment, making it easy to install.

5 shows a state in which a first wire is connected in the upper T-shaped compression sleeve of the air branch connection lead integrated equipment of FIG.

As shown in FIG. 5, in the upper T-shaped compression sleeve 10, the first wire coupling part 210, which is the covered area of the first electric wire 200, is seated in the first receiving groove 12, and the first compression part ( 11) to fix the first wire 200 to the upper T-shaped compression sleeve 10.

4 and 5 show that only the aerial branch lead wire and the first wire are connected in the upper T-shaped compression sleeve 10, but the aerial branch lead wire and the second wire are connected in the same way in the lower T-shaped compression sleeve 20. Those skilled in the art will readily recognize that it can be.

6 and 7 relate to an empty branch installation method for an aerial branch of a distribution line, and are a flow chart of an aerial branch installation method using an aerial branch connection lead wire-integrated equipment according to an embodiment of the present invention.

As shown in Figure 6, the aerial branch installation method using the aerial branch connection lead wire integrated equipment is (a) connecting the upper T-shaped compression sleeve and the lower T-shaped compression sleeve to the aerial branch lead wire in the aerial branch connection lead wire integrated equipment (S100 ), and (b) compressively fixing the upper T-shaped compression sleeve to the first wire and compressively fixing the lower T-shaped compression sleeve to the second wire in the aerial branch connection lead wire integrated equipment that has gone through the aerial branch lead wire connection step (S200 ).

Figure 7 shows an aerial branch installation method using an aerial branch connection lead wire integrated equipment according to an embodiment.

As shown in FIG. 7, the step (a) (S100) is a first connection step (S110) of connecting one end of the aerial branch lead wire to the upper lead wire connection part 13 of the upper T-shaped compression sleeve 10 in the aerial branch connection lead wire integrated equipment. , And a second connection step (S120) of connecting the other end of the aerial branch lead wire to the lower lead wire connection part 23 of the lower T-shaped compression sleeve 20 in the aerial branch connection lead wire integrated equipment.

The (b) step (S200) is a first wire compression fixing step (S210) of compressing and fixing the upper T-shaped compression sleeve 10 to the first wire 200 in the aerial branch connection lead wire integrated equipment, and the aerial A second wire compression fixing step (S220) of compressing and fixing the lower T-shaped compression sleeve 20 to the second wire 300 in the branch connection lead wire integrated equipment.

In the (b) step (S200), the first electric wire compression and fixing step (S210) is the first electric wire in the first receiving groove 12 of the upper T-shaped compression sleeve 10 in the air branch connection lead wire integrated equipment. The first wire coupling part 210, which is the area covered in (200), is positioned so as to be seated in the second receiving groove part 12. Then, the first wire 200 is fixed by compressing the upper T-shaped compression sleeve 10 .

In the second wire compression fixing step (S220), the second wire coupling portion of the second wire 300 to the second receiving groove 22 of the lower T-shaped compression sleeve 20 in the air branch connection lead wire integrated equipment ( 310) is seated in the second receiving groove 22, and then the lower T-shaped compression sleeve 20 is compressed to fix the second wire 300.

The method of compressing and fixing the first wire 200 and the second wire 300 in the upper T-shaped compression sleeve 10 and the lower T-shaped compression sleeve 20, respectively, in the step (b) (S200) is an indirect live wire tool. Compression construction is possible using

Here, the indirect live wire tool can be used without particular limitation as long as it is a tool capable of compressing and fixing wires in the upper T-shaped compression sleeve 10 and the lower T-shaped compression sleeve 20.

In the step (b) (S200), the order of fixing the first wire 200 and the second wire 300 in the upper T-shaped compression sleeve 10 and the lower T-shaped compression sleeve 20, respectively, depends on the needs of the operator. Since it can be changed according to the lower T-shaped compression sleeve 20, the second wire is compressed and fixed, and then the first wire can be compressed and fixed in the upper T-shaped compression sleeve 10.

10: upper T-shaped compression sleeve
11: first compression unit
12: first receiving groove
13: upper lead wire connection
14: upper lease wire connection part cover
20: lower T-shaped compression sleeve
21: second compression unit
22: second receiving groove
23: lower lead wire connection
24: lower lead wire connection part cover
30: aerial branch lead wire
100: air branch connection lead wire integrated equipment
200: first wire
210: first wire coupling part
300: second wire
310: second wire coupling part

Claims (1)

As an aerial branch installation method using an air branch connection lead integrated equipment 100,
(a) connecting the upper T-shaped compression sleeve 10 and the lower T-shaped compression sleeve 20 to the aerial branch lead wire 30 in the air branch connection lead wire integrated equipment; and
(b) In the aerial branch connection lead wire integrated equipment that has gone through the aerial branch lead wire connection step, the upper T-shaped compression sleeve 10 is compressed and fixed to the first electric wire 200 by compression construction using an indirect live wire tool, and the lower T-shaped Compressing and fixing the compression sleeve 20 to the second electric wire 300; including,
The step (b) is
A first wire compression fixing step of compressing and fixing the upper T-shaped compression sleeve 10 to the first wire 200 in the aerial branch connection lead wire integrated equipment; and
A second wire compression fixing step of compressing and fixing the lower T-shaped compression sleeve 20 to the second wire 300 in the aerial branch connection lead wire integrated equipment; including,
The first wire compression fixing step,
In the aerial branch connection lead wire integrated equipment, the first wire coupling part 210 of the first electric wire 200 is in the first receiving groove part 12 of the upper T-shaped compression sleeve 10 in the second receiving groove part 12 After being seated, the upper T-shaped compression sleeve 10 is compressed to fix the first wire 200,
The second electric wire compression fixing step,
In the aerial branch connection lead wire integrated equipment, the second wire coupling part 310 of the second wire 300 is seated in the second receiving groove part 22 of the lower T-shaped compression sleeve 20. After being seated, the lower T-shaped compression sleeve 20 is compressed to fix the second wire 300,
The step (a) includes a second connection step of connecting the other end of the aerial branch lead wire to the lower lead wire connection part 23 of the lower T-shaped compression sleeve 20 in the aerial branch connection lead wire integrated equipment. Aerial branch installation method using integrated equipment for aerial branch connection lead wire.