KR102359152B1 - Insulation Protector Structure for Bypass Cable Clamp of Indirect live Wire Work - Google Patents

Abstract

The bypass cable clamp protection structure for indirect live wire work of the present invention includes a clamp insertion part having a lower opening for insertion of the cable clamp, and a cable temporary hanger that is integrally formed on the upper part of the clamp insertion part and installed on the cable clamp. Since it is characterized in that it includes a temporary hook insertion part to be inserted, and left and right cable insertion parts which are respectively protruded opposite to the left and right sides of the clamp insertion part and into which the extra high voltage power line is inserted, the extra high voltage with the cover removed during indirect live wire work. It can prevent safety accidents such as electric shock and line failure by blocking the external contact between the power line connection part and the cable clamp.

Description

Insulation Protector Structure for Bypass Cable Clamp of Indirect live Wire Work

The present invention relates to a bypass cable clamp protective structure for indirect live wire work, and more particularly, to a bypass cable clamp protective structure for indirect live wire work that can protect a connection part between a cable clamp and an extra-high voltage power line from which the coating has been removed. will be.

In modern society, the demand for electric power is rapidly increasing, and the demand level for electric power quality is gradually increasing accordingly.

Accordingly, the uninterruptible power distribution method, which allows construction to be carried out without shutting off power even during work, is mainly adopted and work is carried out to reduce power outages and supply high-quality power during construction for new distribution lines and maintenance. .

Such a conventional uninterruptible power distribution method for an extra high voltage distribution line uses an uninterruptible temporary transmission method using a live line bypass jumper cable, a construction switch, an uninterruptible transformer train, and a bypass cable. As Korea Electric Power Corporation, the client, decided to abolish the direct live wire method from 2017 and introduce the uninterruptible power distribution method using the indirect live wire method, the development of tools and methods is in a hurry to apply it with only 10% of the overall process. Due to the confusion caused by the combination of the construction method and the direct live wiring method, the danger of safety accidents in live wiring majors, as well as the work efficiency decreased due to the limitations of labor intensity and physical strength, making it impossible to use the field. to be.

At this time, unlike the previous direct live wire method in which a live wire technician wears protective equipment and works while directly touching the special high pressure in the live wire condition, the indirect live wire method uses a live wire with a length of about 1.5m to 2m in order to secure a safe distance. This is a live wire method that uses an insulation stick to perform work without direct contact with the extra high voltage distribution line in the live wire state using an insulation stick.

On the other hand, in order to implement the uninterruptible power distribution method, a bypass jumper cable for live wire, a switchgear for construction, an uninterruptible transformer train, and a bypass cable are used. It is installed, and the jumper wires are separated and compressed.

That is, with reference to FIGS. 1A and 1B, the conventional uninterruptible power distribution method necessarily involves the cable clamp 3 installation process. First, attach the cable temporary hanger 2 to the extra-high voltage power line 6 and the live wire work stick 5. After installing the bypass cable (7) temporarily mounted on the eggplant crete (4), use the live wire work stick (5) to temporarily fix it on the cable temporary hanger (2), and then use After removing the coating of the extra-high voltage power line (6), again use the live wire work stick (5) to attach the cable clamp (3) temporarily fixed to the cable temporary hanger (2) with the removed extra-high voltage power line (6). ), insert the cable rotating device into the cable clamp (3), and then perform the process of connecting using a rotating function stick for indirect live wire.

However, in the indirect live uninterruptible power distribution method as described above, when the cable clamp (3) is hung on the extra-high voltage power line (6) from which the coating has been removed, and the process of connecting using a rotating function stick for indirect live wire is performed, the cable clamp (3) ) and the protection of the connection part of the extra-high voltage power line (6) with the removed coating was omitted, so there was a problem that there was a risk of safety accidents such as electric shock and line failure.

Republic of Korea Patent Registration No. 10-1873712 (2018.06.26.)

The object of the present invention is to solve the problems in consideration of the existing problems. In the case of indirect live wire work, safety accidents such as electric shock and line failure by blocking the external contact between the cable clamp and the connection part of the extra-high voltage power line that has been removed during indirect live wire work. It is to provide a bypass cable clamp protective structure for indirect live wire work that can prevent

The bypass cable clamp protective structure for indirect live wire work according to an embodiment of the present invention for solving the above technical problem includes a clamp insertion part having a lower opening to be inserted into the cable clamp, and an upper part of the clamp insertion part extending integrally. A protective cover comprising a temporary hook insertion part into which a temporary cable hanger installed on the cable clamp is inserted, and a left and right cable insertion part protruding opposite to the left and right sides of the clamp insertion part, respectively, into which the extra high voltage power line is inserted. characterized.

As another embodiment, the clamp insertion part, the temporary hook insertion part, and the left and right cable insertion parts of the present invention are integrally injection-molded by one of FRP (Fiberglass Reinforced Plastic) or PE (Polyethylene).

As another embodiment, the clamp insertion part and the temporary hook insertion part of the present invention are formed on the same vertical line, and the cross-sections of the clamp insertion part 10a and the temporary hook insertion part 10b are each hollow and circular, the clamp The insertion part is characterized in that the diameter is formed to be twice or more larger than that of the temporary hook insertion part.

As another embodiment, the temporary hook insertion part of the present invention is characterized in that the upper opening is formed so that the upper part of the cable temporary hanger is penetrated and exposed to the outside.

As another embodiment, the left and right cable insertion portions of the present invention face each other at a 180 degree interval at a position higher than the center of gravity of the protective cover along the perimeter of the clamp insertion portion in the lateral direction and the lower portion toward the inner space of the clamp insertion portion. It is characterized in that it is formed to protrude to the outside so that the direction is opened.

As another embodiment, it is characterized in that the carrying ring is installed on one side of the outer periphery of the clamp insertion part of the present invention so that the protective cover is transported by engaging the tongs of the stick for live wire work.

As another embodiment, the carrying ring of the present invention is characterized in that it is made in the form of an eye bolt fastened to the clamp insertion part.

As another embodiment, the carrying ring of the present invention is characterized in that a plurality of pieces are installed at intervals of 90 degrees from the position of the left and right cable insertion parts along the circumference of the clamp insertion part.

The bypass cable clamp protective structure for indirect live wire work of the present invention protects the connection part of the extra high voltage power line with the cable clamp and the cover removed by the protective cover, thereby preventing safety accidents such as electric shock and line failure during indirect live wire work. there is

1A and 1B are field photos showing the connection state of the conventional bypass cable clamp;
2 is a perspective view showing a protective cover according to the present invention;
3 is a longitudinal cross-sectional view showing a protective cover according to the present invention;
Figure 4 is a state diagram in which the bypass cable clamp is protected by the protective cover according to the present invention;
5 to 9 are flowcharts for explaining a process in which the protective cover according to the present invention is protected.

In order to fully understand the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings 2 to 10. 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. Accordingly, the shapes of elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that the same components in each drawing are sometimes illustrated with the same reference numerals. Detailed descriptions of well-known functions and configurations determined to unnecessarily obscure the gist of the present invention will be omitted.

For reference, with respect to the configuration of the present invention, the same name and the same reference numeral are given to the same configuration as in the prior art, and redundant description is omitted.

2 and 4, the protective cover 10 of the present invention, the clamp insertion portion 10a having a lower opening 12a formed therein so that the conventional cable clamp 3 is inserted, and the clamp insertion portion 10a ) is formed integrally with the upper part of the temporary hanger inserting part 10b into which the cable temporary hanger 2 installed on the upper part of the cable clamp 3 is inserted, and the clamp insert part 10a is opposite to the left and right, respectively. The left and right cable insertion parts 14 and 16 that are formed to protrude and support so that the protective cover 10 is erected and seated when the extra high voltage power line 6 is inserted, and the clamp insertion part 10a on one side of the outer periphery. It engages with the tongs of the stick for live wire work (5) and includes a carrying ring (18) installed so that the protective cover (10) is transported.

That is, the clamp insertion portion 10a, the temporary hook insertion portion 10b, and the left and right cable insertion portions 14 and 16 are integrally made of FRP (Fiberglass Reinforced Plastic) or PE (Polyethylene) material with good insulation properties. Injection molded.

Preferably, the clamp insertion part 10a and the temporary hook insertion part 10b are formed on the same vertical line, and the cross sections of the clamp insertion part 10a and the temporary hook insertion part 10b are each hollow and circular. , It is preferable that the clamp insertion portion (10a) is formed to have a diameter of at least twice that of the temporary hook insertion portion (10b).

It is preferable that the upper opening 12b is formed in the temporary hook insertion part 10b so that the upper part of the cable temporary hanger 2 passes through and is exposed to the outside of the protective cover 10 .

The left and right cable insertion portions 14 and 16 are opposite to each other at 180 degrees apart from the center of gravity of the protective cover 10 along the circumference of the clamp insertion portion 10a. It is preferable to protrude to the outside so that the lateral direction and the lower direction are opened toward the inner space of (10a).

The carrying ring 18 is formed in the form of an eye bolt fastened to the clamp inserting part 10a, and the positions of the left and right cable inserting parts 14 and 16 along the circumference of the clamp inserting part 10a. It is preferable to install a plurality of them at an interval of 90 degrees from the

Next, an installation flowchart of the bypass cable clamp protective structure for indirect live wire work of the present invention configured as described above will be described.

When working with the indirect live wire of the present invention, as shown in FIG. 5, after the cable clamp 3 is hung on the connection part of the extra high voltage power line 6, the cable clamp is used using the stick 5 for the live wire work as shown in FIG. When one side of (3) is tightened, the cable clamp (3) clamps the connection part where the extra high voltage power line (6) has been removed, so that the cable clamp (3) is positioned vertically, and in this state, the cable clamp (3) Remove the stick (5) for live wire work as shown in FIG.

Then, using the tongs of the live wire work stick (5), hold the carrying ring (18) installed in the clamp insertion part (10a) of the protective cover (10), and through the upper part of the cable temporary hanger (2), the cable clamp (3) side, as shown in FIG. 8, the cable temporary hanger (2) has the upper side of the temporary hook insertion part (10b) in the state where the lower side is protected in the temporary hook insertion part (10b) of the protective cover (10), and the upper opening part (12b) ) is exposed to the outside, and the cable clamp (3) is entirely protected by the clamp insertion part (10a) of the protective cover (10).

At this time, when the live wire work stick 5 holding the carrying ring 18 of the protective cover 10 is removed, the side of the clamp inserting part 10a of the protective cover 10 is 180 degrees apart as shown in FIG. The left and right cable insertion portions 14 and 16 formed oppositely are caught on the extra high voltage power line 6 when the protective cover 10 is covered with the cable clamp 3, so that the protective cover 10 is no longer lowered. The connection part of the extra-high voltage power line (6) and the cable clamp (3), which has been removed by supporting it to maintain the posture vertically, are blocked from being connected to the outside by the protective cover (10).

In this way, the bypass cable clamp protective structure for indirect live wire work of the present invention protects the connection part of the cable clamp 3 and the extra-high voltage power line 6 with the cover removed by the protective cover 10 during indirect live wire work. By blocking external contact, safety accidents such as electric shock and line failure can be prevented.

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

2: Temporary cable hanger 3: Cable clamp
5: Stick for live wire work 6: Extra high voltage power cable
7: bypass cable 10: protective cover
10a: Clamp insertion part 10b: Temporary hook insertion part
12a: lower opening 12b: upper opening
14: left cable insertion unit 16: right cable insertion unit
18: carrying hook

Claims (8)

a clamp insertion portion 10a having a lower opening 12a formed therein so that the cable clamp 3 is inserted;
Temporary hanger inserting part 10b integrally extended on the upper part of the clamp inserting part 10a and into which the cable temporary hanger 2 installed on the cable clamp 3 is inserted; and
It includes a protective cover 10 made of left and right cable insertion portions 14 and 16, respectively protruding opposite to the left and right of the clamp insertion portion 10a, into which the extra-high voltage power line 6 is inserted,
The clamp insertion portion (10a) and the temporary hook insertion portion (10b) are formed on the same vertical line,
The cross-sections of the clamp inserting part 10a and the temporary hook inserting part 10b are each hollow and circular, and the diameter of the clamp inserting part 10a is greater than twice the diameter of the temporary hanger inserting part 10b. ,
The temporary hanger insertion part 10b has an upper opening 12b formed therein so that the upper part of the cable temporary hanger 2 is penetrated and exposed to the outside,
The left and right cable insertion portions 14 and 16 are positioned upward from the center of gravity of the protective cover 10,
The left and right cable insertion portions 14 and 16 are positioned to face each other at 180 degrees along the circumference of the clamp insertion portion 10a,
Bypass cable clamp protection for indirect live wire work, characterized in that the left and right cable insertion parts 14 and 16 protrude to the outside so that the lateral and downward directions toward the inner space of the clamp insertion part 10a are opened. struct. delete delete delete delete The method according to claim 1,
Bypass cable clamp protective structure for indirect live wire work, characterized in that a carrying ring 18 is installed on one side of the outer periphery of the clamp insertion part 10a so that the protective cover 10 is transported by being engaged with the tongs of the stick 5 for live wire work. . 7. The method of claim 6,
The carrying ring 18 is a bypass cable clamp protection structure for indirect live wire work, characterized in that it is formed in the form of an eye bolt fastened to the clamp insertion part 10a. 8. The method of claim 7,
Indirect live wire work bi, characterized in that a plurality of the carrying rings 18 are installed at intervals of 90 degrees from the positions of the left and right cable insertion parts 14 and 16 along the circumference of the clamp insertion part 10a. Pass cable clamp protective structure.

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