KR200176387Y1 - A compression type deadend clamp for change - Google Patents

Abstract

The present invention relates to a replacement compression human clamp, which is provided with a replacement compression human clamp (2) for supporting the transmission line (1), the replacement compression human clamp (2) is inserted into a fixed core of the wire Steel clamp made of a steel core insertion portion 3 and a threaded portion 4 formed on the upper portion of the steel core insertion portion 3 and a connecting ring 5 formed at one end with a predetermined distance from the screwed portion 4. (6) and a pipe body (7) having a predetermined length so as to be compressed and fixed to the outside of the steel clamp (6) and to support a part of the power transmission line (1) while being wrapped. A rod 8 having a length of approximately 300 mm or more is formed between the steel core insertion portion 3 and the threaded portion 4 of the pipe, and the length of the pipe body 7 compressed to the steel clamp 6 is steel. Elongated to clamp 6, no additional wires required for replacement As the rock structure, which can be used because it requires no additional wires facilitate its replacement, thereby significantly reducing excess costs for replacement of the compression clamp humanity with improving the working efficiency of the operator.

Description

A compression type deadend clamp for change

The present invention relates to a clamp for fixing one side of a transmission line, and more particularly to a replacement compression human clamp for improving workability and reducing construction costs by facilitating construction when replacing the clamp. .

In general, when constructing a transmission line, a plurality of clamps are installed at the end of the transmission line in order to maintain a good tension state of the transmission line. The clamp not only supports the end of the transmission line but also maintains a good connection state of the transmission line. As a preservation apparatus, it is an essential apparatus in the construction of a transmission line.

That is, the conventional structure of the compressed human clamp is installed in the transmission line as described above, as shown in Figures 1 and 2, the core insert portion 101 and the core insert portion which can be fixed by inserting the core of the wire Steel clamp 104 made of a threaded portion 102 formed on the upper portion of the 101 and a connecting ring 103 formed at one end with a predetermined distance from the threaded portion 102, and on the outside of the steel clamp 104 Compression is fixed and the structure of the pipe body 105 having a certain length to support a portion of the transmission line wrapped.

In addition, a connection bracket 107 is installed at one side of the pipe body 105 of the compressed human clamp 106 having the above-described structure, and as shown in FIG. The jumper wire 109 is to be connected to one side of the 106.

However, as described above, the compressed human clamps 106 installed for the construction of power transmission lines have to be frequently replaced for various reasons. The typical reason is that the pipe body 105 of the compressed human clamps 106 is freeze or Alternatively, the connecting portion of the jumper socket 108 to which the jumper wire 109 is connected is melted due to overheating.

That is, when the catenary angle is an incidence in the obstacle system of the transmission line, water is accumulated in the uncompressed portion of the compressed human clamp 106 due to the capillary phenomenon of the wire, and thus the accumulated water freezes in winter so that the pipe body The 105 is freeze, and thus the tensile strength of the compressed anthropogenic clamp 106 is lowered or the breakage of the strand is caused by oxidative corrosion of the stranded wire.

And, when the construction of the transmission line to connect the jumper line 109, the worker is to connect the bolt 110 to the connection point, but the bolt 110 is tightened or the bolt of the connection portion due to the vibration of the wire When the 110 is released, the connection state between the jumper socket 108 and the compressed human clamp 100 becomes poor, which causes melting of the jumper socket 108 due to overheating.

Therefore, it is necessary to carry out the work of replacing the compressed anthropomorphic clamp 106 while paying a lot of cost and effort.

Therefore, if the existing compression human clamp 106 is replaced with a new one as described above, the disadvantage that the wire is shortened by the length of the wire that the existing compression human clamp 106 is compressed, ACSR480 mm 2 wire In the case of about 387㎜, there is a method for replenishing this, but the situation is not a great effect.

In other words, the method of inserting insulators and brackets among the replacement methods may be in contact with the steel tower when the jumper line is lateral because the jumper line 109 is long, and also the facility safety factors such as deterioration of the arcing horn efficiency. On the other hand, the method of slicing a shortage of wires causes an additional wire connection point to cause a breakdown caused by the connection point, thereby reducing the reliability of the equipment. The method has a problem in that the construction cost becomes excessive because the amount of wire replacement is increased by replacing the power line between the built-in point and the built-in point.

Therefore, the present invention has been devised to solve all the problems described above, and it is possible to improve the reliability of the facility when the clamp is replaced and to facilitate the construction, thereby improving workability and reducing construction costs. The purpose is to provide a replacement compression human clamp.

The present invention for achieving the object of the above, the core is inserted into the core can be fixed and inserted into the core of the wire and the screw formed on the top of the core insert and the connection formed at one end with a certain distance from the screw In the compression clamped human clamp consisting of a steel clamp consisting of a ring and a pipe body having a predetermined length so as to be compressed and fixed to the outside of the steel clamp, while holding a portion of the transmission line wrapped, the core insert portion of the steel clamp And a rod having a length of about 300 mm or more is formed between the screw and the thread, and the length of the pipe body compressed to the steel clamp is elongated to the steel clamp so that no additional wire is required for replacement.

That is, since the length of the replacement compression human clamp is 987 mm in the case of ACSR480 mm 2 wire, when the existing compression human clamp is approximately 600 mm, the length of the compression human clamp is longer than 300 mm. There is no need to use additional wires due to the difference in the length of the clamps and wires.

Therefore, the replacement compression human clamp is easy to replace because it does not require the use of additional wires, thereby improving the workability of the operator and can significantly reduce the excessive cost of replacing the compression human clamp. It is.

1 is a perspective view showing a single piece of the compression human clamp in accordance with the prior art,

Figure 2 is a state diagram showing a compression human clamp in accordance with the prior art,

Figure 3 is a perspective view showing a compression human clamp applied with a jumper socket according to the prior art,

Figure 4 is a state diagram showing a replacement compression human clamp according to the present invention,

Figure 5 is a perspective view showing a single piece of replacement compression human clamp in accordance with the present invention,

Figure 6 is a perspective view showing the installation state of the replacement compression human clamp according to the present invention.

Explanation of symbols on the main parts of the drawings

1: Transmission line 2: Replacement compressed human clamp

3: core insert 4: threaded portion

5: hook for connection 6: steel clamp

7: pipe body 8: rod

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 4 is a state diagram showing a replacement compression human clamp according to the present invention, Figure 5 is a perspective view showing a single piece of a replacement compression human clamp according to the present invention, Figure 6 is a replacement compression human clamp according to the present invention Is a perspective view showing the installation state of the.

Referring to the structure of the present invention by the above drawings, there is provided a replacement compression human clamp (2) for fixing the transmission line (1), the replacement compression human clamp (2) is inserted into the core of the wire compressed It consists of a steel core inserting portion (3) and a screw portion (4) formed on the upper portion of the steel core insertion portion (3) to be fixed and a connecting ring (5) formed at one end with a predetermined distance from the screw portion (4) The steel clamp 6 and a pipe body 7 having a predetermined length so as to be compressed and fixed to the outside of the steel clamp 6 and to support a part of the power transmission line 1 while being wrapped, the steel clamp A rod 8 having a length of approximately 300 mm or more is formed between the steel core insert portion 3 and the threaded portion 4 of (6), and the length of the pipe body 7 compression-coupled to the steel clamp 6. Elongated to the steel clamp 6, no additional wire is required for replacement It is a rock structure.

Here, the feature of the replacement compression human clamp (2) manufactured as described above is that the body of the steel clamp (6) to which the electric wire is fixed by the rod 8 is extended by approximately 300mm or more replacement compression human clamp (2) ), No additional wires need to be used.

In other words, since the length of the replacement compression human clamp 2 is 987 mm in the case of ACSR480 mm 2 wire, when the existing compression human clamp is about 600 mm, the length of the replacement compression human clamp 2 becomes about 300 mm or longer. When the compressed human clamp 2 is replaced by the use of additional wires according to the difference in the length of the clamp and the wire is unnecessary.

That is, the replacement compression human clamp (2) is composed of a steel clamp (6) to which the wire is fixed and a pipe body (7) which is crimped and fixed to the steel clamp (6), the power transmission line inside the pipe body (7) Since (1) is fixed, it is firmly supported while applying a tensile force to the power transmission line (1).

In addition, the rod 8 formed in the steel clamp 6 is brought into contact with the pipe body 7 to expand the contact area, thereby more stably coupled, thereby reducing the failure of the replacement compression human clamp 2. It can increase the reliability of the equipment.

On the other hand, the replacement compression human clamp (2) used for the ACSR480 mm 2 wire had a good electrical resistance of 74.95 [Ω] in the electrical resistance test, and was in good condition in the tensile test and the long-term tensile test. No abnormality was found even in the heat cycle test.

In addition, referring to Figure 5 when comparing the specifications of the conventional compression human clamp and the replacement human compression clamp 2 according to the present invention is as follows.

[Clamp specification comparison table: for ACSR ㎡] [Unit: mm] sign A B C D E Conventional Compression Human Clamp 600 500 85 60 26 Compression human clamp 987 887 85 60 26 Difference 387 387 0 0 0

Therefore, the replacement compression human clamp 2 has a high rigidity of its own while supporting the transmission line 1 stably, so that the failure is less, and it is possible to solve various problems occurring in the replacement process of the existing compression human clamp. It is.

As described above, according to the replacement compression human clamp, according to the present invention, since it is unnecessary to use additional wires, the replacement work is easy, thereby improving the workability of the operator and required to replace the compression human clamp. There is an effect that can significantly reduce the excessive cost.

Claims (1)

Steel core inserting portion (3) and the screw portion (4) formed on the upper portion of the steel core insertion portion (3) and the connection formed at one end with a predetermined distance from the screw portion 4 so that the steel core of the wire can be inserted and compressed Steel clamp (6) consisting of a ring (5) and a pipe body (7) having a predetermined length so as to be compressed and fixed to the outside of the steel clamp (6) and to support a portion of the power transmission line (1) wrapped. In the compressed human clamp, A rod 8 having a length of approximately 300 mm or more is formed between the steel core insert portion 3 and the threaded portion 4 of the steel clamp 6, and the pipe body 7 compressed to the steel clamp 6. Compression human clamps, characterized in that the length of the) is elongated in accordance with the steel clamp (6) so that no additional wire is required for replacement.