JPH08237839A - Stranded end of twisted wire - Google Patents

Abstract

(57) [Summary] [Purpose] To provide a highly reliable retracted end of a stranded wire that can be retained in a compact size with sufficient tensile strength. [Structure] An end portion of a twisted electric wire 11 in which a twisting layer 13 of a conductive metal wire such as aluminum or aluminum alloy wire is provided on the outer circumference of a tension member 12 formed by twisting a plurality of resin-reinforced carbon fibers. Is peeled off to expose the tension member 12, which is inserted into the tension member insertion hole 14a of the steel clamp 14, and the curable resin 15 is filled and solidified in the gap to separate the tension member 12 and the steel clamp 14 from each other. While connecting and fixing, the buffer layer 1 is provided between the end of the conductive metal wire and the tension member 12.
6 is provided, an aluminum or aluminum alloy sleeve 18 is fitted over the steel clamp 14 on the outer side thereof, and the conductive metal wire twisted layer 13 on the both sides P sandwiching the filling portion of the curable resin 15 is provided. ₁ and P ₂ on steel clamp 14
Compress and fix.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a towed end of a twisted wire, and more particularly to a towed end of a twisted wire having a tension member mainly composed of carbon fiber used in a sag suppressing overhead transmission line. Regarding the department.

[0002]

2. Description of the Related Art In recent years, a slack suppressing type twisted electric wire which suppresses slack particularly at high temperature has been developed by using a wire member which is made of a lightweight carbon fiber having a small coefficient of thermal expansion and reinforced with resin as a tension member. ,Attention has been paid.

By the way, conventionally, a so-called one-body type clamp has been used as an anchoring structure for this type of twisted wire, in which a tension member and an aluminum wire twisted around the outer periphery thereof are inserted into an aluminum clamp and clamped together. And a tension member is inserted into and fixed to a steel sleeve, and an aluminum clamp is fitted over the outer side of these so as to compress and fix the whole.
A body type clamp has been proposed. Among them, the two body type clamp is practical because the tension member is directly gripped by the steel sleeve, which makes the overall length compact. Is expected.

FIG. 3 shows an example of a retracted end portion of a stranded electric wire using such a two-body type clamp, which is formed by twisting a plurality of aluminum wires 2 around the outer periphery of a tension member 1. The end portion of the twisted electric wire 3 is stepped off to expose the tension member 1, the exposed tension member 1 is inserted into a steel sleeve 4, and a curable resin 5 is filled and solidified between them to make tension. The member 1 and the steel sleeve 4 are bonded and fixed, and the aluminum wire 2 is laid on the outer side of the member 1 to clamp the aluminum clamp 6.
Is fitted and compression-fixed from the outside.

[0005]

However, at such a towed end, the clamp 6 made of aluminum is used.
Is compressed over substantially its entire length (the range indicated by P in the drawing), the compressive force at that time also acts strongly on the curable resin 5 via the steel sleeve 4, which causes There is a problem that the curable resin 5 is damaged and the adhesive force is reduced, and the desired retention force cannot be obtained.

Also in the twisted portion of the aluminum wire 2, the force at the time of compressing the aluminum clamp 6 is the central tension member 1 via the aluminum wire 2.
Therefore, there is a problem in that the strands forming the tension member 1 are crushed or cracked, and the pulling force is reduced.

The present invention has been made in order to solve such a problem. A twisted wire having a tension member mainly composed of carbon fiber is compactly and sufficiently pulled by using a two-body type clamp. An object of the present invention is to provide a reliable retracted end portion of a stranded electric wire that can be retained with strength.

[0008]

The towed end of the twisted electric wire of the present invention has a step in which the end of the twisted electric wire formed by twisting conductive metal wires around a tension member mainly composed of carbon fiber. The tension member is exposed by peeling it off, the exposed tension member is inserted into a hard sleeve, and a curable resin is filled between them to connect the tension member and the hard sleeve. A buffer layer is provided between the end portion and the tension member, a metal sleeve is fitted over the hard sleeve on the outer side of the buffer layer, and the hard sleeve excluding the curable resin filled portion and the conductive metal wire are compressed and fixed. It is characterized by

In the present invention, the buffer layer may be formed by winding a paper, a string made of synthetic fiber, a non-woven fabric or the like, but from the viewpoint of workability and buffer effect, a cylindrical metal body having a split structure. It is desirable that the inner peripheral surface of the buffer member be a buffer sleeve having an engaging surface that engages with the outer periphery of the tension member.

Further, as the hard sleeve of the present invention, a steel sleeve is preferable from the viewpoint of strength, and as the metal sleeve fitted and compressed and fixed on the outer side thereof, a conductive metal wire of a twisted electric wire is used. In the case of aluminum or aluminum alloy wire, it is desirable to use a sleeve made of aluminum or aluminum alloy from the viewpoint of preventing electrolytic corrosion.

The present invention is particularly applicable to the case where the tension member is a twisted electric wire composed of resin-reinforced carbon fiber obtained by joining carbon fibers with resin,
A greater effect can be obtained.

[0012]

In the retracted end portion of the twisted wire of the present invention, the hardened resin-filled portion connecting the hard sleeve and the tension member is fitted over the conductive metal wire of the twisted wire. Since the metal sleeve is not compressed, the curable resin is not damaged by the compressive force of the metal sleeve, and the drop in the retention force due to the damage to the curable resin is prevented.

Further, since the buffer layer is provided between the end of the conductive metal wire and the tension member, the metal sleeve is compressed at this portion, but the compression force does not damage the tension member. In addition, the reduction of the pulling force due to the damage of the tension member is prevented. Therefore, it has high tensile strength as a whole.

[0014]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a vertical sectional view showing an embodiment of a retracted end portion of a twisted electric wire according to the present invention, and FIG. 2 is a sectional view taken along the line AA.

In these figures, 11 is an aluminum or aluminum alloy wire on the outer circumference of a tension member 12 formed by twisting a plurality of resin-reinforced carbon fibers obtained by binding carbon fibers with a resin such as heat-resistant epoxy resin. 3 shows a twisted electric wire provided with the twisted layer 13 of the conductive metal wire.

The stranded electric wire 11 has its end portion stepped off to expose the tension member 12, and the exposed tension member 12 is attached to an eye-shaped steel clamp 14 as shown below. It is inserted and adhesively fixed by the curable resin 15. That is, the steel clamp 14
The tension member insertion hole 14a
Further, a spiral or ring-shaped concavo-convex portion 14b is formed on the outer periphery of the central portion subsequent thereto. Then, the tension member 12 is inserted into the tension member insertion hole 14a, and the curable resin 15 is filled and solidified in the gap so that the tension member 12 and the steel clamp 14 are connected and fixed.

On the other hand, between the end of the twisted layer 13 of the conductive metal wire and the tension member 12, a pair of semi-cylindrical bodies 16a and 16b formed by die casting of a metal containing zinc as a main component. And a buffer sleeve 16 having a split structure in which an engaging surface 17 that engages with the outer periphery of the tension member 12 is formed on each inner peripheral surface.
Are arranged so as to engage with the outer circumference of the tension member 12.

An aluminum or aluminum alloy sleeve 18 is fitted on the outer side of the steel clamp 14 over the twisted layer 13 of the conductive metal wire in which the buffer sleeve 16 is inserted. And P in FIG.
_The ranges shown by ₁ and P ₂ , that is, the steel clamps 14 on both sides of the filled portion of the curable resin 15 and the twisted layer 13 of the conductive metal wire are compressed and fixed. The compressed portion on the steel clamp 14 indicated by P ₂ is substantially coincident with the portion where the unevenness 14b is formed on the outer circumference.

The formation of such a towed end is performed by the following procedure. First, the end portion of the twisted electric wire 11 is stripped off to form a tension member 1 made of resin-reinforced carbon fiber.
2 is exposed, and then the twist of the conductive metal wire at the end portion of the twisted layer 13 of the conductive metal wire is returned to the tension member 1
Expose 2 further. Then, on the outer periphery of the tension member 12 exposed by untwisting the conductive metal wire,
The buffer sleeve 16 manufactured in advance at the factory is engaged, and the conductive metal wire, which has been untwisted previously, is twisted thereon. After that, the exposed portion of the tension member 12 is inserted into the tension member insertion hole 14a of the steel clamp 14, and inside thereof, for example, bisphenol A type epoxy resin mixed with an aliphatic amine as a curing agent, an epoxy having a viscosity of 100 poise or less. The system curable resin 15 is filled and solidified.
Further, the sleeve 18 made of aluminum or aluminum alloy, which has been fitted and inserted in advance on the outer circumference of the twisted electric wire 11, is drawn to and fitted on the outer side of these, and from the outer side,
Both sides sandwiching the filled portion of the curable resin 15 are compressed into a hexagonal cross section to fix the aluminum or aluminum alloy sleeve 18 to the steel clamp 14 and the twisted electric wire 11.

The tension member 12 and the steel clamp 1 are provided at the retracted end of the stranded electric wire thus formed.
Since the force for compressing the sleeve 18 made of aluminum or aluminum alloy is not applied to the filling portion of the curable resin 15 that connects and fixes the curable resin 15 with each other, the curable resin 15 is damaged and the adhesive force is reduced. The tension member 12 and the steel clamp 14 are firmly joined together.

Further, the tension member 12 below the end portion of the twisted layer 13 of the conductive metal wire has the buffer sleeve 16 disposed between them, so that the force is applied when the aluminum or aluminum alloy sleeve 18 is compressed. Without being damaged, the aluminum or aluminum alloy sleeve 18 is firmly compressed and fixed onto the twisted layer 13 of the conductive metal wire of the twisted electric wire 11. The aluminum or aluminum alloy sleeve 18 further includes
The steel clamp 14 also has a sufficient gripping force, and in particular, when the steel clamp 14 is provided with the unevenness 14b as described above, a stronger gripping force can be obtained, so that the overall tensile strength is extremely high. Has strength.

In the above embodiments, the present invention is applied to a twisted electric wire having a tension member 12 formed by twisting a plurality of resin-reinforced carbon fibers. However, the present invention is not limited to this. The present invention is not limited to the example, and the same can be applied to a tension member made of only carbon fiber, or a twisted electric wire having a tension member made by compounding carbon fiber and hard steel wire with resin. Further, the present invention can be applied not only to the eye-shaped retention clamp, but also to a passing wheel type retention clamp and a straight sleeve.

[0024]

As described above, since the curable resin for joining the tension member and the hard sleeve is not subjected to the compressive force of the metal sleeve at the towed end of the stranded wire of the present invention, the curable resin is hardened. A good initial adhesive force between the tension member and the hard sleeve made of a flexible resin is maintained. Further, since the buffer layer is provided between the end of the twisted layer of the conductive metal wire and the tension member, damage to the tension member due to compression of the metal sleeve is prevented.
Therefore, a twisted wire having a tension member mainly composed of carbon fiber can be compactly retained with sufficient tensile strength as a retracting end portion of a twisted wire using a two-body type clamp.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view showing a retracted end portion of a twisted electric wire according to an embodiment of the present invention.

FIG. 2 is a sectional view taken along the line AA of FIG.

FIG. 3 is a vertical cross-sectional view showing a retracted end portion of a conventional twisted electric wire.

[Explanation of symbols]

11 ………… Twisted electric wire 12 ………… Tension member 13 ………… Twisted layer of conductive metal wire 14 ………… Steel clamp 15 ………… Curable resin 16 ………… Cushioning sleeve 17 ………… Mating surface 18 ………… Aluminum or aluminum alloy sleeves P ₁ , P ₂ ……… Compression area

Front Page Continuation (71) Applicant 000002255 Showa Densen Electric Co., Ltd. 2-1-1 Oda Sakae, Kawasaki-ku, Kawasaki-shi, Kanagawa Prefecture (72) Inventor Shuji Tachisaki 7-2-1 Nakayama, Aoba-ku, Sendai City, Miyagi Prefecture Tohoku Electric Power Technology Research Institute (72) Inventor Shigeru Tosaka 3-7-1, Ichibancho, Aoba-ku, Sendai-shi, Miyagi Prefecture Tohoku Electric Power Co., Inc. (72) Inventor, Yasue Sato, Aoba-ku, Sendai-shi, Miyagi 3-7-1, Tohoku Electric Power Co., Inc. (72) Inventor Yoshihiro Takahashi 3-7-1, Ichibancho, Aoba-ku, Sendai City, Miyagi Prefecture Tohoku Electric Power Co., Inc. (72) Hiroshi Kimura Shinji-gun, Ibaraki Prefecture 5707 Dejimamura Shishikura Tokyo Research Laboratory Ltd. (72) Inventor Hiroshi Tajima 6-5-19 Minami-Shinagawa, Shinagawa-ku, Tokyo Sanwa Tech Co., Ltd. (72) Haruki Usuda Kawasaki-ku, Kawasaki-shi, Kanagawa Sakae Oda 2-1-1 No. 1 Showa Electric Cable Co., Ltd. (72) Inventor Go Ito Kawasaki, Kanagawa Kawasaki-ku, OdaSakae 2 chome No. 1 Showadensendenran within Co., Ltd. (72) inventor Atsushi Sato Kawasaki City, Kanagawa Prefecture Kawasaki-ku, OdaSakae 2 chome No. 1 Showadensendenran within Co., Ltd.

Claims (5)

[Claims] 1. A tension member mainly composed of carbon fiber is stripped around an end of a twisted electric wire formed by twisting conductive metal wires to expose the tension member, and the exposed tension member. Is inserted into a hard sleeve, a curable resin is filled between them to connect the tension member and the hard sleeve, while a buffer layer is provided between the end of the conductive metal wire and the tension member,
A retracted end portion of a twisted electric wire characterized in that a metal sleeve is fitted over the hard sleeve on the outer side thereof, and the hard sleeve excluding the curable resin filled portion and the conductive metal wire are compressed and fixed. . 2. The buffer layer comprises a buffer sleeve formed by forming an engaging surface for engaging with the outer circumference of the tension member on the inner peripheral surface of a cylindrical metal body having a split structure. The retracted end of the stranded electric wire according to 1. 3. The retracted end portion of the twisted wire according to claim 1, wherein the tension member is made of resin-reinforced carbon fiber obtained by joining carbon fibers with resin. 4. The towed end of the twisted wire according to claim 1, wherein the hard sleeve is a steel sleeve. 5. The retracted end portion of the twisted wire according to claim 1, wherein the conductive metal wire and the metal sleeve of the twisted wire are made of aluminum or an aluminum alloy.