Optical-power composite cable with metal sheath employing soft aluminum alloy profile conductors

A photoelectric hybrid cable and aluminum alloy technology, which is applied to conductors, power cables including optical transmission components, power cables, etc., can solve the problems of incompatibility with high shielding performance, poor corrosion resistance, and poor creep resistance, etc., to achieve Light weight, good creep resistance and strong lateral pressure resistance

Inactive Publication Date: 2016-04-27
JIANGSU ZHONGLI GRP CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] With the rapid development of the communication industry, the use of optical cables, photoelectric composite cables, and photoelectric hybrid cables is increasing. The conductors in the currently used photoelectric hybrid cables mainly use copper conductors and aluminum conductors. Copper conductors have poor corrosion resistance and heavy weight. , expensive and other characteristics; aluminum conductors have poor creep resistance due to their large elongation, and cannot avoid the problem of loose joints at low temperatures; the current photoelectric hybrid cables are not compatible with high shielding performance and excellent lightning protection impact performance, low weight, high bending performance

Method used

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  • Optical-power composite cable with metal sheath employing soft aluminum alloy profile conductors
  • Optical-power composite cable with metal sheath employing soft aluminum alloy profile conductors

Examples

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Effect test

Embodiment 1

[0011] See figure 1 , an aluminum alloy special-shaped flexible conductor metal sheath photoelectric hybrid cable, which is composed of a cable core, a cable core tape 3 wrapped outside the cable core, an armor layer 5 located outside the cable core tape, and a cable core tape and a The tear part 4 between the armor layers and the outer sheath 6 that is extruded and coated outside the armor layers are composed; Consists of three peripheral optical cable units and three power cord units; each peripheral optical cable unit consists of two single-core optical cables 12, two inner filling ropes 11, and an optical cable sheath that is extruded and coated on the outside of the single-core optical cables and inner filling ropes 13, the single-core optical cable and the inner filling rope are interlaced, and the single-core optical cable and the inner filling rope are twisted together. Each single-core optical cable is composed of a tight-buffered optical fiber and a surrounding reinf...

Embodiment 2

[0013] See figure 2 , an aluminum alloy special-shaped flexible conductor metal sheath photoelectric hybrid cable, which is composed of a cable core, a cable core tape 3 wrapped outside the cable core, an armor layer 5 located outside the cable core tape, and a cable core tape and a The tear part 4 between the armor layers and the outer sheath 6 that is extruded and coated outside the armor layers; it is characterized in that the cable core is composed of large filling ropes 7, and the intervals are distributed outside the large filling ropes It is composed of three peripheral optical cable units and three power cord units; each peripheral optical cable unit is composed of two single-core optical cables 12, two inner filling ropes 11, and an optical cable sheath that is extruded and coated on the single-core optical cable and the inner filling rope. Composed of 13 sleeves, the single-core optical cable and the inner filling rope are interlaced, and the single-core optical cab...

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Abstract

The invention belongs to the technical field of cables, and particularly relates to an optical-power composite cable with a metal sheath employing soft aluminum alloy profile conductors. The optical-power composite cable comprises a cable core, a cable wrapping tape (3), an armor layer (5), a tearing component (4) and an outer sheath (6), wherein the tearing component (4) is located between the cable wrapping tape and the armor layer; the outer sheath (6) coats the outside of the armor layer; the optical-power composite cable is characterized in that the cable core comprises a central cable unit, three peripheral cable units and three power line units; the three peripheral cable units are distributed outside the central cable unit at intervals; each peripheral cable unit comprises two single-core cables (12), two filled ropes (11) and a cable sheath (13); each cable sheath (13) coats the outside of the corresponding single-core cables and filled ropes in an extruding manner; and the single-core cables and the filled ropes are in staggered distribution, and are twisted together. The optical-power composite cable provided by the invention has the technical effects of being easy to peel, light in weight, high in strength, good in creep resistance, soft, high in lateral pressure resistance, excellent in waterproof capability, high in universality, excellent in shielding effect, high in lightning protection performance, easy to bend and the like.

Description

technical field [0001] The invention belongs to the technical field of electric wires and cables, and in particular relates to a photoelectric hybrid cable with an aluminum alloy special-shaped flexible conductor metal sheath. Background technique [0002] With the rapid development of the communication industry, the use of optical cables, photoelectric composite cables, and photoelectric hybrid cables is increasing. The conductors in the currently used photoelectric hybrid cables mainly use copper conductors and aluminum conductors. Copper conductors have poor corrosion resistance and heavy weight. , expensive and other characteristics; aluminum conductors have poor creep resistance due to their large elongation, and cannot avoid the problem of loose joints at low temperatures; the current photoelectric hybrid cables are not compatible with high shielding performance and excellent lightning protection impact performance, low weight, high bending performance. Contents of t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01B9/00H01B7/18H01B7/04
CPCH01B9/005H01B7/04H01B7/1875H01B7/1895
Inventor 陈波瀚刘秋生胡贵宝张喜生刘焱鑫宋乐乐李坤朋彭智鑫
Owner JIANGSU ZHONGLI GRP CO LTD
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