CN106024135A

CN106024135A - Transmission project low sag wire

Info

Publication number: CN106024135A
Application number: CN201610288428.XA
Authority: CN
Inventors: 吴松梅; 李名珍; 汪小娟; 张营军; 王婧婧
Original assignee: Jiangsu Hengtong Electric Power Special Wire Co Ltd
Current assignee: Jiangsu Hengtong Electric Power Special Wire Co Ltd
Priority date: 2014-12-29
Filing date: 2014-12-29
Publication date: 2016-10-12
Also published as: CN104575825A; CN106024173A; CN106024172A; CN104575825B

Abstract

The invention discloses a transmission project low sag wire. The wire comprises a center stress unit, a first aluminum conductive layer, a second aluminum conductive layer and a third aluminum conductive layer, wherein the first aluminum conductive layer, the second aluminum conductive layer and the third aluminum conductive layer are sequentially twisted on the outer surface of the stress unit. The stress unit comprises a first carbon fiber single line located at the center and six second carbon fiber single lines stranded on the outer surface of the first carbon fiber single line. A polyester adhesive filling part is formed by mixing a first component and a second component according to the mass ratio of 1: 2 to 4. The first component is composed of, by weight, N-307 unsaturated polyester, butyl acrylate, isooctyl acrylate, n-butanol, toluene, talcum powder, aluminum powder, calcium carbonate and triethylene tetramine. According to the invention, the transmission project low sag wire has the advantages of heat resistance, cold resistance, acid and alkali salt medium corrosion resistance, thermal stability, good fixability and high anti-slip property.

Description

Power transmission engineering low arc drop wire

Technical field

The present invention relates to a kind of aerial condutor, particularly relate to a kind of power transmission engineering low arc drop wire.

Background technology

The aluminum conductor of overhead power transmission is a kind of extraordinary wire of good performance, especially in the area that circuit is narrow, only Need to change the wire of close cross section specification, intensity and wire requirement over the ground can be met substantially without changing steel tower, But in the application along with the rising of conductor temperature, its sag necessarily increases.And original shaft tower can not have the biggest remaining Meet the increments of its sag, therefore it is inconvenient for reaching not change steel tower increase-volume 40-50% on original corridor.

On the other hand, existing aluminum conductor uses galvanized strand wires as stress unit, and this structure employs more than 100 year, It it is traditional structure.But galvanized strand wires intensity is the highest, corrosion resistance is not strong, shortens wire whole service life.The eighties, go out Xian Lv Baogang single line, at that time because of complex process, it is difficult to promotes, and now, uses at large cross line, and its corrosion resistance is significantly Strengthen, but strength ratio steel strand wires reduce.

Summary of the invention

The present invention provides a kind of power transmission engineering low arc drop wire, in this overhead power transmission aluminum conductor both ensure that aluminium lamination Some carbon fibre precursor roundings, it also avoid the damage of follow-up in use aluminium lamination, thus ensure that the reliable of electrical property Property, bending radius declines most 6 times cable sizes.

For reaching above-mentioned purpose, the technical solution used in the present invention is: a kind of power transmission engineering low arc drop wire, including position Stress unit in center and the most stranded the first aluminum conductive layer in stress unit outer surface, the second aluminum conductive layer and the 3rd aluminum Conductive layer, described stress unit includes the first carbon fiber single line being positioned at center and stranded in the first carbon fiber single line outer surface 6 Root the second carbon fiber single line, described first carbon fiber single line and the second carbon fiber single line outer surface are all coated with aluminium lamination, described aluminum The thickness of layer is 0.1 ~ 0.4mm；

Described first carbon fiber single line and the second carbon fiber single line by some carbon fibre precursors by left and right direction of lay stranded and Become, described first carbon fiber single line and a diameter of 2mm ~ 4mm of the second carbon fiber single line；

Described first aluminum conductive layer is formed by 8 ~ 10 first aluminum single lines are stranded, and described second aluminum conductive layer is by 14 ~ 16 second Aluminum single line is stranded to be formed, and described 3rd aluminum conductive layer is formed by 20 ~ 22 the 3rd aluminum single lines are stranded；If described aluminium lamination is interior and is positioned at Polyester gluing filling part it is filled with between dry root carbon fibre precursor；

Described polyester gluing filling part is mixed according to the mass ratio of 1:2 ~ 4 with second component by the first component, and described first Component is made up of the component of following weight portion:

Described first component is made up of the raw material of following weight parts: N-307 unsaturated polyester (UP) 100 parts, butyl acrylate 22 Part, Isooctyl acrylate monomer 12 parts, n-butyl alcohol 8 parts, toluene 9 parts, Pulvis Talci 2 parts, aluminium powder 4 parts, calcium carbonate 9 parts, triethylene tetramine 0.6 part；

Described second component is made up of the component of following weight portion:

100 parts of acrylic acid,

Methyl methacrylate 30 ~ 35 parts,

Ethylene glycol 20 ~ 25 parts,

Toluene di-isocyanate(TDI) 10 ~ 15 parts,

Dibutyl tin laurate 1 ~ 2 part,

Benzoyl peroxide 0.5 ~ 1 part,

Oxybenzoic acid phenyl ester 0.5 ~ 0.8 part.

The technical scheme improved further in technique scheme is as follows:

1., in such scheme, in described first aluminum conductive layer, the number of the first aluminum single line is 9.

2., in such scheme, in described second aluminum conductive layer, the number of the second aluminum single line is 15.

3., in such scheme, in described 3rd aluminum conductive layer, the number of the 3rd aluminum single line is 21.

Owing to technique scheme is used, the present invention compared with prior art has the advantage that

Power transmission engineering low arc drop wire the most of the present invention, is filled with special formulation between some carbon fibre precursors in its aluminium lamination Polyester gluing filling part, both ensure that some carbon fibre precursor roundings in aluminium lamination, it also avoid follow-up in use aluminum The damage of layer, thus ensure that the reliability of electrical property, and polyester gluing filler bonding force is strong, some carbon fibre precursors it Between define seamless seal structure, there is good heat-resisting, tolerance to cold, acid and alkali-resistance salt medium corrosion and heat stability, stationarity Good, anti-slipping property is strong, it is therefore prevented that the defect brought owing to carbon fibre precursor is smooth, it is ensured that uniform force, thermal resistance function admirable.

Power transmission engineering low arc drop wire the most of the present invention, it is to avoid individual carbon fibers diameter of mandrel is big at present, bending stress Greatly, it is desirable to sabot, construction bending diameter is very big, causes unfolding conductor, and the defect that jointing requirements is high, prior art frequently occurs core Rod crimping construction wrong hidden danger and the wire that arrives go offline transmission line of electricity power-off fault, in its aluminium lamination and to be positioned at some carbon fibers former It is filled with polyester gluing filling part between Si, makes stranded carbon fiber wire rounding, be also beneficial to fixing twisting pitch, it is ensured that long Time keeps the advantage that bending diameter is little；Secondly, aluminum bag carbon fiber line diameter is little for it, be conveniently used for lay configuration, carbon fiber Silk uses lay configuration, bending property and excellent, avoids carbon fiber wire bending to fracture problem completely, and individual carbon fibers precursor is even You do not affect aluminum bag carbon fiber single line performance at fracture, and the defect that single aluminum bag carbon fiber single line is little not will be a greater impact to whole aluminum bag The performance of carbon fiber stranded strengthening core stress unit, makes transmission line of electricity safety coefficient improve.

Power transmission engineering low arc drop wire the most of the present invention, the carbon fiber of the inside is occurred well cladding tight by aluminum clad Pressure effect, more than 100 carbon fibre precursor of the inside uses stranded mode of tiing knots, and such structure makes individual carbon fibers silk break Splitting joint and less affect carbon fiber wire overall performance, pull-off force is high, extends the service life of circuit.

Accompanying drawing explanation

Accompanying drawing 1 is power transmission engineering low arc drop conductor structure schematic diagram of the present invention；

Accompanying drawing 2 is stress unit structural representation in accompanying drawing 1；

Accompanying drawing 3 is the partial structurtes schematic diagram of accompanying drawing 1.

In the figures above: 1, stress unit；2, the first aluminum conductive layer；21, the first aluminum single line；3, the second aluminum conductive layer；31、 Second aluminum single line；4, the 3rd aluminum conductive layer；41, the 3rd aluminum single line；5, the first carbon fiber single line；6, the second carbon fiber single line；7、 Aluminium lamination；8, carbon fibre precursor；9, polyester gluing filling part.

Detailed description of the invention

Below in conjunction with the accompanying drawings and embodiment the invention will be further described:

Embodiment: a kind of power transmission engineering low arc drop wire, including being positioned at the stress unit 1 at center and the most stranded in stress list First aluminum conductive layer the 2, second aluminum conductive layer 3 and the 3rd aluminum conductive layer 4 of unit's 1 outer surface, during described stress unit 1 includes being positioned at First carbon fiber single line 5 of the heart and stranded in 6 second carbon fiber single lines 6 of the first carbon fiber single line 5 outer surface, described first carbon Fiber single line 5 and the second carbon fiber single line 6 outer surface are all coated with aluminium lamination 7, and the thickness of described aluminium lamination 7 is 0.1 ~ 0.4mm；

Described first carbon fiber single line 5 and the second carbon fiber single line 6 are stranded by left and right direction of lay by some carbon fibre precursors 8 Form, described first carbon fiber single line 5 and a diameter of 2mm ~ 4mm of the second carbon fiber single line 6；

Described first aluminum conductive layer 2 is formed by 8 ~ 10 first aluminum single lines 21 are stranded, and described second aluminum conductive layer 3 is by 14 ~ 16 Second aluminum single line 31 is stranded to be formed, and described 3rd aluminum conductive layer 4 is formed by 20 ~ 22 the 3rd aluminum single lines 41 are stranded；Described aluminium lamination 7 In and between some carbon fibre precursors 8, be filled with polyester gluing filling part 9；

Described polyester gluing filling part 9 is mixed according to the mass ratio of 1:2 ~ 4 with second component by the first component, and described first Component is made up of the component of following weight portion:

Described second component is made up of the component of following weight portion: 100 parts of acrylic acid, methyl methacrylate 32 parts, ethylene glycol 20 parts, toluene di-isocyanate(TDI) 10 parts, dibutyl tin laurate 1 part, benzoyl peroxide 0.6 part, oxybenzoic acid benzene Ester 0.8 part.

First component mixes according to the mass ratio of 1:2 with second component；

In above-mentioned first aluminum conductive layer 2, the number of the first aluminum single line 21 is 9, the second aluminum single line in described second aluminum conductive layer 3 The number of 31 is 15, and in described 3rd aluminum conductive layer 4, the number of the 3rd aluminum single line 41 is 21.

When using above-mentioned power transmission engineering low arc drop wire, both ensure that some carbon fibre precursor roundings in aluminium lamination, It also avoid the damage of follow-up in use aluminium lamination, thus ensure that the reliability of electrical property, polyester gluing filler bonding force By force, between some carbon fibre precursors, define seamless seal structure, there is good heat-resisting, tolerance to cold, acidproof alkali salt and be situated between Matter corrosion and heat stability, stationarity is good, and anti-slipping property is strong, it is therefore prevented that the defect brought owing to carbon fibre precursor is smooth, it is ensured that Uniform force, thermal resistance function admirable；Avoiding current individual carbon fibers diameter of mandrel big, bending stress is big, it is desirable to sabot, construction Bending diameter is very big, causes unfolding conductor, the defect that jointing requirements is high, and it is hidden that prior art frequently occurs plug crimping construction wrong Suffer from and the wire that arrives goes offline transmission line of electricity power-off fault, in its aluminium lamination and be filled with polyester between some carbon fibre precursors Gluing filling part, makes stranded carbon fiber wire rounding, is also beneficial to fixing twisting pitch, it is ensured that keep bending diameter for a long time Little advantage；Secondly, aluminum bag carbon fiber line diameter is little for it, be conveniently used for lay configuration, and carbon fiber wire uses lay configuration, curved Qu Xingneng and excellent, avoids carbon fiber wire bending to fracture problem completely, and individual carbon fibers precursor ruptures once in a while does not affect aluminum bag Carbon fiber single line performance, the defect that single aluminum bag carbon fiber single line is little not will be a greater impact to the whole aluminum stranded strengthening core of bag carbon fiber The performance of stress unit, makes transmission line of electricity safety coefficient improve；Again, the carbon fiber of the inside is occurred well by its aluminum clad Cladding presses effect, and more than 100 carbon fibre precursor of the inside uses stranded mode of tiing knots, and such structure makes single carbon fine Dimension silk fracture joint less affects carbon fiber wire overall performance, and pull-off force is high, extends the service life of circuit.

Above-described embodiment, only for technology design and the feature of the explanation present invention, its object is to allow person skilled in the art Scholar will appreciate that present disclosure and implements according to this, can not limit the scope of the invention with this.All according to the present invention The equivalence that spirit is made changes or modifies, and all should contain within protection scope of the present invention.

Claims

1. a power transmission engineering low arc drop wire, it is characterised in that: the stress unit (1) that includes being positioned at center and the most stranded In the first aluminum conductive layer (2), the second aluminum conductive layer (3) and the 3rd aluminum conductive layer (4) of stress unit (1) outer surface, described it is subject to Power unit (1) includes the first carbon fiber single line (5) being positioned at center and stranded in 6 of the first carbon fiber single line (5) outer surface Second carbon fiber single line (6), described first carbon fiber single line (5) and the second carbon fiber single line (6) outer surface are all coated with aluminium lamination (7), the thickness of described aluminium lamination (7) is 0.1 ~ 0.4mm；

Described first carbon fiber single line (5) and the second carbon fiber single line (6) are pressed the stranded side in left and right by some carbon fibre precursors (8) Form to stranded, described first carbon fiber single line (5) and a diameter of 2mm ~ 4mm of the second carbon fiber single line (6)；

Described first aluminum conductive layer (2) is formed by 8 ~ 10 first aluminum single lines (21) are stranded, and described second aluminum conductive layer (3) is by 14 ~ 16 second aluminum single lines (31) are stranded to be formed, described 3rd aluminum conductive layer (4) by 20 ~ 22 the 3rd aluminum single lines (41) stranded and Become；In described aluminium lamination (7) and be positioned between some carbon fibre precursors (8) and be filled with polyester gluing filling part (9)；

Described polyester gluing filling part (9) is mixed according to the mass ratio of 1:2 ~ 4 with second component by the first component, and described One component is made up of the component of following weight portion:

100 parts of acrylic acid,

Methyl methacrylate 30 ~ 35 parts,

Ethylene glycol 20 ~ 25 parts,

Toluene di-isocyanate(TDI) 10 ~ 15 parts,

Dibutyl tin laurate 1 ~ 2 part,

Benzoyl peroxide 0.5 ~ 1 part,

Oxybenzoic acid phenyl ester 0.5 ~ 0.8 part.

Power transmission engineering low arc drop wire the most according to claim 1, it is characterised in that: described first aluminum conductive layer (2) In the number of the first aluminum single line (21) be 9.

Power transmission engineering low arc drop wire the most according to claim 1, it is characterised in that: described second aluminum conductive layer (3) In the number of the second aluminum single line (31) be 15.

Power transmission engineering low arc drop wire the most according to claim 1, it is characterised in that: described 3rd aluminum conductive layer (4) In the number of the 3rd aluminum single line (41) be 21.