CN204303382U - As the aluminum conductor of overhead power transmission - Google Patents

As the aluminum conductor of overhead power transmission Download PDF

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Publication number
CN204303382U
CN204303382U CN201420801425.8U CN201420801425U CN204303382U CN 204303382 U CN204303382 U CN 204303382U CN 201420801425 U CN201420801425 U CN 201420801425U CN 204303382 U CN204303382 U CN 204303382U
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China
Prior art keywords
aluminium
single line
carbon fiber
conductive layer
stranded
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CN201420801425.8U
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Chinese (zh)
Inventor
李名珍
谢松华
马军
张娟芳
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Jiangsu Hengtong Electric Power Special Wire Co Ltd
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Jiangsu Hengtong Electric Power Special Wire Co Ltd
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Abstract

The utility model discloses a kind of aluminum conductor being used as overhead power transmission, comprise the stress unit that is positioned at center and stranded the first aluminium conductive layer in stress unit outer surface, the second aluminium conductive layer and the 3rd aluminium conductive layer successively, described stress unit comprises the first carbon fiber single line of being positioned at center and stranded in the first carbon fiber single line outer surface 6 second carbon fiber single lines, described first carbon fiber single line and the second carbon fiber single line outer surface are all coated with aluminium lamination, and the thickness of described aluminium lamination is 0.1 ~ 0.4mm; Described first carbon fiber single line and the second carbon fiber single line are formed by left and right direction of lay is stranded by some carbon fibre precursors; First aluminium single line, the second aluminium single line and the 3rd aluminium single line outer surface are all coated with an aluminium alloy layer.The utility model bending property is excellent, avoids the bending problem that fractures of carbon fiber wire completely, not will be a greater impact to the performance of the stranded strengthening core stress unit of whole aluminium bag carbon fiber, transmission line coefficient of safety is improved.

Description

As the aluminum conductor of overhead power transmission
Technical field
The utility model relates to a kind of as aerial condutor, particularly relates to a kind of aluminum conductor being used as overhead power transmission.
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 the wire changing close cross section specification, substantially do not need to change steel tower and can meet intensity and wire requirement over the ground, but in the application along with the rising of conductor temperature, its sag must increase.And original shaft tower can not have very large remaining to meet the recruitment of its sag, therefore to reach that on original corridor, do not change steel tower increase-volume 40-50% be inconvenient.
On the other hand, existing aluminum conductor uses galvanized strand wires as stress unit, and this structure employs more than 100 year, is traditional structure.But galvanized strand wires intensity is not high, corrosion resistance is not strong, shortens wire whole service life.The eighties, occur aluminium Baogang single line, at that time because of complex process, be difficult to promote, now, use at large cross line, its corrosion resistance is strengthened greatly, but strength ratio steel strand wire reduce.
Summary of the invention
The utility model provides a kind of aluminum conductor being used as overhead power transmission, this aluminum conductor bending property is excellent, avoid the bending problem that fractures of carbon fiber wire completely, ampacity is large, quality is light, sag characteristic is good, extend the useful life of circuit, not will be a greater impact to the performance of the stranded strengthening core stress unit of whole aluminium bag carbon fiber, transmission line coefficient of safety is improved.
For achieving the above object, the technical solution adopted in the utility model is: a kind of aluminum conductor being used as overhead power transmission, comprise the stress unit that is positioned at center and stranded the first aluminium conductive layer in stress unit outer surface, the second aluminium conductive layer and the 3rd aluminium conductive layer successively, described stress unit comprises the first carbon fiber single line of being positioned at center and stranded in the first carbon fiber single line outer surface 6 second carbon fiber single lines, described first carbon fiber single line and the second carbon fiber single line outer surface are all coated with aluminium lamination, and the thickness of described aluminium lamination is 0.1 ~ 0.4mm;
Described first carbon fiber single line and the second carbon fiber single line are formed by left and right direction of lay is stranded by some carbon fibre precursors, and the diameter of described first carbon fiber single line and the second carbon fiber single line is 2mm ~ 4mm;
Described first aluminium conductive layer forms by 8 ~ 10 first aluminium single lines are stranded, and described second aluminium conductive layer forms by 14 ~ 16 second aluminium single lines are stranded, and described 3rd aluminium conductive layer forms by 20 ~ 22 the 3rd aluminium single lines are stranded; Described first aluminium single line, the second aluminium single line and the 3rd aluminium single line outer surface are all coated with an aluminium alloy layer.
The technical scheme improved further in technique scheme is as follows:
1. in such scheme, in described first aluminium conductive layer, the number of the first aluminium single line is 9, and in described second aluminium conductive layer, the number of the second aluminium single line is 15, and in described 3rd aluminium conductive layer, the number of the 3rd aluminium single line is 21.
2. in such scheme, in described first aluminium conductive layer, the first aluminium single line direction of lay is dextrad, and in described second aluminium conductive layer, the second aluminium single line direction of lay is left-hand, and in described 3rd aluminium conductive layer, the 3rd aluminium single line direction of lay is dextrad.
3., in such scheme, in described first carbon fiber single line and the second carbon fiber single line, the number of carbon fibre precursor is at least 100.
Because technique scheme is used, the utility model compared with prior art has following advantages:
1. the utility model is used as the aluminum conductor of overhead power transmission, its aluminium bag carbon fiber line diameter is little, convenient is used for lay configuration, carbon fiber wire adopts lay configuration, bending property and excellent, avoid the bending problem that fractures of carbon fiber wire completely, individual carbon fibers precursor ruptures once in a while does not affect aluminium bag carbon fiber single line performance, and the defect that single aluminium bag carbon fiber single line is little not will be a greater impact to the performance of the stranded strengthening core stress unit of whole aluminium bag carbon fiber, and transmission line coefficient of safety is improved, secondly, its aluminium coating thickness can be accomplished very thin, thus make aluminium bag carbon fiber line diameter to accomplish 2mm ~ 4mm, similar with zinc-coated wire, the stress unit of wire is made in many stranded modes, change the single of present carbon fiber rod, the present situation of diameter 5mm ~ 12mm, little aluminium bag carbon fiber line diameter and Duo Gen lay configuration make the stress unit of wire (aluminium bag carbon fiber twisted cores) bending diameter greatly reduce, avoid current individual carbon fibers diameter of mandrel large, bending stress is large, require sabot, construction bending diameter is very large, cause unfolding conductor, jointing requirements is high, frequently occur that plug crimping construction wrong hidden danger and the wire that arrives go offline transmission line power-off fault.
2. the utility model is used as the aluminum conductor of overhead power transmission, the carbon fiber generation of aluminium coating layer to the inside is well coated presses effect, more than 100 carbon fibre precursor of the inside adopts stranded mode of tiing knots, such structure makes individual carbon fibers silk fracture joint not too affect carbon fiber wire overall performance, pull-off force is high, extends the useful life of circuit; Secondly, on large span high pressure overhead power line, excellent corrosion resistance, lightweight, pull-off force is high, conductance is high and high performance-price ratio, original corridor does not change steel tower substantially, reach increase-volume 60%, ampacity is large, quality is light, sag characteristic is good, extend the useful life of circuit.
Accompanying drawing explanation
Accompanying drawing 1 is for the utility model is as the aluminum conductor structural representation of overhead power transmission;
Accompanying drawing 2 is stress unit structural representation in accompanying drawing 1.
In above accompanying drawing: 1, stress unit; 2, the first aluminium conductive layer; 21, the first aluminium single line; 3, the second aluminium conductive layer; 31, the second aluminium single line; 4, the 3rd aluminium conductive layer; 41, the 3rd aluminium single line; 5, the first carbon fiber single line; 6, the second carbon fiber single line; 7, aluminium lamination; 8, carbon fibre precursor; 9, aluminium alloy layer.
Embodiment
Below in conjunction with drawings and Examples, the utility model is further described:
Embodiment: a kind of aluminum conductor being used as overhead power transmission, comprise the stress unit 1 that is positioned at center and stranded the first aluminium conductive layer 2, second aluminium conductive layer 3 in stress unit 1 outer surface and the 3rd aluminium conductive layer 4 successively, described stress unit 1 comprises the first carbon fiber single line 5 of being positioned at center and stranded in the first carbon fiber single line 5 outer surface 6 second carbon fiber single lines 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, 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 formed by left and right direction of lay is stranded by some carbon fibre precursors 8, and the diameter of described first carbon fiber single line 5 and the second carbon fiber single line 6 is 2mm ~ 4mm;
Described first aluminium conductive layer 2 forms by 8 ~ 10 first aluminium single lines 21 are stranded, and described second aluminium conductive layer 3 forms by 14 ~ 16 second aluminium single lines 31 are stranded, and described 3rd aluminium conductive layer 4 forms by 20 ~ 22 the 3rd aluminium single lines 41 are stranded; Described first aluminium single line 21, second aluminium single line 31 and the 3rd aluminium single line 41 outer surface are all coated with an aluminium alloy layer 9.
In above-mentioned first aluminium conductive layer 2, the number of the first aluminium single line 21 is 9, and in described second aluminium conductive layer 3, the number of the second aluminium single line 31 is 15, and in described 3rd aluminium conductive layer 4, the number of the 3rd aluminium single line 41 is 21.
In above-mentioned first aluminium conductive layer 2, the first aluminium single line 21 direction of lay is dextrad, and in described second aluminium conductive layer 3, the second aluminium single line 31 direction of lay is left-hand, and in described 3rd aluminium conductive layer 4, the 3rd aluminium single line 41 direction of lay is dextrad.
In above-mentioned first carbon fiber single line 5 and the second carbon fiber single line 6, the number of carbon fibre precursor 8 is at least 100.
When adopting the above-mentioned aluminum conductor as overhead power transmission, its aluminium bag carbon fiber line diameter is little, convenient is used for lay configuration.Carbon fiber wire adopts lay configuration, bending property is excellent, avoid the bending problem that fractures of carbon fiber wire completely, individual carbon fibers precursor ruptures once in a while does not affect aluminium bag carbon fiber single line performance, the defect that single aluminium bag carbon fiber single line is little not will be a greater impact to the performance of the stranded strengthening core stress unit of whole aluminium bag carbon fiber, and transmission line coefficient of safety is improved, secondly, its aluminium coating thickness can be accomplished very thin, thus make aluminium bag carbon fiber line diameter to accomplish 2mm ~ 4mm, similar with zinc-coated wire, the stress unit of wire is made in many stranded modes, change the single of present carbon fiber rod, the present situation of diameter 5mm ~ 12mm, little aluminium bag carbon fiber line diameter and Duo Gen lay configuration make the stress unit of wire (aluminium bag carbon fiber twisted cores) bending diameter greatly reduce, avoid current individual carbon fibers diameter of mandrel large, bending stress is large, require sabot, construction bending diameter is very large, cause unfolding conductor, jointing requirements is high, frequently occur that plug crimping construction wrong hidden danger and the wire that arrives go offline transmission line power-off fault, again, the carbon fiber generation of aluminium coating layer to the inside is well coated presses effect, more than 100 carbon fibre precursor of the inside adopts stranded mode of tiing knots, such structure makes individual carbon fibers silk fracture joint not too affect carbon fiber wire overall performance, pull-off force is high, extends the useful life of circuit.
Above-described embodiment, only for technical conceive of the present utility model and feature are described, its object is to person skilled in the art can be understood content of the present utility model and implement according to this, can not limit protection range of the present utility model with this.All equivalences done according to the utility model Spirit Essence change or modify, and all should be encompassed within protection range of the present utility model.

Claims (4)

1. one kind is used as the aluminum conductor of overhead power transmission, it is characterized in that: comprise the stress unit (1) that is positioned at center and stranded in the first aluminium conductive layer (2) of stress unit (1) outer surface successively, second aluminium conductive layer (3) and the 3rd aluminium conductive layer (4), described stress unit (1) comprises the first carbon fiber single line (5) of being positioned at center and stranded in the first carbon fiber single line (5) outer surface 6 second carbon fiber single lines (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 formed by left and right direction of lay is stranded by some carbon fibre precursors (8), and the diameter of described first carbon fiber single line (5) and the second carbon fiber single line (6) is 2mm ~ 4mm;
Described first aluminium conductive layer (2) forms by 8 ~ 10 first aluminium single lines (21) are stranded, described second aluminium conductive layer (3) forms by 14 ~ 16 second aluminium single lines (31) are stranded, and described 3rd aluminium conductive layer (4) forms by 20 ~ 22 the 3rd aluminium single lines (41) are stranded; Described first aluminium single line (21), the second aluminium single line (31) and the 3rd aluminium single line (41) outer surface are all coated with an aluminium alloy layer (9).
2. the aluminum conductor being used as overhead power transmission according to claim 1, it is characterized in that: in described first aluminium conductive layer (2), the number of the first aluminium single line (21) is 9, in described second aluminium conductive layer (3), the number of the second aluminium single line (31) is 15, and in described 3rd aluminium conductive layer (4), the number of the 3rd aluminium single line (41) is 21.
3. the aluminum conductor being used as overhead power transmission according to claim 1, it is characterized in that: in described first aluminium conductive layer (2), the first aluminium single line (21) direction of lay is dextrad, in described second aluminium conductive layer (3), the second aluminium single line (31) direction of lay is left-hand, and in described 3rd aluminium conductive layer (4), the 3rd aluminium single line (41) direction of lay is dextrad.
4. the aluminum conductor being used as overhead power transmission according to claim 1, is characterized in that: the number of described first carbon fiber single line (5) and the middle carbon fibre precursor (8) of the second carbon fiber single line (6) is at least 100.
CN201420801425.8U 2014-12-16 2014-12-16 As the aluminum conductor of overhead power transmission Active CN204303382U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
RU192710U1 (en) * 2018-12-20 2019-09-26 федеральное государственное автономное образовательное учреждение высшего образования "Санкт-Петербургский национальный исследовательский университет информационных технологий, механики и оптики" (Университет ИТМО) Fiber optic bundle for pyrometric measurements

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
RU192710U1 (en) * 2018-12-20 2019-09-26 федеральное государственное автономное образовательное учреждение высшего образования "Санкт-Петербургский национальный исследовательский университет информационных технологий, механики и оптики" (Университет ИТМО) Fiber optic bundle for pyrometric measurements

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