CN203588738U - Intertwisted carbon fiber-and-optical fiber composite overhead conductor - Google Patents

Abstract

The utility model discloses an intertwisted carbon fiber-and-optical fiber composite overhead conductor which is used in the field of overhead cables and comprises a wire core and a conductive layer. The conductive layer wraps the wire core. The wire core comprises carbon fiber reinforcing cores and an optical fiber combined core. According to the intertwisted carbon fiber-and-optical fiber composite overhead conductor, the carbon fiber reinforcing cores and the optical fiber combined core are jointly wrapped by the conductive layer, and the carbon fiber composite conductor technology and the optical fiber technology are combined perfectly, and thus the intertwisted carbon fiber-and-optical fiber composite overhead conductor has double functions which are an overhead conductor function and a communication function. In addition, the carbon fiber composite conductor has advantages of light weight, low sag, chemical corrosion resistance, long service life, nonmagnetic property, high temperature resistance and strong overload capability, thereby being applicable to various different usage environments, and in particular meeting electricity and communication transmission requirements of large-crossing overhead lines.

Description

A kind of stranded carbon fiber optical fiber composite overhead wire

Technical field

The utility model, for aerial cable field, particularly relates to a kind of stranded carbon fiber optical fiber composite overhead wire.

Background technology

Carbon fiber composite conductor is a kind of energy-saving capacity-improving conducting wires of brand new, compare with conventional wires, have lightweight, tensile strength is large, heat resistance is good, thermal coefficient of expansion is little, high temperature sag is little, conductance is high, line loss is low, ampacity is large, corrosion resistance and good, be difficult for the series of advantages such as icing, comprehensively solved every technical bottleneck that overhead power transmission field exists, represented the technology trends of following aerial condutor, contribute to construct safety, environmental protection, efficient economizing electric power transmission network, can be widely used in old circuit and the transformation of power station bus capacity-increasing, new line is built, and can be used for large leap, large drop, heavy icing area, the circuit of the special climates such as high pollution and geographical occasion.Be applied in newly-built circuit, can improve the unit transmission capacity of circuit, guarantee the strong property of electrical network, long-range economy is better.Be applied in the transformation and increase-volume project of grid power transmission circuit, can utilize the facilities such as existing shaft tower, both increased substantially exponentially transmission capacity, can save channel resource again simultaneously, reduce land seizure area, save investment, and the line outage time is short, loss of outage is little.Be applied in large cross line, can significantly reduce the height of crossover tower, thereby effectively reduce shaft tower and basic material usage, reach the object that reduces project cost.Be applied in and re-cover in the circuit of ice formation, can improve anti-ice ability, promote the fail safe of circuit.In general, this be a kind of " environmentally friendly used for transmission line wire ", from protection of the environment, energy-saving and emission-reduction, improve human ecological environment aspect, there is epoch-making realistic meaning.

And for remote, the large span transmission of optical cable, being merely able to select special optical cable, this has just been difficult to that optical cable is remote, the transmission of large span when some circuits are difficult to select special optical cable.

Utility model content

For addressing the above problem, it is a kind of by carbon fiber composite conductor technology and optical fiber technology perfect adaptation that the utility model provides, and greatly limit meets the electric power of various different environments for use requirements and the stranded carbon fiber optical fiber composite overhead wire that communications requires.

The utility model solves the technical scheme that its technical problem adopts: a kind of stranded carbon fiber optical fiber composite overhead wire, comprise the conductive layer of core and coated core, and core comprises carbon fiber strengthening core and optical fiber combination core.

Be further used as the improvement of technical solutions of the utility model, optical fiber combination core comprises metal tube and is located at the some fiber bundles in metal tube.

Be further used as the improvement of technical solutions of the utility model, metal tube is stainless steel tube.

Be further used as the improvement of technical solutions of the utility model, carbon fiber strengthening core is for being evenly stranded in the carbon fiber bundle in optical fiber combination core outside.

Be further used as the improvement of technical solutions of the utility model, conductive layer forms by some conductor lines are stranded.

Be further used as the improvement of technical solutions of the utility model, conductor lines is heat-resistant aluminum alloy wire or superalloy conductor or aldray wire or fine aluminium wire or high-purity aluminium wire.

Be further used as the improvement of technical solutions of the utility model, the cross section of conductor lines is circular or trapezoidal.

The beneficial effects of the utility model: in this stranded carbon fiber optical fiber composite overhead wire, carbon fiber strengthening core and optical fiber combination core are coated on to conductive layer inside in the lump, by by carbon fiber composite conductor technology and optical fiber technology perfect adaptation, make the utlity model has aerial condutor and the dual-use function of communicating by letter, all advantages simultaneously with carbon fiber composite conductor, thereby greatly limit meets electric power and the communications requirement of various different environments for use, particularly large spanning overhead line.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described in further detail:

Fig. 1 is the utility model the first example structure schematic diagram;

Fig. 2 is the utility model the second example structure schematic diagram.

Embodiment

With reference to Fig. 1, Fig. 2, the utility model provides a kind of stranded carbon fiber optical fiber composite overhead wire, comprises the conductive layer 2 of core 1 and coated core 1, and core 1 comprises carbon fiber strengthening core 11 and optical fiber combination core 12.

In this stranded carbon fiber optical fiber composite overhead wire, carbon fiber strengthening core 11 and optical fiber combination core 12 are coated on to conductive layer 2 inside in the lump, by by carbon fiber composite conductor technology and optical fiber technology perfect adaptation, make the utlity model has aerial condutor and the dual-use function of communicating by letter, have carbon fiber composite conductor comprises lightweight simultaneously, low orphan is hung down, resistance to chemical attack, long service life, nonmagnetic, high temperature resistant, all advantages such as overload capacity is strong, thereby greatly limit meets various different environments for use, the particularly electric power of large spanning overhead line and communications requirement.

As the utility model preferred embodiment, optical fiber combination core 12 comprises metal tube 121 and is located at the some fiber bundles 122 in metal tube 121.

As the utility model preferred embodiment, metal tube 121 is stainless steel tube.The impact that the setting of metal tube 121 avoids external signal to transmit for fiber-optic signal.

As the utility model preferred embodiment, carbon fiber strengthening core 11 is for being evenly stranded in the carbon fiber bundle in optical fiber combination core 12 outsides.Carbon fiber bundle is evenly stranded in the outside of optical fiber combination core 12, avoid outer conductor lines 21 stranded when the conductive layer 2 for the destruction of optical fiber combination core 12, play a protective role.

As the utility model preferred embodiment, conductive layer 2 is by stranded the forming of some conductor lines 21.

As the utility model preferred embodiment, conductor lines 21 is heat-resistant aluminum alloy wire or superalloy conductor or aldray wire or fine aluminium wire or high-purity aluminium wire.

As the utility model preferred embodiment, the cross section of conductor lines 21 is circular or trapezoidal.Cross section is in the situation of circular conductor lines same cross-sectional area, the size of conductive layer 2 is thicker, windage is larger, but heat radiation better, contrary cross section is that trapezoidal conductor lines 21 can effectively reduce windage, but it is poor to dispel the heat, for the conductor lines 21 of two kinds of section forms, can specifically select according to actual conditions.

Certainly, the invention is not limited to above-mentioned execution mode, those of ordinary skill in the art also can make equivalent variations or replacement under the prerequisite without prejudice to the utility model spirit, and the modification that these are equal to or replacement are all included in the application's claim limited range.

Claims (6)

1. a stranded carbon fiber optical fiber composite overhead wire, it is characterized in that: the conductive layer that comprises core and coated described core, described core comprises carbon fiber strengthening core and optical fiber combination core, and described carbon fiber strengthening core is for being evenly stranded in the carbon fiber bundle in described optical fiber combination core outside.

2. stranded carbon fiber optical fiber composite overhead wire according to claim 1, is characterized in that: described optical fiber combination core comprises metal tube and is located at the some fiber bundles in described metal tube.

3. stranded carbon fiber optical fiber composite overhead wire according to claim 2, is characterized in that: described metal tube is stainless steel tube.

4. according to the stranded carbon fiber optical fiber composite overhead wire described in claim 1～3 any one, it is characterized in that: described conductive layer forms by some conductor lines are stranded.

5. stranded carbon fiber optical fiber composite overhead wire according to claim 4, is characterized in that: described conductor lines is heat-resistant aluminum alloy wire or superalloy conductor or aldray wire or fine aluminium wire or high-purity aluminium wire.

6. stranded carbon fiber optical fiber composite overhead wire according to claim 4, is characterized in that: the cross section of described conductor lines is for circular or trapezoidal.

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