CN204835429U

CN204835429U - Continuous tying to built on stilts phase line of carbon fiber optoelectrical composite constructs

Info

Publication number: CN204835429U
Application number: CN201520343667.1U
Authority: CN
Inventors: 邓伟锋; 何文栋; 徐常志
Original assignee: Shenzhen SDG Information Co Ltd
Current assignee: Shenzhen SDG Information Co Ltd
Priority date: 2015-05-26
Filing date: 2015-05-26
Publication date: 2015-12-02
Anticipated expiration: 2025-05-26

Abstract

The utility model discloses a continuous tying to built on stilts phase line of carbon fiber optoelectrical composite constructs, continuous connecing on the shaft tower, including line clamp, connecting piece, insulator, sleeve pipe, high -pressure drainage line and photodetachment splice box. The utility model has the advantages of simple structure, photodetachment and optical fiber splicing are succinct, and simple to operate is swift, practice thrift the cost, especially introduce and connect the box body through peeling off optical fiber unit and direct protection, have reduced the optical cable and have reserved and twine the waste that brings and operate inconvenient scheduling problem.

Description

A kind of splicing structure to carbon fiber photoelectric composite aerial phase line

Technical field

The utility model relates to optical cable technology field, particularly a kind of splicing structure to carbon fiber photoelectric composite aerial phase line.

Background technology

High-strength carbon fiber photoelectricity composite aerial phase line is a kind of novel electric power special optical wire.

At present, domestic transmission line all adopts steel core, aluminium stranded conductor, steel reinforced aluminium conductor, it is large that it has power consumption, thermal transition efficiency is low, easy loss, the shortcomings such as useful life is short, in addition the increasing sharply of electricity needs in recent years, the contradiction of transmission of electricity corridor and land resource scarcity, forces power grid construction in increase-volume, accomplishes something on intensive.The high-strength carbon fiber wire produced by new material and new technology and high-strength carbon fiber carbon fiber photoelectric composite aerial phase line become new solution, and fibre junction and photodetachment also become faced by difficulties.

Utility model content

Technical problem to be solved in the utility model is the technological difficulties of the composite aerial phase line photodetachment of high-strength carbon fiber carbon fiber photoelectric and fibre junction, a kind of novel operational solution is provided, by the strain insulator wire clamp of compression joint type and photodetachment and fibre junction, realize the circuit operation of high-strength carbon fiber optical fiber composite wire, for it promotes, applies and become possibility on power circuit on a large scale.

For solving the problems of the technologies described above, technical solution adopted in the utility model is: a kind of splicing structure to carbon fiber photoelectric composite aerial phase line, continued access, on shaft tower, comprises wire clamp, connector, insulator, sleeve pipe, high-pressure induct line and photodetachment connector box, described photodetachment connector box comprises osculant photodetachment connector box and terminal type photoelectricity connector box, middle shaft tower is used for two sections, the front and back carbon fiber photoelectric composite aerial phase line before and after continued access between shaft tower, by described connector respectively by one end of the first insulator, one end of second insulator, one end of 3rd insulator is installed on middle shaft tower, and the other end of described first insulator passes through connector, wire clamp is connected with the afterbody of leading portion carbon fiber photoelectric composite aerial phase line, the other end of described second insulator passes through wire clamp, connector is connected with the stem of back segment carbon fiber photoelectric composite aerial phase line, osculant photodetachment connector box is connected by the other end of connector with described 3rd insulator, the two ends of described high-pressure induct line are separately fixed at and the first insulator, in the wire clamp that second insulator connects, and the middle part of described high-pressure induct line is fixed on photodetachment connector box, invest on described high-pressure induct line after casing protection at the isolated fiber unit of carbon fiber photoelectric composite aerial phase line being arranged in wire clamp, and finally engage in osculant photodetachment connector box, terminal shaft tower is used for the afterbody of continued access back segment carbon fiber photoelectric composite aerial phase line, by connector one end by the 4th insulator, one end of 5th insulator is connected with terminal shaft tower, and the other end of described 4th insulator passes through connector, wire clamp is connected with the afterbody of back segment carbon fiber photoelectric composite aerial phase line, the other end of described 5th insulator is provided with lower terminal type photodetachment connector box, terminal type photodetachment connector box is provided with between described 5th insulator and terminal shaft tower, the default fiber segment be communicated with is provided with between upper terminal type photodetachment connector box with lower terminal type photodetachment connector box, one end of high-pressure induct line is fixed in the wire clamp be connected with the 4th insulator, the other end access converting equipment of high-pressure induct line, the middle part of high-pressure induct line is fixed on lower terminal type photodetachment connector box, invest on high-pressure induct line after casing protection at the isolated fiber unit of carbon fiber photoelectric composite aerial phase line being arranged in wire clamp, and engage with default fiber segment in lower terminal type photodetachment connector box, upper terminal type photodetachment connector box is connected with optical cable, and be connected with communication equipment through optical cable.

In technique scheme, described photodetachment connector box comprises joint box body and connector box ear handle, described fiber unit after connector box ear handle is fixing at connector box Binding in vivo.

In technique scheme, described fiber unit is wrapped on described high-pressure induct line.

In technique scheme, described connector is for connecting gold utensil.

In technique scheme, the middle part of described high-pressure induct line is secured by bolts in the back side of photodetachment connector box.

The beneficial effects of the utility model are: structure of the present utility model is simple; photodetachment and fibre junction succinct; quick and easy for installation; cost-saving; particularly pass through to peel off fiber unit and directly protect and introduce in joint box body, decrease the problem such as the next waste of optical cable future part dish ligament and operation inconvenience.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present utility model;

Fig. 2 is the structural representation of the utility model osculant photodetachment connector box;

Fig. 3 is the structural representation of the utility model terminal type photodetachment connector box.

In figure, 1, middle shaft tower; 2, terminal shaft tower; 3, leading portion carbon fiber photoelectric composite aerial phase line; 4, back segment carbon fiber photoelectric composite aerial phase line; 5, wire clamp; 6, connector; 7, the first insulator; 8, the second insulator; 9, the 3rd insulator; 10, the 4th insulator; 11, the 5th insulator; 12, sleeve pipe; 13, high-pressure induct line; 14, osculant photodetachment connector box; 15, upper terminal type photodetachment connector box; 16, lower terminal type photodetachment connector box; 17, optical cable; 18, joint box body; 19, connector box ear handle.

Embodiment

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

As shown in Figure 1, 2, 3, a kind of splicing structure to carbon fiber photoelectric composite aerial phase line, continued access, on adjacent middle shaft tower 1 and terminal shaft tower 2, comprises wire clamp 5, connector 6, insulator, sleeve pipe 12, high-pressure induct line 13 and photodetachment connector box; Described photodetachment connector box comprises osculant photodetachment connector box 14 and terminal type photoelectricity connector box.

Wherein, the insulator on middle shaft tower 1 comprises the first insulator 7, second insulator 8 and the 3rd insulator 9, first insulator 7 and the second insulator 8 and is horizontally disposed with, and the 3rd insulator 9 is vertically arranged, the T-shaped structure of three.Insulator on terminal shaft tower 2 comprises the 4th insulator 10 and the 5th insulator 11.Osculant photodetachment connector box 14 is used on middle shaft tower 1, and terminal type photoelectricity connector box is used on terminal shaft tower 2.

Middle shaft tower 1, for two sections, the front and back before and after continued access between shaft tower carbon fiber photoelectric composite aerial phase line.By described connector 6 respectively by one end of the first insulator 7, one end of second insulator 8, one end of 3rd insulator 9 is installed on middle shaft tower 1, and the other end of described first insulator 7 is by connector 6, wire clamp 5 is connected with the afterbody of leading portion carbon fiber photoelectric composite aerial phase line 3, the other end of described second insulator 8 is by wire clamp 5, connector 6 is connected with the stem of back segment carbon fiber photoelectric composite aerial phase line 4, osculant photodetachment connector box 14 is connected with the other end of described 3rd insulator 9 by connector 6, the two ends of described high-pressure induct line 13 are separately fixed at and the first insulator 7, in the wire clamp 5 that second insulator 8 connects, and the middle part of described high-pressure induct line 13 is fixed on photodetachment connector box, invest on described high-pressure induct line 13 at the isolated fiber unit of carbon fiber photoelectric composite aerial phase line being arranged in wire clamp 5 after sleeve pipe 12 is protected, and finally engage in osculant photodetachment connector box 14.

Terminal shaft tower 2, for the afterbody of continued access back segment carbon fiber photoelectric composite aerial phase line 4, by connector 6 one end by the 4th insulator 10, one end of 5th insulator 11 is connected with terminal shaft tower 2, and the other end of described 4th insulator 10 is by connector 6, wire clamp 5 is connected with the afterbody of back segment carbon fiber photoelectric composite aerial phase line 4, the other end of described 5th insulator 11 is provided with lower terminal type photodetachment connector box 16, terminal type photodetachment connector box 15 is provided with between described 5th insulator 11 and terminal shaft tower 2, the default fiber segment be communicated with is provided with between upper terminal type photodetachment connector box 15 with lower terminal type photodetachment connector box 16, one end of high-pressure induct line 13 is fixed in the wire clamp 5 be connected with the 4th insulator 10, be connected with the high-tension electricity conductor part in carbon fiber photoelectric composite aerial phase line, the other end access converting equipment of high-pressure induct line 13, the middle part of high-pressure induct line 13 is fixed on lower terminal type photodetachment connector box 16, invest on high-pressure induct line 13 at the isolated fiber unit of carbon fiber photoelectric composite aerial phase line being arranged in wire clamp 5 after sleeve pipe 12 is protected, and engage with default fiber segment in lower terminal type photodetachment connector box 16, upper terminal type photodetachment connector box 15 is connected with optical cable 17, and be connected with communication equipment through optical cable 17.

Wherein, wire clamp 5, be in advance fiber unit reserved cutting from Carbon fibers Carbon fibers photoelectricity composite aerial phase line is deposited, connected by hydraulic means, fastening by Carbon fibers Carbon fibers photoelectricity composite aerial phase line and the radial hydraulic strain insulator wire clamp 5 be fixedly connected on shaft tower.

Wherein, described photodetachment connector box comprises joint box body 18 and connector box ear handle 19, and described fiber unit combines after connector box ear handle 19 is fixing in joint box body 18.

Wherein, described fiber unit is wrapped on described high-pressure induct line 13.Firmly invest on high-pressure induct line 13, be also conducive to sleeve pipe 12 and better parcel protection carried out to fiber unit.

Wherein, described connector 6 is for connecting gold utensil.

Wherein, the middle part of described high-pressure induct line 13 is secured by bolts in the back side of photodetachment connector box.

Above embodiment is just to illustrate instead of restriction the utility model, therefore all equivalences done according to the method described in the utility model patent claim change or modify, and are included in the utility model patent claim.

Claims

1. to a splicing structure for carbon fiber photoelectric composite aerial phase line, continued access, on shaft tower, is characterized in that: comprise wire clamp, connector, insulator, sleeve pipe, high-pressure induct line and photodetachment connector box, described photodetachment connector box comprises osculant photodetachment connector box and terminal type photoelectricity connector box, middle shaft tower is used for two sections, the front and back carbon fiber photoelectric composite aerial phase line before and after continued access between shaft tower, by described connector respectively by one end of the first insulator, one end of second insulator, one end of 3rd insulator is installed on middle shaft tower, and the other end of described first insulator passes through connector, wire clamp is connected with the afterbody of leading portion carbon fiber photoelectric composite aerial phase line, the other end of described second insulator passes through wire clamp, connector is connected with the stem of back segment carbon fiber photoelectric composite aerial phase line, osculant photodetachment connector box is connected by the other end of connector with described 3rd insulator, the two ends of described high-pressure induct line are separately fixed at and the first insulator, in the wire clamp that second insulator connects, and the middle part of described high-pressure induct line is fixed on photodetachment connector box, invest on described high-pressure induct line after casing protection at the isolated fiber unit of carbon fiber photoelectric composite aerial phase line being arranged in wire clamp, and finally engage in osculant photodetachment connector box, terminal shaft tower is used for the afterbody of continued access back segment carbon fiber photoelectric composite aerial phase line, by connector one end by the 4th insulator, one end of 5th insulator is connected with terminal shaft tower, and the other end of described 4th insulator passes through connector, wire clamp is connected with the afterbody of back segment carbon fiber photoelectric composite aerial phase line, the other end of described 5th insulator is provided with lower terminal type photodetachment connector box, terminal type photodetachment connector box is provided with between described 5th insulator and terminal shaft tower, the default fiber segment be communicated with is provided with between upper terminal type photodetachment connector box with lower terminal type photodetachment connector box, one end of high-pressure induct line is fixed in the wire clamp be connected with the 4th insulator, the other end access converting equipment of high-pressure induct line, the middle part of high-pressure induct line is fixed on lower terminal type photodetachment connector box, invest on high-pressure induct line after casing protection at the isolated fiber unit of carbon fiber photoelectric composite aerial phase line being arranged in wire clamp, and engage with default fiber segment in lower terminal type photodetachment connector box, upper terminal type photodetachment connector box is connected with optical cable, and be connected with communication equipment through optical cable.

2. a kind of splicing structure to carbon fiber photoelectric composite aerial phase line according to claim 1, it is characterized in that: described photodetachment connector box comprises joint box body and connector box ear handle, described fiber unit after connector box ear handle is fixing at connector box Binding in vivo.

3. a kind of splicing structure to carbon fiber photoelectric composite aerial phase line according to claim 1, is characterized in that: described fiber unit is wrapped on described high-pressure induct line.

4. a kind of splicing structure to carbon fiber photoelectric composite aerial phase line according to claim 1, is characterized in that: described connector is for connecting gold utensil.

5. a kind of splicing structure to carbon fiber photoelectric composite aerial phase line according to claim 1, is characterized in that: the middle part of described high-pressure induct line is secured by bolts in the back side of photodetachment connector box.