CN105752769B

CN105752769B - A kind of low stress optical cable take-up and pay-off device

Info

Publication number: CN105752769B
Application number: CN201610262946.4A
Authority: CN
Inventors: 李凌驿; 卢星星; 阮云芳; 何军; 蔡晶; 黄�俊; 熊壮
Original assignee: Yangtze Optical Fibre and Cable Co Ltd
Current assignee: Optical fiber and cable Lanzhou Co. Ltd.
Priority date: 2016-04-26
Filing date: 2016-04-26
Publication date: 2017-11-17
Anticipated expiration: 2036-04-26
Also published as: CN105752769A

Abstract

The present invention relates to a kind of low stress optical cable take-up and pay-off device, include and deposit cable disk, it is characterised in that the side for depositing cable disk is installed on down-lead bracket, and the upper end of down-lead bracket is installed on optical fibre conduit, and the lower end of optical fibre conduit is connected with rotary guide pipe.The present invention integrates retractable cable function, can effectively realize the low stress automatic deploying and retracting line function of optical cable.Ease up active force excessive when punching through cable speed and frictional force can be absorbed by elastic rotary conduit, avoids excessive vibration so that micro- cable keeps stable low-stress state during retractable cable；Down-lead bracket can make that the present invention is applicable and matching different-diameter deposits cable disk using telescopic boom and detachable vertical rod structure, and rotary guide pipe is in optimal folding and unfolding line position all the time, improve its retractable cable efficiency.The present invention also has the characteristics of simple in construction, easy to use.

Description

A kind of low stress optical cable take-up and pay-off device

Technical field

The present invention discloses a kind of low stress optical cable take-up and pay-off device, relates more specifically to the folding and unfolding to micro- cable of stress sensitive Line apparatus.

Background technology

Existing most of optical cables can bear certain stress to meet defined mechanical property.Produced in optical cable Cheng Zhong, mostly it is on having around the disk for being placed on given size after stranding.Due to optical cable own tension, optical cable around put when must Certain pretightning force must be applied, to avoid optical cable loose.But for the optical cable of some special constructions, such as micro- cable, its diameter It is small, it is very sensitive to stress, in pre-tight stress state micro- cable can be caused expendable deformation occur for a long time, seriously very Scrapped to micro- cable is caused.Therefore certain cable can not use traditional drum mode when produce sabot slightly, and micro- cable guarantor must be made Hold free state.The paving mode of micro- cable has very big difference with traditional outdoor optical cable again, and micro- cable is carried out by the way of air-blowing Laying, compressed air provide power for micro- cable so that micro- cable moves ahead in micro-pipe.Its laying speed is up to 50m/min, than tradition Artificial laying is faster.Under so fast payingoff speed, also to ensure that micro- cable is in low stress free state, and unwrapping wire process In want smooth not random line not knot.Micro- cable device of falling disk is had at present, this device of falling disk is only intended to the construction line-putting, no take-up Function.Needing that first micro- cable is put into the device of falling disk before construction could use, and it is not smooth enough unwrapping wire to be present, is also easy to produce stress, Yi Jigong Can single and volume it is inconvenient for use greatly the problem of.

The content of the invention

The technical problems to be solved by the invention are to provide a kind of low stress for above-mentioned the shortcomings of the prior art Optical cable take-up and pay-off device, it not only integrates retractable cable function, and simple in construction, easy to use.

The present invention is to solve the problems, such as that used technical scheme set forth above is：Include and deposit cable disk, it is characterised in that The side for depositing cable disk is installed on down-lead bracket, and the upper end of down-lead bracket is installed on optical fibre conduit, the lower end of optical fibre conduit and rotation Conduit is connected.

By such scheme, described down-lead bracket includes the vertical rod being connected with depositing cable disk side, and the upper end of vertical rod is connected with Optical fibre conduit and rotary guide pipe are installed in cantilever, the front end of cantilever.

By such scheme, described rotary guide pipe is elastic rotary conduit.

By such scheme, described elastic rotary conduit includes being installed in the bearing of cantilever front end, in the connection of bearing moving-coil Rotation pipe, the lower end of upper rotation pipe bend backspin tube directed downwardly by spring connection.

By such scheme, described bending backspin tube directed downwardly is in space right-angle bending, and endpiece is bent downwardly Lead direction is tangent with depositing cable disk inwall circumference, or parallel with depositing cable disk inwall tangent to periphery space.

By such scheme, described cantilever is telescopic boom, and described telescopic boom includes the company being connected with vertical rod Arm and the transfer arm with linking arm phase configuration are connect, chute is set on described linking arm, the lock through chute is configured on transfer arm Tight bolt.

By such scheme, described linking arm rear end is hinged with vertical rod upper end, and configuration positioning bullet pin on the connecting arm With the positioning hole phase configuration of vertical rod upper end.

By such scheme, described vertical rod is provided with gliding groove, and upper gliding groove configuration gliding hook and locking knob are sliding Dynamic drag hook and the Pan Kou edges phase configuration for depositing cable disk, form detachable vertical rod.

By such scheme, described cable disk of depositing includes the circular disk body of open upper end, and central boss is set in circular disk body, The intraoral side of the disk of circular disk body sets raised brim and gliding hook phase configuration, the exterior bottom of circular disk body be provided with slot with Vertical rod lower end phase configuration.

By such scheme, described cable disk upper end of depositing is configured with disk cover.

The present invention the course of work be：During take-up, optical cable penetrates from optical fibre conduit, passes to fall into by rotary guide pipe and deposits cable Disk, because the deadweight and tension force effect so that fall into of depositing cable disk and optical cable deposit the optical cable of cable disk along clockwise（Or counterclockwise）Direction Around putting, while also drive rotary guide pipe to be rotated in a clockwise direction, reach the low stress automatic takeup of optical cable.During cable laying, optical cable Penetrate from the lower port of rotary guide pipe in the presence of tractive force, outwards passed after rotary guide pipe penetrates optical fibre conduit, by In the displacement for passing optical cable in disk and the follow-up action of rotary guide pipe, drive rotary guide pipe to rotate in the counterclockwise direction, can be achieved The low stress unwrapping wire of optical cable.

The beneficial effects of the present invention are：1st, integrate retractable cable function, can effectively realize that the low stress of optical cable is automatic Retractable cable function.Ease up active force excessive when punching through cable speed and frictional force can be absorbed by elastic rotary conduit, Avoid excessive vibration so that micro- cable keeps stable low-stress state during retractable cable, avoids the damage of optical cable；2nd, draw Line bracket can make that the present invention is applicable and matching different-diameter deposits cable disk using telescopic boom and detachable vertical rod structure, and make Rotary guide pipe is in optimal folding and unfolding line position all the time, improves its retractable cable efficiency；3rd, can also be made using detachable vertical rod structure Down-lead bracket is conveniently separated with depositing cable disk, is easy to deposit cable and is taken inventory the accumulating after cable；4th, the present invention also has simple in construction, uses The characteristics of facilitating.

Brief description of the drawings

Fig. 1 is the positive sectional structure chart of one embodiment of the invention.

Fig. 2 is the three-dimensional structure diagram of telescopic boom in Fig. 1.

Fig. 3 is the transverse cross-sectional view of telescopic boom of the present invention.

Fig. 4 is optical cable conduit and the sectional structure chart of elastic rotary conduit portion.

Fig. 5 is the three-dimensional structure diagram and working state schematic representation of one embodiment of the invention.

Embodiment

The invention will be further described with reference to the accompanying drawings and examples.

Include and deposit cable disk, described cable disk of depositing includes the circular disk body 13 of open upper end, is set in circular disk body hollow The central boss of column, the intraoral side of the disk of circular disk body set raised brim and the phase configuration of gliding hook 10, circular disk body it is outer Side bottom is provided with slot 11 and the lower end phase configuration of vertical rod 8.Described cable disk upper end of depositing is configured with disk cover 14.Depositing the one of cable disk Side is installed on down-lead bracket, and described down-lead bracket includes the vertical rod 8 being connected with depositing cable disk side, and described vertical rod is provided with Gliding groove 12, upper gliding groove configuration gliding hook 10 and locking knob 9, gliding hook and the Pan Kou edges phase configuration for depositing cable disk, Detachable vertical rod, the upper end connecting cantilever of the vertical rod are formed, described cantilever is telescopic boom 5, and telescopic boom includes The linking arm 5.1 being connected with vertical rod and the transfer arm 5.2 with linking arm phase configuration, chute is set on described linking arm, it is mobile On arm configuration through chute clamping screw 5.3, transfer arm moves forward and backward along chute, in place after locked by clamping screw, to Adjust the length of cantilever.Described linking arm rear end is hinged by bearing pin 7 and vertical rod upper end, and configuration positioning on the connecting arm Bullet pin 6 and the horizontal location hole phase configuration of vertical rod upper end, make linking arm horizontally outward stretch out, and whole hang can be made by extracting positioning bullet pin The crook of the arm is folded down with vertical rod into dress is folded, and is easy to accumulating.Bearing block 1 is connected with the front end of transfer arm, is installed in bearing block Bearing 4, bearing can be ball bearing, connect the optical fibre conduit 3 of bending above bearing block by threaded cap 2, bearing is led with rotation Pipe is connected, and described rotary guide pipe is elastic rotary conduit, including rotation pipe 3.1 is connected with bearing inner race, upper rotation pipe Lower end bends backspin tube 3.3 directed downwardly by the connection of spring 3.2, forms the elastic rotary conduit with pooling feature, described Bending backspin tube directed downwardly be in space right-angle circular arc bending, endpiece bending downwardly lead direction and deposits cable disk inwall Circumference is tangent, or parallel with depositing cable disk inwall tangent to periphery space.Described backspin tube can be made up of corrugated hose.

Claims

1. a kind of low stress optical cable take-up and pay-off device, includes and deposits cable disk, it is characterised in that deposit cable disk side install it is leaded Support, the upper end of down-lead bracket are installed on optical fibre conduit, and the lower end of optical fibre conduit is connected with rotary guide pipe；Described rotation is led Manage as elastic rotary conduit；Described elastic rotary conduit includes the bearing for being installed in cantilever front end, is revolved in the connection of bearing moving-coil Tube, the lower end of upper rotation pipe bend backspin tube directed downwardly by spring connection；Described bending backspin tube tail directed downwardly Downwardly lead direction is tangent with depositing cable disk inwall circumference or parallel with depositing cable disk inwall tangent to periphery space for section bending.

2. the low stress optical cable take-up and pay-off device as described in claim 1, it is characterised in that described down-lead bracket is included with depositing The connected vertical rod in cable disk side, the upper end of vertical rod are connected with cantilever, and optical fibre conduit and rotary guide pipe are installed in the front end of cantilever.

3. the low stress optical cable take-up and pay-off device as described in claim 1 or 2, it is characterised in that described bending backspin directed downwardly Tube is in space right-angle bending.

4. the low stress optical cable take-up and pay-off device as described in claim 2, it is characterised in that described cantilever is telescopic boom, Described telescopic boom includes the linking arm that is connected with vertical rod and the transfer arm with linking arm phase configuration, on described linking arm Chute is set, the clamping screw through chute is configured on transfer arm.

5. the low stress optical cable take-up and pay-off device as described in claim 4, it is characterised in that described linking arm rear end and vertical rod Upper end is hinged, and configuration positioning bullet pin and the positioning hole phase configuration of vertical rod upper end on the connecting arm.

6. the low stress optical cable take-up and pay-off device as described in claim 2, it is characterised in that described vertical rod is provided with downslide Groove, upper gliding groove configuration gliding hook and locking knob, gliding hook and the Pan Kou edges phase configuration for depositing cable disk, are formed detachable Vertical rod.

7. the low stress optical cable take-up and pay-off device as described in claim 6, it is characterised in that described cable disk of depositing opens including upper end The circular disk body opened, circular disk body is interior to set central boss, and the intraoral side of disk of circular disk body sets raised brim and gliding hook Phase configuration, the exterior bottom of circular disk body are provided with slot and vertical rod lower end phase configuration.

8. the low stress optical cable take-up and pay-off device as described in claim 7, it is characterised in that described cable disk upper end of depositing is configured with Disk cover.