A kind of power emergency communication fiberoptic cable system
Technical field
The utility model relates to and a kind ofly need not welding, can lay fast and the fiberoptic cable system that is connected, and is mainly used in the quick repairing of power communication optical cable.
Background technology
At present, because electric power enterprise has shaft tower and transmission of electricity cable resource, so the OPGW/ADSS optical cable is widely adopted.When running into ice damage, earthquake, typhoon, flood or the like disaster, the OPGW/ADSS optical cable may rupture.The quick-speed first-aid repair method that adopts is to lay optical cable again between the iron tower of fracture optical cable at present, will newly lay optical cable then and carry out welding with the fracture optical cable with the optical cable heat sealing machine, recovers the communication of interrupting.The defective of this method is: the laying of OPGW/ADSS optical cable needs special-purpose laying instrument, can not roll over arbitrarily and put, and electric power optical cable is positioned at the field, remote mountains probably, and the laying instrument is difficult to arrive repairing under adverse weather condition on-the-spot; The optical cable heat sealing machine needs power supply, and often being difficult in the open air provides; The time that the welding optical cable needs is longer, can not satisfy the needs of electrical production.
Summary of the invention
Can not roll over arbitrarily and put, need in the open air to the optical cable heat sealing machine provide deficiencies such as power supply and weld time be long in order to overcome optical cable that existing optical cable exists in the repairing fast, the utility model provides a kind of power emergency communication fiberoptic cable system.Adopting this assembly that the electric power OPGW/ADSS optical cable of fracture is rushed to repair does not need special-purpose laying instrument to lay, and adopts manually and lays, and has solved the laying instrument and be difficult to arrive the on-the-spot problem of repairing under adverse weather condition.In addition, this system does not only need optical fiber splicer and power supply thereof, and the optical cable connection speed is faster, can finish the recovery of 16 core optical cables usually in a few minutes.
The technical scheme that the utility model adopted is: the power emergency communication fiberoptic cable system is made up of relief cable, emergent tail optical fiber and the optical fiber connector of colding pressing.Relief cable is that two ends have the special optical cable of twisting connecting connector fast, and it is installed around on iron pan, lays the placement optical cable by the rolling iron pan during rig-site utilization.A wherein end at emergent tail optical fiber two ends has twists connecting connector fast, and an other end is a ST optical cable Connection Block, and length can be customized according to the scene.The connector of colding pressing is novel optical connector, and it does not need the optical cable welding, and on-the-spot its mechanical hook-up that carries of use directly is pressed into optical fiber wherein and gets final product, and realizes the quick connection of optical cable connector.The connecting connector interconnection is passed through to twist fast with emergent tail optical fiber respectively in the two ends of relief cable, and the fracture optical cable is colded pressing with optical fiber and linked to each other with the ST seat of emergent tail optical fiber after connector connects fast, realizes interrupting the quick repairing of optical cable.
The beneficial effects of the utility model are, scene rush to repair is more quick and convenient, has shortened communication interruption time, and the transmission of fast quick-recovery power controlling signal has guaranteed the operation of electrical network.
Description of drawings
Fig. 1 is a synoptic diagram of the present utility model.Wherein 1 is the optical cable that breaks; The 2nd, the connector of colding pressing; The 3rd, the ST Connection Block; The 4th, emergent tail optical fiber; The 5th, twist connecting connector fast; The 6th, relief cable.
Embodiment
In Fig. 1, with the extraordinary relief cable 6 that is contained on the special-purpose iron pan, load onto pay off rack, open external packing, begin to lay optical cable, the optical cable laying haulage speed generally is advisable with 5~15m/min, and is unsuitable too fast; Traction or speed should be even during drag and drop in the process of laying.After treating that optical cable laying finishes, optical cable is led to phototesting, in case in laying the optical cable process unusual situation.Open fast stubborn connecting connector 5 sealing caps of relief cable 6 and emergent tail optical fiber 4, behind the pilot hole that the pilot pin insertion of corresponding fast stubborn connecting connector 5 is corresponding, about 90 ° of the connector shell that turns clockwise is with the locking of connector interactive mode protective sleeve device.Abolish the OPGW optical cable 1 stainless-steel tube unit of fracture, the length that optical fiber is therefrom taken out about 50cm, and with the ointment wiped clean of alcohol swab with optical fiber surface.The fiber distance tail end is removed the coat of 30mm with the Miller pincers.Handle the fiber end face of termination with the optical fiber cutter, use about the about 10mm of length of bare fibre, optical fiber is pushed forward into from connector 2 afterbodys of colding pressing, be pushed into and remove the watchman's clapper of binding on the connector 2 of colding pressing when running into front end and presetting optical fiber.At last, the ST Connection Block 3 of the emergent tail optical fiber of connector 2 insertions of colding pressing that crimping is good.