CN207732764U - A kind of monitoring positioning device of cable breakout - Google Patents
A kind of monitoring positioning device of cable breakout Download PDFInfo
- Publication number
- CN207732764U CN207732764U CN201820163651.6U CN201820163651U CN207732764U CN 207732764 U CN207732764 U CN 207732764U CN 201820163651 U CN201820163651 U CN 201820163651U CN 207732764 U CN207732764 U CN 207732764U
- Authority
- CN
- China
- Prior art keywords
- coupler
- photo
- module
- optical
- cable
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Optical Communication System (AREA)
Abstract
The utility model discloses a kind of monitoring positioning devices of cable breakout.It includes terminal box, optical transmitter module, optical receiver module, NBIoT transparent transmissions module, photo-coupler and light separator are equipped in the terminal box, the input terminal of the light separator connects optical cable, the input terminal and optical receiver module of the output end connection photo-coupler of the light separator, the optical receiver module connects NBIoT transparent transmission modules, the input terminal of the optical transmitter module connection photo-coupler, the output end of the photo-coupler connect optical cable.The utility model has the beneficial effects that:Fracture defect warning message is sent from trend remote service end when crack conditions occurs in optical cable, discovery time and the investigation time of failure is greatly shortened, data transmission will not be impacted.
Description
Technical field
The utility model is related to fiber optic communications correlative technology fields, refer in particular to a kind of monitoring positioning dress of cable breakout
It sets.
Background technology
During Networks of Fiber Communications in early stage is built, the laying scale is smaller of lightguide cable link, failure rate is low, in management service
There is no general standards for aspect, as long as so management service manual work to optical cable.But with fiber optic communication skill
The development of art, fiber optic communication have become the most important transmission means of communication operation industry, and pipelined communication transmission network is every year with million
The speed construction of kilometer is simultaneously come into operation, and so huge to use scale, only being safeguarded by manpower cannot meet the requirements,
Demand of the communication operation department to efficient supervision fiber-optic communications traffic net is increasing.Therefore, how optical cable is carried out real
When effectively monitor, and after breaking down, how to find failure in time, it is efficient to debug, have become urgently to be resolved hurrily
The problem of.
Traditional judges the method for Cable's Fault by manually investigating, and needs staff to be likely to cause optical cable
Optical cable in fault coverage is investigated in turn, time-consuming and laborious, largely delays the repairing progress of optical cable.
Utility model content
The utility model is that in order to overcome the above deficiencies in the prior art, failure hair can be shortened by providing one kind
Between current and the monitoring positioning device of the cable breakout of investigation time.
To achieve the goals above, the utility model uses following technical scheme:
A kind of monitoring positioning device of cable breakout, including terminal box, the terminal box is interior to be equipped with optical transmitter module, light
The input terminal of receiving module, NBIoT transparent transmissions module, photo-coupler and light separator, the light separator connects optical cable, the light
The input terminal and optical receiver module of the output end connection photo-coupler of separator, the optical receiver module connect NBIoT transparent transmissions
Module, the optical transmitter module connect the input terminal of photo-coupler, and the output end of the photo-coupler connects optical cable.
By light separator by detect Signal separator come out, be decoded by optical receiver module, then with light emitting mould
The detection signal of block is matched, and there is no problem for optical cable if consistent, if it is inconsistent, it is disconnected to determine that the preceding paragraph optical cable exists
Situation is split, there will be the information of fracture to be sent to remote server by NBIoT transparent transmissions module.Design can go out in optical cable in this way
Send fracture defect warning message from trend remote service end when existing crack conditions, staff can according to the warning message,
The place that locating optical cable breaks down greatly shortens failure to must only be overhauled to the circuit of the faulty section
Discovery time and investigation the time.
Preferably, the output end of the light separator includes TCP data segment and detection signal section, the number
It is connect with photo-coupler according to transmission section, the detection signal section is connect with optical receiver module.
Preferably, the carrier wavelength of the optical transmitter module and the carrier wavelength of TCP data segment are inconsistent.Due to
The carrier wavelength of optical transmitter module is different with the carrier wavelength of cable interior TCP data segment, so will not be made to data transmission
At influence.
Preferably, further including microcontroller in the terminal box, the microcontroller connects with optical transmitter module, light respectively
It receives module, NBIoT transparent transmissions module, photo-coupler to connect with light separator, the number for being internally provided with terminal box of the microcontroller,
The NBIoT transparent transmissions module is connect by NB networks with remote server.Pass through the design of number so that staff can
Quickly positioning opposite position, to substantially increase treatment effeciency.
The utility model has the beneficial effects that:When crack conditions occurs in optical cable fracture event is sent from trend remote service end
Hinder warning message, greatly shortens discovery time and the investigation time of failure, data transmission will not be impacted.
Description of the drawings
Fig. 1 is the structure diagram of the utility model.
In figure:1. light separator, 2. optical transmitter modules, 3. optical receiver modules, 4.NBIoT transparent transmission modules, 5. photo-couplers.
Specific implementation mode
The utility model is further described with reference to the accompanying drawings and detailed description.
In embodiment as described in Figure 1, a kind of monitoring positioning device of cable breakout, including terminal box is set in terminal box
There are optical transmitter module 2, optical receiver module 3, NBIoT transparent transmissions module 4, photo-coupler 5 and light separator 1, the input of light separator 1
End connection optical cable, the input terminal and optical receiver module 3 of the output end connection photo-coupler 5 of light separator 1, optical receiver module 3 connect
NBIoT transparent transmissions module 4 is connect, optical transmitter module 2 connects the input terminal of photo-coupler 5, and the output end of photo-coupler 5 connects optical cable.
The output end of light separator 1 includes TCP data segment and detection signal section, and TCP data segment is connect with photo-coupler 5,
Detection signal section is connect with optical receiver module 3.The carrier wavelength of optical transmitter module 2 and the carrier wavelength of TCP data segment are not
Unanimously.Further include microcontroller in terminal box, microcontroller respectively with optical transmitter module 2, optical receiver module 3, NBIoT transparent transmissions module 4,
Photo-coupler 5 and light separator 1 connect, and the number for being internally provided with terminal box of microcontroller, NBIoT transparent transmissions module 4 passes through NB nets
Network is connect with remote server.
In use, one terminal box of every three kilometers of optical cable laying, optical transmitter module 2 passes through one specific wavelength of transmitting
Monitoring signals, to be detected to the break-make of optical cable, due to the carrier wave wave of its carrier wavelength and cable interior TCP data segment
It is long different, so will not be impacted to data transmission, by photo-coupler 5, by the signal and light separator of optical transmitter module 2
1 TCP data segment out is integrated, and then the data-signal after integration is gone out by an optical cable transmission.It is another in optical cable
The terminal box of one end receives the data-signal from upper one end terminal box, and monitoring signals sum number is isolated by light separator 1
According to transmission section, analysis is decoded to monitoring signals by optical receiver module 3, passes through the prison of microcontroller and optical transmitter module 2
It surveys signal to be compared, judges whether optical cable is broken, if signal is consistent, then it is assumed that be not broken, pass through optical coupling
Device 5 is sent to after being integrated the TCP data segment that the monitoring signals of optical transmitter module 2 come out with light separator 1 by optical cable
In next terminal box, if signal is inconsistent, it is judged as cable breakout, by microcontroller by the number information of the terminal box
It is transmitted in the NB networks of operator by NBIoT transparent transmissions module 4, final staff receives the monitoring signals and carries out accurately
Positioning.
Claims (4)
1. a kind of monitoring positioning device of cable breakout, characterized in that including terminal box, light emitting is equipped in the terminal box
Module (2), optical receiver module (3), NBIoT transparent transmissions module (4), photo-coupler (5) and light separator (1), the light separator
(1) input terminal connects optical cable, the input terminal and light-receiving mould of the output end connection photo-coupler (5) of the light separator (1)
Block (3), the optical receiver module (3) connect NBIoT transparent transmissions module (4), and the optical transmitter module (2) connects photo-coupler
(5) output end of input terminal, the photo-coupler (5) connects optical cable.
2. a kind of monitoring positioning device of cable breakout according to claim 1, characterized in that the light separator (1)
Output end include TCP data segment and detection signal section, the TCP data segment connect with photo-coupler (5), institute
The detection signal section stated is connect with optical receiver module (3).
3. a kind of monitoring positioning device of cable breakout according to claim 2, characterized in that the optical transmitter module
(2) carrier wavelength of carrier wavelength and TCP data segment is inconsistent.
4. a kind of monitoring positioning device of cable breakout according to claim 1 or 2 or 3, characterized in that the wiring
Further include microcontroller in box, the microcontroller respectively with optical transmitter module (2), optical receiver module (3), NBIoT transparent transmission modules
(4), photo-coupler (5) and light separator (1) connection, the number for being internally provided with terminal box of the microcontroller, the NBIoT
Transparent transmission module (4) is connect by NB networks with remote server.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820163651.6U CN207732764U (en) | 2018-01-31 | 2018-01-31 | A kind of monitoring positioning device of cable breakout |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820163651.6U CN207732764U (en) | 2018-01-31 | 2018-01-31 | A kind of monitoring positioning device of cable breakout |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207732764U true CN207732764U (en) | 2018-08-14 |
Family
ID=63080990
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820163651.6U Active CN207732764U (en) | 2018-01-31 | 2018-01-31 | A kind of monitoring positioning device of cable breakout |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207732764U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US11658740B2 (en) | 2020-05-27 | 2023-05-23 | Telia Company Ab | Monitor of optical fiber |
-
2018
- 2018-01-31 CN CN201820163651.6U patent/CN207732764U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US11658740B2 (en) | 2020-05-27 | 2023-05-23 | Telia Company Ab | Monitor of optical fiber |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN102136868B (en) | Baseband unit (BBU)-radio remote unit (RRU) failure judgment method for telecom base station | |
WO2017118149A1 (en) | Method and apparatus for rapidly collecting fibre interconnection information | |
US10931394B2 (en) | Optical-fiber link routing look-up method, fault detection method and diagnostic system | |
CN111130633B (en) | Optical cable fault positioning method in power channel based on NB-IoT technology | |
CN106330298A (en) | Real-time optical cable fiber core monitoring system | |
CN105306137A (en) | Optical fiber detection method, optical fiber detection device, optical fiber detection platform and network element management system | |
CN103957051A (en) | Optical cable on-line monitoring device | |
CN104320185A (en) | Optical fiber circuit monitoring system | |
CN107231188B (en) | Method for rapidly identifying optical fiber link breaking point of intelligent station | |
CN104796191B (en) | A kind of transmitting device | |
CN109510663A (en) | A kind of system and method that fiber optic cable monitor and big data analysis are carried out based on intelligent optical fiber distribution | |
CN104348540B (en) | Automatic monitoring and protection system of optical-fiber line | |
CN207732764U (en) | A kind of monitoring positioning device of cable breakout | |
CN204215230U (en) | Fiber cable cross connection box supervisory system | |
CN206135922U (en) | Fiber channel monitoring system | |
CN106571955A (en) | Optical power monitoring system cooperation intelligence optical fiber management system and fault processing method | |
CN204068976U (en) | A kind of optic-fiber monitoring system | |
CN205829625U (en) | A kind of Intelligent Bus on-line detector based on fiber-optic transfer | |
CN104796192B (en) | A kind of intelligent real-time multichannel optic-fiber monitoring system and method | |
CN201025711Y (en) | A wave division transmission system for optical cable failure self check | |
CN207369037U (en) | A kind of optical cable multichannel fibre core real-time monitoring device and system | |
CN212134033U (en) | Optical cable fiber core inspection device | |
CN109495166A (en) | A kind of fiber failure positioning analysis system based on communication data link analysis | |
CN108988939A (en) | It is a kind of it is quick judge optical cable decaying whether the method for exception and optical module luminous power specific value | |
CN206595998U (en) | Optical fiber real-time monitoring remote control data Transmission system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |