CN201887788U - Comprehensive monitoring system for communication circuit facility - Google Patents

Abstract

The utility model belongs to the technical field of sensing monitor, and relates to a comprehensive monitoring system for a communication circuit facility. The comprehensive monitoring system for a communication circuit facility is characterized in that branch monitor station industrial personal computers are connected with a plurality of optical dividers by monitor optical fibers, an output end of each optical divider is connected with a manhole cover sensor or an optical connecting box sensor, another output end of each optical divider is connected with an input end of a next-stage optical divider, mutual connection between each two adjacent optical dividers and between each optical divider and the corresponding manhole cover sensor or the corresponding optical connecting box are realized by monitor optical fibers. The branch monitor station industrial personal computers and operation and maintenance center clients are connected with a database server by an internet or a private network and in signal transmission with the database server. The comprehensive monitoring system for a communication circuit facility has the advantages of full-optical-fiber type, omission of power supply at monitoring points, zero mechanical contact switch output, high reliability, long service life, low cost and capabilities of realizing synchronized multipoint parallel monitor by the aid of the internet or the private network and providing effective technical means for improvement of operating efficiency and communication line and facility operation and maintenance service level.

Description

Communication line facility comprehensive monitor system

Technical field

The utility model belongs to fields of sensing technique monitoring, relates to a cover full fiber type communication line facility comprehensive monitor system, and communication connector, communication well lid on off state and optical cable health status are carried out real time on-line monitoring.

Background technology

Along with society constantly increases information system requirement, city optical fiber communication line direction density and coverage are in continuous growth, requirement to the service of communication line safety guarantee is also improving constantly, if line upkeep work relies on traditional artificial line walking test mode can not adapt to development need merely.The fiber cable cross connection box door is pried open when taking place, the stolen robber of manhole well lid loses, pipeline and optical cable are constructed or other outside destroy, during serious harm communication line installation security, need discovery in time and on the GIS map, accurately show the fault geographical position, to shorten the repairing time.

That attempts at present using on the cross-connecting box and the well lid of communicate by letter mostly is electronic sensor and signal of telecommunication transmission means than complexity, no matter adopt GPRS or local cable, the electronic monitoring transducer all needs power supply with communicating by letter, therefore need lay local cable or periodic replacement battery, the system maintenance amount is big, failure rate is higher, reliability is relatively poor, cost is higher, unfavorable large-scale promotion application.

The key instrument that is used at present that optical cable detects and safeguards is OTDR (optical time domain reflectometer), based on the optical cable monitoring system of this technology patent report (CN1333454, CN1536790 etc.) is early arranged also.But these patents have only realized the real-time monitoring to optical cable health status, but can't be implemented in the monitoring of the field of no any supply of electric power to the handing-over chamber door and the well lid open and-shut mode of communicating by letter.

China Patent No. 200620038859.2, name is called structure and the implementation that " a kind of magneto-optic travel switch " introduced the magneto-optic passive device, but for the single-point monitoring, can not form a system.Publication number is CN101087137A, name is called the Chinese patent of " monitoring system of optical fiber remote multi-point switch status ", on a kind of basis of magneto-optic travel switch, realized the multiple spot monitoring of single system, but can't realize large-scale open-air monitoring the handing-over chamber door and the well lid open and-shut mode of communicating by letter.

The utility model content

The purpose of this utility model is: adopting " a kind of magneto-optic travel switch (200620038859.2) " Chinese patent technology and publication number is CN101087137A, name is called the Chinese patent of " monitoring system of optical fiber remote multi-point switch status ", provide cover full fiber type, a monitoring point to need not power supply, highly reliable, long-life, communication line facility comprehensive monitor system cheaply, communication connector door, communication well lid on off state and optical cable health status are carried out real time on-line monitoring.

For achieving the above object, the technical scheme that adopts is: full optical fiber communication line road facility real-time online comprehensive monitor system, comprise branch monitoring station industrial computer, the cross-connecting box transducer, the well lid transducer, monitoring optical fiber and optical branching device, it is characterized in that: branch monitoring station industrial computer and optical branching device interconnect by monitoring optical fiber, described optical branching device (3) has a plurality of, an output of optical branching device is connected with well lid transducer or Optical cross connects case transducer, another output links to each other with the input of next stage optical branching device, between the adjacent light splitter, interconnect by monitoring optical fiber between optical branching device and well lid transducer or the Optical cross connects case transducer.

Described well lid transducer or Optical cross connects case transducer have a plurality of, are connected in parallel by optical branching device successively.

Divide the monitoring station industrial computer to link to each other with database server by the Internet or private network, and realize the signal transmission with the Operation and Maintenance Center client.

Described minute monitoring station industrial computer and described Operation and Maintenance Center client have a plurality of, parallelly connect operation.

Database server is loaded with " GIS information infrastructure resource management system ", for the Operation and Maintenance Center client call.

The beneficial effects of the utility model are: the present invention is that cover full fiber type, a monitoring point need not to power, do not have mechanical contact, switching value output, highly reliable, long-life, low cost, non-maintaining substantially monitoring system.Adopt the differentiated control technology, utilize branchs monitoring station and database work station realized that many monitoring stations walk abreast, join the monitoring of the chamber door and the well lid open and-shut mode of communicating by letter on a large scale.Multiple spot monitoring coverage reaches 30km, and networking is convenient, can realize the parallel monitoring system of a plurality of branch monitorings by the Internet or private network, realizes the monitoring of synchronization multiple spot; Because of the monitoring point parallel connection, the transducer of arbitrary monitoring point damages the operate as normal that can not influence other monitoring points; Essential safety, explosion-proof, anti-electromagnetic interference; System-wide is adopted by design simplifies light path design most, for saving operation management human cost, timely abort situation and the hidden danger found fast, for optical cable health status provides real-time monitoring, stored monitoring historical data can provide the comparative analysis foundation for degradation, trend and the speed of Optical Fiber Transmission performance in the future, is convenient to work out optical cable renewal plan.Increase work efficiency and promote and provide effective technical means communication line facility O﹠M service level.

Description of drawings

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Fig. 1 divides the monitoring station system structural representation for the utility model;

Fig. 2 divides monitoring station-database work station-client-side system architecture schematic diagram for the utility model.

Among the figure, 1-Optical cross connects case transducer; 2-well lid transducer; The 3-optical branching device; 4-monitors optical fiber; 5-divides the monitoring station industrial computer; 6-the Internet or private network; The 7-database server; 8-Operation and Maintenance Center client.

Embodiment

Fig. 1 has provided the utility model and has divided the monitoring station system structural representation.As seen from Figure 1: the small-sized monitoring system of dividing the monitoring station, comprise branch monitoring station industrial computer (comprehensive monitoring platform) 5, Optical cross connects case transducer 1, well lid transducer 2, monitoring optical fiber 4 and optical branching device (light path distributor) 3, it is characterized in that: monitoring station industrial computer 5 interconnected by monitoring optical fiber 4 with optical branching device 3 in described minute, described optical branching device 3 has a plurality of, an output of optical branching device 3 is connected with well lid transducer 2 or Optical cross connects case transducer 1, another output and next stage optical branching device 3 ' input link to each other, between the adjacent light splitter 3, interconnect by monitoring optical fiber 4 between optical branching device 3 and well lid transducer 2 or the Optical cross connects case transducer 1, open and-shut mode to Optical cross connects case or well lid is monitored, and simultaneously the health status of optical fiber is monitored.

Described well lid transducer 2 or Optical cross connects case transducer 1 have a plurality of, are connected in parallel by optical branching device 3 successively.

Fig. 2 is for dividing monitoring station-database work station-client-side system architecture schematic diagram, diagram divides monitoring station industrial computer 5 to link to each other with database work station 7 by the Internet or enterprises private network 6, the transmission of monitoring signal, Operation and Maintenance Center client 8 links to each other with database work station 7 by the Internet or enterprises private network 6, sends startup, stops monitor signal or consults historical service data.

Described minute monitoring station 5 and Operation and Maintenance Center client 8 have a plurality of, but parallel running.Database work station 7 is loaded with " GIS information infrastructure resource management system ", calls for Operation and Maintenance Center client 8.In " GIS information infrastructure resource management system ", with 1: 2000 electronic chart was Background From Layer, each monitoring point coordinate and pipeline routing diagram layer and monitoring real time information figure layer that drafting obtains through GPS position indicator accurate mapping are through scheming the stacked electronic chart that obtains showing real-time monitoring information that adds.The O﹠M personnel can understanding fault scene more directly perceived and processing in time by generalized information system.

The utility model can be applicable to comprehensive monitorings such as the cross-connecting box of public network and private network, the well lid of communicating by letter, optical cable, communication pipe, can be used as a pith of information infrastructure Intellectualized monitoring and Internet of Things application system.

Claims (4)

1. communication line facility comprehensive monitor system, comprise branch monitoring station industrial computer (5), cross-connecting box transducer (1), well lid transducer (2), monitoring optical fiber (4) and optical branching device (3), it is characterized in that: described minute the monitoring station industrial computer (5) interconnect by monitoring optical fiber (4) with described optical branching device (3), described optical branching device (3) has a plurality of, an output of optical branching device (3) is connected with well lid transducer (2) or Optical cross connects case transducer (1), another output links to each other with the input of next stage optical branching device (3 '), between the adjacent light splitter (3), optical branching device (3) and well lid transducer (2) or and Optical cross connects case transducer (1) between by the monitoring optical fiber (4) interconnect.

2. communication line facility comprehensive monitor system according to claim 1, it is characterized in that: described well lid transducer (2) or Optical cross connects case transducer (1) have a plurality of, are connected in parallel by described optical branching device (3) successively.

3. communication line facility comprehensive monitor system according to claim 1, it is characterized in that: branch monitoring station industrial computer (5) and Operation and Maintenance Center client (8) link to each other with database server (7) by the Internet or private network (6).

4. as communication line facility comprehensive monitor system as described in the claim 3, it is characterized in that: described minute monitoring station industrial computer (5) and described Operation and Maintenance Center client (8) have a plurality of, the parallel connection.