CN207638662U - Service operation condition monitoring system - Google Patents
Service operation condition monitoring system Download PDFInfo
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- CN207638662U CN207638662U CN201721706642.9U CN201721706642U CN207638662U CN 207638662 U CN207638662 U CN 207638662U CN 201721706642 U CN201721706642 U CN 201721706642U CN 207638662 U CN207638662 U CN 207638662U
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- terminal equipment
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- 238000012544 monitoring process Methods 0.000 title claims abstract description 40
- 230000005540 biological transmission Effects 0.000 claims abstract description 48
- 230000003287 optical effect Effects 0.000 claims abstract description 46
- 239000013307 optical fiber Substances 0.000 claims description 35
- 238000012360 testing method Methods 0.000 claims description 15
- RTZKZFJDLAIYFH-UHFFFAOYSA-N Diethyl ether Chemical compound CCOCC RTZKZFJDLAIYFH-UHFFFAOYSA-N 0.000 claims description 4
- 239000000835 fiber Substances 0.000 abstract description 8
- 238000004891 communication Methods 0.000 abstract description 3
- 238000012545 processing Methods 0.000 abstract description 3
- 238000010586 diagram Methods 0.000 description 3
- 238000012546 transfer Methods 0.000 description 2
- 238000001514 detection method Methods 0.000 description 1
- 235000013399 edible fruits Nutrition 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000008054 signal transmission Effects 0.000 description 1
Abstract
This application involves a kind of business on-line monitoring system more particularly to a kind of communication service operating state monitoring systems;It includes monitoring convergence device, webmaster end, convergence station Digital Distribution Frame, convergence station optical transmission device, first station optical transmission device, first station Digital Distribution Frame, first station monitor terminal equipment, first station channel end, intermediate station optical transmission device, intermediate station Digital Distribution Frame, intermediate station monitor terminal equipment, second station optical transmission device, second station monitor terminal equipment, second station channel end;The output end of monitoring convergence device is connected to webmaster end by cable.Due to implementing above-mentioned technical proposal, the application only needs that the both ends of the fibre circuit monitored will be needed to be respectively connected to first station channel end, second station channel end;The case where attenuation variation of this section of fibre circuit can be monitored or is interrupted, and being reflected in real time by webmaster end, find light path hidden danger can timely processing, the reduction unplanned interruption times in channel, raising reliability.
Description
Technical field
This application involves a kind of communication service on-line monitoring system more particularly to a kind of service operation condition monitoring systems.
Background technology
There are no on-line monitoring systems for the communications industry at present, cannot accomplish without interrupting the service to important service
Channel be monitored.Now with the universal of Intelligent transformer station, the secondary information and monitoring information of each website depend on
Station end signal will be caused to will be unable to return if optical-fibre channel attenuation where business is excessive or light path is interrupted in power optical fiber channel,
Influence the safety of Operation of Electric Systems.
Invention content
The purpose of the application is to propose a kind of reflection optical-fibre channel in time, scents a hidden danger in time, improve channel reliability
Service operation condition monitoring system.
What the application was realized in:Service operation condition monitoring system comprising monitoring convergence device, converges at webmaster end
Poly- station Digital Distribution Frame, convergence station optical transmission device, first station optical transmission device, first station Digital Distribution Frame, first station monitor terminal are set
Standby, first station channel end, intermediate station optical transmission device, intermediate station Digital Distribution Frame, intermediate station monitor terminal equipment, second station light pass
Transfer device, second station monitor terminal equipment, second station channel end;The output end of monitoring convergence device is connected to webmaster by cable
End, the input terminal for monitoring convergence device are connected to the output end of convergence station optical transmission device by cable, monitor convergence device
Input terminal is also connected by coaxial cable with convergence station Digital Distribution Frame, and convergence station Digital Distribution Frame passes through coaxial cable and convergence
Stand optical transmission device output end be connected;Convergence station optical transmission device input terminal by optical fiber respectively with first station optical transmission device
Output end, the output end of intermediate station optical transmission device, second station optical transmission device output end be connected;First station optical transmission device
Input terminal is connected by coaxial cable with first station Digital Distribution Frame, and first station Digital Distribution Frame is monitored eventually by coaxial cable and first station
The output end of end equipment is connected, and the input terminal of first station monitor terminal equipment is connected to first station channel end by optical fiber;Intermediate station
The input terminal of optical transmission device is connected by coaxial cable with intermediate station Digital Distribution Frame, and intermediate station Digital Distribution Frame passes through coaxial
Cable is connected with the output end of intermediate station monitor terminal equipment;The input terminal of second station optical transmission device is monitored by cable and second station
The output end of terminal device is connected, and the input terminal of second station monitor terminal equipment is connected to second station channel end by optical fiber.
Further, the input terminal of first station monitor terminal equipment is also associated with first station intermediate station ODF by optical fiber;Intermediate station
The input terminal of monitor terminal equipment is connected separately with intermediate station first station ODF, intermediate station second station ODF by optical fiber;The monitoring of second station is eventually
The input terminal of end equipment is also associated with second station intermediate station ODF by optical fiber.
Further, monitoring convergence device includes the master control borad that can realize interconnection function, be connected webmaster with master control borad
Plate, the Ethernet interface being connected with master control borad convergence plate, the coaxial interface convergence plate being connected with master control borad;Webmaster plate
It is connected with webmaster end by cable, convergence station Digital Distribution Frame converges plate with coaxial interface by coaxial cable and is connected, and converges
The output end of optical transmission device of standing converges plate by cable and Ethernet interface and is connected.
Further, first station monitor terminal equipment includes power supply changeover device, control circuit board, test cell, exports coaxially
Interface, output Ethernet interface, input optical fibre interface;Power supply changeover device is connected with the power end of control circuit board, control circuit
The output end of plate is connected with the input terminal of test cell, the output end of test cell respectively with output coaxial interface, output ether
Network interface is connected, and the input terminal of control circuit board is connected with input optical fibre interface;Input optical fibre interface respectively with first station intermediate station
ODF, first station channel end are connected;Output coaxial interface is connected with first station Digital Distribution Frame.
Further, intermediate station monitor terminal equipment, the structure of second station monitor terminal equipment and first station monitor terminal equipment
Unanimously.
Due to implementing above-mentioned technical proposal, the application only needs that the both ends of the fibre circuit monitored will be needed to be respectively connected to
First station channel end, second station channel end;The case where attenuation variation of this section of fibre circuit can be monitored or interrupted, and
Reflected in real time by webmaster end, find light path hidden danger can timely processing, reduce the unplanned interruption times in channel, improve reliable
Property.
Description of the drawings
The concrete structure of the application is provided by drawings and examples below:
Fig. 1 is the attachment structure schematic diagram of the application most preferred embodiment;
Fig. 2 is the structural schematic diagram for monitoring convergence device;
Fig. 3 is the structural schematic diagram of first station monitor terminal equipment.
Legend:1. convergence device is monitored, 101. master control borads, 102. webmaster plates, 103. Ethernet interfaces convergence plate,
104. coaxial interface converges plate, 2. webmaster ends, 3. convergence station Digital Distribution Frame, 4. convergence station optical transmission devices, 5. first station light
Transmission device, 6. first station Digital Distribution Frame, 7. first station monitor terminal equipment, 701. power supply changeover devices, 702. control circuit boards,
703. test cells, 704. output coaxial interfaces, 705. output Ethernet interfaces, 706. input optical fibre interfaces, 8. first station channels
Terminal, 9. intermediate station optical transmission devices, 10. intermediate station Digital Distribution Frame, 11. intermediate station monitor terminal equipment, 12. second station light pass
Transfer device, 13. second station monitor terminal equipment, 14. second station channel ends, 15. first station intermediate station ODF, 16. intermediate station first station ODF,
17. intermediate station second station ODF, 18. second station intermediate station ODF.
Specific implementation mode
The application is not limited by following embodiments, can be determined according to the technical solution of the application and actual conditions specific
Embodiment.
As shown in Figure 1, service operation condition monitoring system is matched including monitoring convergence device 1, webmaster end 2, convergence station number
Coil holder 3, convergence station optical transmission device 4, first station optical transmission device 5, first station Digital Distribution Frame 6, first station monitor terminal equipment 7, first
It stands channel end 8, intermediate station optical transmission device 9, intermediate station Digital Distribution Frame 10, intermediate station monitor terminal equipment 11, second station light
Transmission device 12, second station monitor terminal equipment 13, second station channel end 14;The output end of monitoring convergence device 1 is connected by cable
It is connected to webmaster end 2, the input terminal for monitoring convergence device 1 is connected to the output end of convergence station optical transmission device 4, monitoring by cable
The input terminal of convergence device 1 is also connected by coaxial cable with convergence station Digital Distribution Frame 3, and convergence station Digital Distribution Frame 3 passes through
Coaxial cable is connected with the output end of convergence station optical transmission device 4;The input terminal of convergence station optical transmission device 4 is distinguished by optical fiber
With the output end of first station optical transmission device 5, the output end of the output end of intermediate station optical transmission device 9, second station optical transmission device 12
It is connected;The input terminal of first station optical transmission device 5 is connected by coaxial cable with first station Digital Distribution Frame 6, first station Digital Distribution Frame 6
It is connected with the output end of first station monitor terminal equipment 7 by coaxial cable, the input terminal of first station monitor terminal equipment 7 passes through optical fiber
It is connected to first station channel end 8;The input terminal of intermediate station optical transmission device 9 passes through coaxial cable and intermediate station Digital Distribution Frame 10
It is connected, intermediate station Digital Distribution Frame 10 is connected by coaxial cable with the output end of intermediate station monitor terminal equipment 11;Second station light
The input terminal of transmission device 12 is connected by cable with the output end of second station monitor terminal equipment 13, second station monitor terminal equipment 13
Input terminal second station channel end 14 is connected to by optical fiber.
Substation monitor terminal equipment is mounted on substation optical fiber distributing by the application, is collected, detection signal transmission is converged to monitoring
Poly- equipment 1, then reflected in real time by webmaster end 2.It only needs that the both ends of the fibre circuit monitored will be needed to be respectively connected to first station
Channel end 8, second station channel end 14;The case where attenuation variation of this section of fibre circuit can be monitored or interrupted, and
Reflected in real time by webmaster end 2, find light path hidden danger can timely processing, reduce the unplanned interruption times in channel, raising can
By property.
The application aggregate capabilities are strong, and plate 103 or coaxial can be converged according to business demand flexible configuration Ethernet interface
Interface converges plate 104;Interface has Ethernet interface and two kinds of interfaces of coaxial cable optional.One monitoring convergence device 1 can carry
It is monitored in real time for multicore optical path states.
As shown in Figure 1, the input terminal of first station monitor terminal equipment 7 is also associated with first station intermediate station ODF15 by optical fiber;In
Between the input terminal of station monitor terminal equipment 11 intermediate station first station ODF16, intermediate station second station ODF17 are connected separately with by optical fiber;
The input terminal of second station monitor terminal equipment 13 is also associated with second station intermediate station ODF18 by optical fiber.ODF is fibre distribution frame.
As shown in Fig. 2, monitoring convergence device 1 includes the master control borad 101 that can realize interconnection function and master control borad 101
Be connected webmaster plate 102, the Ethernet interface that is connected with master control borad 101 converge plate 103, be connected with master control borad 101 it is coaxial
Interface converges plate 104;Webmaster plate 102 is connected by cable with webmaster end 2, and convergence station Digital Distribution Frame 3 passes through coaxial electrical
Cable is connected with coaxial interface convergence plate 104, and the output end of convergence station optical transmission device 4 is converged by cable and Ethernet interface
Plate 103 is connected.
Convergence device 1 is monitored to realize using magnificent ring H9MO-LMXE+ equipment cooperation webmaster plate 102;Webmaster plate 102 is used
In monitoring and configuration to monitor terminal equipment and its second line of a couplet channel end;Can display monitoring terminal device power supply status, wind
Fan the working condition and the configuration and management of remote equipment, state and performance monitoring of status monitoring, each block of plate.Coaxial interface
Convergence plate 104 or Ethernet interface convergence plate 103 can realize the convergence access of multiple monitor terminal equipment.
As shown in figure 3, first station monitor terminal equipment 7 includes power supply changeover device 701, control circuit board 702, test cell
703, coaxial interface 704, output Ethernet interface 705, input optical fibre interface 706 are exported;Power supply changeover device 701 and control circuit
The power end of plate 702 is connected, and the output end of control circuit board 702 is connected with the input terminal of test cell 703, test cell 703
Output end respectively with output coaxial interface 704, output Ethernet interface 705 be connected, the input terminal of control circuit board 702 with it is defeated
Enter optical fiber interface 706 to be connected;Input optical fibre interface 706 is connected with first station intermediate station ODF15, first station channel end 8 respectively;Output
Coaxial interface 704 is connected with first station Digital Distribution Frame 6.Power supply changeover device 701 converts 220V alternating current input power supplyings to 9V direct currents
Power supply.Test cell 703 can test the optical fiber attenuation situation being correspondingly connected with, and operation principle is consistent with fibre optic identifier.
As shown in figure 3, intermediate station monitor terminal equipment 11, the structure of second station monitor terminal equipment 13 and first station monitor terminal
Equipment 7 is consistent.
The above technical characteristic constitutes the most preferred embodiment of the application, is imitated with stronger adaptability and best implementation
Fruit can increase and decrease inessential technical characteristic according to actual needs, to meet the needs of different situations.
Claims (6)
1. a kind of service operation condition monitoring system, it is characterised in that match including monitoring convergence device, webmaster end, convergence station number
Coil holder, convergence station optical transmission device, first station optical transmission device, first station Digital Distribution Frame, first station monitor terminal equipment, first station channel
Terminal, intermediate station optical transmission device, intermediate station Digital Distribution Frame, intermediate station monitor terminal equipment, second station optical transmission device, second station
Monitor terminal equipment, second station channel end;The output end for monitoring convergence device is connected to webmaster end by cable, and monitoring convergence is set
Standby input terminal is connected to the output end of convergence station optical transmission device by cable, monitors the input terminal of convergence device also by same
Shaft cable is connected with convergence station Digital Distribution Frame, and convergence station Digital Distribution Frame passes through coaxial cable and convergence station optical transmission device
Output end is connected;Convergence station optical transmission device input terminal by optical fiber respectively with the output end of first station optical transmission device, centre
Stand the output end of optical transmission device, second station optical transmission device output end be connected;The input terminal of first station optical transmission device passes through same
Shaft cable is connected with first station Digital Distribution Frame, the output that first station Digital Distribution Frame passes through coaxial cable and first station monitor terminal equipment
End is connected, and the input terminal of first station monitor terminal equipment is connected to first station channel end by optical fiber;Intermediate station optical transmission device
Input terminal is connected by coaxial cable with intermediate station Digital Distribution Frame, and intermediate station Digital Distribution Frame passes through coaxial cable and intermediate station
The output end of monitor terminal equipment is connected;The input terminal of second station optical transmission device is defeated by cable and second station monitor terminal equipment
Outlet is connected, and the input terminal of second station monitor terminal equipment is connected to second station channel end by optical fiber.
2. service operation condition monitoring system according to claim 1, it is characterised in that:First station monitor terminal equipment it is defeated
Enter end and first station intermediate station ODF is also associated with by optical fiber;The input terminal of intermediate station monitor terminal equipment is separately connected by optical fiber
There are intermediate station first station ODF, intermediate station second station ODF;The input terminal of second station monitor terminal equipment is also associated with by optical fiber in second station
Between stand ODF.
3. service operation condition monitoring system according to claim 1 or 2, it is characterised in that:Monitoring convergence device includes
It can realize the master control borad of interconnection function, the convergence of the webmaster plate that is connected with master control borad, the Ethernet interface being connected with master control borad
Plate, the coaxial interface being connected with master control borad converge plate;Webmaster plate is connected by cable with webmaster end, and convergence station number is matched
Coil holder converges plate with coaxial interface by coaxial cable and is connected, and the output end of convergence station optical transmission device passes through cable and ether
Network interface converges plate and is connected.
4. service operation condition monitoring system according to claim 1 or 2, it is characterised in that:First station monitor terminal equipment
Including power supply changeover device, control circuit board, test cell, output coaxial interface, output Ethernet interface, input optical fibre interface;
Power supply changeover device is connected with the power end of control circuit board, and the output end of control circuit board is connected with the input terminal of test cell,
The output end of test cell respectively with output coaxial interface, output Ethernet interface be connected, the input terminal of control circuit board with it is defeated
Enter optical fiber interface to be connected;Input optical fibre interface is connected with first station intermediate station ODF, first station channel end respectively;Export coaxial interface
It is connected with first station Digital Distribution Frame.
5. service operation condition monitoring system according to claim 3, it is characterised in that:First station monitor terminal equipment includes
Power supply changeover device, control circuit board, test cell, output coaxial interface, output Ethernet interface, input optical fibre interface;Power supply
Converter is connected with the power end of control circuit board, and the output end of control circuit board is connected with the input terminal of test cell, test
The output end of unit is connected with output coaxial interface, output Ethernet interface respectively, the input terminal and input light of control circuit board
Fine interface is connected;Input optical fibre interface is connected with first station intermediate station ODF, first station channel end respectively;Export coaxial interface and first
Digital Distribution Frame of standing is connected.
6. service operation condition monitoring system according to claim 4, it is characterised in that:Intermediate station monitor terminal equipment,
The structure of second station monitor terminal equipment is consistent with first station monitor terminal equipment.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721706642.9U CN207638662U (en) | 2017-12-11 | 2017-12-11 | Service operation condition monitoring system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721706642.9U CN207638662U (en) | 2017-12-11 | 2017-12-11 | Service operation condition monitoring system |
Publications (1)
Publication Number | Publication Date |
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CN207638662U true CN207638662U (en) | 2018-07-20 |
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CN201721706642.9U Withdrawn - After Issue CN207638662U (en) | 2017-12-11 | 2017-12-11 | Service operation condition monitoring system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107947858A (en) * | 2017-12-11 | 2018-04-20 | 国网新疆电力有限公司乌鲁木齐供电公司 | Service operation condition monitoring system |
-
2017
- 2017-12-11 CN CN201721706642.9U patent/CN207638662U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107947858A (en) * | 2017-12-11 | 2018-04-20 | 国网新疆电力有限公司乌鲁木齐供电公司 | Service operation condition monitoring system |
CN107947858B (en) * | 2017-12-11 | 2023-12-12 | 国网新疆电力有限公司乌鲁木齐供电公司 | Service running state monitoring system |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20180720 Effective date of abandoning: 20231212 |
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AV01 | Patent right actively abandoned |
Granted publication date: 20180720 Effective date of abandoning: 20231212 |
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AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |