CN205829625U - A kind of Intelligent Bus on-line detector based on fiber-optic transfer - Google Patents
A kind of Intelligent Bus on-line detector based on fiber-optic transfer Download PDFInfo
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- CN205829625U CN205829625U CN201620711067.0U CN201620711067U CN205829625U CN 205829625 U CN205829625 U CN 205829625U CN 201620711067 U CN201620711067 U CN 201620711067U CN 205829625 U CN205829625 U CN 205829625U
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Abstract
The utility model discloses a kind of Intelligent Bus on-line detector based on fiber-optic transfer, including producing the optical transmitter of optical signal, carrying the optical cable of optical signal and receive the photoreceiver of optical signal, the two ends of described optical cable are connected with optical transmitter and photoreceiver respectively, it is provided with the first breakpoints of optical fiber test module on described optical transmitter, described optical transmitter is provided with the second breakpoints of optical fiber test module.It is somebody's turn to do Intelligent Bus on-line detector based on fiber-optic transfer, use optical cable multizone and many detection node types that fiber-optic transfer is carried out in the optical transmission system of point-to-point fault detect, by the intelligent automatic detecting system of this detector, quickly the failed endpoint of optical cable can be determined, in addition, the detecting system of this detector is wirelessly connected with remote Mobile Control terminal also by communication module such that it is able to carry out remote control, brings the biggest convenience can to the work of maintainer.
Description
Technical field
This utility model relates to bus detection technique field, and a kind of Intelligent Bus based on fiber-optic transfer is examined online
Survey instrument.
Background technology
Fiber-optic transfer, the transmission of the data i.e. carried out for medium with optical fibers, signal.Optical fibers, not only can be used to pass
Defeated analogue signal and digital signal, and the demand of transmission of video can be met.Fiber-optic transfer generally uses optical cable and carries out, single
Fibre-optic message transmission rate can reach a few Gbps, and in the case of not using repeater, transmission range can reach tens kilometers.
Optical fiber is that one uses glass as waveguide, and information is sent to the technology of the other end in the form of light from one end.Today low
Loss glass optical fiber is relative to the transmission medium of early-stage development, the most bandwidth limited and have unique advantage, point
To point optical transmission system be made up of three essential parts: produce optical signal optical transmitter, carry optical signal optical cable and
Receive optical signal photoreceiver, existing fiber-optic transfer in the optical transmission system of point-to-point when breaking down, it is impossible to
Quickly the failed endpoint of optical cable is determined, makes troubles to the work of maintainer.
Utility model content
The purpose of this utility model is to provide a kind of Intelligent Bus on-line detector based on fiber-optic transfer, on solving
State the problem proposed in background technology.
For achieving the above object, the following technical scheme of this utility model offer: a kind of Intelligent Bus based on fiber-optic transfer
On-line detector, including producing the optical transmitter of optical signal, carrying the optical cable of optical signal and receive the photoreceiver of optical signal, institute
The two ends stating optical cable are connected with optical transmitter and photoreceiver respectively, described optical transmitter is provided with the first breakpoints of optical fiber and surveys
Die trial block, described optical transmitter is provided with the second breakpoints of optical fiber test module.
Described optical cable is by the first detection region optical cable, the second detection region optical cable and the 3rd detection region groups of cables conjunction
Become, and the first detection region optical cable and the 3rd detection region optical cable lay respectively at the both sides of the second detection region optical cable, the first inspection
The input surveying region optical cable is connected with optical transmitter, and the outfan of the 3rd detection region optical cable is connected with photoreceiver.
One end that described first detection region optical cable and the second detection region optical cable are connected is provided with the 3rd breakpoints of optical fiber
One end that test module, described second detection region optical cable and the first detection region optical cable are connected is provided with the 4th breakpoints of optical fiber
Test module.
One end that described 3rd detection region optical cable and the second detection region optical cable are connected is provided with the 5th breakpoints of optical fiber
One end that test module, described second detection region optical cable and the 3rd detection region optical cable are connected is provided with six fibers breakpoint
Test module.
Preferably, described first breakpoints of optical fiber test module, the second breakpoints of optical fiber test module, the 3rd breakpoints of optical fiber test
Module, the 4th breakpoints of optical fiber test module, the 5th breakpoints of optical fiber test module, six fibers cut-point measure module are all electrically connected with
Microprocessor, the first outfan of this microprocessor has been electrically connected alarm and display by signal adapter, and micro-
Second outfan of processor is wirelessly connected with remote Mobile Control terminal by communication module.
Compared with prior art, the beneficial effects of the utility model are: should examine online by Intelligent Bus based on fiber-optic transfer
Survey instrument, use optical cable multizone and many detection node types that fiber-optic transfer is carried out in the optical transmission system of point-to-point fault
Detection, by the intelligent automatic detecting system of this detector, it is possible to be quickly determined the failed endpoint of optical cable, additionally,
The detecting system of this detector is wirelessly connected with remote Mobile Control terminal also by communication module such that it is able to carry out remotely
Manipulation, brings the biggest convenience can to the work of maintainer.
Accompanying drawing explanation
Fig. 1 is this utility model structural representation;
Fig. 2 is this utility model control system figure.
In figure: 1 optical transmitter, 2 optical cables, 201 first detection region optical cables, 202 second detection region optical cables, 203 the 3rd
Detection region optical cable, 3 photoreceivers, 4 first breakpoints of optical fiber test modules, 5 second breakpoints of optical fiber test module, 6 the 3rd optical fiber
Cut-point measure module, 7 the 4th breakpoints of optical fiber test modules, 8 the 5th breakpoints of optical fiber test module, 9 six fibers cut-point measure moulds
Block, 10 microprocessors, 11 signal adapters, 12 alarms, 13 display, 14 communication modules, 15 remote Mobile Control terminals.
Detailed description of the invention
Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out
Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole
Embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not under making creative work premise
The every other embodiment obtained, broadly falls into the scope of this utility model protection.
Referring to Fig. 1-2, this utility model provides a kind of technical scheme: a kind of Intelligent Bus based on fiber-optic transfer is online
Detector, including producing the optical transmitter 1 of optical signal, carrying the optical cable 2 of optical signal and receive the photoreceiver 3 of optical signal, light
The two ends of cable 2 are connected with optical transmitter 1 and photoreceiver 3 respectively, and optical transmitter 1 is provided with the first breakpoints of optical fiber test mould
Block 4, optical transmitter 1 is provided with the second breakpoints of optical fiber test module 5.
Optical cable 2 is detected region optical cable 202 and 203 groups of the 3rd detection region optical cable by the first detection region optical cable 201, second
Conjunction forms, and the first detection region optical cable 201 and the 3rd detection region optical cable 203 lay respectively at the second detection region optical cable 202
Both sides, the input of the first detection region optical cable 201 is connected with optical transmitter 1, and the 3rd detects the output of region optical cable 203
End is connected with photoreceiver 3.
One end that first detection region optical cable 201 is connected with the second detection region optical cable 202 is provided with the 3rd optical fiber and breaks
Point test module 6, one end that the second detection region optical cable 202 is connected with the first detection region optical cable 201 is provided with the 4th light
Fine cut-point measure module 7.
One end that 3rd detection region optical cable 203 is connected with the second detection region optical cable 202 is provided with the 5th optical fiber and breaks
Point test module 8, one end that the second detection region optical cable 202 is connected with the 3rd detection region optical cable 203 is provided with the 6th light
Fine cut-point measure module 9.
First breakpoints of optical fiber test module the 4, second breakpoints of optical fiber test module 5, the 3rd breakpoints of optical fiber test module 6, the
Four breakpoints of optical fiber test module the 7, the 5th breakpoints of optical fiber test modules 8, six fibers cut-point measure module 9 are all electrically connected with micro-place
Reason device 10, the first outfan of this microprocessor 10 has been electrically connected alarm 12 and display by signal adapter 11
13, and the second outfan of microprocessor 10 is wirelessly connected with remote Mobile Control terminal 15 by communication module 14, uses light
Cable multizone and many detection node types carry out fault detect to fiber-optic transfer, by this in the optical transmission system of point-to-point
The intelligent automatic detecting system of detector, it is possible to quickly the failed endpoint of optical cable 2 is determined, additionally, this detector
Detecting system is wirelessly connected with remote Mobile Control terminal 15 also by communication module 14 such that it is able to carry out remote control,
Bring the biggest convenience can to the work of maintainer.
The correlation module related in native system is hardware system module or is prior art Computer Software journey
Itself of the functional module that sequence or agreement combine with hardware, computer software programs involved by this functional module or agreement
The technology being well known to those skilled in the art, it is not the improvements of native system;Being improved between each module of native system
Interaction relationship or annexation, be the overall structure to system and improve, to solve solving native system
Relevant art problem.
Embodiment the most of the present utility model, for the ordinary skill in the art,
It is appreciated that in the case of without departing from principle of the present utility model and spirit and these embodiments can be carried out multiple change, repair
Changing, replace and modification, scope of the present utility model is defined by the appended claims and the equivalents thereof.
Claims (2)
1. an Intelligent Bus on-line detector based on fiber-optic transfer, including producing the optical transmitter (1) of optical signal, carrying light
The optical cable (2) of signal and receive the photoreceiver (3) of optical signal, the two ends of described optical cable (2) respectively with optical transmitter (1) and light
Receiver (3) is connected, it is characterised in that: it is provided with the first breakpoints of optical fiber test module (4), institute on described optical transmitter (1)
State and on optical transmitter (1), be provided with the second breakpoints of optical fiber test module (5);
Described optical cable (2) is by the first detection region optical cable (201), the second detection region optical cable (202) and the 3rd detection area light
Cable (203) combines, and the first detection region optical cable (201) and the 3rd detection region optical cable (203) lay respectively at the second inspection
Surveying the both sides in region optical cable (202), the input of the first detection region optical cable (201) is connected with optical transmitter (1), the 3rd inspection
The outfan surveying region optical cable (203) is connected with photoreceiver (3);
One end that described first detection region optical cable (201) is connected with the second detection region optical cable (202) is provided with the 3rd light
Fine cut-point measure module (6), described second detection region optical cable (202) detects that region optical cable (201) is connected with first
End is provided with the 4th breakpoints of optical fiber test module (7);
One end that described 3rd detection region optical cable (203) is connected with the second detection region optical cable (202) is provided with the 5th light
Fine cut-point measure module (8), described second detection region optical cable (202) detects that region optical cable (203) is connected with the 3rd
End is provided with six fibers cut-point measure module (9).
A kind of Intelligent Bus on-line detector based on fiber-optic transfer the most according to claim 1, it is characterised in that: described
First breakpoints of optical fiber test module (4), second breakpoints of optical fiber test module (5), the 3rd breakpoints of optical fiber test module (6), the 4th
Breakpoints of optical fiber test module (7), the 5th breakpoints of optical fiber test module (8), six fibers cut-point measure module (9) are all electrically connected with
Microprocessor (10), first outfan of this microprocessor (10) has been electrically connected alarm by signal adapter (11)
And display (13), and the second outfan of microprocessor (10) is wirelessly connected with remote mobile by communication module (14) (12)
Control terminal (15).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620711067.0U CN205829625U (en) | 2016-07-06 | 2016-07-06 | A kind of Intelligent Bus on-line detector based on fiber-optic transfer |
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Application Number | Priority Date | Filing Date | Title |
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CN201620711067.0U CN205829625U (en) | 2016-07-06 | 2016-07-06 | A kind of Intelligent Bus on-line detector based on fiber-optic transfer |
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CN205829625U true CN205829625U (en) | 2016-12-21 |
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CN201620711067.0U Expired - Fee Related CN205829625U (en) | 2016-07-06 | 2016-07-06 | A kind of Intelligent Bus on-line detector based on fiber-optic transfer |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110082070A (en) * | 2019-05-24 | 2019-08-02 | 广东电网有限责任公司 | Jumping fiber test method |
CN110649962A (en) * | 2019-08-28 | 2020-01-03 | 河南省通信建设监理有限公司 | Intelligent optical cable on-line monitoring system and monitoring method |
CN113588211A (en) * | 2021-07-20 | 2021-11-02 | 国网河北省电力有限公司检修分公司 | Multi-path intelligent optical fiber line calibration tester |
-
2016
- 2016-07-06 CN CN201620711067.0U patent/CN205829625U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110082070A (en) * | 2019-05-24 | 2019-08-02 | 广东电网有限责任公司 | Jumping fiber test method |
CN110649962A (en) * | 2019-08-28 | 2020-01-03 | 河南省通信建设监理有限公司 | Intelligent optical cable on-line monitoring system and monitoring method |
CN113588211A (en) * | 2021-07-20 | 2021-11-02 | 国网河北省电力有限公司检修分公司 | Multi-path intelligent optical fiber line calibration tester |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20161221 Termination date: 20170706 |
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CF01 | Termination of patent right due to non-payment of annual fee |