CN206270454U - A kind of Optical Fiber Transmission centralization partial discharge on-Line Monitor Device - Google Patents

Abstract

Device and signal waveform processor are focused on the utility model discloses a kind of Optical Fiber Transmission centralization partial discharge on-Line Monitor Device, including partial discharge sensor, electrical to optical converter, signal, the partial discharge sensor is connected by high-frequency line with electrical to optical converter；The electrical to optical converter focuses on device and is connected by optical fiber and signal；The signal is focused on device and is connected with signal waveform processor by high-frequency line, control line and netting twine；This Optical Fiber Transmission centralization partial discharge on-Line Monitor Device, the signal of collection can be carried out in situ lossless, without deformation electro-optic conversion by the system terminal of Optical Fiber Transmission analog optical signal with unification unit, the signal monitoring of different frequency range is carried out to multichannel three-phase monitoring point simultaneously, can be by lossless reduction waveform, coupled computer is analyzed localization process using time difference technology to Partial discharge signal, software each measuring point monitoring data of centralization display simultaneously can be coordinated, CSRC data processing platform (DPP) MS can simultaneously make a general survey of all fronts partial discharge monitoring state, its simple structure, it is easy to operate and can improve to cable run safeguard instant validity, simple operation and stablize accuracy.

Description

A kind of Optical Fiber Transmission centralization partial discharge on-Line Monitor Device

Technical field

The utility model is related to Voltage Cable Lines Construction partial discharge on-line monitoring technique field, and specifically a kind of Optical Fiber Transmission is concentrated Formula partial discharge on-Line Monitor Device.

Background technology

High-tension apparatus occur in use it is aging, it is aging after easily there is partial discharge phenomenon, shelf depreciation meeting Cause the generation of electric power accident, directly or indirectly economic loss is produced afterwards, therefore, long-term office is carried out to high-tension electricity equipment Put on-line monitoring to be necessary, according to the feature of Partial discharge signal, Partial discharge signal is very small, and frequency distribution is in 1- Between 50MHz, within this frequency range can along with a certain size background noise, its be according to the wiring construction of power system and The difference of manufacture craft, size and the frequency range distribution of noise is different to be judged.

Existing long-term partial discharge on-Line Monitor Device mainly by be distributed in each monitoring point on cable run with regard to background The data to collecting of standing are acted upon, and data are analyzed by the mother station of data transfer to backstage, work as cable run When more long on the spot substation number may up to more than ten even dozens of so that on the spot substation generally dispersion be widely distributed on whole piece circuit, Data acquisition process is not concentrated, and signal transmission latency issue causes background process data easily to malfunction, and total system is unstable；It is early The monitoring device of phase is merely able to that the signal by fixation, single band-pass filter of frequency band to collecting is analyzed and sentenced Not；Visualization processing is also only capable of displaying a certain measuring point data, it is impossible to while intuitively showing all measuring point monitoring situations.This kind of monitoring Technology is disadvantageous in that：When a certain frequency band filter chosen is accompanied by background noise effects, can not be supervised by center Control data processing platform (DPP) MS remotely switches frequency range, filtering noise observation signal state；CSRC data processing platform (DPP) shows number According to it is not directly perceived not comprehensively, monitoring information is unable to centralized displaying.Erroneous judgement, misjudgement of the equipment to local discharge signal will be caused, when When early monitoring device finds doubtful local discharge signal, to further determine that fault waveform and the positioning to trouble point, survey Examination personnel need to carry the accurate measurement such as oscillograph, frequency spectrograph equipment and carry out repetition measurement to scene, and so numerous and diverse monitoring testing process causes The practicality reduction of partial discharge on-line monitoring system.Therefore, we have proposed it is a kind of the signal of collection can be carried out in situ it is lossless Consumption, the fibre-optic transmission system (FOTS) terminal transmitted without deformation electro-optic conversion and with analog signal form match somebody with somebody a unification unit, while to many Road three-phase monitoring point carries out the signal monitoring of different frequency range, and analog signal can be utilized by lossless reduction waveform, coupled computer Time difference technology is analyzed localization process to fault-signal, and simple structure, easy to operate, and signal transmission uses speed Faster optical fiber, CSRC data processing platform (DPP) MS almost can with the full measuring point signal of no-delay centralized displaying full line, while All fronts situation is made a general survey of, and the optical fiber of the instant validity, simple operation and stabilization accuracy safeguarded to cable run can be improved The centralized partial discharge on-Line Monitor Device of transmission.

Utility model content

The purpose of this utility model is to provide a kind of Optical Fiber Transmission centralization partial discharge on-Line Monitor Device, with structure letter It is single, easy to operate and can improve to cable run safeguard instant validity, simple operation and stabilization accuracy the characteristics of, with Solve the problems, such as to be proposed in above-mentioned background technology.

To achieve the above object, the utility model provides following technical scheme：

A kind of Optical Fiber Transmission centralization partial discharge on-Line Monitor Device, including partial discharge sensor, electrical to optical converter, signal are concentrated Processor and signal waveform processor, the partial discharge sensor are connected by high-frequency line with electrical to optical converter, electrical to optical converter Side is provided with electrical to optical converter power interface, analog input interface and optical fiber output interface；The electrical to optical converter leads to Cross optical fiber and focus on device with signal and be connected, signal focuses on device and switched by photoelectric conversion unit, waveform selecting unit, passage Unit, phase acquisition unit, Digital Signals expanding element, analogy signal processing unit, multiband bandpass filter and height Fast A/D conversions and Digital Signals unit composition, the side that signal focuses on device is provided with optical fiber input interface, with its phase Parallel side is provided with waveform output interface, external phase input interface, Phase-switching switch, signal and focuses on device power supply Switch and power supply indicator, the side that signal focuses on device are provided with Partial discharge signal networking output interface and controlled output connects Mouthful, side in parallel is provided with signal and focuses on device power interface；The signal focus on device by high-frequency line, Control line and netting twine are connected with signal waveform processor, and the super high-speed A/D that is internally provided with of signal waveform processor is changed and number Word signaling control unit, the side of signal waveform processor is provided with control input interface, and side in parallel is provided with Signal waveform processor power supply interface and signal waveform processor power supply are switched, and the side of signal waveform processor is provided with partial discharge Signal network input interface and integrated data network output interface, the bottom of signal waveform processor is provided with Waveform Input and connects Mouthful.

As further program of the utility model：The photoelectric conversion unit is cut with waveform selecting unit and passage respectively Unit connection is changed, passage switch unit is connected with analogy signal processing unit, and analogy signal processing unit is filtered with multiband band logical Ripple device is connected, and multiband bandpass filter is connected with high-speed a/d conversion with Digital Signals unit, and high-speed a/d is changed and number Word signaling control unit is also electrically connected with phase acquisition unit and Digital Signals expanding element respectively.

Compared with prior art, the utility model beneficial effect：

This Optical Fiber Transmission centralization partial discharge on-Line Monitor Device, by partial discharge sensor, electrical to optical converter, signal waveform Processor, signal focus on the setting of device, and wherein device obtains signal by partial discharge sensor, by high-frequency line by signal transmission Electro-optic conversion is carried out to signal in electrical to optical converter, optical signal focuses on device by Optical Fiber Transmission to signal, in signal collection Inside middle processor, the optical signal that will be collected by photoelectric conversion unit first is converted into electric signal, photoelectric conversion unit pair Each channel acquisition to signal there is two-way to export respectively, respectively interface channel switch unit and waveform selecting unit, pass through The selection of passage switch unit will monitor the signal of passage, and the signal transmission after the completion of selection carries out letter to analogy signal processing unit Number treatment, analogy signal processing unit treatment after signal transmission carry out frequency band signals selection to multiband bandpass filter, choosing Signal transmission after the completion of selecting is digitized treatment to signal to high-speed a/d conversion with Digital Signals unit, by ripple The selection of shape select unit will monitor the waveform of passage, signal waveform processor be transferred signals to by high-frequency line, by signal wave Super high-speed A/D conversions in shape processor reduce waveform with Digital Signals unit, wherein, passage switch unit, waveform Select unit, multiband bandpass filter are all changed and Digital Signals unit control selections by high-speed a/d, it is achieved thereby that This Optical Fiber Transmission centralization partial discharge on-Line Monitor Device can by the signal of collection carry out it is lossless, without deformation electro-optic conversion and by The system terminal of Optical Fiber Transmission analog optical signal matches somebody with somebody a unification unit, while carrying out the letter of different frequency range to multichannel three-phase monitoring point Number monitoring, localization process can be analyzed to Partial discharge signal using time difference technology by lossless reduction waveform, coupled computer, Software each measuring point monitoring data of centralization display simultaneously can be coordinated, CSRC data processing platform (DPP) MS can simultaneously make a general survey of all fronts office Put monitoring state, and simple structure, it is easy to operate and can improve cable run is safeguarded instant validity, simple operation and The characteristics of stabilization accuracy.

Brief description of the drawings

Fig. 1 is each modular construction figure of the present utility model；

Fig. 2 is critical piece outside drawing of the present utility model；

Fig. 3 is the status architecture schematic diagram that the utility model is monitored to a cable run；

Fig. 4 is the status architecture schematic diagram that the utility model is monitored to a plurality of cable run.

In figure：1- partial discharge sensors；2- high-frequency lines；3- electricals to optical converter；4- optical fiber；5- signals focus on device；6- believes Number waveform processor；7- transmission processing devices；8- interchangers；9- signals focus on appliance mains switch；11- Partial discharge signal networks Output interface；31- electrical to optical converter power interfaces；32- analog input interfaces；33- optical fiber output interfaces；41- optical fiber is defeated Incoming interface；50- photoelectric conversion units；51- waveform selecting units；52- passage switch units；53- phase acquisition units；54- numbers Word signal controls expanding element；55- analogy signal processing units；56- multiband bandpass filters；57- high-speed a/ds are changed and number Word signaling control unit；58- control lines；59- netting twines；61- super high-speed As/D conversions and Digital Signals unit；62- partial discharges are believed Number networking input interface；63- integrated data network output interfaces；64- signal waveform processor power supply interfaces；65- signal waveforms Processor power supply is switched；66- Waveform Input interfaces；67- control input interfaces；71- light signal transmitters；72- optical signals are received Device；73- back-end datas process computer；91- power supply indicators；92- signals focus on device power interface；The output of 511- waveforms connects Mouthful；531- external phase input interfaces；532- Phase-switchings are switched；581- controlled output interfaces.

Specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment for being obtained, belongs to the scope of the utility model protection.

Fig. 1-3 are referred to, in the utility model embodiment, a kind of Optical Fiber Transmission centralization partial discharge on-Line Monitor Device, bag Include partial discharge sensor 1, electrical to optical converter 3, signal and focus on device 5 and signal waveform processor 6, wherein partial discharge sensor 1 leads to Cross high-frequency line 2 to be connected with electrical to optical converter 3, the side of electrical to optical converter 3 is provided with electrical to optical converter power interface 31, simulation letter Number input interface 32 and optical fiber output interface 33, connect partial discharge sensor 1 to the simulation on electrical to optical converter 3 and believe with high-frequency line 2 Number input interface 32, wherein electrical to optical converter 3 focuses on device 5 and is connected by optical fiber 4 and signal, signal focus on device 5 by Photoelectric conversion unit 50, waveform selecting unit 51, passage switch unit 52, the extension of phase acquisition unit 53, Digital Signals The conversion of unit 54, analogy signal processing unit 55, multiband bandpass filter 56 and high-speed a/d and Digital Signals unit 57 Composition, and photoelectric conversion unit 50 is connected with waveform selecting unit 51 and passage switch unit 52, passage switch unit 52 and Analogy signal processing unit 55 is connected, and analogy signal processing unit 55 is connected with multiband bandpass filter 56, multiband band logical Wave filter 56 is connected with high-speed a/d conversion with Digital Signals unit 57, and high-speed a/d is changed and Digital Signals unit 57 It is connected with phase acquisition unit 53 and Digital Signals expanding element 54 respectively in addition again, signal focuses on the side of device 5 Optical fiber input interface 41 is provided with, side in parallel is provided with waveform output interface 511, external phase input interface 531st, Phase-switching switch 532, signal focuses on appliance mains switch 9 and power supply indicator 91, and signal focuses on the side of device 5 Face is provided with Partial discharge signal networking output interface 11 and controlled output interface 581, and side in parallel is provided with signal collection Middle processor power supply interface 92, connection optical fiber 4 to the signal of optical fiber output interface 33 on electrical to optical converter 3 focuses on device 5 Optical fiber input interface 41, the Partial discharge signal networking output interface 11 that signal focuses on device 5 connects signal waveform by netting twine 59 The Partial discharge signal networking input interface 62 of processor 6, the waveform output interface 511 that signal focuses on device 5 is connected by high-frequency line 2 The Waveform Input interface 66 of signal waveform processor 6 is connect, the controlled output interface 581 that signal focuses on device 5 passes through control line The control input interface 67 of 58 connection signal waveform processors 6, wherein signal focus on device 5 by high-frequency line 2, control line 58 It is connected with signal waveform processor 6 with netting twine 59, the super high-speed A/D that is internally provided with of signal waveform processor 6 is changed and numeral Signaling control unit 61, the side of signal waveform processor 6 is provided with control input interface 67, and side in parallel is set There are signal waveform processor power supply interface 64 and signal waveform processor power supply switch 65, the side of signal waveform processor 6 sets Partial discharge signal networking input interface 62 and integrated data network output interface 63 are equipped with, the bottom of signal waveform processor 6 is set The integrated data network output interface 63 for having Waveform Input interface 66, signal waveform processor 6 connects optical signal by netting twine 59 Transmitter 71, light signal transmitter 71 connects optical signal receiver 72 by optical fiber 4, and optical signal receiver 72 is connected by netting twine 59 Back-end data treatment computer 73 is connect, in specific test, the utility model is applied on cable run, as shown in figure 3, test Personnel need to only monitor in back-end data treatment computer 73, then the Monitoring Data of Observable whole piece cable.

Refer to shown in Fig. 4, its technical scheme is identical with Fig. 1-3, its different technology point is：Many set analog signal collection Middle processing formula partial discharge on-Line Monitor Device simultaneously parallel monitoring when, need to be in the integrated data network of each signal waveform processor 6 The netting twine 59 of output interface 63 connects interchanger 8, and interchanger 8 connects light signal transmitter 71 using netting twine 59, and optical signal sends Device 71 connects optical signal receiver 72 by optical fiber 4, and optical signal receiver 72 connects back-end data and processes computer by netting twine 59 73。

In sum, this Optical Fiber Transmission centralization partial discharge on-Line Monitor Device, by partial discharge sensor 1, electro-optic conversion Device 3, signal waveform processor 6, signal focus on the setting of device 5, and wherein device obtains signal, passes through by partial discharge sensor 1 High-frequency line 2 transfers signals in electrical to optical converter 3 and electro-optic conversion is carried out to signal, and optical signal is transferred to signal by optical fiber 4 Device 5 is focused on, is focused on inside device 5 in signal, the optical signal that will be collected by photoelectric conversion unit 50 first is changed Into electric signal, photoelectric conversion unit 50 to each channel acquisition to signal there is two-way to export respectively, interface channel is cut respectively Unit 52 and waveform selecting unit 51 are changed, selects to monitor the signal of passage by passage switch unit 52, after the completion of selection Signal transmission carries out signal transacting to analogy signal processing unit 55, and the signal transmission after the treatment of analogy signal processing unit 55 is arrived Multiband bandpass filter 56 carries out frequency band signals selection, and the signal transmission after the completion of selection is believed to high-speed a/d conversion and numeral Number control unit 57 is digitized treatment to signal, selects to monitor the waveform of passage by waveform selecting unit 51, passes through High-frequency line 2 transfers signals to signal waveform processor 6, is believed with numeral by the super high-speed A in signal waveform processor 6/D conversions Number control unit 61 reduces waveform, and wherein passage switch unit 52, waveform selecting unit 51, multiband bandpass filter 56 be all By high-speed a/d conversion and the control selections of Digital Signals unit 57, it is achieved thereby that this Optical Fiber Transmission centralization partial discharge is online Monitoring device can carry out the signal of collection lossless, without deformation electro-optic conversion and individual with unification by fibre-optic transmission system (FOTS) terminal Unit, while the signal monitoring of different frequency range is carried out to multichannel three-phase monitoring point, can be by reducing waveform, coupled computer is utilized Time difference technology is analyzed localization process to Partial discharge signal, and simple structure, easy to operate and can improve cable run is tieed up The characteristics of instant validity, simple operation and stabilization accuracy for protecting.

It is obvious to a person skilled in the art that the utility model is not limited to the details of above-mentioned one exemplary embodiment, and And in the case of without departing substantially from spirit or essential attributes of the present utility model, can in other specific forms realize that this practicality is new Type.Therefore, no matter from the point of view of which point, embodiment all should be regarded as exemplary, and is nonrestrictive, this practicality is new The scope of type limits by appended claims rather than described above, it is intended that the equivalency fallen in claim is contained All changes in justice and scope are included in the utility model.Any reference in claim should not be considered as limitation Involved claim.

Moreover, it will be appreciated that although the present specification is described in terms of embodiments, not each implementation method is only wrapped Containing an independent technical scheme, this narrating mode of specification is only that for clarity, those skilled in the art should Specification an as entirety, the technical scheme in each embodiment can also be formed into those skilled in the art through appropriately combined May be appreciated other embodiment.

Claims (2)

1. a kind of Optical Fiber Transmission centralization partial discharge on-Line Monitor Device, including partial discharge sensor（1）, electrical to optical converter（3）, signal Focus on device（5）With signal waveform processor（6）, it is characterised in that：The partial discharge sensor（1）By high-frequency line（2）With Electrical to optical converter（3）Connection, electrical to optical converter（3）Side be provided with electrical to optical converter power interface（31）, analog signal it is defeated Incoming interface（32）With optical fiber output interface（33）；The electrical to optical converter（3）By optical fiber（4）Device is focused on signal（5） Connection, signal focuses on device（5）By photoelectric conversion unit（50）, waveform selecting unit（51）, passage switch unit（52）, phase Position collecting unit（53）, Digital Signals expanding element（54）, analogy signal processing unit（55）, multiband bandpass filter （56）With high-speed a/d conversion and Digital Signals unit（57）Composition, signal focuses on device（5）Side be provided with optical fiber Input interface（41）, side in parallel is provided with waveform output interface（511）, external phase input interface（531）, phase Position switching switch（532）, signal focus on appliance mains switch（9）And power supply indicator（91）, signal focuses on device（5）'s Side is provided with Partial discharge signal networking output interface（11）With controlled output interface（581）, side in parallel is provided with Signal focuses on device power interface（92）；The signal focuses on device（5）By high-frequency line（2）, control line（58）And net Line（59）With signal waveform processor（6）Connection, signal waveform processor（6）Be internally provided with the conversion of super high-speed A/D and number Word signaling control unit（61）, signal waveform processor（6）Side be provided with control input interface（67）, it is in parallel Side is provided with signal waveform processor power supply interface（64）Switched with signal waveform processor power supply（65）, at signal waveform Reason device（6）Side be provided with Partial discharge signal networking input interface（62）With integrated data network output interface（63）, signal wave Shape processor（6）Bottom be provided with Waveform Input interface（66）.

2. a kind of Optical Fiber Transmission centralization partial discharge on-Line Monitor Device according to claim 1, it is characterised in that：The light Electric converting unit（50）Respectively with waveform selecting unit（51）With passage switch unit（52）Connection, passage switch unit（52）With Analogy signal processing unit（55）Connection, analogy signal processing unit（55）With multiband bandpass filter（56）Connection, multifrequency Section bandpass filter（56）With high-speed a/d conversion and Digital Signals unit（57）Connection, high-speed a/d conversion and data signal Control unit（57）Also respectively with phase acquisition unit（53）With Digital Signals expanding element（54）Electrical connection.