CN202886532U - Fault location system based on satellite time synchronization for electric power circuit - Google Patents

Abstract

The utility model discloses a fault location system based on satellite time synchronization for an electric power circuit, belonging to the technical field of power distribution automation for a smart power grid. The fault location system comprises acquisition indicators, acquisition controllers, a main station and a busbar voltage acquisition device, wherein the acquisition indicators, the acquisition controllers and the busbar voltage acquisition device are provided with a clock chip with temperature compensation respectively; and the main station and each acquisition device thereof are provided with respective satellite time synchronization modules or devices, thus ensuring accurate time information included in the data acquired by each part of the system. According to the fault location system disclosed by the utility model, the technical problem of zero-sequence current acquisition for a circuit is solved by adopting a method of synchronously acquiring the three-phase current of the circuit via the acquisition indicators, transmitting the three-phase current to the acquisition controllers in a wireless communication manner, and then mathematically synthesising the zero-sequence current of the circuit; data communication flows among the parts of the system, and data communication between the main station and each acquisition controller, are reduced by taking the acquisition controllers as main components and matching with the main station and the other devices; and the communication efficiency of each part of the system and the fault location efficiency are increased by adopting a method of combining mobile wireless broadcast/multicast service with point-to-point communication.

Description

Based on the synchronous fault positioning system of power line of satellite time

Technical field

The utility model relates to intelligent grid Distribution Automation Technology field, specifically refers to a kind of system based on the synchronous feeder line fault location of satellite time.

Background technology

Electric power transmission line localization of fault distance-finding method mainly contains impedance detection method, reactance detection method and travelling wave ranging method at present, and the problem that above-mentioned several method exists is that the fault deviations is larger.In the distribution network system of China, what extensively adopt is small current neutral grounding system, i.e. isolated neutral or through the distribution system of grounding through arc.The characteristics of power distribution network rack are that broad covered area, branch are many, running environment is complicated, affected greatly by external factor.It is to adopt at distribution line electric fault indicator is installed that present low current grounding system power distribution network mainly adopts the localization of fault mode, comparatively practical mode is the electric fault indicator that adopts with remote communication devices, can realize the long range positioning of distribution line short circuit, over current fault.Because the not direct ground connection of the neutral point of small current neutral grounding system, when system's generation single-phase earthing, earth point electric current stable state ground current is less, and after arc suppression coil put into operation, because the compensating action of neutral point inductive current, the earth point electric current further reduced.According to the operation power rules, small current neutral grounding system can continue operation 1～2 hour in the singlephase earth fault situation.For the singlephase earth fault of overhead transmission line, what at present electric system mainly adopted is to judge according to the line current variable signal that the electric fault indicator that is installed in power distribution network collects, or in transformer station line selection device for low current is installed and is judged.Because the current in wire that is in the power distribution network under the running status is larger, generally in tens peaces between the hundreds of peace, and be in the random fluctuation state, therefore, by the method for Monitoring Line line current fluctuation situation judge single-phase earthing basically be do not have resultful.

Disclosed utility model patent CN201110438732.5 on July 8th, 2012 " pole line fast fault locating method and device that time-based is synchronous ", proposed to adopt Time synchronization technique to gather the voltage of power frame ceases to be busy and the current signal of each branch, the data back main website that gathers with time tag is carried out computing, judge the interval, trouble spot, particularly can improve the singlephase earth fault Accuracy of Judgement.The problem that this utility model exists is: with One's name is legion, be distributed in the circuit difference and all pass main website back with the data of time tag and carry out fault computing and analysis, certainly will will bring huge pressure and impact to communication system, main website data-storage system, CPU in master station, although be feasible on its know-why, under existing data communication and computer technology condition, be difficult to carry out.If adopt the public wireless communication network modes such as GPRS between terminal and the main website, will produce googol according to flow and high communication cost, make the economic worth of applying be subject to severely restricts.

Disclosed utility model patent CN201210008867.2 on July 11st, 2012 " the online localization method of section with low-current ground faults and system thereof ", propose to use the GPS timing device to provide synchronizing clock signals as each phasor node of system, each phasor node will detect separately data communication device and cross GPRS network and reach control center, and control center carries out localization of fault according to the detection data that receive.This patent is except having the common shortcoming with utility model patent CN201110438732.5, and also existing does not have to propose how to solve the problem that the overhead transmission line zero-sequence current gathers, and is difficult to realize using at overhead transmission line.

The utility model content

According to above the deficiencies in the prior art, the purpose of this utility model is to provide a kind of can judge the feeder line fault section fast and accurately, and the fault section positional information is provided, be particularly useful for the fault positioning system of power line of the single-phase earthing type fault analysis location of distribution overhead line.

The technical solution of the utility model is: a kind of based on the synchronous fault positioning system of power line of satellite time, comprise the collection indicator, acquisition controller, main website, described collection indicator comprises acquisition module, power module, main control module, the local communication module, indicating module, memory module, acquisition controller comprises power module, CPU, local I/O equipment, data-carrier store, communication interface, the local communication module, remote communication module is characterized in that: described collection indicator module comprises that also the punctual precision that gathers indicator in the situation of guaranteeing not receive the time synchronizing signal that acquisition controller sends in short-term can satisfy the clock chip with temperature compensation of the requirement of synchronous data sampling; Described acquisition controller also comprises a clock chip with temperature compensation, clock chip connects the satellite time synchronous device, acquisition controller controlled to it with close range wireless communication modes one or more groups gather indicator timed sending time synchronizing signal and data collection synchronous signal.

Further, a kind ofly also comprise the busbar voltage harvester based on the synchronous fault positioning system of power line of satellite time, described busbar voltage harvester comprises voltage acquisition module, power module, CPU, local I/O equipment, data-carrier store, communication interface, local communication module and remote communication module.

Further, described busbar voltage harvester is connected with main website and is connected a satellite time synchronous device, and accurate satellite time is provided.

Further, the time synchronized of described busbar voltage harvester and main website adopts specific cables to realize transmission and the time synchronized of time synchronizing signal, perhaps adopts based on two layers of Ethernet of IEEE1588 PTP precision time protocol and realizes time synchronized.

Adopt above system based on the synchronous feeder line fault localization method of satellite time, comprise following concrete steps:

Step 1: several are set respectively on the three-phase conducting wire of power frame ceases to be busy gather indicator, gather the current data on each phase conductor, data are stamped timestamp, and in chronological order the current data of buffer-stored a period of time in data-carrier store;

Step 2: the main control module that gathers in the indicator compares judgement to the current data that collects, when being judged to be short circuit or overcurrent, the fault-signal indication is sent in the indicating module action, simultaneously failure message is reported to the fail-safe control device by the local communication module;

Step 3: each gathers indicator and connects an acquisition controller, acquisition controller is collected, is stored and analyzes from the data that gather indicator, and the local communication module will include the data transmission of precise time information to acquisition controller with the local wireless transmission mode in real time or periodically.

Adopt above system based on the another kind of localization method of the synchronous feeder line fault of satellite time, comprise following concrete steps:

Step 1: the busbar voltage harvester gathers one the tunnel or multichannel electrical network busbar voltage and residual voltage data, data are stamped timestamp, simultaneous buffering is stored the voltage data of a period of time in data-carrier store, and will be transferred in real time or regularly main website with the voltage data of timestamp according to rule;

Step 2: main website is judged according to the voltage data of bus harvester collection, when being judged to be the fault of electrical network single-phase earthing, main website sends to acquisition controller with voltage data, and acquisition controller is downloaded each phase current data of fault period immediately from corresponding collection indicator;

Step 3: each phase current waveform data of the same timestamp that acquisition controller will receive

Or the current vector data to carry out the mathematics superposition synthetic, calculate measurement point zero-sequence current Wave data and vector data;

Step 4: acquisition controller starts the singlephase earth fault decision procedure and carries out fault analysis, carries out preliminary judgement and the result is sent to main website according to the zero-sequence current data that calculate;

Step 5: the information that main website feeds back according to acquisition controller, analyze the fault section of directly confirming single-phase earthing after judging.

Further, in the described step 2 main website to transmit voltage data to the load mode of acquisition controller be to adopt the mobile wireless broadcasting multicast service.

Further, acquisition controller is judged with the default limit value of adjusting according to the data of the zero-sequence current steady-state signal that obtains and residual voltage steady-state signal in the described step 3, when steady-state quantity greater than adjusting limit value and satisfy the certain hour requirement, judge that then fault is at measurement point circuit downside.

Further, the zero-sequence steady state current signal that acquisition controller collects in the described step 3 is not obvious, and acquisition controller can carry out the singlephase earth fault analysis by first half-wave method or Wavelet Transform according to gathering transient current, the transient voltage data that indicator and busbar voltage harvester send.

The utility model adopts the zero-sequence current mathematics synthetic method based on three-phase current synchronous acquisition and wireless transmission, solved and gathered the technical barrier that overhead transmission line zero-sequence current vector gathers, the various singlephase earth fault decision methods of low current neutral grounding electric network system are implemented, realize judging on the spot that at acquisition controller the overhead transmission line singlephase earth fault is judged and the location, improved accuracy and practicality that isolated neutral system and single-phase grounded malfunction in grounded system of low current are judged the location.

The fault that adopts Distribution and Centralization to combine is judged the localization process pattern, mainly finishing fault analysis by each acquisition controller judges, solved under the existing communication condition the data centralization of each collection point to main website data transmission time-delay length, master communication equipment, data storage device, problem that server CPU pressure is large, reduce the data traffic between main website and the acquisition controller, improved the efficient that line fault is judged and located.

The downward transmission of busbar voltage data and main website steering order, adopt broadcasting or multicast data communication mode, solved main website under the existing communication condition terminal has been adopted the point-to-point long problem of data transmission time-delay that issues one by one, reduced the data traffic between main website and the acquisition controller, the efficient that the data transmission efficiency of raising and line fault are judged and located.

Description of drawings

Below in conjunction with accompanying drawing embodiment of the present utility model is described in further detail.

Fig. 1 is system global structure block diagram of the present utility model and acquisition controller structure block diagram;

Fig. 2 is collection indicator structure block diagram of the present utility model;

Fig. 3 is busbar voltage harvester structure block diagram of the present utility model;

Fig. 4 is that system and device of the present utility model is installed distribution schematic diagram;

Fig. 5 is that system of the present utility model implements schematic diagram at the 10KV circuit.

Embodiment

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

Fig. 1, Fig. 2, shown in Figure 3 one a kind of based on the synchronous fault positioning system of power line of satellite time, comprise the collection indicator, acquisition controller, main website, described collection indicator comprises acquisition module, power module, main control module, the local communication module, indicating module, memory module, acquisition controller comprises power module, CPU, local I/O equipment, data-carrier store, communication interface, the local communication module, remote communication module, described collection indicator module also comprises the clock chip with temperature compensation, guarantees not receive in short-term the requirement that the punctual precision that gathers indicator in the situation of the time synchronizing signal that acquisition controller sends can satisfy synchronous data sampling; Described acquisition controller also comprises the clock chip with temperature compensation, clock chip connects the satellite time synchronous device, acquisition controller controlled to it with close range wireless communication modes one or more groups gather indicator timed sending time synchronizing signal and data collection synchronous signal.Also comprise the busbar voltage harvester, described busbar voltage harvester comprises voltage acquisition module, power module, CPU, local I/O equipment, data-carrier store, communication interface, local communication module and remote communication module.Described busbar voltage harvester is connected with main website and is connected a satellite time synchronous device, and accurate satellite time is provided.

Fig. 4 is the embodiment of the distribution line system of a transformer station.Main website generally is installed in distribution regulation and control center, realizes failure monitoring and location to the distribution line under one or more transformer stations, and the satellite time synchronous device provides accurate satellite time to main station system equipment; The busbar voltage harvester be installed in the substation bus bar PT cabinet or near, realization is to the three-phase voltage of one or more snippets bus, voltage waveform and the data acquisition of bus residual voltage, and the satellite time synchronous device in the transformer station is responsible for providing accurate satellite time to it; Acquisition controller is installed in the switch cubicle, cable distribution box, ring main unit of distribution line or on the shaft tower of distribution overhead line, generally according to situations such as the length of distribution line, branches, at the diverse location of a distribution line acquisition controller is installed respectively; According to on-the-spot practical communication condition, an acquisition controller is responsible for controlling one or more groups collection indicator; One group of collection indicator is comprised of three collection indicators, is articulated on cable or the overhead line conductor, gathers respectively A, B, C three-phase current.Acquisition controller adopts the solar cell way to take power, gathers indicator and adopts body CT power taking or solar cell way to take power, acquisition controller, each freely its built-in power module power supply that comprises voltage stabilizing charging circuit and accumulator of collection indicator.The power supply of main website equipment, busbar voltage harvester, satellite time synchronous device is installed the location electric power system by device and is provided.

Fig. 5 is embodiment schematic diagram on the 10KV of the transformer station circuit.1 section 10kV bus of transformer station has L1, L2, L3 totally 3 road 10KV circuits.The busbar voltage harvester be installed in the 10kV bus PT cabinet or near, be responsible for gathering each phase voltage of bus and residual voltage.KZ1～KZ12 is installed on the overhead line structures amounts to 12 acquisition controllers, ZS1～ZS12 is installed on the line wire amounts to 12 groups of collection indicators, the corresponding 1 group of collection indicator ZS1 of acquisition controller KZ1 is corresponding one by one by that analogy.1 group of collection indicator comprises 3 collection indicators, is suspended on respectively on A, B, the C three-phase conducting wire.Among the figure, K1, K2, K3 are line-breaker, and K is the grounding through arc switch.Position location satellite every 1s with the radiowave mode to the time synchronism apparatus of system's each several part or module send once to the time signal, to guarantee the time accuracy of system's each several part.Adopt the optical fiber communication mode to be connected between main website and the busbar voltage harvester, its traffic rate is 2Mbps～100Mbps; Utilize the GPRS wireless communication networks to carry out remote data communication between main website and the fail-safe control device, adopt 10M～100M optical fiber to be connected between main website and the GPRS radio communication service merchant, utilize the GPRS wireless communication rate to be 115kbps between GPRS wireless base station and each the fail-safe control device; Adopt the Zigbee communication based on the 2.4GHz frequency range to carry out local data communication between fail-safe control device and each the collection indicator, its traffic rate is about 250kbps, and the fail-safe control device regularly gathers indicator issuing time synchronizing signal and gathers synchronizing signal with radio broadcasting mode to each.

The 10KV circuit is under normal operating condition, all in normal range, the collection indicator of installing on circuit L1, L2, each shaft tower of L3, each phase current data of circuit that acquisition controller gathers and fluctuation range thereof are all in normal range for bus phase voltage, residual voltage.The busbar voltage harvester is stamped timestamp with the voltage waveform data, is buffered in the local data memory, and the voltage effective value that collects, the timing of voltage-phase angular data are reported main website.Be suspended on each phase acquisition indicator on the line wire according to the synchronous acquisition signal of acquisition controller, separately the current waveform data that gather are stamped timestamp, be buffered in the local data memory, calculate current effective value, current phase angle, current effective value, current phase angle data timing are uploaded to acquisition controller.Acquisition controller in local data memory, according to information lock in time, calculates each received phase current data buffer storage the synthetic line zero-sequence current, and regularly each phase current data and zero-sequence current data is reported main website.Main website will be stored in the database from the data of each voltage, the timing of current acquisition point or real-time report.When network system was normally moved, except the data of set time point, the data that are buffered in each harvester did not upload to main website, and the data that storage is exceeded the time limit will be upgraded covering automatically by new data.

Suppose that circuit L3 the alternate overcurrent/short circuit of AB phase conductor occurs and causes line-breaker K3 tripping operation between collection indicator ZS11 and ZS12, then gathering indicator ZS9 has one to A phase, the B current values that facies unit gathers of ZS11 and rises suddenly, surpasses the limit value of adjusting, drops to zero process subsequently, according to the fault current collection indicator of whether flowing through, can clearly judge overcurrent/short trouble section.Fault current is through A phase, the B phase acquisition indicator of ZS9 to ZS11, the failure indication module that A, B gather indicator sends fault indication signal, and the data such as three-phase current waveform, effective value, phasing degree and result of determination of fault generating process period are uploaded to main website through acquisition controller.

Suppose that circuit L3 is gathering generation A phase conductor permanent earth fault between indicator ZS11 and the ZS12, because the 10KV line system is small current neutral grounding system, the electric current of earth point of flowing through is less, directly judges that according to the situation of change of line current line single phase grounding failure almost is impossible by gathering indicator.The judgement of the utility model singlephase earth fault is mainly finished jointly by acquisition controller, busbar voltage acquisition controller and main station system three.After A phase conductor permanent earth fault occurs between ZS11 and the ZS12, the A phase-to-ground voltage of bus and affiliated each bar circuit descends, B phase C phase-to-ground voltage rises, bus open-delta voltage (being the bus residual voltage) rises, when the bus residual voltage is judged setting valve greater than earth fault, the busbar voltage acquisition controller immediately with the voltage data that collects and ground connection before and after moment the voltage waveform data upload to main website.Main website is combined into the fault message with fault data and is issued to acquisition controller KZ1-KZ12 with broadcasting or multicast mode.Acquisition controller unpacks analysis to receiving the fault message, the time of failure information that provides according to the fault message, from gathering the indicator retrieval and downloading current waveform data and the current data of this period, and synthetic zero-sequence current waveform and zero-sequence current, and start the single-phase earthing routine analyzer, carry out the earth fault analysis by steady state method, transient method.After acquisition controller is finished earth fault and judged, gather indicator under the fault phase line and send the fault indication signal instruction, and the fault verification result is reported main website with the message form.A phase conductor generation permanent earth fault occurs between front hypothesis ZS11 and the ZS12, so, according to data messages such as the bus three-phase voltage of fault period of right time, residual voltage, zero-sequence current, zero-sequence current waveforms, acquisition controller can judge more exactly that whether flow through circuit and the fault of its monitoring of earth-fault current is separate.The Single-phase Ground Connection Failure shown in 5 with reference to the accompanying drawings, zero-sequence current variable signal when KZ9-KZ11 collects obvious fault, the busbar voltage, the residual voltage data that provide in conjunction with main website, judge the A phase conductor of earth fault after ZS11, ZS9 will send fault indication signal to the A phase acquisition indicator of ZS11, and other gathers indicator and does not send fault indication signal.If the singlephase earth fault signal is not obvious, acquisition controller is difficult to judge the earth fault section, main website does not receive the fault verification object information of each relevant acquisition controller feedback after waiting for a period of time, then send data calling instruction, collect the data of each circuit collection point of fault period of right time, further analyze.

The implementation method of the utility model in single supply, overhead transmission line running environment only enumerated in above-mentioned enforcement, and by simple scheme change, the utility model is equally applicable to the localization of fault of dual power supply distribution, cable line and implements.Based on the system of technical scheme described in the utility model and method, not only can be used for the distribution network failure location of the electric pressures such as 10kV, 35 kV, also applicable to the localization of fault of 110kV electric pressure power transmission network.

Although specifically show and introduced the utility model in conjunction with preferred embodiment; but the those skilled in the art should be understood that; within not breaking away from the spirit and scope of the present utility model that appended claims limits; in the form and details the utility model is made a variety of changes, be protection domain of the present utility model.

Claims (4)

1. one kind based on the synchronous fault positioning system of power line of satellite time, comprise the collection indicator, acquisition controller, main website, described collection indicator comprises acquisition module, power module, main control module, the local communication module, indicating module, memory module, acquisition controller comprises power module, CPU, local I/O equipment, data-carrier store, communication interface, the local communication module, remote communication module is characterized in that: described collection indicator module comprises that also the punctual precision that gathers indicator in the situation of guaranteeing not receive the time synchronizing signal that acquisition controller sends in short-term can satisfy the clock chip with temperature compensation of the requirement of synchronous data sampling; Described acquisition controller also comprises a clock chip with temperature compensation, clock chip connects the satellite time synchronous device, acquisition controller controlled to it with close range wireless communication modes one or more groups gather indicator timed sending time synchronizing signal and data collection synchronous signal.

2. according to claim 1 a kind of based on the synchronous fault positioning system of power line of satellite time, it is characterized in that: also comprise the busbar voltage harvester, described busbar voltage harvester comprises voltage acquisition module, power module, CPU, local I/O equipment, data-carrier store, communication interface, local communication module and remote communication module.

3. according to claim 1 and 2 a kind of based on the synchronous fault positioning system of power line of satellite time, it is characterized in that: described busbar voltage harvester is connected with main website and is connected a satellite time synchronous device.

4. according to claim 1 and 2 a kind of based on the synchronous fault positioning system of power line of satellite time, it is characterized in that: the time synchronized of described busbar voltage harvester and main website adopts specific cables to realize transmission and the time synchronized of time synchronizing signal, perhaps adopts based on two layers of Ethernet of IEEE1588 PTP precision time protocol and realizes time synchronized.

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