CN205027858U - Special fault indicator of high -tension transmission net cable run - Google Patents

Abstract

The utility model provides a special fault indicator of high -tension transmission net cable run, include measured module, get electric module, power module, energy storage module, MCU and communication module, measured module is continuous with the ADC unit in the MCU, and the cable run current data that will gather passes through the ADC unit and transmits the central processing unit in the MCU to it judges to carry out cable fault through central processing unit, communication module is used for passing to upper system with the cable run current data of monitoring and on judging the fault -signal who obtains, get electric module and be used for acquireing the electric energy from cable run response, get that electric module and energy storage module link to each other and charge for the energy storage module, get electric module and link to each other with power module, for the MCU power supply, when cable run breaks down, get electric module through the electric energy substitution of energy storage module storage and supply power for MCU. The utility model discloses can carry out effectual electric volume to high tension cable's earth fault, short -circuit fault and detect, realize the quick online fault locating to fault section.

Description

The special fault detector of grid cable line

Technical field

The utility model relates to the special fault detector of a kind of 110KV/220kV power cable, belongs to system for distribution network of power fault section location device.Be mainly used in the short circuit and earth fault deixis that run in the use procedure of urban power distribution network cable, especially for multi-way cable circuit and pole line and cable hybrid line, there is clear superiority.

Background technology

Current, along with development and the City Life Quality raising of urban economy, the numerous urban network reconstruction of China progressively accelerates process, wherein 220kV and 110kV year by year overhead transmission line all will adopt and to put cable underground mode, " cable chemical industry journey " i.e. city cable rate, produces brand-new realistic effect to beautifying urban environment and lifting city function.Cable laying in underground, not only space of planes frugally, and be conducive to the appearance of the city attractive in appearance; And same underground cable passage, can multi circuit transmission lines be held, the strong adaptability of transmission capacity; By natural conditions (as thunder and lightning) and the impact of surrounding environment on cable less, the equipment such as physical loop cabinet, feeder pillar, can carry out the contact of many group cable lines, form distribution looped network, have the method for operation more flexibly.Although the scale of laying along with high-tension cable and development are accelerated day by day, but remain the situation of cable and overhead transmission line mixing application greatly, and a large amount of cable backbone branch framework widespread uses, increase the new equipments such as feeder pillar that put into operation gradually, make the full cable circuit of 110kV and 220kV and the multiple-limb network structure of compound cable circuit start to form scale gradually.

Based on the present situation of above-mentioned urbanization power cable layer and application, cable fault occurs detecting and adds new difficulty, and especially to the fault detect of multi-way cable and the fault detect of joint line, more difficult enforcement is effective method in the past, and reason is mainly:

From cabling arrangements topology: traditional impedance method is with the increase of high-voltage cable joint and branch, fault finding pulse signal is decayed in the transmission, the increase of metrical error randomness, thus effectively effectively can not estimate line parameter circuit value, cause the distance of breakdown judge to calculate the deviation occurring non-quantitative.

From detection method: conventional high-pressure pulse detection is a kind of Injection Signal method comparatively common detection of cable fault method, inject high pressure detectable signal in the discrete port of cable termination side, carry out ground connection and earth-free process in bifurcation.But it is current, while the increase of the interface security of cable, each terminal of cable is all in electric substation, much without outdoor terminal rod type structure, make line maintenance personnel effectively cannot access the measuring-signal of fault finding needs injection, the method of tearing joining seam line open of conventional is difficult to carry out, and the restriction of GIS cable termination by related personnel and equipment pulled up by GIS air chamber, cannot guarantee to obtain the reliability of quality.

Earthing mode from cable: because the power cable fault electric current of 110kV, 220kV electric pressure is very large, so adopt aluminium sheath direct grounding way and through arrester ground mode, make measuring-signal also be subject to its impact, have a strong impact on the detection accuracy of the detection methods such as pulse current method;

Structure from cable self: single core cable is widely used in 110kV and above, cable line major part is direct earth fault, and part is high resistance ground, for overhauling convenient relevant technical method for removing this fault phase, make to press in conventional low bridge method, tradition in secondary pulse process and be also difficult to carry out with the intact method etc. compared, detection method receives larger impact.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, there is provided a kind of grid cable line special fault detector, effectively solve the exact failure orientation problem of 110KV, 220kV cable line at the fault section of multiple-limb and joint line.The technical solution adopted in the utility model is:

The special fault detector of a kind of grid cable line, comprises measurement module, electricity-fetching module, power module, energy-storage module, MCU and communication module;

Described measurement module is connected with the ADC unit in MCU, the cable line current data collected is delivered to the central processing unit in MCU by ADC unit, and carries out cable fault judgement by central processing unit; Communication module is used for the cable line current data of monitoring and judges that the fault-signal obtained is uploaded to Upper system;

Described electricity-fetching module is used for obtaining electric energy from cable line induction, and electricity-fetching module is connected with energy-storage module and is that energy-storage module charges; Electricity-fetching module is connected with power module, for MCU powers; When cable line breaks down, it is that MCU powers that the electric energy stored by energy-storage module substitutes electricity-fetching module.

Further, described measurement module comprises current inductor L1, the first filtering circuit, ac-dc conversion circuit and signal gain regulating circuit; Current sensor L1 connects the first filtering circuit, first filtering circuit output terminal connects resistance R1 and R2 of two series connection, resistance R1 is connected ac-dc conversion circuit with R2 connected node, and ac-dc conversion circuit connects the sampled I/O port of MCU by signal gain regulating circuit.

Further, the first filtering circuit comprises electric capacity C1, and ac-dc conversion circuit comprises resistance R3 and R4, and diode D1 and D2, and signal gain regulating circuit comprises operational amplifier U1 and resistance R5, R6;

The two ends of current sensor L1 connect the two ends of transient voltage killer tube TVS1, the two ends of electric capacity C1 and one end of resistance R1 and one end of resistance R2, one end ground connection of resistance R2 respectively; The other end of resistance R1 links together with the other end of resistance R2 and is connected one end of electric capacity C2; The other end of electric capacity C2 is by the in-phase input end of one end of resistance R7 connecting resistance R3 and R4, the anode of diode D1, the negative electrode of diode D2 and operational amplifier U1; The negative electrode of diode D1 and another termination positive voltage VCC_A of resistance R3; The anode of diode D2 and the other end ground connection of resistance R4; Resistance R5 ground connection is also passed through, the output terminal of another termination operational amplifier U1 of resistance R6 in one end of the anti-phase input terminating resistor R6 of operational amplifier U1; The output terminal of operational amplifier U1 and/or the other end of electric capacity C2 are for connecting two sampled I/O port of MCU.

Further, described electricity-fetching module comprises power taking CT, current rectifying and wave filtering circuit, mu balanced circuit; Described power module comprises backup battery;

The input end of the two termination current rectifying and wave filtering circuits of power taking CT, the output termination mu balanced circuit of current rectifying and wave filtering circuit, the output terminal of mu balanced circuit connects the feeder ear of MCU by a forward diode; Backup battery in power module connects the feeder ear of MCU by another forward diode.

Further, current rectifying and wave filtering circuit comprises rectifier bridge U2, voltage dependent resistor (VDR) R8, resistance R9, diode D3, electric capacity C8; Mu balanced circuit comprises voltage stabilizing chip U3, diode D4; Power module at least comprises battery BT1 and diode D6;

The two ends of the two termination voltage dependent resistor (VDR) R8 of power taking CT, and two input ends of rectifier bridge U2; The ground end ground connection of rectifier bridge U2, positive output end connects the anode of diode D3 by resistance R9, the negative electrode of diode D3 connect voltage stabilizing chip U3 input end and by electric capacity C8 ground connection; The reference edge of voltage stabilizing chip U3 passes through the diode D4 ground connection of forward, and export the anode of terminating diode D5, the negative electrode of diode D5 connects one end of electric capacity C9 and the negative electrode of diode D6; The other end ground connection of electric capacity C9; The negative electrode of diode D5 is for exporting supply voltage VCCO; The minus earth of battery BT1, positive pole connects the anode of diode D6, and the negative electrode of diode D6 connects the negative electrode of diode D5, also for exporting supply voltage VCCO;

Energy-storage module comprises NMOS tube Q1, voltage stabilizing diode D10, storage capacitor C14, diode D11; The drain electrode of NMOS tube Q1 connects the anode of diode D3 in electricity-fetching module, and grid connects an energy storage control port of MCU by resistance R14, and source electrode connects the negative electrode of voltage stabilizing diode D10 and the positive pole of storage capacitor C14, and the anode of diode D11; The anode of voltage stabilizing diode D10 and the minus earth of storage capacitor C14; The negative electrode of diode D11 connects the negative electrode of diode D3 in electricity-fetching module.

Further, the positive output end of rectifier bridge U2 connects a Sudden Changing Rate monitoring I/O port of MCU.

Further, power module also comprises battery BT2 and diode D7, and resistance R10 and R11; The minus earth of battery BT2, positive pole exports supply voltage VCCO by the diode D7 of forward; The positive pole of battery BT2 passes through resistance R11 and the R10 ground connection of series connection, and the node that resistance R11 with R10 connects is for being connected a battery cell monitoring I/O port of MCU.

Particularly, described fault detector comprises indicator housing and is connected to the annular solid of the sealing on indicator housing; Be provided with wiring board in indicator housing, indicator housing be provided with existing ground pilot lamp, for connect current inductor L1 input seat, for connecting the communication interface of Upper system; Power taking CT is provided with in annular solid; Annular solid is also provided with fastening band.

Further, the MCU of fault detector, according to the size of electric current in cable line, carries out data acquisition respectively under low-power consumption sampling pattern, intermittent sampling pattern, continuous sampling pattern; Under low-power consumption sampling pattern and intermittent sampling pattern, MCU except autotimer spilling interrupt cause sampling start except, also by Sudden Changing Rate Starting mode start measurement module carry out data acquisition; Sudden Changing Rate Starting mode is: MCU by a voltage signal relevant to electric current in cable line in monitoring electricity-fetching module, when this voltage signal suddenlys change, startup data sampling process.

The utility model has the advantage of:

1) this fault detector first Application Luo-coil mode carries out signals collecting, has the characteristic that big current is not easily saturated, gathers range of current extensive, from the range of application of 0-15000A.

2) built-in electricity-fetching module and the combination of long-acting reserve battery use, and extend the serviceable life to 8 year of fault detector, when battery failure, and also can normal indication fault.

3) this fault detector not only has the electric property of excellent protection against the tide, waterproof, insulating protection performance and circuit power taking, super low-power consumption, the various applied environments of whole power cable can be covered, effective electric parameters detection can also be carried out to the earth fault of high-tension cable, short trouble, and effectively can evade the function of the various interference such as the unloaded switching of circuit re-switching, the excitation surge current of no-load transformer switching and load.It also has volume little, lightweight, and installation and adjustment is convenient, can install targetedly, detection failure mode feature flexibly in Frequent Troubles location.The deixis of fault detector has existingly, the deixis of far-end.

Accompanying drawing explanation

Fig. 1 is electric theory diagram of the present utility model.

Fig. 2 a is measurement module theory diagram of the present utility model.

Fig. 2 b is the detailed electrical schematic diagram of measurement module of the present utility model.

Fig. 3 a is the theory diagram of electricity-fetching module of the present utility model and power module.

Fig. 3 b is the detailed electrical schematic diagram of electricity-fetching module of the present utility model and power module.

Fig. 4 is the electrical schematic diagram of energy-storage module of the present utility model.

Fig. 5 is the outside drawing of fault detector of the present utility model.

Scheme of installation when Fig. 6 is fault detector of the present utility model application.

Fig. 7 is fault detection current schematic diagram of the present utility model.

Embodiment

Below in conjunction with concrete drawings and Examples, the utility model is described in further detail.

The utility model provides the special fault detector of a kind of grid cable line (being called for short fault detector herein), as shown in Figure 1, comprises measurement module, electricity-fetching module, power module, energy-storage module, MCU and communication module;

Described measurement module is connected with the ADC unit (i.e. AD conversion unit) in MCU, the cable line current data collected is delivered to the central processing unit (i.e. CPU) in MCU by ADC unit, and carries out cable fault judgement by central processing unit; Communication module is used for the cable line current data of monitoring and judges that the fault-signal obtained is uploaded to Upper system;

Upper system comprises communication substation and scheduling master station, and this fault detector and communication substation are by Fiber connection, and master station is dispatched by Fiber connection in communication substation; Scheduling master station is receiving after spacing distance is arranged on the current data and fault-signal that each fault detector on cable line reports, and can go out the position zone that cable line breaks down by comprehensive descision;

Described electricity-fetching module is used for obtaining electric energy from cable line induction, and electricity-fetching module is connected with energy-storage module and is that energy-storage module charges; Electricity-fetching module is connected with power module, for MCU powers; When cable line breaks down, it is that MCU powers that the electric energy stored by energy-storage module substitutes electricity-fetching module; Upload to Upper system with the data maintaining MCU;

MCU adopts TI super low-power consumption processor MSP430F2410, stand-by power consumption is less than 1 microampere, complete machine runs power consumption and is less than 30 microamperes, it is one piece of 16 level controller chip, there are 32KB flash memory, 4KBRAM, 12 ADC unit, 2 USCI interfaces and hardware multipliers, there is on-line debugging and download online function simultaneously.The AD unit built-in by it realizes analog to digital conversion, decreases wiring quantity, enhances antijamming capability.When real work, the spilling of autotimer can be used to interrupt as sampling enabling signal, MCU carries out the collection of data to respective channel according to sampling enabling signal startup ADC unit, and the data collected are delivered to process and the breakdown judge that CPU (central processing unit) carries out data, calculate the current data in circuit.Then by the communication port in MCU and the communication module that is connected with communication port, the current data of circuit is uploaded to communication substation according to the presetting time interval; When breaking down, fault curre being uploaded, fault-signal being sent to panel simultaneously, carried out the display of fault by panel.The time interval of data upload can set according to the requirement of user, is defaulted as 15 minutes.

When the electric current in cable line is less, such as when electric current is less than 10A, the MCU of fault detector carries out low-power consumption sampling pattern, and the sampling period is the longest, and is now powered by the disposable lithium cell in energy-storage module or power module; When electric current in cable circuit is in median size, when such as electric current is between 10-100A, the MCU of fault detector carries out intermittent sampling pattern, and the sampling period is shorter than the cycle of low-power consumption sampling pattern; Under low-power consumption sampling pattern and intermittent sampling pattern, MCU except autotimer spilling interrupt cause sampling start except, also start measurement module by Sudden Changing Rate Starting mode and carry out data acquisition, so that when cable line generation shorted to earth or phase fault, the electric current of fault moment of can sampling in time; Sudden Changing Rate Starting mode is: MCU by a voltage signal relevant to electric current in cable line in monitoring electricity-fetching module, when this voltage signal suddenlys change, startup data sampling process.When the electric current in cable line is larger, such as when cable current is greater than 100A, fault detector MCU carries out lasting sampling pattern, MCU by continue sampling mode and the CPU (central processing unit) data collected are delivered in MCU, carry out data processing, and carry out breakdown judge.

As shown in 2a and 2b, described measurement module comprises current inductor L1, the first filtering circuit, ac-dc conversion circuit and signal gain regulating circuit; Current sensor L1 connects the first filtering circuit, first filtering circuit output terminal connects resistance R1 and R2 of two series connection, resistance R1 is connected ac-dc conversion circuit with R2 connected node, and ac-dc conversion circuit connects the sampled I/O port of MCU by signal gain regulating circuit; Resistance R1 and R2 plays the effect that ac current signal transfers ac voltage signal to, and ac-dc conversion circuit changes ac voltage signal into DC pulse signal; Current inductor L1 adopts Luo-coil, and Luo-coil relative to the benefit of ordinary electric current mutual-inductor is, because it does not have iron core, therefore there is not iron core cutter phenomenon, can directly measure very large electric current.In this device, have employed electric current Luo-coil as data acquisition element, thus 0-15000A wide range fault-signal can be reached.The ADC unit of MCU gathers the voltage signal of electric current in the sign cable line of measurement module output, obtains the digital signal characterizing cable line electric current, and the central processing unit of recycling MCU calculates the effective value of momentary current.

Particularly, the first filtering circuit comprises electric capacity C1, and ac-dc conversion circuit comprises resistance R3 and R4, and diode D1 and D2, and signal gain regulating circuit comprises operational amplifier U1 and resistance R5, R6; The two ends of current sensor L1 connect the two ends of transient voltage killer tube TVS1, the two ends of electric capacity C1 and one end of resistance R1 and one end of resistance R2, one end ground connection of resistance R2 respectively; The other end of resistance R1 links together with the other end of resistance R2 and is connected one end of electric capacity C2; The other end of electric capacity C2 is by the in-phase input end of one end of resistance R7 connecting resistance R3 and R4, the anode of diode D1, the negative electrode of diode D2 and operational amplifier U1; The negative electrode of diode D1 and another termination positive voltage VCC_A of resistance R3; The anode of diode D2 and the other end ground connection of resistance R4; Resistance R5 ground connection is also passed through, the output terminal of another termination operational amplifier U1 of resistance R6 in one end of the anti-phase input terminating resistor R6 of operational amplifier U1; The output terminal of operational amplifier U1 and/or the other end of electric capacity C2 are for connecting two sampled I/O port of MCU.In cable line, electric current varies, and one obtains the current signal after gain without the current signal amplified and one and inputs MCU simultaneously, can expand the scope of current data sampling.

As shown in Figure 3 a and Figure 3 b shows, described electricity-fetching module comprises power taking CT(CT and current transformer), current rectifying and wave filtering circuit, mu balanced circuit; Described power module comprises backup battery;

The input end of the two termination current rectifying and wave filtering circuits of power taking CT, the output termination mu balanced circuit of current rectifying and wave filtering circuit, the output terminal of mu balanced circuit connects the feeder ear of MCU by a forward diode; Backup battery in power module connects the feeder ear of MCU by another forward diode.The voltage of the output terminal output of mu balanced circuit, can also pass through other simple power circuit process, in fault detector, other need the circuit of electricity consumption to power, and such as give in measurement module and need the device of powering to power.

Particularly, current rectifying and wave filtering circuit comprises rectifier bridge U2, voltage dependent resistor (VDR) R8, resistance R9, diode D3, electric capacity C8; Mu balanced circuit comprises voltage stabilizing chip U3, diode D4; Power module at least comprises battery BT1 and diode D6; Voltage stabilizing chip U3 adopts LDO(low pressure difference linear voltage regulator).

The two ends of the two termination voltage dependent resistor (VDR) R8 of power taking CT, and two input ends of rectifier bridge U2; The ground end ground connection of rectifier bridge U2, positive output end connects the anode of diode D3 by resistance R9, the negative electrode of diode D3 connect voltage stabilizing chip U3 input end and by electric capacity C8 ground connection; The reference edge of voltage stabilizing chip U3 passes through the diode D4 ground connection of forward, and export the anode of terminating diode D5, the negative electrode of diode D5 connects one end of electric capacity C9 and the negative electrode of diode D6; The other end ground connection of electric capacity C9; The negative electrode of diode D5, can to power supplies such as MCU for exporting supply voltage VCCO; The minus earth of battery BT1, positive pole connects the anode of diode D6, and the negative electrode of diode D6 connects the negative electrode of diode D5, also for exporting supply voltage VCCO;

Power module also can comprise battery BT2 and diode D7 further, and resistance R10 and R11; The minus earth of battery BT2, positive pole exports supply voltage VCCO by the diode D7 of forward; The positive pole of battery BT2 passes through resistance R11 and the R10 ground connection of series connection, and the node that resistance R11 with R10 connects is for being connected a battery cell monitoring I/O port of MCU; Battery BT1 and BT2 adopts disposable lithium cell.

In electricity-fetching module, the positive output end of rectifier bridge U2 can also connect a Sudden Changing Rate monitoring I/O port of MCU, like this when there is current break (being current break during monitoring cable line short fault) in cable line here, can learn by MCU, thus start data sampling process at once.

As shown in Figure 4, be the circuit structure of energy-storage module inside.When cable line generation phase fault or shorted to earth fault, faulty line can cut off by the protective relaying device be arranged in faulty line within the extremely short time, and in faulty line, electric current reduces to zero immediately.Now electricity-fetching module cannot meet the power demands of MCU, thus the energy that stores in energy-storage module can be used to replace electricity-fetching module to power, to maintain uploading of data for MCU.

Energy-storage module comprises NMOS tube Q1, voltage stabilizing diode D10, storage capacitor C14, diode D11; The drain electrode of NMOS tube Q1 connects the anode of diode D3 in electricity-fetching module, and grid connects an energy storage control port of MCU by resistance R14, and source electrode connects the negative electrode of voltage stabilizing diode D10 and the positive pole of storage capacitor C14, and the anode of diode D11; The anode of voltage stabilizing diode D10 and the minus earth of storage capacitor C14; The negative electrode of diode D11 connects the negative electrode of diode D3 in electricity-fetching module; Wherein, storage capacitor C14 adopts super capacitor, super capacitor memory-less effect, and can carry out the discharge and recharge of 100,000 times, serviceable life extends greatly.The voltage of voltage stabilizing diode D10 is 5.1v.

The mechanism of electricity-fetching module, power module, energy-storage module work is:

When the electric current in cable line comparatively large (being recorded by measurement module), electricity-fetching module can simultaneously to energy-storage module charging with to power supplies such as MCU; Now, MCU sends the energy storage control signal of high level, NMOS tube Q1 is opened, one road electric current enters energy-storage module and charges to storage capacitor C14, another road electric current by after voltage stabilizing chip U3 voltage stabilizing to power supplies such as MCU, now, the voltage that voltage stabilizing chip U3 exports is usually above the voltage of battery BT1 and BT2, therefore diode D6 and D7 oppositely ends, and backup battery BT1 and BT2 is in stand-by state, not supplying power for outside.

When the electric current in cable line is not too large, the now output of electricity-fetching module is not enough to charge to energy-storage module simultaneously and power to MCU, then MCU sends low level energy storage control signal, turns off NMOS tube Q1, and now electricity-fetching module is by forward diode D5 supplying power for outside; And the both end voltage limiting storage capacitor C14 due to the voltage of voltage stabilizing diode D10 is 5.1v, diode D3 anode output voltage is when than 5.1v height, and diode D11 is oppositely cut-off, and the electric energy in storage capacitor C14 can't run off.

When the electric current in cable line is very little, then storage capacitor C14 discharges, can to power supplies such as MCU.When certain storage capacitor C14 does not have electricity soon, then backup battery BT1 and BT2 discharges.When cable line is short-circuited fault, the enough MCU of electric energy of storage capacitor C14 start the data sampling of burst, and the current data of sampling is returned to communication substation by communication module.And when line current is less than 10A, the MCU of fault detector carries out low-power consumption sampling pattern, can extend the power-on time of storage capacitor C14.

Communication module adopt optical communications module: MCU the data that its CPU (central processing unit) processes are passed to communication module by communication port, then by communication module by data upload to communication substation.What adopt between cable line fault indicator of the present utility model and Upper system is standard SC optical fiber interface, so first communication module converts electrical signals to light signal after receiving the data that central processing unit for processing completes, then by standard SC optical fiber interface, light signal is passed to Upper system, completes uploading of data.Communication module owing to have employed standard SC optical fiber interface, and its built-in be high-brightness light emitting diode, so signal transmission is more reliable.

The profile of this fault detector as shown in Figure 5, comprises indicator housing 1 and the annular solid 2 being connected to the sealing on indicator housing 1; Be provided with circuit on the wiring board 4(wiring board i.e. circuit of measurement module, electricity-fetching module, power module, energy-storage module, MCU and communication module above in indicator housing 1), indicator housing 1 be provided with existing ground pilot lamp 101, for connect current inductor L1 input seat 102, for connecting the communication interface 103 of Upper system; Communication interface 103 is SC optical fiber interface.Power taking CT is provided with in annular solid 2; Annular solid 2 is also provided with fastening band 3, for annular solid 1 is fixed on cable line.

Scheme of installation when Fig. 6 is the application of this fault detector, fault detector and current inductor L1(Luo-coil) be set in respectively on cable line.When line fault being detected, fault detector by the luminous instruction in existing ground, or reports communication substation, and failure message further can by dispatching master station by short message sending to keeping in repair related personnel, realize, to fault section online localization of fault fast, greatly reducing the workload of maintainer.

This fault detector arranges one on cable line at interval of hundreds of rice.Specific works process is as follows:

1, power taking process:

Set forth in the introduction of process electricity-fetching module, power module, energy-storage module above of power taking.

2, DATA REASONING:

Measurement module is measured circuit by Luo-coil, and now measuring electric parameters is ac flow, can be exchanged into sampled voltage amount, then input the ADC sampling channel of corresponding MCU after filtering afterwards by sampling resistor.The electric parameters that the ADC utilizing MCU built-in collects, CPU carries out process and calculates, and obtains the effective value of electric parameters.

3, breakdown judge process:

This fault detector adopts inverse-time overcurrent principle, cable line be short-circuited fault time, a variation characteristic of line current is that electric current has a positive saltus step.Another feature is in the time interval that after the fault that is short-circuited is very short, and cable line is under protective relaying device controls, and fault current can be cut off by outlet breaker thus line current drops to zero.As shown in Figure 7.

3-1), whether the electric current of detection streamer circuit is greater than an overcurrent definite value, and continues a Δ T time;

3-2), timing from breakdown judge starts, if fault detector detects that the electric current on circuit is zero in official hour, then, when meeting the condition of (3-1) and (3-2), is judged to break down, otherwise is not judged to fault.

3-3) detect fault-signal, when fault detector detects fault, just carry out the luminous instruction in existing ground, and reporting of fault-signal can be carried out with Upper system communication; Upper system is made to carry out the fault section of positioning cable circuit;

3-4) adopt above criterion can ensure fault phase trouble spot prior fault indicator motion, behind trouble spot, fault detector is failure to actuate.So fault section is exactly on the fault detector of an in the end action and circuit below between first fault detector not having an action.

The 110kV that the utility model proposes, the fault detector that 220kV Voltage Cable Lines Construction is special, can the applied environment such as appropriate cable big current and waterproof completely, be applicable to urban power distribution network multiple-limb, make somebody a mere figurehead the node locating function with cable mixing applying high voltage cable fault, be aided with special failure judgment method, in conjunction with the advantage of optical-fibre communications, reliable the fault electric parameters collection of the spaced point of cable is uploaded to dispatching center, accumulate the data of electric system synthetic determination fault section, judge fault and coordinate related personnel to repair line fault fast, recovery system is powered, greatly reduce the fault line walking time, improve power supply reliability, simultaneously, increase work efficiency.

Claims (8)

1. the special fault detector of grid cable line, is characterized in that, comprises measurement module, electricity-fetching module, power module, energy-storage module, MCU and communication module;

Described measurement module is connected with the ADC unit in MCU, the cable line current data collected is delivered to the central processing unit in MCU by ADC unit, and carries out cable fault judgement by central processing unit; Communication module is used for the cable line current data of monitoring and judges that the fault-signal obtained is uploaded to Upper system;

Described electricity-fetching module is used for obtaining electric energy from cable line induction, and electricity-fetching module is connected with energy-storage module and is that energy-storage module charges; Electricity-fetching module is connected with power module, for MCU powers; When cable line breaks down, it is that MCU powers that the electric energy stored by energy-storage module substitutes electricity-fetching module.

2. the special fault detector of grid cable line as claimed in claim 1, is characterized in that:

Described measurement module comprises current inductor L1, the first filtering circuit, ac-dc conversion circuit and signal gain regulating circuit; Current sensor L1 connects the first filtering circuit, first filtering circuit output terminal connects resistance R1 and R2 of two series connection, resistance R1 is connected ac-dc conversion circuit with R2 connected node, and ac-dc conversion circuit connects the sampled I/O port of MCU by signal gain regulating circuit.

3. the special fault detector of grid cable line as claimed in claim 2, is characterized in that:

First filtering circuit comprises electric capacity C1, and ac-dc conversion circuit comprises resistance R3 and R4, and diode D1 and D2, and signal gain regulating circuit comprises operational amplifier U1 and resistance R5, R6;

The two ends of current sensor L1 connect the two ends of transient voltage killer tube TVS1, the two ends of electric capacity C1 and one end of resistance R1 and one end of resistance R2, one end ground connection of resistance R2 respectively; The other end of resistance R1 links together with the other end of resistance R2 and is connected one end of electric capacity C2; The other end of electric capacity C2 is by the in-phase input end of one end of resistance R7 connecting resistance R3 and R4, the anode of diode D1, the negative electrode of diode D2 and operational amplifier U1; The negative electrode of diode D1 and another termination positive voltage VCC_A of resistance R3; The anode of diode D2 and the other end ground connection of resistance R4; Resistance R5 ground connection is also passed through, the output terminal of another termination operational amplifier U1 of resistance R6 in one end of the anti-phase input terminating resistor R6 of operational amplifier U1; The output terminal of operational amplifier U1 and/or the other end of electric capacity C2 are for connecting two sampled I/O port of MCU.

4. the special fault detector of grid cable line as claimed in claim 1, is characterized in that:

Described electricity-fetching module comprises power taking CT, current rectifying and wave filtering circuit, mu balanced circuit; Described power module comprises backup battery;

The input end of the two termination current rectifying and wave filtering circuits of power taking CT, the output termination mu balanced circuit of current rectifying and wave filtering circuit, the output terminal of mu balanced circuit connects the feeder ear of MCU by a forward diode; Backup battery in power module connects the feeder ear of MCU by another forward diode.

5. the special fault detector of grid cable line as claimed in claim 4, is characterized in that:

Current rectifying and wave filtering circuit comprises rectifier bridge U2, voltage dependent resistor (VDR) R8, resistance R9, diode D3, electric capacity C8; Mu balanced circuit comprises voltage stabilizing chip U3, diode D4; Power module at least comprises battery BT1 and diode D6;

The two ends of the two termination voltage dependent resistor (VDR) R8 of power taking CT, and two input ends of rectifier bridge U2; The ground end ground connection of rectifier bridge U2, positive output end connects the anode of diode D3 by resistance R9, the negative electrode of diode D3 connect voltage stabilizing chip U3 input end and by electric capacity C8 ground connection; The reference edge of voltage stabilizing chip U3 passes through the diode D4 ground connection of forward, and export the anode of terminating diode D5, the negative electrode of diode D5 connects one end of electric capacity C9 and the negative electrode of diode D6; The other end ground connection of electric capacity C9; The negative electrode of diode D5 is for exporting supply voltage VCCO; The minus earth of battery BT1, positive pole connects the anode of diode D6, and the negative electrode of diode D6 connects the negative electrode of diode D5, also for exporting supply voltage VCCO;

Energy-storage module comprises NMOS tube Q1, voltage stabilizing diode D10, storage capacitor C14, diode D11; The drain electrode of NMOS tube Q1 connects the anode of diode D3 in electricity-fetching module, and grid connects an energy storage control port of MCU by resistance R14, and source electrode connects the negative electrode of voltage stabilizing diode D10 and the positive pole of storage capacitor C14, and the anode of diode D11; The anode of voltage stabilizing diode D10 and the minus earth of storage capacitor C14; The negative electrode of diode D11 connects the negative electrode of diode D3 in electricity-fetching module.

6. the special fault detector of grid cable line as claimed in claim 4, is characterized in that:

The positive output end of rectifier bridge U2 connects a Sudden Changing Rate monitoring I/O port of MCU.

7. the special fault detector of grid cable line as claimed in claim 4, is characterized in that:

Power module also comprises battery BT2 and diode D7, and resistance R10 and R11; The minus earth of battery BT2, positive pole exports supply voltage VCCO by the diode D7 of forward; The positive pole of battery BT2 passes through resistance R11 and the R10 ground connection of series connection, and the node that resistance R11 with R10 connects is for being connected a battery cell monitoring I/O port of MCU.

8. the special fault detector of grid cable line as claimed in claim 1, is characterized in that: described fault detector comprises indicator housing (1) and is connected to the annular solid (2) of the sealing on indicator housing (1); Indicator housing is provided with wiring board in (1), indicator housing (1) be provided with existing ground pilot lamp (101), for connect current inductor L1 input seat (102), for connecting the communication interface (103) of Upper system; Power taking CT is provided with in annular solid (2); Annular solid (2) is also provided with fastening band (3).