CN104167139A - Power cable fault simulating and positioning system - Google Patents
Power cable fault simulating and positioning system Download PDFInfo
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- CN104167139A CN104167139A CN201410433319.3A CN201410433319A CN104167139A CN 104167139 A CN104167139 A CN 104167139A CN 201410433319 A CN201410433319 A CN 201410433319A CN 104167139 A CN104167139 A CN 104167139A
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Abstract
The invention relates to a power cable fault simulating and positioning system. The power cable fault simulating and positioning system comprises a cable fault simulation box, an electrode installation plate, three incoming cable electrodes and three outgoing cable electrodes, wherein the electrode installation plate, the three incoming cable electrodes and the three outgoing cable electrodes are arranged in the cable fault simulation box. The three incoming cable electrodes are connected with three phases of cable cores in an incoming cable respectively, and the three outgoing cable electrodes are connected with three phases of cable cores in a first outgoing cable. A resistance box used for simulating cable disconnection, low resistance, high resistance and flashover faults between the incoming cable electrodes and the outgoing cable electrodes is arranged in the cable fault simulation box, and a high-voltage cable terminal is arranged at the tail end of a second outgoing cable connected with the outgoing cable electrodes. The high-voltage cable terminal is used for being connected with a cable fault positioning detector. The cable fault positioning detector comprises a central control unit, a pulse transmitting circuit used for transmitting pulse signals to detected cables, a reflection receiving circuit used for receiving reflected signals from the detected cables and a high-speed data acquisition circuit. The output end of the reflection receiving circuit is connected with the input end of the high-speed data acquisition circuit.
Description
The application is that application number is: 200910309789.8, invention and created name is < < cable fault simulation and fault location system > >, and the applying date is: the dividing an application of the application for a patent for invention on November 16th, 2009.
Technical field
The present invention relates to the technical field of cable fault simulation equipment for staff training, specifically power cable fault simulation for a kind of staff training, positioning system.
Background technology
Power cable (hereinafter to be referred as cable) is embedded in underground more, once break down, finds very difficult, often a few hours will be spent, even the time of several days, not only waste a large amount of human and material resources, and can cause a large amount of electric quantity losses and worse social influence.How accurately, search rapidly, economically the problem that Method of Cable Trouble Point has just become power supply department growing interest.Cable fault situation and bury environment more complicated underground, variation is many, and what tester should be familiar with cable buries trend and environment underground, judge definitely cable fault character, select suitable instrument and measurement method, according to certain program work, could successfully measure Method of Cable Trouble Point.
In recent years, the measuring technology of power cable fault has had larger development, as has occurred pulse time domain reflectometry, the pulsed magnetic field method that path is surveyed of fault localization and utilized magnetic field and the method for voice signal mistiming trouble-shooting point position etc.The application of computer technology, more makes detection of cable fault technology take on a completely new look, and has entered the intelligent stage.
It is the work that technical comparison is strong that power cable fault is surveyed, and tester should grasp the principle of work of institute's use instrument and will have certain working experience.Carry out the detection operations of cable fault, except buying advanced instrument and equipment, also will carry out tester's training.
Summary of the invention
Technical matters to be solved by this invention is to provide power cable fault simulation for a kind of staff training, positioning system.
For solving the problems of the technologies described above, a kind of power cable fault simulation provided by the invention, positioning system, comprising: cable fault simulation box, be located at the electrode installing plate in cable fault simulation box and be located at three inlet wire electrodes on electrode installing plate and three go out line electrode; Three inlet wire electrodes are connected with the three-phase core in inlet wire cable respectively, and three go out line electrode and are connected with the three-phase core in the first outlet cable respectively; In described cable fault simulation box, be provided with at inlet wire electrode with have the resistance box of simulating disconnection fault, low-resistance fault, high resistive fault and arcing fault between line electrode, be provided with hv cable termination with the described end that goes out the second outlet cable that line electrode is connected; Hv cable termination is for stube cable localization of fault detector.This cable fault positioning detector comprises: central control unit, be connected with central control unit for the impulse ejection circuit to tested cable transponder pulse signal, for receiving from the reflection receivable circuit of the reflected signal of described tested cable and the High Speed Data Acquisition Circuit being connected with the data acquisition input end of central control unit; The output terminal of reflection receivable circuit is connected with the input end of High Speed Data Acquisition Circuit.
Further, adopt for convenience resistance box directly at inlet wire electrode with have and all kinds of faults are set between line electrode and guarantee handling safety, described inlet wire electrode and go out line electrode for insulation cone, is provided with end through the electrode bar of the mounting hole on electrode installing plate in it; The end of electrode bar is for stube cable heart yearn and use wrapped with insulation, and the bottom of insulation cone extends into the mounting hole on described electrode installing plate, and the front end of electrode bar extends the top of insulation cone, and the front end of electrode bar is connected with bolt.
Further, described impulse ejection circuit comprises: the timer being connected with enabling signal output terminal with the preset of central control unit, the amplifying circuit being connected with the output terminal of timer, the pulse transformer being connected with the output terminal of amplifying circuit, the coupling transformer and the internal driving balancing circuitry that are coupled with pulse transformer; The first secondary coil of pulse transformer, the first primary coil of coupling transformer and internal driving balancing circuitry form loop; The second subprime coil of pulse transformer, the second primary coil of coupling transformer and tested cable form loop; The secondary coil of coupling transformer is connected with impulse ejection circuit.
Described insulating material is connected with ground wire.
Good effect of the present invention: (1) the present invention goes out line electrode by three inlet wire electrodes and three and is located in cable fault simulation box, by resistance box between inlet wire electrode and inlet wire electrode, inlet wire electrode and go out the change in resistance between line electrode, and phase line and ground be connected variation, simulate all kinds of cable faults, then adopt cable fault detection instrument to detect, thereby meet the requirement of staff training.(2) monitor is for the supervision of voltage status, to facilitate debugging.(3) cable fault detection instrument adopts pulse signal transmitting and the method detection streamer fault type receiving, and realizes fault localization or location, simple in structure, easy to use.(4) the present invention has following characteristics: 1). and intelligent degree is high.Can automatic decision trouble spot whether discharge, calculate and show fault distance; There are the functions such as waveform storage, comparison, amplification and operation indicating; And can be according to the different cable insulation media wave velocity of adjusting; Two removable cursors are provided, can measured waveform on distance between any two points.2). adopt the measurement of linear current coupling mechanism to flow through the pulsed current signal of ground wire, utilize the method for resistance capacitance divider ranging pulse voltage signal to compare with traditional flash tester, wiring is simple, convenient; Instrument and high tension loop are kept apart from electric, and security is good especially.3). adopt rechargeable battery power supply, volume is little, lightweight, easy to carry.Avoided existing in traditional flash tester because sharing with high tension loop the interference problem that AC power causes, guaranteed that instrument is under strong electromagnetic interference environment, at the sphere gap of high tension loop, puncture or work reliably during the electric discharge of trouble spot.4). adopt giant-screen dot matrix lcd, the information stabilities such as the waveform demonstrating and fault distance are clear, adjustable contrast, and there is backlight function, under the extraneous light condition different, obtain optimal display result.5). measuring accuracy is high, be less than ± 1m of absolute error when tested cable length is less than 1000m; When cable length is greater than 1000m, relative error is less than 0.5%.6). measure blind area little, can determine cable and lift one's head the fault at 10m place.7). be furnished with mini-printer interface, can print easily the information such as waveform, data of screen display, be convenient to preservation data.
Accompanying drawing explanation
For content of the present invention is more likely to be clearly understood, below the specific embodiment by reference to the accompanying drawings of basis, the present invention is further detailed explanation, wherein
Fig. 1 is a kind of power cable fault simulation in embodiment, the front view of positioning system;
Fig. 2 is the side view of Fig. 1;
Fig. 3 is a kind of power cable fault simulation in embodiment, the structural representation of positioning system bottom;
Fig. 4 is a kind of power cable fault simulation, electrode installing plate, the inlet wire electrode in positioning system in embodiment and the assembly structure schematic diagram that goes out line electrode;
Fig. 5 is the second outlet cable in embodiment and the structural representation of hv cable termination;
Fig. 6 is the inlet wire electrode in embodiment and the structural representation that goes out line electrode;
Fig. 7 is the B-B cross section view of Fig. 6;
Fig. 8 is the circuit block diagram of the cable fault positioning detector in embodiment;
Fig. 9 is the circuit block diagram of the impulse ejection circuit in Fig. 8.
Embodiment
See Fig. 1-9, a kind of power cable fault simulation of the present embodiment, positioning system comprise: be located at cable fault simulation box 1 in concrete foundation 2, be located at the electrode installing plate 5 in cable fault simulation box 1 and be located at three inlet wire electrodes 6 on electrode installing plate 5 and three go out line electrode 7; Three inlet wire electrodes 6 are connected with the three-phase core in inlet wire cable 8 respectively, and three go out line electrode 7 and are connected with the three-phase core in the first outlet cable 9 respectively.Between described reinforced concrete foundation 2 and cable fault simulation box 1, by lower margin and expansion bolt, be fixedly linked.Described cable fault simulation box 1 two bottom sides is provided with penetration pipe 3, and cable fault simulation box 1 bottom center has perforate 4, and the front end face of cable fault simulation box 1 is provided with double door 14.
The insulator external shield ground connection of described inlet wire cable 8 and the first outlet cable 9.In cable fault simulation box 1, be provided with at inlet wire electrode 6 with have the resistance box 10 of simulating disconnection fault, low-resistance fault, high resistive fault and arcing fault between line electrode 7.
In described cable fault simulation box 1, be provided with each inlet wire electrode 6 with respectively go out that insulator on line electrode 7 is connected for monitoring each inlet wire electrode 6 and respectively going out the monitor 11 of the voltage status of line electrode 7.
Be provided with hv cable termination 12 with the described end that goes out the second outlet cable 13 that line electrode 7 is connected.
In power cable fault simulation, positioning system, set after a certain fault, by the Cable fault examination orientator being connected on hv cable termination 12, carry out fault detect, safety easy to use, practicality is good.
Described inlet wire electrode 6 is insulation cone with going out line electrode 7, is provided with end through the electrode bar b of the mounting hole on electrode installing plate 5 in it; The end of electrode bar b wraps up for stube cable heart yearn d and with insulating material e.The bottom of described insulation cone extends into the mounting hole on described electrode installing plate 5.The front end of described electrode bar b extends the top of insulation cone a, and the front end of electrode bar b is connected with bolt c.Insulating material e is connected with ground wire.
Cable fault positioning detector comprises: central control unit 30, be connected with central control unit 30 for the impulse ejection circuit 31 to tested cable transponder pulse signal, for receiving from the reflection receivable circuit 32 of the reflected signal of described tested cable and the High Speed Data Acquisition Circuit 33 being connected with the data acquisition input end of central control unit 30; The output terminal of reflection receivable circuit 32 is connected with the input end of High Speed Data Acquisition Circuit 33.
Described central control unit 30 is also connected with printer 34, LCD35 and keyboard 36.
Described impulse ejection circuit 31 comprises: the timer 21 being connected with enabling signal output terminal with the preset of central control unit 30, the amplifying circuit 22 being connected with the output terminal of timer 21, the pulse transformer T1 being connected with the output terminal of amplifying circuit 22, the coupling transformer T2 and the internal driving balancing circuitry 23 that are coupled with pulse transformer T1; The first primary coil L5 of the first secondary coil L3, the coupling transformer T2 of pulse transformer T1 and internal driving balancing circuitry 23 form loop; The second primary coil L4 of second subprime coil L2, the coupling transformer T2 of pulse transformer T1 and tested cable form loop; The secondary coil L6 of coupling transformer T2 is connected with impulse ejection circuit 31.
Described cable fault positioning detector has action of low-voltage pulse reflection and two kinds of working methods of pulse current.Action of low-voltage pulse reflecting operating mode is for detection of low resistance and the disconnection fault of cable, and length or the wave velocity of measuring various cables.Pulse current working method is for high resistant and the flashover type fault localization of cable.
The effect of central control unit 30 is: receive key-press input instruction, carry out operation accordingly; From the pulse-echo waveform of High Speed Data Acquisition Circuit 33 taking-up records or the pulse current data of trouble spot electric discharge, process; Information such as operation indicating, judged result and fault distances, deliver to the upper demonstration of LCD35; To whole system self check, monitoring.
LCD35 is the delivery outlet of waveform, operation result or operation information.
Printer 34 is for printing the information on liquid crystal LCD35.
Impulse ejection circuit 31 is for generation of the 30V rect.p. of a preset width, and by coupling transformer T2, sends to cable and get on.Timer 21 be one can preset number down counter.By wanting central control unit 30, to timer, put in advance a number, impulse ejection circuit 31 receives central control unit 30 and sends after the order that starts transmitting, the level of a 5V of output, now timer 21 carries out subtraction counting under clock signal is controlled, and often carrys out a time clock, and timer conter subtracts 1, after several pulses, counter reduces to 0, and the level of a 0V of timer 21 output, has so just formed the 5V rect.p. with certain width.According to the difference of measurement range, change preset numerical value, timer is just exported the pulse of different in width.
The rect.p. of the 5V of timer 21 output, through amplifying circuit 22, be enlarged into the potential pulse of 30V, the primary coil L1 that is applied to pulse transformer T1 gets on, described coil L2 at pulse transformer T1, the contrary potential pulse of the L3 big or small identical polar of upper generation, be added to respectively test line and internal driving balancing circuitry 23, as close with circuit-under-test wave impedance in internal balance circuit impedance, under exomonental effect, described coil L4 at coupling transformer T2, size of the upper generation of L5 is close, opposite polarity current signal, a little less than the pickup electrode that L6 receives, reached the object of compressed transmissions pulse.And when on tested cable, reflected impulse arrives, at described coil L3, equate with the voltage swing producing on L5, opposite direction, loop voltage algebraic sum is 0, internal balance circuit is inoperative, reflected impulse voltage all transforms to described secondary coil L6 above by the second primary coil L4 of coupling transformer T2, is added in signal receiving circuit.
Reflection receivable circuit 32 is for receiving and amplifying from the signal on the secondary coil L6 of coupling transformer, gain amplifier capable of regulating.Under pulse current working method, the L4 from the pulsed current signal of linear current coupling mechanism by coupling transformer T2 all transforms on described secondary coil L6; Be added to reflection receivable circuit 32.
High Speed Data Acquisition Circuit 33 is got point sampling and is converted the amplitude of extraction to digital quantity storage, recording impulse reflection or pulse current waveform simulating signal according to certain frequency.If realize the resolution of ranging of 1m, require the temporal resolution of waveform sample to be about 10ns, corresponding data acquiring frequency reaches 100MHz.The clock frequency of general central control unit 30 is tens megahertzes only, are difficult to the A/D(analog quantity/digital quantity of direct control signal) conversion and storage.This device has designed unique hypervelocity 100MHz data acquisition circuit, and it is without the interference of central control unit 30, automatically complete pulse-echo waveform sampling, change and be temporarily stored in a data buffer.After a waveform recording completes, central control unit 30 takes out pulse-echo in data buffer or the data of pulse current waveform by interface circuit, processes.
Above-described embodiment is only for example of the present invention is clearly described, and is not the restriction to embodiments of the present invention.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without also giving all embodiments.
Claims (1)
1. power cable fault simulation, a positioning system, is characterized in that comprising: cable fault simulation box (1), be located at the electrode installing plate (5) in cable fault simulation box (1) and be located at three inlet wire electrodes (6) on electrode installing plate (5) and three go out line electrode (7); Three inlet wire electrodes (6) are connected with the three-phase core in inlet wire cable (8) respectively, and three go out line electrode (7) and are connected with the three-phase core in the first outlet cable (9) respectively; In described cable fault simulation box (1), be provided with at inlet wire electrode (6) with have a resistance box (10) of simulating disconnection fault, low-resistance fault, high resistive fault and arcing fault between line electrode (7), be provided with hv cable termination (12) with the described end that goes out the second outlet cable (13) that line electrode (7) is connected; Hv cable termination (12) is for stube cable localization of fault detector;
This cable fault positioning detector comprises: central control unit (30), be connected with central control unit (30) for the impulse ejection circuit (31) to tested cable transponder pulse signal, for receiving from the reflection receivable circuit (32) of the reflected signal of described tested cable and the High Speed Data Acquisition Circuit (33) being connected with the data acquisition input end of central control unit (30); The output terminal of reflection receivable circuit (32) is connected with the input end of High Speed Data Acquisition Circuit (33);
Described inlet wire electrode (6) and go out line electrode (7) for insulation cone (a), is provided with end through the electrode bar (b) of the mounting hole on electrode installing plate (5) in it; The end of electrode bar (b) wraps up for stube cable heart yearn (d) and with insulating material (e), the bottom of insulation cone extends into the mounting hole on described electrode installing plate (5), the front end of electrode bar (b) extends the top of insulation cone (a), and the front end of electrode bar (b) is connected with bolt (c);
Described impulse ejection circuit (31) comprising: the coupling transformer (T2) and the internal driving balancing circuitry (23) that with the preset timer being connected with enabling signal output terminal (21) of central control unit (30), the amplifying circuit (22) being connected with the output terminal of timer (21), the pulse transformer (T1) being connected with the output terminal of amplifying circuit (22), with pulse transformer (T1), are coupled; First secondary coil (L3) of pulse transformer (T1), first primary coil (L5) of coupling transformer (T2) and internal driving balancing circuitry (23) form loop; The second subprime coil (L2) of pulse transformer (T1), second primary coil (L4) of coupling transformer (T2) and tested cable form loop; The secondary coil (L6) of coupling transformer (T2) is connected with impulse ejection circuit (31);
Described insulating material (e) is connected with ground wire.
Applications Claiming Priority (1)
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CN200910309789.8A CN101699540B (en) | 2009-11-16 | 2009-11-16 | Cable fault simulation and location system |
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CN200910309789.8A Division CN101699540B (en) | 2009-11-16 | 2009-11-16 | Cable fault simulation and location system |
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CN104167139A true CN104167139A (en) | 2014-11-26 |
CN104167139B CN104167139B (en) | 2016-04-27 |
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CN201410432367.0A Active CN104157194B (en) | 2009-11-16 | 2009-11-16 | Power cable fault simulation, fault location system |
CN201410236210.0A Active CN103985300B (en) | 2009-11-16 | 2009-11-16 | Cable fault simulation and positioning system |
CN201410433378.0A Active CN104167140B (en) | 2009-11-16 | 2009-11-16 | Power cable fault simulation, positioning system |
CN201410431884.6A Active CN104167138B (en) | 2009-11-16 | 2009-11-16 | A kind of power cable fault simulation and fault location system |
CN201410233663.8A Active CN103996337B (en) | 2009-11-16 | 2009-11-16 | Cable fault simulation, positioning system |
CN200910309789.8A Active CN101699540B (en) | 2009-11-16 | 2009-11-16 | Cable fault simulation and location system |
CN201410433319.3A Active CN104167139B (en) | 2009-11-16 | 2009-11-16 | A kind of power cable fault simulation, positioning system |
CN201410433399.2A Active CN104183179B (en) | 2009-11-16 | 2009-11-16 | A kind of power cable fault simulation and positioning system |
CN201410433422.8A Active CN104167141B (en) | 2009-11-16 | 2009-11-16 | Power cable fault simulation and fault location system |
CN201410236208.3A Active CN103985299B (en) | 2009-11-16 | 2009-11-16 | A kind of cable fault simulation and fault location system |
CN201410433263.1A Active CN104157195B (en) | 2009-11-16 | 2009-11-16 | Power cable fault simulation and positioning system |
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CN201410432367.0A Active CN104157194B (en) | 2009-11-16 | 2009-11-16 | Power cable fault simulation, fault location system |
CN201410236210.0A Active CN103985300B (en) | 2009-11-16 | 2009-11-16 | Cable fault simulation and positioning system |
CN201410433378.0A Active CN104167140B (en) | 2009-11-16 | 2009-11-16 | Power cable fault simulation, positioning system |
CN201410431884.6A Active CN104167138B (en) | 2009-11-16 | 2009-11-16 | A kind of power cable fault simulation and fault location system |
CN201410233663.8A Active CN103996337B (en) | 2009-11-16 | 2009-11-16 | Cable fault simulation, positioning system |
CN200910309789.8A Active CN101699540B (en) | 2009-11-16 | 2009-11-16 | Cable fault simulation and location system |
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CN201410433399.2A Active CN104183179B (en) | 2009-11-16 | 2009-11-16 | A kind of power cable fault simulation and positioning system |
CN201410433422.8A Active CN104167141B (en) | 2009-11-16 | 2009-11-16 | Power cable fault simulation and fault location system |
CN201410236208.3A Active CN103985299B (en) | 2009-11-16 | 2009-11-16 | A kind of cable fault simulation and fault location system |
CN201410433263.1A Active CN104157195B (en) | 2009-11-16 | 2009-11-16 | Power cable fault simulation and positioning system |
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Publication number | Publication date |
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CN103996337B (en) | 2016-04-27 |
CN104167141A (en) | 2014-11-26 |
CN101699540A (en) | 2010-04-28 |
CN103985299A (en) | 2014-08-13 |
CN104157194A (en) | 2014-11-19 |
CN104167140A (en) | 2014-11-26 |
CN104167139B (en) | 2016-04-27 |
CN104183179B (en) | 2016-02-03 |
CN104157195B (en) | 2016-02-03 |
CN103985299B (en) | 2016-06-22 |
CN101699540B (en) | 2014-09-17 |
CN103985300B (en) | 2016-04-27 |
CN104157194B (en) | 2016-02-03 |
CN104167138B (en) | 2016-04-20 |
CN103996337A (en) | 2014-08-20 |
CN104157195A (en) | 2014-11-19 |
CN104167138A (en) | 2014-11-26 |
CN103985300A (en) | 2014-08-13 |
CN104183179A (en) | 2014-12-03 |
CN104167140B (en) | 2016-04-27 |
CN104167141B (en) | 2016-02-03 |
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