CN204537573U - A kind of electric system 1:1 electric pressure distribution singlephase earth fault analogue test platform - Google Patents

A kind of electric system 1:1 electric pressure distribution singlephase earth fault analogue test platform Download PDF

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CN204537573U
CN204537573U CN201520025143.8U CN201520025143U CN204537573U CN 204537573 U CN204537573 U CN 204537573U CN 201520025143 U CN201520025143 U CN 201520025143U CN 204537573 U CN204537573 U CN 204537573U
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module
earth fault
line
singlephase earth
transmission line
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李传健
孙嘉宁
陈炯聪
黄曙
余南华
郑文杰
曾瑞江
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Electric Power Research Institute of Guangdong Power Grid Co Ltd
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Electric Power Research Institute of Guangdong Power Grid Co Ltd
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Abstract

A kind of electric system 1:1 electric pressure distribution singlephase earth fault analogue test platform: comprise neutral ground module, 10kV bus, 10kV π type Equivalent Model transmission line of electricity module and singlephase earth fault module; The utility model can the overhead transmission line of different length of 1:1 electric pressure dynamic similation distribution network and the test platform of cable line generation singlephase earth fault.This platform can simulate different neutral grounding modes: isolated neutral, Neutral Point Through Low Resistance, neutral by arc extinction coil grounding; Different length and dissimilar transmission line can be simulated: pole line or cable; All types of singlephase earth faults can be simulated, as metallic earthing, arc grounding, high resistance ground etc.; And there is the interface of distribution system fault indicator, route selection and the distribution automation terminal such as fault locator, DTU/FTU, meet the needs of distribution single-phase earth fault line selection, travelling wave ranging accurately being located etc. to the scientific research in direction, product development, Product checking, related personnel's operation training.

Description

A kind of electric system 1:1 electric pressure distribution singlephase earth fault analogue test platform
Technical field
The utility model relates to a kind of electric power system fault analogue test platform, especially relates to a kind of electric system 1:1 electric pressure distribution singlephase earth fault analogue test platform.
Background technology
In electric system, the fault of more than 90% all occurs in transmission line of electricity, so transmission line of electricity is the weakest in electric system is also the link the most frequently that breaks down, and fault to search difficulty very big.China's distribution network system all adopts small current neutral grounding system mostly, and according to reliable statistics, the ratio in line fault shared by singlephase earth fault is more than 80%.When there is singlephase earth fault in power distribution network transmission line of electricity, because fault current is relatively little, and three-phase line voltage still keeps symmetrical, also very little on the power supply impact of load, so all allow under normal circumstances to continue to run again.But when system nonserviceables lower operation for a long time, especially intermittent arc-earth fault, the superpotential in circuit may cause other position earth fault, thus the expansion that causes the accident; And trouble spot can forever be burnt out under the impact of transient state excess current, finally causes permanent fault.Therefore, locate when route selection fast and accurately after line failure, not only can fix a breakdown in time, fault coverage is reduced to minimum, and trouble spot circuit and equipment can be repaired fast, ensure the reliability of power supply, to the safety and economic operation of electrical network and realize electrical network intellectuality all tool be of great significance.
Single-phase earth fault line selection problem is existing significant progress under the continuous effort of numerous researchist, but localization of fault is a difficult problem always.Various new scheme is constantly released, but owing to being difficult to obtain site test condition, major part research is all in theoretical research and mathematical simulation stage, and its Practical Performance is not all effectively verified.Have the fault positioning products of many route selection products and fault detector one class on the market, its true and accurate rate publicizes index well below it.
Utility model content
Technical problem to be solved in the utility model, just be to provide a kind of electric system 1:1 electric pressure distribution singlephase earth fault analogue test platform, for various singlephase earth fault 1:1 electric pressure dynamic similation, be applicable to distribution network system, meet the needs of distribution single-phase earth fault line selection, travelling wave ranging accurately being located etc. to the scientific research in direction, product development, Product checking, related personnel's operation training, for other power transmission and distribution technology and product provide the functions such as research, exploitation, test, checking.
Solve the problems of the technologies described above, the technical solution adopted in the utility model is as follows:
A kind of electric system 1:1 electric pressure distribution singlephase earth fault analogue test platform, is characterized in that: comprise neutral ground module, 10kV bus, 10kV π type Equivalent Model transmission line of electricity module and singlephase earth fault module;
Composition and the annexation of described neutral ground module are: a high-pressure side is directly connected in the neutral point circuit current sampling mutual inductor CT13 of power system transformer high-voltage output end neutral point, and its output is divided into two groundings: the first branch road is in series with arc suppression coil L11 and the 17 isolation switch Q17, the second branch road are in series with small resistor R11 and the 16 isolation switch Q16;
Described singlephase earth fault module is three articles of parallel circuits: first line is in series with the 12 switch isolation switch Q12, the second circuit be in series with on the 13 switch isolation switch Q13 and arcing portfire rh, tertiary circuit and is in series with the 14 switch isolation switch Q14 and husky resistance r;
Described 10kV π type Equivalent Model transmission line of electricity comprises overhead transmission line and cable line, and be built into multistage π type structure with the electric capacity of line length parameter equivalence, inductance and resistance, overhead transmission line and cable line are all several π type Equivalent Model of series connection; Described π type structure is: the inductance of series connection and the two ends of inductance internal resistance are respectively by capacity earth, and the end of all π type structures also connects described singlephase earth fault module respectively after threephase current transformer and grounding switch; The static contact of three T-shaped connections three in connection of two π type Equivalent Model single phase operation switch only, the connecting line of three static contacts and π type Equivalent Model penetrates zero sequence current mutual inductor, and the moving contact end of three switches is total to contact and accesses described singlephase earth fault module;
10KV voltage is accessed through the 11 grounding switch Q11 through first and the 7th after threephase current transformer CT1, CT7 respectively again in described overhead transmission line and the front end of cable line; Circuit between described cable line front end and the 11 grounding switch Q11 is also connected to bypass through the 15 grounding switch Q15 ground connection;
Described 10kV bus is connected with three-phase five-pole voltage transformer PT.
On the basis of the above, Ben Fa Monaco can also be perfect further:
Also comprise and measure controlling test operator's console, record ripple screen, checkout equipment interface module, electromagnetic screen cage and overcurrent protection module.
Contain neutral grounding mode module, 10kV busbar modules, 10kV π type Equivalent Model module, singlephase earth fault module and checkout equipment interface module in described electromagnetic screen cage, shield the electromagnetic interference (EMI) that single-phase earthing simulation test produces.
Described detection interface module, is realized by CT or the PT measuring sensor secondary output contact in joint test platform, has both met the needs of system failure record ripple, and has also met the needs detecting the product protection such as route selection and localization of fault performance.
Preferably, cable line regular length π pressed by the cable line of described 10kV π type Equivalent Model transmission line of electricity, the π type Equivalent Model of series connection 5 cable line regular lengths, accesses singlephase earth fault module after the cable line of simulation 5 times of cable line regular lengths.Overhead transmission line presses overhead transmission line regular length π, the π type Equivalent Model of series connection 5 overhead transmission line regular lengths, accesses singlephase earth fault module after the overhead transmission line of simulation 5 times of overhead transmission line regular lengths.
Each circuit of the present utility model leaves the space increasing π type structure, by changing π shape parameter, and the progression of π shape parameter, can dummycable circuit, overhead transmission line, overground cable joint line, and long line or short-term can be simulated; Can analog line head end, end, centre and branch line place earth fault behavior.
Neutral ground module of the present utility model possesses the function of various neutral grounding mode conversion, can realize small current neutral grounding mode (comprise: isolated neutral, through arc suppression coil or high resistance ground) and can realize again big current earthing mode (Neutral Point Through Low Resistance or directly ground connection).
Singlephase earth fault module of the present utility model comprises arc light, high resistant, metal three kinds of earth faults, and the static contact upper end of two isolation switch connects 10kV neutral point altogether, and a moving contact contact resistance ground connection, another moving contact connects grounding through arc.This two isolation switch interlocks, and wherein during a conjunction, another must divide, and realizes Neutral Grounding through Resistance in Electrical or the handoff-security through grounding through arc.When the equal disjunction of this two isolation knife, pilot system is isolated neutral.
Between two π shape parameter modules of the present utility model, T connects switch static contact, its moving contact connects the static contact of three switches altogether, and this three controls the moving contact of switch through sand resistance (water resistance) ground connection (simulation high resistance ground), through a pair graphite contact ground connection (simulation arc grounding), directly ground connection (simulation metallic ground) respectively.Each T place of connecing switch deciliter for selecting Single-phase Ground Connection Failure, has coordinated the selection to different faults point, different earth fault type from singlephase earth fault module.
The utility model advantage:
One, multistage π type structure is adopted, by changing π shape parameter, and the progression of π shape parameter, can dummycable circuit, overhead transmission line, overground cable joint line, long line or short-term can be simulated; Can analog line head end, end, centre and branch line place earth fault behavior.
Two, this test platform can realize small current neutral grounding mode (comprise: isolated neutral, through arc suppression coil or high resistance ground); Big current earthing mode can be realized again: Neutral Point Through Low Resistance or directly ground connection.
Three, this test platform both can simulate high resistance ground, arc grounding, can simulate the high resistance ground of different resistance simultaneously.
Four, transmission line of electricity module and singlephase earth fault module are all placed in rectangular shield cage, to shield the electromagnetic interference (EMI) that various earth fault produces.
Five, once, secondary circuit independently separately, high-low pressure dissociated operation, when high pressure exits test cage, high-low pressure interlocking, closes that earthing discharges over the ground, the locking of high tension transmission button automatically, now higher-pressure region electromagnetism is locked a door and just can be opened, and can enter to test cage operation.
Six, locking mutually all automatically between all buttons of control box, guarantees the phase fault caused without maloperation, guarantees whenever only have a high-voltage contact to touch high-pressure side.
Accompanying drawing explanation
Fig. 1 is an electronic schematic diagram of the present utility model.
Embodiment
Below in conjunction with accompanying drawing, the utility model is further described.
As shown in Figure 1; electric system 1:1 electric pressure distribution singlephase earth fault analogue test platform embodiment of the present utility model, comprises neutral ground module, 10kV bus, 10kV π type Equivalent Model transmission line of electricity module, singlephase earth fault module, measures controlling test operator's console, records ripple screen, checkout equipment interface module, electromagnetic screen cage and overcurrent protection module.
Contain neutral grounding mode module, 10kV busbar modules, 10kV π type Equivalent Model module, singlephase earth fault module and checkout equipment interface module in described electromagnetic screen cage, shield the electromagnetic interference (EMI) that single-phase earthing simulation test produces.
Described detection interface module, is realized by CT or the PT measuring sensor secondary output contact in joint test platform, has both met the needs of system failure record ripple, and has also met the needs detecting the product protection such as route selection and localization of fault performance.
Composition and the annexation of described neutral ground module are: a high-pressure side is directly connected in the neutral point circuit current sampling mutual inductor CT13 of power system transformer high-voltage output end neutral point, and its output is divided into two groundings: the first branch road is in series with arc suppression coil L11 and the 17 isolation switch Q17, the second branch road are in series with small resistor R11 and the 16 isolation switch Q16.
Described singlephase earth fault module is three articles of parallel circuits: first line is in series with the 12 switch isolation switch Q12, the second circuit be in series with on the 13 switch isolation switch Q13 and arcing portfire rh, tertiary circuit and is in series with the 14 switch isolation switch Q14 and husky resistance r;
Described 10kV π type Equivalent Model transmission line of electricity comprises overhead transmission line and cable line, and be built into multistage π type structure with the electric capacity of line length parameter equivalence, inductance and resistance, overhead transmission line and cable line are all several π type Equivalent Model of series connection; Described π type structure is: the inductance of series connection and the two ends of inductance internal resistance are respectively by capacity earth, and the end of all π type structures also connects described singlephase earth fault module respectively after threephase current transformer and grounding switch; The static contact of three T-shaped connections three in connection of two π type Equivalent Model single phase operation switch only, the connecting line of three static contacts and π type Equivalent Model penetrates zero sequence current mutual inductor, and the moving contact end of three switches is total to contact and accesses described singlephase earth fault module;
10KV voltage is accessed through the 11 grounding switch Q11 through first and the 7th after threephase current transformer CT1, CT7 respectively again in described overhead transmission line and the front end of cable line; Circuit between described cable line front end and the 11 grounding switch Q11 is also connected to bypass through the 15 grounding switch Q15 ground connection;
Described 10kV bus is connected with three-phase five-pole voltage transformer PT.
The cable line of the present embodiment and overhead transmission line be totally 10 π type structures, one π type structure is: the first inductance L 1 of series connection and the two ends of the first inductance internal resistance R1 are respectively by first, second C1, C2 ground connection of electric capacity, and inductance end also connects singlephase earth fault module after the second Current Transmit 2 and the first grounding switch Q1;
2nd π type structure is: the second inductance L 2 of series connection and the two ends of the second inductance internal resistance R2 are respectively by the 3rd, the 4th electric capacity C3, C4 ground connection, and inductance end also connects singlephase earth fault module after the 3rd Current Transmit 3 and the second grounding switch Q2;
------
Tenth π type structure is: the tenth inductance L 10 of series connection and the two ends of the tenth inductance internal resistance R10 are respectively by electric capacity the 19, the 20 C19, C20 ground connection, and inductance end also connects singlephase earth fault module after the 12 Current Transmit 12 and the tenth grounding switch Q10.
Each pin network can be thrown by isolation switch flexibly and be moved back in system, that is: by changing π shape parameter, and the progression of π shape parameter, can dummycable circuit, overhead transmission line, overground cable joint line, and long line or short-term can be simulated; Can analog line head end, end, centre and branch line place earth fault behavior.
So, the utility model is one and has the test platform can simulating metallic ground, arc grounding, high resistance ground, by fault phase through different medium ground connection, can realize three kinds of different earthing modes:
After general supply of closing isolation switch Q11, this function realizes by operating troubles point stake resistance module, this module by little three isolation switch Q12 Q13 Q14, husky resistance (or water resistance) r, arcing portfire rh form, isolation switch upper end is directly connected in each π type line output, isolation knife moving contact can respectively by conjunction Q14, through sand resistance (water resistance) r ground connection, simulation high resistance ground; Close Q13, through graphite contact ground connection, simulation arc grounding; Close Q12, direct ground connection, simulation metallic ground.
The utility model or one have the test platform of different system mode switch function, this function is realized by operation neutral ground module, the composition of this module and annexation are: high-pressure side is directly connected in the neutral point circuit current sampling mutual inductor CT13 of transformer high-voltage neutral output terminal point, and its output is divided into two groundings: the first branch road is in series with arc suppression coil L11 and isolation switch Q16, the second branch road is in series with small resistor R11 and isolation switch Q17.
Disjunction Q16, Q17, can realize isolated neutral; Q16 disjunction, Q17 closes, and can realize neutral by arc extinction coil grounding; Q17 disjunction, Q16 closes, and can realize Neutral Point Through Low Resistance.
The utility model simultaneously or one possesses the test platform detecting interface, by the bus of test platform and the diverse location of feeder line, installs the measuring sensors such as CT or PT and the realization of secondary output contact.
By the method for π type equivalent parameters simulation distribution line, adopt multistage π type structure, by changing π shape parameter, and the progression of π shape parameter, can dummycable circuit, overhead transmission line, overground cable joint line, long line or short-term can be simulated; Can analog line head end, end, centre and branch line place earth fault behavior.

Claims (3)

1. oneplant electric system 1:1 electric pressure distribution singlephase earth fault analogue test platform, it is characterized in that: comprise neutral ground module, 10kV bus, 10kV π type Equivalent Model transmission line of electricity module and singlephase earth fault module;
Composition and the annexation of described neutral ground module are: a high-pressure side is directly connected in the neutral point circuit current sampling mutual inductor (CT13) of power system transformer high-voltage output end neutral point, and its output is divided into two groundings: the first branch road is in series with arc suppression coil (L11) and the 17 isolation switch (Q17), the second branch road are in series with small resistor (R11) and the 16 isolation switch (Q16);
Described singlephase earth fault module is three articles of parallel circuits: first line is in series with the 12 switch isolation switch (Q12), the second circuit be in series with on the 13 switch isolation switch (Q13) and arcing portfire (rh), tertiary circuit and is in series with the 14 switch isolation switch (Q14) and husky resistance (r);
Described 10kV π type Equivalent Model transmission line of electricity comprises overhead transmission line and cable line, and be built into multistage π type structure with the electric capacity of line length parameter equivalence, inductance and resistance, overhead transmission line and cable line are all several π type Equivalent Model of series connection; Described π type structure is: the inductance of series connection and the two ends of inductance internal resistance are respectively by capacity earth, and the end of all π type structures also connects described singlephase earth fault module respectively after threephase current transformer and grounding switch; The static contact of three T-shaped connections three in connection of two π type Equivalent Model single phase operation switch only, the connecting line of three static contacts and π type Equivalent Model penetrates zero sequence current mutual inductor, and the moving contact end of three switches is total to contact and accesses described singlephase earth fault module;
10KV voltage is accessed through the 11 grounding switch (Q11) through first and the 7th after threephase current transformer (CT1, CT7) respectively again in described overhead transmission line and the front end of cable line; Circuit between described cable line front end and the 11 grounding switch (Q11) is also connected to bypass through the 15 grounding switch (Q15) ground connection;
Described 10kV bus is connected with three-phase five-pole voltage transformer (PT).
2. electric system 1:1 electric pressure distribution singlephase earth fault analogue test platform according to claim 1, is characterized in that: also comprise and measure controlling test operator's console, record ripple screen, checkout equipment interface module, electromagnetic screen cage and overcurrent protection module;
Contain described neutral grounding mode module, 10kV busbar modules, 10kV π type Equivalent Model module, singlephase earth fault module and checkout equipment interface module in described electromagnetic screen cage, shield the electromagnetic interference (EMI) that single-phase earthing simulation test produces;
Described detection interface module; realized by the threephase current transformer (CT) in joint test platform or three-phase five-pole voltage transformer (PT) measuring sensor secondary output contact; both meet the needs of system failure record ripple, also meet the needs detecting the product protection such as route selection and localization of fault performance.
3. electric system 1:1 electric pressure distribution singlephase earth fault analogue test platform according to claim 1 and 2, it is characterized in that: the cable line of described 10kV π type Equivalent Model transmission line of electricity is by cable line regular length π, the π type Equivalent Model of series connection 5 cable line regular lengths, accesses singlephase earth fault module after the cable line of simulation 5 times of cable line regular lengths; Overhead transmission line presses overhead transmission line regular length π, the π type Equivalent Model of series connection 5 overhead transmission line regular lengths, accesses singlephase earth fault module after the overhead transmission line of simulation 5 times of overhead transmission line regular lengths.
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Cited By (5)

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CN104732847A (en) * 2015-01-14 2015-06-24 广东电网有限责任公司电力科学研究院 Electric power system 1:1 voltage class distribution network single-phase ground fault simulation test platform
CN106251748A (en) * 2016-10-14 2016-12-21 陈丽黄 A kind of electric power system fault analog
CN107748304A (en) * 2017-09-23 2018-03-02 李景禄 A kind of multifunctional ligand power network neutral earthing devices on-site calibrating method and instrument
CN110146763A (en) * 2019-06-05 2019-08-20 南方电网科学研究院有限责任公司 Arc suppression coil parallel connection low-resistance grounding device test method, equipment and storage medium
CN110320419A (en) * 2019-06-05 2019-10-11 南方电网科学研究院有限责任公司 The experimental rig and test method of arc suppression coil parallel connection low-resistance grounding device

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104732847A (en) * 2015-01-14 2015-06-24 广东电网有限责任公司电力科学研究院 Electric power system 1:1 voltage class distribution network single-phase ground fault simulation test platform
CN104732847B (en) * 2015-01-14 2017-04-12 广东电网有限责任公司电力科学研究院 Electric power system 1:1 voltage class distribution network single-phase ground fault simulation test platform
CN106251748A (en) * 2016-10-14 2016-12-21 陈丽黄 A kind of electric power system fault analog
CN106251748B (en) * 2016-10-14 2018-09-25 陈颐 A kind of electric power system fault simulator
CN107748304A (en) * 2017-09-23 2018-03-02 李景禄 A kind of multifunctional ligand power network neutral earthing devices on-site calibrating method and instrument
CN110146763A (en) * 2019-06-05 2019-08-20 南方电网科学研究院有限责任公司 Arc suppression coil parallel connection low-resistance grounding device test method, equipment and storage medium
CN110320419A (en) * 2019-06-05 2019-10-11 南方电网科学研究院有限责任公司 The experimental rig and test method of arc suppression coil parallel connection low-resistance grounding device
CN110146763B (en) * 2019-06-05 2021-04-02 南方电网科学研究院有限责任公司 Arc suppression coil parallel low-resistance grounding device test method and device and storage medium

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