CN103872687A - Power distribution network rack wiring structure - Google Patents

Power distribution network rack wiring structure Download PDF

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Publication number
CN103872687A
CN103872687A CN201410122557.2A CN201410122557A CN103872687A CN 103872687 A CN103872687 A CN 103872687A CN 201410122557 A CN201410122557 A CN 201410122557A CN 103872687 A CN103872687 A CN 103872687A
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China
Prior art keywords
distribution network
ring
wiring construction
network frame
power distribution
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CN201410122557.2A
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Chinese (zh)
Inventor
吴立
吴正骅
贾建军
杨晨燕
王赛一
闾文浩
徐文进
华月申
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State Grid Shanghai Electric Power Co Ltd
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State Grid Shanghai Electric Power Co Ltd
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Priority to CN201410122557.2A priority Critical patent/CN103872687A/en
Publication of CN103872687A publication Critical patent/CN103872687A/en
Pending legal-status Critical Current

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Abstract

Disclosed is a power distribution network rack wiring structure. The power distribution network rack wiring structure is of a dual-ring network structure with four power sources. The power distribution network rack wiring structure comprises two switching stations and two power distribution ring network structures which are connected between the two switching stations in series. Each power distribution ring network structure comprises a plurality of ring main units which are connected between outgoing lines of the switching stations in series. Interconnection lines are arranged between corresponding ring main units in the two power distribution ring network structures, and ring interconnection switches are arranged on the interconnection lines. The power distribution network rack wiring structure is high in power distribution reliability and flexible in operation mode, loads can be balanced by controlling the ring interconnection switches, and the power distribution network rack wiring structure is suitable for core area construction development lands, important user power supply areas and the areas which have high load density and the high reliability requirement.

Description

Distribution Network Frame wiring construction
Technical field
The present invention relates to a kind of Distribution Network Frame wiring construction.
Background technology
Shanghai City is the first city of China, and one of four municipality directly under the central government are China's economy, finance, trade and shipping centre.2012, Shanghai City GCP reached 2.01 trillion RMB, 11 of whole world ranks.GCP and per capita disposable income all occupy national each provinces and regions and municipality directly under the Central Government first place per capita.Shanghai is in the development key period of " industrial transformation " at present, puts forth effort to make that " four " center "-international economy centers, international financial center, International Trade Center, International shipping center, this just has higher requirement to whole city's power supply capacity level.
1210.41 square kilometres of Pudong New Area, Shanghai whole district areas, determine to have gone through development in more than 20 years since " Pudong's great development " key areas such as built Golden Bridge, the national development zone of Zhangjiang, Waigaoqiao Bonded Zone, Lujiazui Financial and Trade Zone for the Party Central Committee, State Council from nineteen ninety.On July 3rd, 2013, " China (Shanghai) free trade trial zone " is granted, settles coastal 28 square kilometres of Pudong New District, indicates the ground zero of Shanghai Metallurgical Industry.As whole city's maximum, most active district, Pudong New District is comprising that all many-sides such as economic development, industrial transformation lead the whole city.
The construction scope of Pudong's core space power distribution network is the riverine core space of Pudong's Huangpu River, and to Huangpu River, north, to Huangpu River, to the east of Pudong South Road, reaches credit Hua Lu in the south, takes up an area approximately 10 square kilometres.Naturally extending of the rapid growth of this core area power load and distribution line, has unavoidably caused the problems such as blur boundary, crossing elimination, roundabout power supply, affects power supply reliability and line loss lean.
Represent the international Advanced Cities such as the Singapore, Tokyo, Hong Kong, Paris of world-class level although the historical power supply reliability of Pudong's core space, at home in higher level, is compared, gap is larger.2013, State Grid Corporation of China promulgated " distribution network planning designing technique directive/guide ", proposed large size city nucleus to be defined as A+ region, integrated with world-class level, realized power supply reliability higher than 99.999% developing goal.Therefore, no matter be the power supply service level in international metropolis's core city, or the developing goal of State Grid Corporation of China's technology directive/guide proposition, all Pudong's core space is proposed to higher power supply reliability requirement.
Aspect 10kV medium voltage distribution network grid structure, core space is compared Guo Wang company, Shanghai company Guidelines, belongs to lack of standardization, atypical phenomenon and mainly contains three kinds:
1, overhead wire segmentation capacity is bigger than normal, gets in touch with on the low side;
2, do not meet current techniques principle according to the III type power distribution station of old standard construction;
3, there is atypia wiring in overhead wire.
And by the international advanced metropolis of contrast distribution net work structure, as Tokyo, Singapore, Hong Kong, Paris etc., the deficiency that sums up the current rack existence of core space comprises:
1, to share rate higher at part transformer station interval;
2, on switchyard, level power supply, all from the different buses of same transformer station, belongs to secondary duplicate supply;
3, on most of looped network, level power supply, from the different buses of same transformer station (switchyard), belongs to secondary duplicate supply;
4, switchyard total number is on the low side, 10kV interval anxiety;
5, exist large looped network to overlap little ring network structure, power distribution automation is disposed and brought technical difficulty;
6, rack is laterally got in touch with weakness, and rack load transfer ability is limited.
For solving above-mentioned power distribution network rack aspect existing problems, core space need be strengthened distribution grid structure, optimizes the mode of connection, reduce circuit Rate of average load, strengthen load transfer ability, study and define normalized distribution Connection Mode, and according to unified standard, high-quality construction.
Summary of the invention
The invention provides a kind of Distribution Network Frame wiring construction, power supply reliability is high, and operational mode is flexible, can balanced load by interconnection switch between control ring.
In order to achieve the above object, the invention provides a kind of Distribution Network Frame wiring construction, this Distribution Network Frame wiring construction is dual-ring network four power supply architectures, this Distribution Network Frame wiring construction comprises two switchyards, and be connected on two distributor track web frames between two switchyards, every distributor track web frame comprises the ring main unit between some outlets that are connected on switchyard, in two distributor track web frames, between the ring main unit of correspondence, interconnection is set, and interannular interconnection switch is set on interconnection.
The ring main unit quantity comprising in every distributor track web frame is consistent.
Described interannular interconnection switch is normal open switch.
In one of them ring main unit in every described distributor track web frame, interconnection switch in ring is set.
In described ring, interconnection switch is normal open switch.
Described switchyard comprises the first paragraph bus and the second segment bus that connect by block switch, and every section of bus connects respectively one back into line and some lines that returns back out, and often returns back out circuit breaker is set on line.
On each ring main unit, distribution power automation terminal is set, controls the switch motion in ring main unit.
A feeder line automatic protecting control device is set in the outlet of each switchyard, and it connects described distribution power automation terminal and interannular interconnection switch, controls the action of whole Distribution Network Frame wiring construction.
Power supply reliability of the present invention is high, and operational mode is flexible, can balanced load by interconnection switch between control ring, be applicable to core space construction exploitation land used, responsible consumer power supply and the region that load density is high, reliability requirement is high.
Brief description of the drawings
Fig. 1 is circuit structure block diagram of the present invention.
Fig. 2 is the schematic diagram of switchyard.
Fig. 3~Fig. 5 is that the feeder line of the present invention under failure condition protected schematic diagram automatically.
Fig. 6~Fig. 9 is that the present invention's feeder line under failure condition under inspecting state is protected schematic diagram automatically.
Embodiment
Following according to Fig. 1~Fig. 9, illustrate preferred embodiment of the present invention.
As shown in Figure 1, the invention provides a kind of Distribution Network Frame wiring construction, for dual-ring network four power supply architectures, this Distribution Network Frame wiring construction comprises two switchyards (switchyard 1 and switchyard 2), and be connected on two distributor track web frames between two switchyards, every distributor track web frame comprises the ring main unit 102 between some outlets that are connected on switchyard, ring main unit 102 quantity that comprise in every distributor track web frame are consistent, article two, in distributor track web frame, between the ring main unit 102 of correspondence, interconnection is set, interannular interconnection switch 101 is set on interconnection, this interannular interconnection switch is normal open switch, in one of them ring main unit in every described distributor track web frame, interconnection switch 103 in ring is set, in this ring, interconnection switch 103 is normal open switch.
As shown in Figure 2, switchyard comprises the first paragraph bus 11 and the second segment bus 12 that connect by block switch 13, first paragraph bus 11 connects inlet wire JX1 and some outlet LL1, circuit breaker 14 is set in outlet, second segment bus 12 connects inlet wire JX2 and some outlet LL2, and circuit breaker 15 is set in outlet.
On each ring main unit, distribution power automation terminal is set; control the switch motion in ring main unit; a feeder line automatic protecting control device is set in the outlet of each switchyard, and it connects described distribution power automation terminal and interannular interconnection switch, controls the action of whole Distribution Network Frame wiring construction.
As shown in Figure 3, it is the specific embodiment circuit structure diagram of Distribution Network Frame wiring construction of the present invention, this Distribution Network Frame wiring construction is dual-ring network four power supply architectures, between switchyard 1 and switchyard 2, connect two distributor track web frames, four ring main units 102 of all connecting in every distributor track web frame, Article 1, the outlet at distributor track web frame connecting valve station 1 and the outlet of switchyard 2, circuit breaker Q F1 is set in the outlet of switchyard 1, circuit breaker Q F3 is set in the outlet of switchyard 2, this Article 1 distributor track web frame arranges interconnection switch QS6 in ring on a ring main unit therein, in this ring, interconnection switch QS6 is normal open switch, as the cut-off point of this Article 1 distributor track web frame, the outlet at Article 2 distributor track web frame connecting valve station 1 and the outlet of switchyard 2, circuit breaker Q F2 is set in the outlet of switchyard 1, circuit breaker Q F4 is set in the outlet of switchyard 2, this Article 1 distributor track web frame arranges interconnection switch QS14 in ring on a ring main unit therein, in this ring, interconnection switch QS14 is normal open switch, as the cut-off point of this Article 2 distributor track web frame, thus, in this Distribution Network Frame wiring construction, the power supply area of switchyard 1 is through three-line and three ring main units, the power supply area of switchyard 2 is through two circuits and a ring main unit.In every distributor track web frame, between the ring main unit of correspondence, interannular interconnection switch is all set, is respectively interannular interconnection switch QS17, interannular interconnection switch QS18, interannular interconnection switch QS19 and interannular interconnection switch QS20.
While breaking down in Distribution Network Frame wiring construction; the present invention can realize Fault Isolation and restore electricity, and the dual-ring network four power supply architecture feeder line automatic protecting methods of realizing based on Distribution Network Frame wiring construction provided by the invention can be achieved as follows two kinds of feed protections in situation:
1, circuit single failure
Under normal operating condition; if there is circuit single failure; taking line fault between QS2-QS3 as example; its feeder line automatic protecting method is as follows: the protection starting of switchyard 1 outlet breaker; move in the fault of place outlet; switch QF1 instantaneous tripping, the three-line of the power supply area process of switchyard 1 and three equal dead electricity of ring main unit, as shown in Figure 3.
The now distribution power automation terminal of Article 1 distributor track web frame exchange operation information, failure judgement section is QS2-QS3 section circuit on the spot, and disconnects QS2 switch and QS3 switch, has completed the isolation of faulty line, now state is as shown in Figure 4.
After faulty line is isolated successfully, the non-fault section of power failure starts to restore electricity.The outlet breaker QF1 of switchyard 1 overlaps, and realizes the service restoration of the non-fault section QS1 bus institute on-load of faulty line upstream;
Interconnection switch QS6 closure in ring, has realized the non-fault section QS4 in faulty line downstream, the service restoration of QS5 bus institute on-load, as shown in Figure 5.
2, double switch station inlet wire dead electricity
Taking Article 1 distributor track web frame as example, its initial launch mode as shown in Figure 6, switchyard 1 goes out line segment QF1-QS1 in line maintenance state, interconnection switch QS6 closure in ring, the power supply area of switchyard 2 is through four circuits and four ring main units, and all four interannular interconnection switches are open position.
Go out under line segment QF1-QS1 line maintenance state at above-mentioned switchyard 1; go out line segment QF3-QS8 line fault if there is another road of switchyard 2; its feeder line automatic protecting method is as follows: switchyard 2 outlet breaker QF3 protections start; move in QF3-QS8 line fault; QF3 instantaneous tripping; four circuits and four equal dead electricity of ring main unit of the power supply area process of switchyard 3, as shown in Figure 7.
The now distribution power automation terminal of Article 1 distributor track web frame exchange operation information, failure judgement section is QF3-QS8 section circuit on the spot, and disconnects QS8 switch, has completed faulty line isolation, now state is as shown in Figure 8.
After faulty line is isolated successfully, need to be to the restoring power supply in non-broken-down section having a power failure, but go out line segment respectively in maintenance and malfunction due to what switchyard 1, switchyard 2 were connected with Article 1 distributor track web frame, therefore need to recover the power supply to non-fault section by interannular interconnection switch.Now not unique to the method that restores electricity of non-fault section, be equally assigned into target with load, recovery scheme is: cut-off switch QS2, interconnection switch QS17 between closed hoop, interconnection switch QS20 between closed hoop, has realized the service restoration of non-fault section QS2-QS3, QS4-QS5, QS6-QS7.
Under new operational mode, the dead electricity load in first ring main unit of left side is by interannular interconnection switch QS17 power supply, and the dead electricity load in second to the 4th ring main unit is by interannular interconnection switch QS20 power supply, as shown in Figure 9.
The power distribution network of dual-ring network four power supply architectures, in the time of any one looped network generation uniline fault, disconnected by switchyard wire-outgoing breaker, realize power-off, by distribution power automation terminal exchange operation information, the on-load switch at two ends, open failure district, completes Fault Isolation, by interconnection switch and interannular interconnection switch closure in distribution power automation terminal control electric power incoming line circuit breaker, ring, realize the power supply in fault-free district.
In the time there is multi-line fault, by the person on duty of distribution main website, according to the prompting of main station system, manual remote control realizes restoring electricity of fault-free district.
Although content of the present invention has been done detailed introduction by above preferred embodiment, will be appreciated that above-mentioned description should not be considered to limitation of the present invention.Read after foregoing those skilled in the art, for multiple amendment of the present invention and substitute will be all apparent.Therefore, protection scope of the present invention should be limited to the appended claims.

Claims (8)

1. a Distribution Network Frame wiring construction, it is characterized in that, this Distribution Network Frame wiring construction is dual-ring network four power supply architectures, this Distribution Network Frame wiring construction comprises two switchyards, and be connected on two distributor track web frames between two switchyards, every distributor track web frame comprises the ring main unit between some outlets that are connected on switchyard, in two distributor track web frames, between the ring main unit of correspondence, interconnection is set, and interannular interconnection switch is set on interconnection.
2. Distribution Network Frame wiring construction as claimed in claim 1, is characterized in that, the ring main unit quantity comprising in every distributor track web frame is consistent.
3. Distribution Network Frame wiring construction as claimed in claim 2, is characterized in that, described interannular interconnection switch is normal open switch.
4. Distribution Network Frame wiring construction as claimed in claim 3, is characterized in that, in one of them ring main unit in every described distributor track web frame, interconnection switch in ring is set.
5. Distribution Network Frame wiring construction as claimed in claim 4, is characterized in that, in described ring, interconnection switch is normal open switch.
6. Distribution Network Frame wiring construction as claimed in claim 5, it is characterized in that, described switchyard comprises the first paragraph bus and the second segment bus that connect by block switch, and every section of bus connects respectively one back into line and some lines that returns back out, and often returns back out circuit breaker is set on line.
7. Distribution Network Frame wiring construction as claimed in claim 6, is characterized in that, on each ring main unit, distribution power automation terminal is set, and controls the switch motion in ring main unit.
8. Distribution Network Frame wiring construction as claimed in claim 7; it is characterized in that; a feeder line automatic protecting control device is set in the outlet of each switchyard, and it connects described distribution power automation terminal and interannular interconnection switch, controls the action of whole Distribution Network Frame wiring construction.
CN201410122557.2A 2014-03-31 2014-03-31 Power distribution network rack wiring structure Pending CN103872687A (en)

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Publication number Priority date Publication date Assignee Title
CN105244872A (en) * 2015-10-23 2016-01-13 国家电网公司 Medium voltage cable network networking method
CN105470961A (en) * 2016-01-18 2016-04-06 国网天津市电力公司 Contact method in double-looped network nodes of 10-kV circuit
CN105790240A (en) * 2016-04-22 2016-07-20 国网天津市电力公司 Single power supply ring network-based fault processing and supplementing method
CN105896494A (en) * 2016-04-22 2016-08-24 国网天津市电力公司 Complementary method for handling fault in power distribution network based on power guarantee mode
CN105896495A (en) * 2016-04-22 2016-08-24 国网天津市电力公司 Complementary method for handling fault in distribution network based on dual cable power supply
CN105914734A (en) * 2016-04-22 2016-08-31 国网天津市电力公司 Differentiated power distribution network fault processing complementary method based on special operation mode

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105244872A (en) * 2015-10-23 2016-01-13 国家电网公司 Medium voltage cable network networking method
CN105470961A (en) * 2016-01-18 2016-04-06 国网天津市电力公司 Contact method in double-looped network nodes of 10-kV circuit
CN105790240A (en) * 2016-04-22 2016-07-20 国网天津市电力公司 Single power supply ring network-based fault processing and supplementing method
CN105896494A (en) * 2016-04-22 2016-08-24 国网天津市电力公司 Complementary method for handling fault in power distribution network based on power guarantee mode
CN105896495A (en) * 2016-04-22 2016-08-24 国网天津市电力公司 Complementary method for handling fault in distribution network based on dual cable power supply
CN105914734A (en) * 2016-04-22 2016-08-31 国网天津市电力公司 Differentiated power distribution network fault processing complementary method based on special operation mode

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Application publication date: 20140618