CN205680993U - 66KV indoor intelligent substation modular construction is arranged - Google Patents

Abstract

The utility model belongs to intelligent substation technical field, particularly relates to a kind of 66KV indoor intelligent substation modular construction and arranges, this structure is arranged and included the first main transformer room, second main transformer room, GIS room the first radiator chamber, the second radiator chamber, the first arc suppression coil room, second arc suppression coil room, 10KV electrical room, 10KV capacitor chamber, secondary device room are arranged in the southern side of transformer station, security tool room, reference room and toilet.The utility model improves intelligent substation construction efficiency, realize that the links such as Preliminary design, equipment purchase, construction drawing design, civil engineering, installation and debugging, production run are effectively connected, improve the management of transformer substation construction overall process lean and construction efficiency, improve engineering construction safe mass, technological level.

Description

66KV indoor intelligent substation modular construction is arranged

Technical field

The utility model belongs to intelligent substation technical field, particularly relates to a kind of 66KV indoor intelligent substation modularization Structure is arranged.

Background technology

For General Promotion power grid construction ability, require according to " standardized designs, batch production processing, modularization construction ", anxious Need 66kV intelligent substation modularization construction, at utmost to realize large-scale production in factory, integrated debugging, modularization dispensing, Reduce in-site installation, wiring, debugging efforts, improve construction quality, efficiency.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of 66KV indoor intelligent substation modular construction Arrange, reaching at utmost to realize large-scale production, integrated debugging, modularization dispensing in factory, and reduce in-site installation, connect Line, debugging efforts, improve construction quality, efficiency.

The utility model is achieved in that a kind of 66KV indoor intelligent substation modular construction is arranged, this transformer station Including the first main transformer room, in it, set No. I main transformer；Second main transformer room, sets No. II main transformer, GIS room in it Be positioned between described first main transformer room and the second main transformer room, set No. I GIS and No. II GIS in GIS indoor, respectively with Described No. I main transformer and No. II main transformer connect, and described first main transformer room opposite side arranges the first radiator chamber, interior If No. I radiator is connected with described No. I main transformer, described second main transformer room opposite side arranges the second radiator chamber, interior If No. II radiator is connected with described No. II main transformer, the opposite side of described second radiator chamber arranges the first arc suppression coil room And the second arc suppression coil room, described first arc suppression coil indoor set No. I arc suppression coil and are connected with described No. I main transformer, described Second arc suppression coil indoor set No. II arc suppression coil and are connected with described No. II main transformer；Described first main transformer room, second Main transformer room, GIS room, the first radiator chamber, the second radiator chamber, the first arc suppression coil room and the second arc suppression coil room are arranged North side in transformer station；

10KV electrical room is arranged in the southern side of transformer station, inside set 10KV air insulation switch cubicle, No. I ground connection becomes, No. II Ground connection becomes and secondary cable ditch, described No. I main transformer, No. II main transformer, No. I ground connection become and No. II ground connection variation not and institute State 10KV air insulation switch cubicle to connect；10KV capacitor chamber is arranged in the side of 10KV electrical room, inside sets two No. I electric capacity Device and two No. II capacitors are connected with between described 10KV air insulation switch cubicle respectively；The opposite side of 10KV electrical room Arrange secondary device room, inside set modularization secondary device；The opposite side of described secondary device room arranges security tool room, reference room And toilet.

Further, described No. I main transformer and No. II main transformer are three-phase double winding that capacity is 50MVA, have load Pressure regulation power transformer, the voltage ratio of described No. I main transformer and No. II main transformer is 66 ± 8 × 1.25%/10.5kV, connects Line group is YNd11, and short-circuit impedance is Uk%=10.

Further, described 10KV air insulation switch cubicle is type metal armor switchgear, inside sets vacuum circuit breaker, joins bullet Spring operating mechanism.

Further, described No. I arc suppression coil and No. II arc suppression coil are 66KV arc suppression coil.

Further, described No. I GIS and the single-row arrangement of No. II GIS device, use long cable section of ingoing line, main transformer aerial sleeve to go out Line mode, the interval width of No. I GIS and No. II GIS is 0.8-1.0m.

Further, described first main transformer room, the second main transformer room, the first arc suppression coil room and the second arc blowout wire Circle indoor are additionally provided with neutral point equipment.

Further, described 10KV air insulation switch cubicle uses the indoor dually arrayed of withdraw-type switch cabinet.

Further, described No. I main transformer and No. II main transformer inlet wire and bus cross-line use built on stilts enclosed busbar Bridge mode, outlet all uses cable.

Further, described No. I capacitor and No. II capacitor are respectively 2 × 4000kvar 10KV shnt capacitor dress Put.

The utility model compared with prior art, has the beneficial effects that:

One is in-depth Standardization Construction, and the ripe new technology that is suitable for of integrated application, formation electrical primary, secondary, civil engineering are each specially Industry standardized technique scheme, it is achieved design, construction criteria, promotes engineering level, promotes energy-conservation Environmental Protection Level.

Two is to adapt to " running greatly ", " general overhaul " requirement, senior applied function module, standardization, customization, deepens intelligence Technology can be changed, it is achieved effectively support " regulation and control one, O&M one ", promote safety and stability power supply capacity.

Three be improve intelligent substation construction efficiency, it is achieved Preliminary design, equipment purchase, construction drawing design, civil engineering, The link such as installation and debugging, production run is effectively connected, and improves the management of transformer substation construction overall process lean and construction efficiency.

Four is the power grid construction ability that comprehensively improves, and design reaches the construction drawing degree of depth, and technology and equipment realizes integrated and factory Change debugging, apply prefabricated assembly structural, advance site machineryization construction, reduce field connection and debugging efforts, improve engineering and build If safe mass, technological level.

Brief description

Fig. 1 is structural representation of the present utility model.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing and enforcement Example, is further elaborated to the utility model.It should be appreciated that specific embodiment described herein only in order to explain The utility model, is not used to limit the utility model.

As it is shown in figure 1, a kind of 66KV indoor intelligent substation modular construction is arranged, floor space in enclosure wall: 0.2867 (hm²), overall floorage: 671 (m²).This structure is arranged and is included the first main transformer room 1, inside sets No. I main transformer 14；Second Main transformer room 2, inside sets No. II main transformer 15；GIS room 3 is positioned at described first main transformer room 1 and the second main transformer room 2 Between, set No. I GIS16 and No. II GIS17 in it, be connected with described No. I main transformer 14 and No. II main transformer 15 respectively, institute State the first main transformer room 1 opposite side and arrange the first radiator chamber 12, inside set No. I radiator 18 and described No. I main transformer 14 Connecting, described second main transformer room 2 opposite side arranges the second radiator chamber 13, inside sets No. II radiator 19 and described No. II master Transformer 15 connects, and the opposite side of described second radiator chamber 13 arranges the first arc suppression coil room 7 and the second arc suppression coil room 8, Set No. I arc suppression coil 20 in described first arc suppression coil room 7 to be connected with described No. I main transformer 14, described second arc suppression coil Set No. II arc suppression coil 21 in room 8 to be connected with described No. II main transformer 15；Described first main transformer room the 1st, the second main transformer pressure The 2nd, GIS room, device room the 3rd, the first radiator chamber the 12nd, the second radiator chamber the 13rd, the first arc suppression coil room 7 and the second arc suppression coil room 8 cloth Put the north side in transformer station；

10KV electrical room 4 is arranged in the southern side of transformer station, inside set 10KV air insulation switch cubicle the 22nd, No. I ground connection become and Blowout coil set apparatus the 23rd, No. II ground connection becomes and blowout coil set apparatus 24 and secondary cable ditch 25, described No. I main transformer pressure Device 14 and No. II main transformer 15 are connected with described 10KV air insulation switch cubicle 22；The side of 10KV electrical room 4 is arranged 10KV capacitor chamber 5, inside sets two No. I capacitors 26 and two No. II capacitors 27 switch with described 10KV air insulation respectively Connect between cabinet 22；The opposite side of 10KV electrical room 4 arranges secondary device room 6, inside sets modularization secondary device 28；Described The opposite side of secondary device room 6 arranges security tool room the 9th, reference room 10 and toilet 11.Described modularization secondary device 28 wraps Include station level EM equipment module, shared device module, communication device module, main transformer interval module and integration power-supply system module.

During construction, transformer station's enclosure wall preferably uses big building block entity enclosure wall, and height is 2.3m, and enclosure wall center floor space 69 × 37=2553 square metre, substation gate should meet main transformer, secondary unit equipment etc. directly to main transformer transport routes Whole Transporting.

Fire wall preferably uses the patterns such as framework+big building block, framework+wallboard, clear water armored concrete fire wall.Leader cable ditch Preferably using masonry, cast-in-place concrete or armored concrete ditch body, masonry ditch body top preferably arranges prefabricating coping, and cable duct uses into Product cover plate.66kV outlet current period and 2 times at a specified future date, current period and at a specified future date use line change group wiring.10kV outlet current period and 24 times at a specified future date, Current period and long term all use single-trunk segmental wiring.

No. I main transformer 14 that use in the present embodiment and No. II main transformer 15 are three-phase double wrap that capacity is 50MVA Group, loaded voltage-regulating electric transformer, the voltage ratio of described No. I main transformer and No. II main transformer is 66 ± 8 × 1.25%/ 10.5kV, wiring group is YNd11, and short-circuit impedance is Uk%=10.

10KV air insulation switch cubicle 22 is type metal armor switchgear, inside sets vacuum circuit breaker, joins spring operating mechanism, A size of 0.8m or 1.0m.

No. I arc suppression coil 20 and No. II arc suppression coil 21 are 66KV arc suppression coil.

No. I GIS16 and the single-row arrangement of No. II GIS17 equipment, use long cable section of ingoing line, main transformer aerial sleeve outlet method, if Interval width between Bei is 0.8-1.0m.

In first main transformer room the 1st, the second main transformer room the 2nd, the first arc suppression coil room 7 and the second arc suppression coil room 8 also It is provided with neutral point equipment.

10KV air insulation switch cubicle 22 uses the indoor dually arrayed of withdraw-type switch cabinet.

No. I main transformer 14 and No. II main transformer 15 inlet wire and bus cross-line use built on stilts enclosed busbar bridge mode, go out Line all uses cable.

Two No. I capacitors 26 and two No. II capacitors 27 are respectively 2 × 4000kvar 10KV shnt capacitor dress Put.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all at this Any modification, equivalent and the improvement etc. made within the spirit of utility model and principle, should be included in the utility model Protection domain within.

Claims (9)

1. the indoor intelligent substation modular construction of a 66KV is arranged, it is characterised in that this transformer station includes the first main transformer pressure Device room, sets No. I main transformer in it；Second main transformer room, sets No. II main transformer in it, it is main that GIS room is positioned at described first Between transformer room and the second main transformer room, set No. I GIS and No. II GIS in GIS indoor, respectively with described No. I main transformer And No. II main transformer connects, described first main transformer room opposite side arranges the first radiator chamber, inside sets No. I radiator and institute Stating No. I main transformer to connect, described second main transformer room opposite side arranges the second radiator chamber, inside sets No. II radiator and institute Stating No. II main transformer to connect, the opposite side of described second radiator chamber arranges the first arc suppression coil room and the second arc suppression coil Room, described first arc suppression coil indoor set No. I arc suppression coil and are connected with described No. I main transformer, described second arc suppression coil room Inside set No. II arc suppression coil to be connected with described No. II main transformer；Described first main transformer room, the second main transformer room, GIS Room, the first radiator chamber, the second radiator chamber, the first arc suppression coil room and the second arc suppression coil room are arranged in the north of transformer station Side；

10KV electrical room is arranged in the southern side of transformer station, inside sets 10KV air insulation switch cubicle, No. I ground connection change, No. II ground connection Becoming and secondary cable ditch, described No. I main transformer, No. II main transformer, No. I ground connection change and No. II ground connection variation are other and described 10KV air insulation switch cubicle connects；10KV capacitor chamber is arranged in the side of 10KV electrical room, inside sets two No. I capacitors It with two No. II capacitors, is connected with between described 10KV air insulation switch cubicle respectively；The opposite side of 10KV electrical room Arrange secondary device room, inside set modularization secondary device；The opposite side of described secondary device room arranges security tool room, reference room And toilet.

2. arrange according to a kind of 66KV indoor intelligent substation modular construction described in claim 1, it is characterised in that described No. I main transformer and No. II main transformer are the three-phase double winding, loaded voltage-regulating electric transformer that capacity is 50MVA, described No. I The voltage ratio of main transformer and No. II main transformer is 66 ± 8 × 1.25%/10.5kV, and wiring group is YNd11, short-circuit impedance For Uk%=10.

3. arrange according to a kind of 66KV indoor intelligent substation modular construction described in claim 1, it is characterised in that described 10KV air insulation switch cubicle is type metal armor switchgear, inside sets vacuum circuit breaker, joins spring operating mechanism.

4. arrange according to a kind of 66KV indoor intelligent substation modular construction described in claim 1, it is characterised in that described No. I arc suppression coil and No. II arc suppression coil are 66KV arc suppression coil.

5. arrange according to a kind of 66KV indoor intelligent substation modular construction described in claim 1, it is characterised in that described No. I GIS and the single-row arrangement of No. II GIS device, use long cable section of ingoing line, main transformer aerial sleeve outlet method, No. I GIS and No. II GIS Between interval width be 0.8-1.0m.

6. arrange according to a kind of 66KV indoor intelligent substation modular construction described in claim 1 or 3, it is characterised in that Described 10KV air insulation switch cubicle uses the indoor dually arrayed of withdraw-type switch cabinet.

7. arrange according to a kind of 66KV indoor intelligent substation modular construction described in claim 1, it is characterised in that described No. I main transformer and No. II main transformer inlet wire and bus cross-line use built on stilts enclosed busbar bridge mode, and outlet all uses cable.

8. arrange according to a kind of 66KV indoor intelligent substation modular construction described in claim 1, it is characterised in that described No. I capacitor and No. II capacitor are respectively 2 × 4000kvar 10KV parallel capacitor device.

9. arrange according to a kind of 66KV indoor intelligent substation modular construction described in claim 1, it is characterised in that described First main transformer room, the second main transformer room, the first arc suppression coil room and the second arc suppression coil indoor are additionally provided with neutral point and set Standby.