CN208723414U - A kind of integrated boost station of structure optimization - Google Patents
A kind of integrated boost station of structure optimization Download PDFInfo
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- CN208723414U CN208723414U CN201821029975.7U CN201821029975U CN208723414U CN 208723414 U CN208723414 U CN 208723414U CN 201821029975 U CN201821029975 U CN 201821029975U CN 208723414 U CN208723414 U CN 208723414U
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Abstract
The utility model relates to generate electricity, power transformation, electrical network field, the integrated boost station of especially a kind of structure optimization.It includes #2 switchgear house, booster stations relay bungalow, access system secondary device room and the #1 switchgear house that right side the #2 transformer chamber, the room GIS, #1 transformer chamber and the left side that are arranged from top to bottom are arranged from top to bottom, wherein #2 switchgear house is adjacent with #2 transformer chamber, booster stations relay bungalow is adjacent with #2 transformer chamber and the room GIS, and access system secondary device room and #1 switchgear house are adjacent with #1 transformer chamber.Its integral layout is reasonable, and function concentrates easily controllable and management, reduces the occupancy of land resource, optimizes the distance of equipment room, reduces the electric energy loss as caused by wiring complexity.
Description
Technical field
The utility model relates to generate electricity, power transformation, electrical network field, the integrated boost station of especially a kind of structure optimization.
Background technique
Booster stations are the total systems converted by charge voltage, are mainly used to boost, and reduce the damage of route electric energy
It loses.Many conventional booster stations, the especially booster stations of distributed energy resource system do not carry out the layout of science, each in booster stations
Kind of equipment is arbitrarily installed and is put, and causes booster stations integrally to take up a large area, wiring is complicated and function dispersion, is unfavorable for energy source station
Integral layout, be a kind of greatly waste for land resource, the electric power for wiring is also a kind of greatly loss, and
Control weakness caused by function dispersion also brings many puzzlements to the use of booster stations.
Utility model content
The purpose of the utility model is to provide a kind of integrated boost stations of structure optimization, and integral layout is reasonable, function collection
In it is easily controllable and management, reduce the occupancy of land resource, optimize the distance of equipment room, reduce since wiring complexity is led
The electric energy loss of cause.
In order to solve the above technical problems, the utility model adopts the following technical solutions:
A kind of integrated boost station of structure optimization, the #2 transformer chamber being arranged from top to bottom including right side, the room GIS, #1 main transformer
#2 switchgear house, booster stations relay bungalow, access system secondary device room and the #1 switchgear house that room and left side are arranged from top to bottom,
Middle #2 switchgear house is adjacent with #2 transformer chamber, and the booster stations relay bungalow is adjacent with #2 transformer chamber and the room GIS, the access system
Secondary device room and #1 switchgear house are adjacent with #1 transformer chamber.GIS (the i.e. letter of GAS INSULATED SWITCHGEAR therein
Claim) it is gas-insulating and fully-enclosed combined electrical apparatus, the room GIS is a kind of switchgear house.
The integrated boost station of structure optimization above-mentioned further includes #2 main transformer, high voltage distribution installation, #1 main transformer, #
2 low-voltage modules, protective relaying device, access system secondary device and #1 low-voltage module, the #2 main transformer are set to #2 master
Become in room, the high voltage distribution installation is set in the room GIS, and the #1 main transformer is set in #1 transformer chamber, and the #2 is low
Die block is set in #2 switchgear house, and the protective relaying device is set in booster stations relay bungalow, the access system two
Secondary device is set in access system secondary device room, and the #1 low-voltage module is set in #1 switchgear house.
The integrated boost station of structure optimization above-mentioned, the #2 low-voltage module include the #2 gas turbine generator being adjacently positioned
It exports power distribution equipment and #2 main transformer low-pressure side power distribution equipment, the #1 low-voltage module includes the #1 gas turbine generator being adjacently positioned
Export power distribution equipment and #1 main transformer low-pressure side power distribution equipment.
The integrated boost station of structure optimization above-mentioned, further includes firewall, where the #1 transformer chamber and #2 transformer chamber
Wall is set as firewall.
The integrated boost station of structure optimization above-mentioned, further includes passageway, the passageway be set to booster stations relay bungalow and
Between access system secondary device room, the passageway is also adjacent with the room GIS.
Compared with prior art, the utility model has the beneficial effect that
1) for the utility model by providing a kind of integrated boost station of structure optimization, integral layout is reasonable, and function is concentrated easy
In control and management, reduce the occupancy of land resource, optimize the distance of equipment room, reduces as caused by wiring complexity
Electric energy loss;
2) by being set to the electrical equipment in booster stations in the integrated boost station through rational deployment, so that each electrically set
Standby is rationally distributed, each that the distance between the electrical equipment for connecting control is needed to be optimized, so that wiring is shorter, subtracts
The electric energy loss of power circuit is lacked;
3) by the way that #2 gas turbine generator outlet power distribution equipment and the merging of #2 main transformer low-pressure side power distribution equipment are arranged in #2
In switchgear house, #1 gas turbine generator outlet power distribution equipment and the merging of #1 main transformer low-pressure side power distribution equipment are arranged in #1 switchgear house
In, so that the general layout spacing of booster stations and gas turbine generator set is shorter, #1 gas turbine generator exports power distribution equipment
Power distribution equipment is exported with #2 gas turbine generator and the spacing of corresponding gas turbine generator set is shorter, #1 main transformer and #1 main transformer
The spacing of low-pressure side power distribution equipment is shorter, and #2 main transformer and the spacing of #2 main transformer low-pressure side power distribution equipment are shorter, reduces zero
Influence of the building for wiring and device layout is dissipated, so that wiring more optimizes simpler, reduces electric energy loss;
4) by setting firewall for the wall where #1 transformer chamber and #2 transformer chamber, so that #1 transformer chamber and #2 main transformer
Room and adjacent room are able to carry out the intensity of a fire and are isolated and carry out fire prevention control, to improve fireproof safety coefficient in booster stations;
5) by the way that passageway is arranged between booster stations relay bungalow and access system secondary device room, to facilitate work
Personnel booster stations relay bungalow, access system secondary device room and the room GIS disengaging, while as fire safety passage improve
Security against fire coefficient.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model.
The meaning of appended drawing reference: 1-#2 transformer chamber, the room 2-GIS, 3-#1 transformer chamber, 4-#2 switchgear house, 5- booster stations relay
Device room, 6- access system secondary device room, 7-#1 switchgear house, 8-#2 main transformer, 9- high voltage distribution installation, 10-#1 main transformer pressure
Device, 11-#2 low-voltage module, 12- protective relaying device, 13- access system secondary device, 14-#1 low-voltage module, 15-#2 combustion gas
Turbine generator exports power distribution equipment, 16-#2 main transformer low-pressure side power distribution equipment, and 17-#1 gas turbine generator exports power distribution equipment,
18-#1 main transformer low-pressure side power distribution equipment, 19- firewall, the passageway 20-.
The utility model is further described with reference to the accompanying drawings and detailed description.
Specific embodiment
The embodiments of the present invention 1: a kind of integrated boost station of structure optimization, constitute as shown in Figure 1, include right side from
The #2 switchgear house 4 that is arranged from top to bottom up to the #2 transformer chamber 1 of lower setting, the room GIS 2, #1 transformer chamber 3 and left side, booster stations after
Electric apparatus room 5, access system secondary device room 6 and #1 switchgear house 7, wherein #2 switchgear house 4 is adjacent with #2 transformer chamber 1, the boosting
Relay bungalow 5 of standing is adjacent with #2 transformer chamber 1 and the room GIS 2, access system secondary device room 6 and #1 switchgear house 7 and #1 main transformer
Room 3 is adjacent.GIS (i.e. the abbreviation of GAS INSULATED SWITCHGEAR) therein is gas-insulating and fully-enclosed combined electrical apparatus,
The room GIS is a kind of switchgear house.The place at integrated boost station is rationally distributed, is that the layout of the electrical equipment in integrated boost station carries out
Planning, facilitates the connection for the electrical equipment being placed in one, provides very for the centralized control and management of these electrical equipments
Good place.
The integrated boost station of the structure optimization further includes #2 main transformer 8, high voltage distribution installation 9, #1 main transformer
10, #2 low-voltage module 11, protective relaying device 12, access system secondary device 13 and #1 low-voltage module 14, the #2 main transformer pressure
Device 8 is set in #2 transformer chamber 1, and the high voltage distribution installation 9 is set in the room GIS 2, and the #1 main transformer 10 is set to #1
In transformer chamber 3, the #2 low-voltage module 11 is set in #2 switchgear house 4, the protective relaying device 12 be set to booster stations after
In electric apparatus room 5, the access system secondary device 13 is set in access system secondary device room 6, the #1 low-voltage module 14
It is set in #1 switchgear house 7.Above-mentioned electrical equipment routinely connects, since the electrical equipment in booster stations is set to economic cooperation removing the work
In the integrated boost station of office, so that each electrical equipment is rationally distributed, the distance between each electrical equipment for needing to connect control
Optimized, so that wiring is shorter, in particular, simplifies high voltage distribution installation 9 and #2 main transformer 8, #1 main transformer 10
Between wiring, reduce the electric energy loss of power circuit.
The integrated boost station of the structure optimization, the #2 low-voltage module 11 include the #2 gas turbine generator being adjacently positioned
Power distribution equipment 15 and #2 main transformer low-pressure side power distribution equipment 16 are exported, the #1 low-voltage module 14 includes the #1 combustion gas wheel being adjacently positioned
Generator outlet power distribution equipment 17 and #1 main transformer low-pressure side power distribution equipment 18, by the way that #2 gas turbine generator is exported power distribution equipment
The merging of 15 and #2 main transformer low-pressure side power distribution equipment 16 is arranged in #2 switchgear house 4, and #1 gas turbine generator exports power distribution equipment 17
It is arranged in #1 switchgear house 7 with the merging of #1 main transformer low-pressure side power distribution equipment 18, so that booster stations and gas turbine generator set is total
Horizontal layout spacing is shorter, #1 gas turbine generator export power distribution equipment 17 and #2 gas turbine generator outlet power distribution equipment 15 with
The spacing of corresponding gas turbine generator set is shorter, and the spacing of #1 main transformer 10 and #1 main transformer low-pressure side power distribution equipment 18 is shorter, #
The spacing of 2 main transformer 8 and #2 main transformer low-pressure side power distribution equipments 16 is shorter, reduces scattered building for wiring and equipment cloth
The influence of office reduces electric energy loss so that wiring more optimizes simpler.
The integrated boost station of the structure optimization further includes passageway 20, and the passageway 20 is set to booster stations relay bungalow 5
Between access system secondary device room 6, the passageway 20 is also adjacent with the room GIS 2, by booster stations relay bungalow 5 and connecing
Enter setting passageway 20 between secondary system canyon 6, to facilitate staff in booster stations relay bungalow 5, access system
The disengaging of secondary device room 6 and the room GIS 2, while security against fire coefficient is improved as fire safety passage.
Embodiment 2: a kind of integrated boost station of structure optimization is constituted as shown in Figure 1, including that right side is arranged from top to bottom
#2 transformer chamber 1, the room GIS 2, #1 transformer chamber 3 and left side be arranged from top to bottom #2 switchgear house 4, booster stations relay bungalow 5, connect
Enter secondary system canyon 6 and #1 switchgear house 7, wherein #2 switchgear house 4 is adjacent with #2 transformer chamber 1, the booster stations relay bungalow 5
Adjacent with #2 transformer chamber 1 and the room GIS 2, access system secondary device room 6 and #1 switchgear house 7 are adjacent with #1 transformer chamber 3.Collection
Rationally distributed at the place of booster stations, the layout for the electrical equipment in integrated boost station is planned, is facilitated and is placed in it
In electrical equipment connection, provide good place for the centralized control and management of these electrical equipments.
The integrated boost station of the structure optimization further includes #2 main transformer 8, high voltage distribution installation 9, #1 main transformer
10, #2 low-voltage module 11, protective relaying device 12, access system secondary device 13 and #1 low-voltage module 14, the #2 main transformer pressure
Device 8 is set in #2 transformer chamber 1, and the high voltage distribution installation 9 is set in the room GIS 2, and the #1 main transformer 10 is set to #1
In transformer chamber 3, the #2 low-voltage module 11 is set in #2 switchgear house 4, the protective relaying device 12 be set to booster stations after
In electric apparatus room 5, the access system secondary device 13 is set in access system secondary device room 6, the #1 low-voltage module 14
It is set in #1 switchgear house 7.Above-mentioned electrical equipment routinely connects, since the electrical equipment in booster stations is set to economic cooperation removing the work
In the integrated boost station of office, so that each electrical equipment is rationally distributed, the distance between each electrical equipment for needing to connect control
Optimized, so that wiring is shorter, reduces the electric energy loss of power circuit.
The integrated boost station of the structure optimization, the #2 low-voltage module 11 include the #2 gas turbine generator being adjacently positioned
Power distribution equipment 15 and #2 main transformer low-pressure side power distribution equipment 16 are exported, the #1 low-voltage module 14 includes the #1 combustion gas wheel being adjacently positioned
Generator outlet power distribution equipment 17 and #1 main transformer low-pressure side power distribution equipment 18, by the way that #2 gas turbine generator is exported power distribution equipment
The merging of 15 and #2 main transformer low-pressure side power distribution equipment 16 is arranged in #2 switchgear house 4, and #1 gas turbine generator exports power distribution equipment 17
It is arranged in #1 switchgear house 7 with the merging of #1 main transformer low-pressure side power distribution equipment 18, so that booster stations and gas turbine generator set is total
Horizontal layout spacing is shorter, #1 gas turbine generator export power distribution equipment 17 and #2 gas turbine generator outlet power distribution equipment 15 with
The spacing of corresponding gas turbine generator set is shorter, and the spacing of #1 main transformer 10 and #1 main transformer low-pressure side power distribution equipment 18 is shorter, #
The spacing of 2 main transformer 8 and #2 main transformer low-pressure side power distribution equipments 16 is shorter, reduces scattered building for wiring and equipment cloth
The influence of office reduces electric energy loss so that wiring more optimizes simpler.
The integrated boost station of the structure optimization further includes firewall 19, where the #1 transformer chamber 3 and #2 transformer chamber 1
Wall be set as firewall 19, by setting firewall 19 for the wall where #1 transformer chamber 3 and #2 transformer chamber 1, so that #
1 transformer chamber 3 and #2 transformer chamber 1 and adjacent room are able to carry out the intensity of a fire and are isolated and carry out fire prevention control, to improve booster stations
Interior fireproof safety coefficient.
The integrated boost station of the structure optimization further includes passageway 20, and the passageway 20 is set to booster stations relay bungalow 5
Between access system secondary device room 6, the passageway 20 is also adjacent with the room GIS 2, by booster stations relay bungalow 5 and connecing
Enter setting passageway 20 between secondary system canyon 6, to facilitate staff in booster stations relay bungalow 5, access system
The disengaging of secondary device room 6 and the room GIS 2, while security against fire coefficient is improved as fire safety passage.
Working principle of the utility model is: the utility model is by by #2 transformer chamber 1, the room GIS 2, #1 transformer chamber 3, #2
The rooms such as switchgear house 4, booster stations relay bungalow 5, access system secondary device room 6 and #1 switchgear house 7 are rationally arranged into a kind of knot
The integrated boost station of structure optimization, so that integral layout is reasonable, function concentrates easily controllable and management, reduces accounting for for land resource
With, optimize the distance of equipment room, reduce as wiring it is complicated caused by electric energy loss.#2 main transformer in this integrated boost station
Depressor 8 is set in #2 transformer chamber 1, and high voltage distribution installation 9 is set in the room GIS 2, and #1 main transformer 10 is set to #1 transformer chamber
In 3, #2 low-voltage module 11 is set in #2 switchgear house 4, and protective relaying device 12 is set in booster stations relay bungalow 5, access
Secondary system equipment 13 is set in access system secondary device room 6, and #1 low-voltage module 14 is set in #1 switchgear house 7, above
Electrical equipment is pressed power plant electrical equipment and is routinely connected.Since integral layout is reasonable, function concentrates easily controllable and management, reduces
The occupancy of land resource, optimizes the distance of equipment room, reduce as wiring it is complicated caused by electric energy loss;By that will rise
Electrical equipment in pressure station is set in the integrated boost station through rational deployment, so that each electrical equipment is rationally distributed, it is each
It needs to connect the distance between the electrical equipment of control to be optimized, so that wiring is shorter, reduces the electricity of power circuit
It can loss;By the way that #2 gas turbine generator outlet power distribution equipment 15 and the merging of #2 main transformer low-pressure side power distribution equipment 16 are arranged in #2
In switchgear house 4, #1 gas turbine generator outlet power distribution equipment 17 and the merging of #1 main transformer low-pressure side power distribution equipment 18 are arranged in #1 and match
In electric room 7, so that the general layout spacing of booster stations and gas turbine generator set is shorter, #1 gas turbine generator exports distribution
Device 17 and #2 gas turbine generator outlet power distribution equipment 15 and the spacing of corresponding gas turbine generator set are shorter, #1 main transformer
10 is shorter with the spacing of #1 main transformer low-pressure side power distribution equipment 18, between #2 main transformer 8 and #2 main transformer low-pressure side power distribution equipment 16
Away from shorter, reduce influence of the scattered building for wiring and device layout, so that wiring more optimizes simpler, reduces
Electric energy loss;By setting firewall 19 for the wall where #1 transformer chamber 3 and #2 transformer chamber 1, so that #1 transformer chamber 3
It is able to carry out the intensity of a fire with #2 transformer chamber 1 and adjacent room to be isolated and carry out fire prevention control, to improve fireproof in booster stations
Safety coefficient;By the way that passageway 20 is arranged between booster stations relay bungalow 5 and access system secondary device room 6, to facilitate
Staff booster stations relay bungalow 5, access system secondary device room 6 and the room GIS 2 disengaging, while as security against fire
Channel improves security against fire coefficient.
Claims (5)
1. a kind of integrated boost station of structure optimization, which is characterized in that the #2 transformer chamber (1) that is arranged from top to bottom including right side,
#2 switchgear house (4) that the room GIS (2), #1 transformer chamber (3) and left side are arranged from top to bottom, booster stations relay bungalow (5), access system
System secondary device room (6) and #1 switchgear house (7), wherein #2 switchgear house (4) is adjacent with #2 transformer chamber (1), the booster stations relay
Device room (5) is adjacent with #2 transformer chamber (1) and the room GIS (2), access system secondary device room (6) and #1 switchgear house (7) and #1
Transformer chamber (3) is adjacent.
2. the integrated boost station of structure optimization according to claim 1, which is characterized in that further include #2 main transformer (8),
High voltage distribution installation (9), #1 main transformer (10), #2 low-voltage module (11), protective relaying device (12), access system is secondary sets
Standby (13) and #1 low-voltage module (14), the #2 main transformer (8) are set in #2 transformer chamber (1), the high voltage distribution installation
(9) it is set in the room GIS (2), the #1 main transformer (10) is set in #1 transformer chamber (3), the #2 low-voltage module (11)
It is set in #2 switchgear house (4), the protective relaying device (12) is set in booster stations relay bungalow (5), the access system
System secondary device (13) is set in access system secondary device room (6), and the #1 low-voltage module (14) is set to #1 switchgear house
(7) in.
3. the integrated boost station of structure optimization according to claim 2, which is characterized in that #2 low-voltage module (11) packet
It includes #2 gas turbine generator outlet power distribution equipment (15) being adjacently positioned and #2 main transformer low-pressure side power distribution equipment (16), the #1 is low
Die block (14) includes #1 gas turbine generator outlet power distribution equipment (17) being adjacently positioned and #1 main transformer low-pressure side power distribution equipment
(18)。
4. the integrated boost station of structure optimization according to claim 2 or 3, which is characterized in that it further include firewall (19),
Wall where the #1 transformer chamber (3) and #2 transformer chamber (1) is set as firewall (19).
5. the integrated boost station of structure optimization according to claim 4, which is characterized in that it further include passageway (20), it is described
Passageway (20) is set between booster stations relay bungalow (5) and access system secondary device room (6), the passageway (20) also with
The room GIS (2) is adjacent.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821029975.7U CN208723414U (en) | 2018-06-29 | 2018-06-29 | A kind of integrated boost station of structure optimization |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821029975.7U CN208723414U (en) | 2018-06-29 | 2018-06-29 | A kind of integrated boost station of structure optimization |
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Publication Number | Publication Date |
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CN208723414U true CN208723414U (en) | 2019-04-09 |
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ID=65972455
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CN201821029975.7U Active CN208723414U (en) | 2018-06-29 | 2018-06-29 | A kind of integrated boost station of structure optimization |
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CN (1) | CN208723414U (en) |
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2018
- 2018-06-29 CN CN201821029975.7U patent/CN208723414U/en active Active
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