CN209561876U - Outdoor 220kVGIS bilayer overhead outlet structure - Google Patents

Abstract

The utility model discloses outdoor 220kVGIS bilayer overhead outlet structure, including overhead outlet framework, several transmission of electricity bus-bar frames and several GIS devices；It further include main transformer bus framework and high-level architecture；Overhead outlet framework includes low layer coil holder and high-rise coil holder；Every two adjacent transmission of electricity bus-bar frames, low layer coil holder and main transformer bus framework surround single layer outgoing line unit；Two interval GIS devices are equipped in each single layer outgoing line unit；Every two adjacent transmission of electricity bus-bar frames, low layer coil holder, high-rise coil holder and high-level architecture surround the double-deck outgoing line unit；Each bilayer outgoing line unit land occupation shape is rectangle, and is equipped with four interval GIS devices in each bilayer outgoing line unit.The characteristics of the utility model uses the double-deck overhead outlet structure, makes full use of GIS device flexible arrangement, both shortens lateral dimension, saves occupied area, and route common-tower double-return of the same name is facilitated to set up.

Description

Outdoor 220kVGIS bilayer overhead outlet structure

Technical field

The utility model relates to technical field of electric power transmission, in particular to open air 220kVGIS bilayer overhead outlet structure.

Background technique

GIS (GAS insulated SWITCHGEAR) is the English abbreviation of gas-insulating and fully-enclosed combined electrical apparatus.GIS by Breaker, disconnecting switch, earthing switch, mutual inductor, arrester, bus, connector and outlet terminal etc. composition, these equipment or Component is all enclosed in the shell of metallic ground, inside it the SF6 insulating gas filled with certain pressure, therefore also referred to as SF6 is complete Switchgear.

In the prior art, when outdoor 220kVGIS uses overhead outlet, conventional scheme uses single layer overhead outlet structure, Interval width is generally 14 meters.

For creating substation, since 220kV outlet double loop of the same name is more, for the requirement for meeting common-tower double-return, simultaneously Consider from safe and reliable angle, route of the same name is arranged in adjacent spaces mostly, and arranges along a straight line (such as Fig. 1 and Fig. 2 institute Show), power distribution equipment lateral dimension is very big, causes substation's occupied area to increase, causes the waste of land resource.

Therefore, it is necessary to be improved to GIS overhead outlet structure, space can be more effectively utilized, the prior art is overcome Defect.

Utility model content

In view of the above drawbacks of the prior art, the utility model provides open air 220kVGIS bilayer overhead outlet structure, The first purpose of realization is both to shorten lateral dimension the characteristics of making full use of GIS device flexible arrangement, saves occupied area, Route common-tower double-return of the same name is facilitated to set up again.

To achieve the above object, the utility model discloses outdoor 220kVGIS bilayer overhead outlet structures, including aerial Outlet framework, several transmission of electricity bus-bar frames being disposed in parallel relation to one another and it is several respectively with bus of transmitting electricity on the transmission of electricity bus-bar frame With the GIS device that power transmission line connects on the overhead outlet framework.

It further include main transformer bus framework and high-level architecture；

Height of the height of the high-level architecture setting power transmission line than main transformer bus framework setting power transmission line or institute The height for stating transmission of electricity bus-bar frame setting power transmission line is high；

The overhead outlet framework includes low layer coil holder and high-rise coil holder；

The height or described of power transmission line is arranged in the height of low layer coil holder setting power transmission line and the transmission of electricity bus-bar frame The height that power transmission line is arranged in main transformer bus framework is identical；

The height of the high level coil holder setting power transmission line is identical as high-level architecture setting power transmission line height；

The every two adjacent transmission of electricity bus-bar frames, the low layer coil holder and the main transformer bus framework surround single layer outlet Unit；

Two interval GIS devices, the GIS device, and at least one interval are equipped in each single layer outgoing line unit The GIS device nationality is connect by the transmission line of electricity on the main transformer bus framework with Bulk Supply Substation；

The every two adjacent transmission of electricity bus-bar frames, the low layer coil holder, the high-rise coil holder and the high-level architecture enclose At the double-deck outgoing line unit；

Each double-deck outgoing line unit land occupation shape is rectangle, and is equipped with four in each double-deck outgoing line unit It is spaced the GIS device；

The four interval GIS devices are respectively arranged in the rectangle land occupation of the corresponding double-deck outgoing line unit and lean on The position at nearly 4 angles；

Route on the overhead outlet framework is divided into two groups, and one group of nationality is by the low layer coil holder and close to the low layer line The GIS device connection of two intervals of frame；Another group of nationality is by the high-rise coil holder by the high-level architecture and close to the height The GIS device connection of two intervals of layer framework.

Preferably, cloth is continuously arranged or intersected to several single layer outgoing line units and several double-deck outgoing line units It sets.

Preferably, the trend of several single layer outgoing line units and several double-deck outgoing line units along the transmission of electricity bus Arrangement.

The utility model has the beneficial effects that

The characteristics of the utility model uses the double-deck overhead outlet structure, makes full use of GIS device flexible arrangement, both shortened Lateral dimension saves occupied area, and route common-tower double-return of the same name is facilitated to set up.

Make furtherly below with reference to technical effect of the attached drawing to the design of the utility model, specific structure and generation It is bright, to be fully understood from the purpose of this utility model, feature and effect.

Detailed description of the invention

Fig. 1 shows the planar structure schematic diagram of 220kVGIS overhead outlet structure in the prior art.

Fig. 2 shows end (disconnected) face structural schematic diagrams of 220kVGIS overhead outlet structure in the prior art.

Fig. 3 shows the planar structure schematic diagram of an embodiment of the present invention.

Fig. 4 shows end (disconnected) face structural schematic diagram of an embodiment of the present invention.

Specific embodiment

Embodiment

As shown in Figure 3 and Figure 4,220kVGIS bilayer overhead outlet structure, including overhead outlet framework 2, it is several mutually equal It the transmission of electricity bus-bar frame 1 of row setting and several transmits electricity respectively on transmit electricity on transmission of electricity bus-bar frame 1 bus and overhead outlet framework 2 The GIS device 3 of line connection.

It further include main transformer bus framework 4 and high-level architecture 5；

The height or transmission of electricity bus of power transmission line are arranged than main transformer bus framework 4 for the height that power transmission line is arranged in high-level architecture 5 The height that power transmission line is arranged in frame 1 is high；

Overhead outlet framework 2 includes low layer coil holder and high-rise coil holder；

The height of power transmission line and the height or main transformer bus framework of the transmission of electricity setting power transmission line of bus-bar frame 1 is arranged in low layer coil holder The height of 4 setting power transmission lines is identical；

The height of high-rise coil holder setting power transmission line is identical as the setting of high-level architecture 5 power transmission line height；

Every two adjacent transmission of electricity bus-bar frames 1, low layer coil holder and main transformer bus framework 4 surround single layer outgoing line unit；

Two interval GIS devices 3 are equipped in each single layer outgoing line unit, and at least one interval 3 nationality of GIS device is by main transformer Transmission line of electricity on bus framework 4 is connect with Bulk Supply Substation；

Every two adjacent transmission of electricity bus-bar frames 1, low layer coil holder, high-rise coil holder and high-level architecture 5 surround the double-deck outgoing line unit；

Each bilayer outgoing line unit land occupation shape is rectangle, and is equipped with four interval GIS in each bilayer outgoing line unit Equipment 3；

Four interval GIS devices 3 are respectively arranged at the position in the rectangle land occupation of the corresponding double-deck outgoing line unit close to 4 angles It sets；

Route on overhead outlet framework 2 is divided into two groups, and one group of nationality is by low layer coil holder and close to two intervals of low layer coil holder GIS device 3 connects；Another group of nationality connects by high-rise coil holder by high-level architecture 5 and close to two interval GIS devices 3 of high-level architecture 5 It connects.

The principles of the present invention are, will not need nationality in the prior art and be connected by main transformer bus framework 4 and Bulk Supply Substation 3 universal formulation of GIS device connect is into the double-deck outgoing line unit, using the overhead outlet framework for including low layer coil holder and high-rise coil holder 2 and high-level architecture 5 set up power transmission line, compress lateral dimension, the characteristics of making full use of GIS device flexible arrangement saves land occupation face Product, and route common-tower double-return of the same name is facilitated to set up.

In certain embodiments, cloth is continuously arranged or intersected to several single layer outgoing line units and several double-deck outgoing line units It sets.

In certain embodiments, several single layer outgoing line units and several double-deck outgoing line units move towards cloth along transmission of electricity bus It sets.

The preferred embodiments of the present invention have been described in detail above.It should be appreciated that the ordinary skill people of this field Member according to the present utility model can conceive without creative work makes many modifications and variations.Therefore, all this technology necks Technical staff passes through logic analysis, reasoning or limited reality according to the design of the utility model on the basis of existing technology in domain Available technical solution is tested, it all should be within the scope of protection determined by the claims.

Claims (3)

1. open air 220kVGIS bilayer overhead outlet structure, including overhead outlet framework (2), several transmissions of electricity being disposed in parallel relation to one another Bus-bar frame (1) and it is several respectively with it is defeated on transmit electricity on the transmission of electricity bus-bar frame (1) bus and the overhead outlet framework (2) The GIS device (3) of electric wire connection；It is characterized by:

It further include main transformer bus framework (4) and high-level architecture (5)；

The height of the high-level architecture (5) setting power transmission line than the main transformer bus framework (4) setting power transmission line height or The height of transmission of electricity bus-bar frame (1) the setting power transmission line is high；

The overhead outlet framework (2) includes low layer coil holder and high-rise coil holder；

The height or the master of the height of the low layer coil holder setting power transmission line and transmission of electricity bus-bar frame (1) the setting power transmission line The height that power transmission line is arranged in bus voltage framework (4) is identical；

The height of the high level coil holder setting power transmission line is identical as the high-level architecture (5) setting power transmission line height；

The every two adjacent transmission of electricity bus-bar frames (1), the low layer coil holder and the main transformer bus framework (4) surround single layer and go out Line unit；

The two intervals GIS device (3) is equipped in each single layer outgoing line unit, and at least one interval GIS is set Standby (3) nationality is connect by the transmission line of electricity on the main transformer bus framework (4) with Bulk Supply Substation；

The every two adjacent transmission of electricity bus-bar frames (1), the low layer coil holder, the high-rise coil holder and the high-level architecture (5) Surround the double-deck outgoing line unit；

Each double-deck outgoing line unit land occupation shape is rectangle, and is equipped with four intervals in each double-deck outgoing line unit The GIS device (3)；

The four interval GIS devices (3) are respectively arranged in the rectangle land occupation of the corresponding double-deck outgoing line unit and lean on The position at nearly 4 angles；

Route on the overhead outlet framework (2) is divided into two groups, and one group of nationality is by the low layer coil holder and close to the low layer line GIS device (3) connection of two intervals of frame；Another group of nationality is by the high-rise coil holder by the high-level architecture (5) and close GIS device (3) connection of two intervals of the high-level architecture (5).

2. 220kVGIS bilayer overhead outlet structure in open air according to claim 1, which is characterized in that several single layers Outgoing line unit and several double-deck outgoing line units are continuously arranged or arranged crosswise.

3. 220kVGIS bilayer overhead outlet structure in open air according to claim 1, which is characterized in that several single layers Outgoing line unit and several double-deck outgoing line units move towards to arrange along the transmission of electricity bus.