CN201910590U

CN201910590U - GIS (Geographic Information System) distribution structure

Info

Publication number: CN201910590U
Application number: CN2010206934093U
Authority: CN
Inventors: 吴家林; 付天玉; 李晔; 王小泽; 伍晓璐; 陈兴伟; 翟景国
Original assignee: Sichuan Electric Power Design and Consulting Co Ltd
Current assignee: Sichuan Electric Power Design and Consulting Co Ltd
Priority date: 2010-12-31
Filing date: 2010-12-31
Publication date: 2011-07-27
Anticipated expiration: 2020-12-31

Abstract

The utility model discloses a GIS (Geographic Information System) distribution structure, which is beneficial to saving occupied area. The GIS distribution structure is characterized in that the two ends of a 110-kilovolt GIS distribution area are provided with a first area and a second area for installing 220-kilovolt GIS unit devices; the 220-kilovolt GIS unit devices installed in the first area are connected mutually to form a first whole device; the 220-kilovolt GIS unit devices installed in the second area are connected mutually to form a second whole device; the first whole device and the second whole device are connected by two groups of buses, wherein one group of buses comprise three I buses, and the other group of buses comprise three II buses; and the first area, the 110-kilovolt GIS distribution area and the second area are respectively provided with a line frame in sequence, and the I buses and the II buses are respectively arranged on the line frames in a manner of an upper layer and a lower layer. In the GIS distribution structure, the topographical space of long and narrow zones can be fully utilized, and the occupied area is also saved beneficially.

Description

The GIS arrangement

Technical field

The utility model relates to a kind of arrangement that is used for 110 kilovolts of-220 kilovolts of GIS.

Background technology

GIS is gas-insulating and fully-enclosed power distribution equipment, it is with the primary equipment except that transformer in the transformer station, comprise circuit breaker, isolating switch, earthed switch, voltage transformer, current transformer, lightning arrester, bus, cable termination, turnover thread casing etc., organically be combined into an integral body through optimal design.

110 kilovolts of GIS arrange that district and 220 kilovolts of GIS arrange that the district is set up in parallel in the tradition transformer station, and 110 kilovolts of GIS arrange in the district some 110 kilovolts of GIS unit components are installed side by side; 220 kilovolts of GIS install some 220 kilovolts of GIS unit components in arranging and distinguishing side by side, and all 220 kilovolts of GIS unit components are interconnected to form an integral device by lead, and above-mentioned lead is installed on the coil holder that is provided with in this zone.110 kilovolts of GIS arrange that district and 220 kilovolts of GIS arrange that the district adopts aforesaid way to be provided with and need take the larger area zone, and length and width that should the zone be basic identical, be not easy in the above described manner implement in comparatively long and narrow area, promptly be not easy to implement in the zone that length and width differ bigger.

The utility model content

The technical problem that the utility model solves provides a kind of GIS arrangement that helps saving floor space.

The technical scheme that its technical problem that solves the utility model adopts is: the GIS arrangement, comprise that 110 kilovolts of GIS arrange district and coil holder, also comprise 220 kilovolts of GIS unit components, described 110 kilovolts of GIS arrange that the two ends, the left and right sides in district are respectively arranged with first district and second district that is used to install 220 kilovolts of GIS unit components, 220 kilovolts of GIS unit components installing in first district are interconnected to form first integral device, and 220 kilovolts of GIS unit components installing in second district are interconnected to form second integral device; First integral device links to each other by two groups of buses with second integral device, and one group of bus comprises 3 I buses, and another group bus comprises 3 II buses; Above-mentioned first district, 110 kilovolts of GIS arrange that the district and second district are disposed with described coil holder, above-mentioned I bus and II bus are divided into two-layer being installed on the coil holder up and down.

Further be: described II bus is positioned at I bus top.

The beneficial effects of the utility model are: by arranging first district and second district that the two ends, the left and right sides in district are provided for installing 220 kilovolts of GIS unit components at 110 kilovolts of GIS, can be with many 220 kilovolts GIS unit component dispersed placement, be convenient to be provided with simultaneously many 110 kilovolts of GIS unit components and 220 kilovolts of GIS unit components like this in comparatively long and narrow area, in addition, because 110 kilovolts of GIS arrange in the district and are provided with the coil holder that is used to install I bus and II bus, and I bus and II bus layered arrangement, can make full use of the space that 110 kilovolts of GIS arrange the district like this, help saving floor space.

Description of drawings

Fig. 1 is that 110 kilovolts of GIS arrange that district and 220 kilovolts of GIS arrange the distribution schematic diagram of distinguishing in the prior art;

Fig. 2 is the schematic diagram of GIS arrangement of the present utility model;

Fig. 3 is that 110 kilovolts of GIS arrange that the A of the coil holder in the district is to view among Fig. 2;

Fig. 4 is the distribution schematic diagram that first district, 110 kilovolts of GIS arrange the district and second district.

Be labeled as among the figure: the 1-I bus, the 2-II bus, the 5-coil holder, 6-110 kilovolt GIS unit component, 7-first district, 8-110 kilovolt GIS arranges the district, 9-second district, 10-220 kilovolt GIS unit component, 11-220 kilovolt GIS arranges the district.

Embodiment

Below in conjunction with the drawings and specific embodiments the utility model is further specified.

As shown in Figure 1, in the prior art, 110 kilovolts of GIS arrange that the 8 and 220 kilovolts of GIS in district arrange that district 11 is set up in parallel, 110 kilovolts of GIS arrange in the district 8 some 110 kilovolts of GIS unit components are installed side by side, 220 kilovolts of GIS arrange in the district 11 some 220 kilovolts of GIS unit components are installed side by side, this arrangement need arrange that the district is provided with a large amount of coil holders at 220 kilovolts of GIS, so floor space is bigger because 220 kilovolts of GIS unit components are centralized arrangement.

Extremely shown in Figure 4 as Fig. 2, GIS arrangement of the present utility model, comprise that 110 kilovolts of GIS arrange district 8 and coil holder 5, also comprise 220 kilovolts of GIS unit components 10, described 110 kilovolts of GIS arrange that the two ends, the left and right sides in district 8 are respectively arranged with first district 7 and second district 9 that is used to install 220 kilovolts of GIS unit components, 220 kilovolts of GIS unit components 10 installing in first district are interconnected to form first integral device, and 220 kilovolts of GIS unit components 10 installing in second district are interconnected to form second integral device; First integral device links to each other by two groups of buses with second integral device, and one group of bus comprises 3 I buses 1, and another group bus comprises 3 II buses 2; 7, the 110 kilovolts of GIS in above-mentioned first district arrange that 8 and second district 9, district is disposed with described coil holder 5, and above-mentioned I bus 1 and II bus 2 are divided into two-layer being installed on the coil holder 5 up and down.Above-mentioned I bus 1 and II bus 2 are all lead.

Because I bus 1 and II bus 2 are longer, need on the bearing of trend of I bus 1 and II bus 2, support I bus 1 and II bus 2 by a plurality of coil holders 5, when therefore above-mentioned coil holder 5 is provided with, need arrange in 8 and second district 9, district at 7, the 110 kilovolts of GIS in first district to set gradually a plurality of coil holders 5 that are used to install I bus 1 and II bus 2.

Embodiment:

Extremely shown in Figure 4 as Fig. 2, the two ends, the left and right sides of arranging district 8 at 110 kilovolts of GIS are respectively arranged with first district 7 and second district 9 that is used to install 220 kilovolts of GIS unit components, in first district 7, be set up in parallel 3 220 kilovolts of GIS unit components 10, in second district 9, also be set up in parallel 3 220 kilovolts of GIS unit components 10, and 3 220 kilovolts of GIS unit components in first district are interconnected to form first integral device, and 3 220 kilovolts of GIS unit components in second district are interconnected to form second integral device; First integral device links to each other by two groups of buses with second integral device, thereby it is in aggregates that first integral device and second integral device are interconnected, and in above-mentioned two groups of buses, one group of bus comprises 3 I buses 1, and another group bus comprises 3 II buses 2; When II bus 2 and I bus 1 are provided with, all II buses 2 are positioned at same one deck, and all I buses 1 are positioned at same one deck, and promptly II bus 2 and I bus 1 are divided into two-layerly up and down advancing to be installed on the coil holder 5, above-mentioned I bus 1 can be arranged on the top of II bus 2, also can be positioned at the top of I bus 1 for II bus 2.Above-mentioned arrangement, can make full use of the superjacent air space that 7, the 110 kilovolts of GIS in first district arrange 8 and second district 9, district, for example II bus 2 and I bus 1 are positioned at the top that part that 110 kilovolts of GIS arrange district 8 is arranged on 110 kilovolts of GIS unit components 6, be convenient to so also help saving floor space in comparatively strip application.

Claims

1.GIS arrangement comprises that 110 kilovolts of GIS arrange district (8) and coil holder (5), also comprises 220 kilovolts of GIS unit components (10), it is characterized in that:

Described 110 kilovolts of GIS arrange that the two ends, the left and right sides in district (8) are respectively arranged with first district (7) and second district (9) that are used to install 220 kilovolts of GIS unit components, 220 kilovolts of GIS unit components (10) of installing in first district are interconnected to form first integral device, and 220 kilovolts of GIS unit components (10) of installing in second district are interconnected to form second integral device;

First integral device links to each other by two groups of buses with second integral device, and one group of bus comprises 3 I buses (1), and another group bus comprises 3 II buses (2);

Above-mentioned first district (7), 110 kilovolts of GIS arrange that district (8) and second district (9) is disposed with described coil holder (5), above-mentioned I bus (1) and II bus (2) are divided into two-layer being installed on the coil holder (5) up and down.

2. GIS arrangement as claimed in claim 1 is characterized in that: described II bus (2) is positioned at I bus (1) top.