A kind of large-scale box-type substation structure
Technical field
The utility model relates to a kind of box-type substation structure, particularly relates to a kind of large-scale box-type substation structure.
Background technology
Box-type substation relatively large in the prior art is made up of transformer room, low-pressure chamber and hyperbaric chamber, the three is with the Chinese character pin-shaped layout of accumbency, hyperbaric chamber and low-pressure chamber are divided into forward and backward two parts, the side is the transformer room, transformer room, low-pressure chamber and hyperbaric chamber integral body are made and (are seen Fig. 1~Fig. 3), its defective is that the volume of transformer station can not be done too greatly, otherwise not only brings difficulty to processing, and makes troubles for installation and transportation.
The utility model content
The purpose of this utility model is to provide a kind of not only convenient processing, but also convenient the installation and the large box type substation structure of transportation.
The purpose of this utility model is achieved by the following technical programs:
A kind of large-scale box-type substation structure of the present utility model, it comprises the transformer room, low-pressure chamber and hyperbaric chamber, it is characterized in that: described transformer room, low-pressure chamber and hyperbaric chamber are respectively independently cube shaped case chamber, each case chamber and other two adjacent tank chambers have a Mosaic face respectively, it is corresponding and along the syndeton of less Mosaic face edge distribution all to have at least four or more syndeton with adjacent case chamber Mosaic face on each Mosaic face, by connector the syndeton of two casees adjacent chamber correspondences being flexibly connected is one, thereby with the transformer room, low-pressure chamber and hyperbaric chamber three parts are spliced into one.
Described transformer room, low-pressure chamber and hyperbaric chamber are the framework closing plate structure, become removable the linking together of " product " font.
For the connection between further firm transformer room, low-pressure chamber and the hyperbaric chamber, on two corresponding Mosaic faces of two casees chambers of splicing mutually, each case chamber all is provided with large-scale angle steel by wherein less Mosaic face outline position, angle steel is fixed on the framework, described syndeton is the installing hole that is positioned on the angle steel, and connector is a bolt and nut.
Because the transformer station after the splicing has the slit unavoidably on its stitching position, so not only can influence transformer station's integral aesthetic property, the more important thing is and also be unfavorable for waterproof, therefore, the utility model can also be done further improvement, on stitching position, set up safeguard structure, this safeguard structure is by " L " type mounting panel, " U " type shrouding and staking nut constitute, the long vertical edge of " L " type mounting panel is installed on the framework, the base of " U " type shrouding closely is connected by the short vertical edge of staking nut with " L " type mounting panel, so that " U " type shrouding covers the slit on transformer station's stitching position.
For further improving waterproof effect of the present utility model, the top protection structure can also be set at the top of transformer station, this structure is by the parallel skeleton and " people " font top cover formation that is installed on the skeleton that is erected in and is higher than transformer station's top stitching position of two rows, " people " font top cover covers the slit of stitching position, and the both sides in slit of rainwater can being led, thereby reach the purpose of waterproof.
The utility model has the advantages that: the overall structure of original transformer station is transformed into the dismantled and assembled structure that transformer room, low-pressure chamber and hyperbaric chamber link together relatively independently, splicing construction is simple, very easily operation, transformer room, low-pressure chamber and hyperbaric chamber can be processed respectively, transportation respectively, on-site consolidation makes transformer station can do more large-scalely, adapting to different needs, and can not cause the inconvenience of processing, assembling and transportation.
Description of drawings
Fig. 1 is a power transformation station owner TV structure schematic diagram of the prior art;
Fig. 2 is the right view of Fig. 1;
Fig. 3 is that the A-A of Fig. 1 cuts open structural representation;
Fig. 4 is a main TV structure schematic diagram of the present utility model;
Fig. 5 is the right view of Fig. 4;
Fig. 6 is the partial enlarged drawing of Fig. 5;
Fig. 7 is that the A-A of Fig. 4 cuts open structural representation;
Fig. 8 is the connector schematic diagram between transformer room and the low-pressure chamber among Fig. 7;
Fig. 9 is the connector schematic diagram between transformer room among Fig. 7, low-pressure chamber and the hyperbaric chamber;
Figure 10 is the main TV structure schematic diagram of the transformer room among Fig. 4;
Figure 11 is the right view of Figure 10;
Figure 12 is that the A-A of Figure 10 cuts open structural representation;
Figure 13 is the connector schematic diagram that is positioned at transformer room's one end among Figure 12;
Figure 14 is the connector schematic diagram that is positioned at splicing middle part, transformer room among Figure 12;
Figure 15 is the main TV structure schematic diagram of the low-pressure chamber among Fig. 4;
Figure 16 is the right view of Figure 15;
Figure 17 is that the A-A of Figure 15 cuts open structural representation;
Figure 18 is the connector schematic diagram that is positioned at low-pressure chamber one end among Figure 17;
Figure 19 is positioned at low-pressure chamber other end connector schematic diagram among Figure 17;
Figure 20 is hyperbaric chamber master's TV structure schematic diagram of Fig. 4;
Figure 21 is the right view of Figure 20;
Figure 22 is that the A-A of Figure 20 cuts open structural representation;
Figure 23 is Figure 22 mesohigh chamber one end connection schematic diagram;
Figure 24 is Figure 22 mesohigh chamber other end connector schematic diagram.
Embodiment
Structure shown in Fig. 4~24, a kind of large-scale box-type substation structure of the present utility model, it comprises transformer room 1, low-pressure chamber 2 and hyperbaric chamber 3, described transformer room 1, low-pressure chamber 2 and hyperbaric chamber 3 are respectively independently cube shaped case chamber, each case chamber and other two adjacent tank chambers have a Mosaic face respectively, it is corresponding and along the syndeton of less Mosaic face edge distribution all to have four syndetons with adjacent case chamber Mosaic face on each Mosaic face, by connector the syndeton of two casees adjacent chamber correspondences being flexibly connected is one, thereby with the transformer room, low-pressure chamber and hyperbaric chamber three parts are spliced into one; Described transformer room 1, low-pressure chamber 2 and hyperbaric chamber 3 are the framework closing plate structure, become removable the linking together of " product " font; Described transformer room 1 is positioned at the top of " product " word, and low-pressure chamber 2 and hyperbaric chamber 3 constitute the bottom of " product " word; On two corresponding Mosaic faces of two casees chambers of splicing mutually, each case chamber all is provided with large-scale angle steel 5 by wherein less Mosaic face outline position, and angle steel is welded on the framework 4, and described syndeton is the installing hole that is positioned on the angle steel 5, and connector is bolt 6 and nut 7; Because the transformer station after the splicing has the slit unavoidably on its stitching position, so not only can influence transformer station's integral aesthetic property, the more important thing is and also be unfavorable for waterproof, therefore, the utility model has safeguard structure on its stitching position, this safeguard structure is by " L " type mounting panel 8, " U " type shrouding 9 and staking nut 10 constitute, the long vertical edge of " L " type mounting panel 8 is installed on the framework 4, the base of " U " type shrouding 9 closely is connected by the short vertical edge of staking nut 10 with " L " type mounting panel 8, so that the slit that " U " type shrouding 9 covers on transformer station's stitching position; In addition, at the top of transformer station the top protection structure is set, this structure is by the parallel skeleton 11 and " people " font top cover 12 formations that are installed on the skeleton that is erected in and is higher than transformer station's top stitching position of two rows, " people " font top cover 12 covers the slit of stitching position, and the both sides in slit of rainwater can being led, thereby reach the purpose of waterproof.When also needing to install,, tighten with bolt 6 and nut 7 again and get final product as long as with large-scale angle steel 5 alignment at the splicing position in transformer room 1, low-pressure chamber 2 and hyperbaric chamber 3; When needing dismounting, ease out bolt 5 and nut 7 gets final product, very convenient.