CN206820256U - 35kV busbar arrangement structures - Google Patents

Abstract

It the utility model is related to a kind of 35kV busbar arrangements structure, it is characterised in that：It includes two Pin steel structure frames and strain insulator string；The Pin steel structure frames are made up of Steel Structure girder steel and steel pile, and top is provided with the Steel Structure girder steel between two steel piles, and connecting seat is both provided with the two steel pile top sides；0 phase conductor both ends are connected in series to the connecting seat on a steel pile by a strain insulator respectively；A phase conductors and b phase conductors both ends are connected on the Steel Structure girder steel by a strain insulator string respectively, and a phase conductors and b phase conductors are both connected at the Steel Structure girder steel medium position；C phase conductors both ends are connected to the connecting seat on another steel pile by a strain insulator string respectively.The utility model can reduce the width of Steel Structure beam, and save floor space.

Description

35kV busbar arrangement structures

Technical field

The utility model is related to it is a kind of in 500kV substation low-voltage side bus rod arrangements, especially with regard to one kind 35kV busbar arrangement structures.

Background technology

Traditional 500kV substation low-voltage side 35kV bus rods a, b, c, 0 phase conductor are hung on by strain insulator string The centre of Steel Structure crossbeam, as depicted in figs. 1 and 2, in the arrangement of 35kV buses, it is necessary to consider alternate and relatively powered Required distance, between wire 1 and wire needs to keep certain spacing to truss column 3, and usual a, b, c, 0 phase conductor 1 pass through strain insulator Insulator chain 2 is hung on girder steel 4, causes girder steel long, cost increase, and floor space is big.

The content of the invention

In view of the above-mentioned problems, the purpose of this utility model is to provide a kind of 35kV busbar arrangements structure, it can reduce steel structure The width set a roof beam in place, and save floor space.

To achieve the above object, the utility model takes following technical scheme：A kind of 35kV busbar arrangements structure, its feature It is：It includes two Pin steel structure frames and strain insulator string；The Pin steel structure frames are by Steel Structure girder steel and steel structure Post is formed, and top is provided with the Steel Structure girder steel between two steel piles, is all set in the two steel pile top sides There is connecting seat；0 phase conductor both ends are connected in series to the connection on a steel pile by a strain insulator respectively Seat；A phase conductors and b phase conductors both ends are connected on the Steel Structure girder steel by a strain insulator string respectively, and institute State a phase conductors and b phase conductors are both connected at the Steel Structure girder steel medium position；C phase conductors both ends are respectively by described in one Strain insulator string is connected to the connecting seat on another steel pile.

0 phase conductor, a phase conductors, b phase conductors and c phase conductors are set in distance.

Through hole is provided with the connecting seat.

The length for the strain insulator string that the 0 phase conductor both ends connect with c phase conductors both ends is led more than a phases The length for the strain insulator string that line both ends connect with b phase conductors both ends.

For the utility model due to taking above technical scheme, it has advantages below：1st, the utility model uses and leads c phases Line and 0 phase conductor are hung on steel pile, save the width of Steel Structure beam.2nd, the utility model reduces 35kV busbar arrangement chis It is very little, save floor space.

Brief description of the drawings

Fig. 1 is the arrangement schematic diagram of 35kV buses in the prior art；

Fig. 2 is Fig. 1 top view；

Fig. 3 is that wire hangs over structural representation on girder steel in the prior art；

Fig. 4 is arrangement schematic diagram of the present utility model；

Fig. 5 is Fig. 4 top view；

Fig. 6 is that wire of the present utility model hangs over partial structural diagram on steel pile.

Embodiment

The utility model is described in detail with reference to the accompanying drawings and examples.

As shown in Fig. 4~Fig. 6, the utility model provides a kind of 35kV busbar arrangements structure, and it includes two Pin steel constructions Framework 10 and strain insulator string 20.Wherein, Pin steel structure frames 10 are made up of Steel Structure girder steel 11 and steel pile 12；Two steel structures Top is provided with Steel Structure girder steel 11 between post 12, and connecting seat 13 is both provided with the top side of two steel pile 12.0 phase conductor 30 Both ends are connected to the connecting seat 13 on a steel pile 12 by a strain insulator string 20 respectively；A phase conductors 30 and b phase conductors 30 Both ends are connected on Steel Structure girder steel 11 by a strain insulator string 20 respectively, and a phase conductors 30 and b phase conductors 30 are all connected with At the medium position of Steel Structure girder steel 11；The both ends of c phase conductors 30 are connected to another steel structure by a strain insulator string 20 respectively Connecting seat 13 on post 12.0 phase conductor 30, a phase conductors 30, b phase conductors 30 and c phase conductors 30 are set in distance.

In above-described embodiment, through hole is both provided with connecting seat 13, strain insulator string 20 is connected by through hole.

In the various embodiments described above, the length for the strain insulator string 20 that the both ends of 0 phase conductor 30 connect with the both ends of c phase conductors 30 The length of the strain insulator string 20 connected more than the both ends of a phase conductors 30 with the both ends of b phase conductors 30.

In summary, the utility model is by the way that 0 phase conductor 30 and c phase conductors 30 to be arranged on to the connecting seat 13 of steel pile 12 On, it can effectively shorten the length of Steel Structure beam, while save floor space.

The various embodiments described above are merely to illustrate the utility model, and structure and size, set location and the shape of each part are all It can be varied from, it is all that individual part is entered according to the utility model principle on the basis of technical solutions of the utility model Capable improvement and equivalents, it should not exclude outside the scope of protection of the utility model.

Claims (4)

1. A kind of 1. 35kV busbar arrangements structure, it is characterised in that：It includes two Pin steel structure frames and strain insulator string；Institute State Pin steel structure frames to be made up of Steel Structure girder steel and steel pile, top is provided with the Steel Structure steel between two steel piles Beam, connecting seat is both provided with the two steel pile top sides；0 phase conductor both ends pass through a strain insulator string respectively The connecting seat being connected on a steel pile；A phase conductors and b phase conductors both ends pass through a strain insulator respectively Series winding is connected on the Steel Structure girder steel, and a phase conductors and b phase conductors are both connected to the Steel Structure girder steel medium position Place；C phase conductors both ends are connected to the connecting seat on another steel pile by a strain insulator string respectively.
2. 2. 35kV busbar arrangements structure as claimed in claim 1, it is characterised in that：0 phase conductor, a phase conductors, b phases are led Line and c phase conductors are set in distance.
3. 3. 35kV busbar arrangements structure as claimed in claim 1, it is characterised in that：Through hole is provided with the connecting seat.
4. 4. the 35kV busbar arrangement structures as described in any one of claims 1 to 3, it is characterised in that：The 0 phase conductor both ends and The length of the strain insulator string of c phase conductors both ends connection is more than what a phase conductors both ends connected with b phase conductors both ends The length of the strain insulator string.