CN204199431U - A kind of supporting structure for transformer station - Google Patents

Abstract

The utility model relates to a kind of supporting structure for transformer station, object is to provide a kind of convenient splicing, the supporting structure of anti-corrosion, the described supporting structure for transformer station, comprise cement pole and framework node, described cement pole end is provided with the first flange by the first connector, described first flange is provided with more than one first through hole, the second flange matched with described first flange is installed by the second connector bottom described framework node, described second flange is provided with more than one second through hole, described first through hole is connected and the second through hole makes described first flange and the second flange interfix by screw bolt and nut.The beneficial effects of the utility model are: be provided with the flange for splicing in cement pole and framework node, to be fixed by the flange of correspondence by bolt when assembling and just can complete assembling, can not destroy steel work galvanizing surface layer, anticorrosion ability is good, process velocity is fast, and the duration is short.

Description

A kind of supporting structure for transformer station

Technical field

The utility model relates to a kind of frame structures utility model for transformer station (containing steam power station).

Background technology

Traditionally, with bolts between the component on framework node, and framework node bottom herringbone connects employing welding when must assemble at the scene between the termination of leg and cement pole termination.Site Welding is except needing the longer duration, but also destructible steel work galvanizing surface layer during operation, even if anticorrosion by being coated with rustproof paint, but along with component increases (being in coastal area especially) service time, rustproof paint oxidation comes off and causes element structure performance to reduce by making steel beam column that corrosion easily occur, shortening service life.

Utility model content

The purpose of this utility model is to overcome above-mentioned defect, provides a kind of convenient splicing, the building structure of anti-corrosion.

In order to solve the problems of the technologies described above, the technical solution adopted in the utility model is:

A kind of supporting structure for transformer station, comprise cement pole and framework node, described cement pole end is provided with the first flange by the first connector, described first flange is provided with more than one first through hole, the second flange matched with described first flange is installed by the second connector bottom described framework node, described second flange is provided with more than one second through hole, connects described first through hole and the second through hole makes described first flange and the second flange interfix by screw bolt and nut.

Further, described first through hole is rounded evenly distributed on described first flange, and described second through hole is rounded evenly distributed on described second flange.

Further, described first connector is the first steel ring, and described first steel ring one end is fixed on cement pole end, and the described first steel ring other end is fixed on described first flange; Described second connector is the second steel ring, and described second steel ring one end is fixed on bottom described framework node, and the described second steel ring other end is fixed on described second flange.

Further, also comprise more than one first reinforcing rib and more than one second reinforcing rib, described first reinforcing rib one end is fixed on described first steel ring, the described first reinforcing rib other end is fixed on described first flange, described second reinforcing rib one end is fixed on described second steel ring, and the described second reinforcing rib other end is fixed on described second flange.

Further, the diameter of described first flange is greater than the diameter of described cement pole, the diameter of described first steel ring equals the diameter of described cement pole, the shape of described first reinforcing rib is triangle, the diameter of described second flange is greater than the diameter of described cement pole, the diameter of described second steel ring equals the diameter of described cement pole, and the shape of described second reinforcing rib is triangle.

Further, the diameter of described first flange equals the diameter of described cement pole, the diameter of described first steel ring is less than the diameter of described cement pole, the shape of described first reinforcing rib is rectangle, the diameter of described second flange equals the diameter of described cement pole, the diameter of described second steel ring is less than the diameter of described cement pole, and the shape of described second reinforcing rib is rectangle.

Further, described first flange, the first steel ring, the first reinforcing rib, the second flange, the second steel ring and the second reinforcing rib surface are provided with zinc-plated surface layer.

The beneficial effects of the utility model are: be provided with the built-in flange for splicing in cement pole and framework node, by bolt, the flange of correspondence is fixed assembling when assembling, avoid conventional on-site and produce corrosion, all connectors (component) all can make in batch production, anticorrosion ability is visual permanent, greatly reduces in-site installation duration framework node.

Accompanying drawing explanation

Fig. 1 is the cement pole sectional view of the utility model embodiment one.

Fig. 2 is the cement pole flange upward view of the utility model embodiment one.

Fig. 3 is the cement pole sectional view of the utility model embodiment two.

Fig. 4 is the cement pole bar section connection diagram of the utility model embodiment two.

Fig. 5 is that the framework node of the utility model embodiment two is connected elevation with cement pole built-in bolt.

Fig. 6 is framework node and the cement pole built-in bolt connection side view of the utility model embodiment two.

Label declaration:

1, cement pole; 2, framework node; 11, the first connector; 12, the first flange; 13, the first reinforcing rib; 21, the second connector; 22, the second flange; 23, the second reinforcing rib; 121, the first through hole; 221, the second through hole.

Detailed description of the invention

By describing technology contents of the present utility model, structural feature in detail, realized object and effect, accompanying drawing is coordinated to be explained in detail below in conjunction with embodiment.

The design of the utility model most critical is: be provided with the flange for splicing in cement pole and framework node, and to be fixed by the flange of correspondence by bolt when assembling and just complete assembling, anticorrosion ability is visual permanent, greatly reduces the in-site installation duration.

Refer to Fig. 1 to Fig. 6, the supporting structure of the present embodiment, comprise cement pole 1 and framework node 2, described cement pole 1 end is provided with the first flange 12 by the first connector 11, described first flange 12 is provided with more than one first through hole 121, the second flange 22 matched with described first flange 12 is installed by the second connector 21 bottom described framework node 2, described second flange 22 is provided with more than one second through hole 221, described first through hole 121 is connected and the second through hole 221 makes described first flange 12 and the second flange 22 interfix by screw bolt and nut.

Operating principle of the present utility model is:

Cement pole 1 upper end is provided with the first flange 12, framework node 2 lower end is provided with the second flange 22, connect described first through hole 121 by screw bolt and nut and the second through hole 221 makes described first flange 12 and the second flange 22 interfix, thus framework node 2 is arranged on cement pole 1.

From foregoing description, the beneficial effects of the utility model are: be provided with the flange for splicing in cement pole 1 and framework node 2, by bolt the flange of correspondence fixed when assembling and just can complete assembling, steel work galvanizing surface layer can not be destroyed, anticorrosion ability is good, process velocity is fast, and the duration is short.

Further, described first through hole 121 is rounded evenly distributed on described first flange 12, and described second through hole 221 is rounded evenly distributed on described second flange 22.

Seen from the above description, be arranged in circle can make cement pole and framework joints evenly, overall structure is more stable.

Further, described first connector 11 is the first steel ring, and described first steel ring one end is fixed on cement pole 1 end, and the described first steel ring other end is fixed on described first flange 12; Described second connector 21 is the second steel ring, and described second steel ring one end is fixed on bottom described framework node 2, and the described second steel ring other end is fixed on described second flange 22.

Seen from the above description, flange is installed by steel ring, more meets the Force principle of tube-like piece, makes the longer service life of supporting structure.

Further, also comprise more than one first reinforcing rib 13 and more than one second reinforcing rib 23, described first reinforcing rib 13 one end is fixed on described first steel ring, the described first reinforcing rib other end to be fixed on described first flange 12, described second reinforcing rib 23 one end is fixed on described second steel ring, and described second reinforcing rib 23 other end is fixed on described second flange 22.

Seen from the above description, owing to being reinforced by reinforcing rib between steel ring and flange, make it more firm, not yielding.

Further, the diameter of described first flange 12 is greater than the diameter of described cement pole 1, the diameter of described first steel ring equals the diameter of described cement pole 1, the shape of described first reinforcing rib 13 is triangle, the diameter of described second flange 22 is greater than the diameter of described cement pole 1, the diameter of described second steel ring equals the diameter of described cement pole 1, and the shape of described second reinforcing rib 23 is triangle.

Seen from the above description, be herein flange less time situation, mainly apply to cement pole diameter larger time.

Further, the diameter of described first flange 12 equals the diameter of described cement pole 1, the diameter of described first steel ring is less than the diameter of described cement pole 1, the shape of described first reinforcing rib 13 is rectangle, the diameter of described second flange 22 equals the diameter of described cement pole 1, the diameter of described second steel ring is less than the diameter of described cement pole 1, and the shape of described second reinforcing rib 23 is rectangle.

Seen from the above description, be herein flange larger time situation, mainly apply to cement pole diameter less time.

Further, described first flange 12, first steel ring, the first reinforcing rib 13, second flange 22, second steel ring and the second reinforcing rib 23 surface are provided with zinc-plated surface layer.

Seen from the above description, zinc-plated surface layer effectively can prevent steel corrosion, increases the application life of supporting structure.

Please refer to Fig. 1 to Fig. 2, embodiment one of the present utility model is:

A kind of supporting structure for transformer station, comprise cement pole 1 and framework node 2, described cement pole 1 end is provided with the first flange 12 by the first connector 11, described first flange 12 is provided with more than one first through hole 121, the second flange 22 matched with described first flange 12 is installed by the second connector 21 bottom described framework node 2, described second flange 22 is provided with more than one second through hole 221, described first through hole 121 is connected and the second through hole 221 makes described first flange 12 and the second flange 22 interfix by screw bolt and nut, described first through hole 121 is rounded evenly distributed on described first flange 12, described second through hole 221 is rounded evenly distributed on described second flange 22, described first connector 11 is the first steel ring, described first steel ring one end is fixed on cement pole 1 end, the described first steel ring other end is fixed on described first flange 12, described second connector 21 is the second steel ring, described second steel ring one end is fixed on bottom described framework node 2, the described second steel ring other end is fixed on described second flange 22, also comprise more than one first reinforcing rib 13 and more than one second reinforcing rib 23, described first reinforcing rib 13 one end is fixed on described first steel ring, the described first reinforcing rib other end to be fixed on described first flange 12, described second reinforcing rib 23 one end is fixed on described second steel ring, described second reinforcing rib 23 other end is fixed on described second flange 22, the diameter of described first flange 12 is greater than the diameter of described cement pole 1, the diameter of described first steel ring equals the diameter of described cement pole 1, the shape of described first reinforcing rib 13 is triangle, the diameter of described second flange 22 is greater than the diameter of described cement pole 1, the diameter of described second steel ring equals the diameter of described cement pole 1, the shape of described second reinforcing rib 23 is triangle, described first flange 12, first steel ring, first reinforcing rib 13, second flange 22, second steel ring and the second reinforcing rib 23 surface are provided with zinc-plated surface layer.

Please refer to Fig. 3 to Fig. 6, embodiment two of the present utility model is:

A kind of supporting structure for transformer station, comprise cement pole 1 and framework node 2, described cement pole 1 end is provided with the first flange 12 by the first connector 11, described first flange 12 is provided with more than one first through hole 121, the second flange 22 matched with described first flange 12 is installed by the second connector 21 bottom described framework node 2, described second flange 22 is provided with more than one second through hole 221, described first through hole 121 is connected and the second through hole 221 makes described first flange 12 and the second flange 22 interfix by screw bolt and nut, described first through hole 121 is rounded evenly distributed on described first flange 12, described second through hole 221 is rounded evenly distributed on described second flange 22, described first connector 11 is the first steel ring, described first steel ring one end is fixed on cement pole 1 end, the described first steel ring other end is fixed on described first flange 12, described second connector 21 is the second steel ring, described second steel ring one end is fixed on bottom described framework node 2, the described second steel ring other end is fixed on described second flange 22, also comprise more than one first reinforcing rib 13 and more than one second reinforcing rib 23, described first reinforcing rib 13 one end is fixed on described first steel ring, the described first reinforcing rib other end to be fixed on described first flange 12, described second reinforcing rib 23 one end is fixed on described second steel ring, described second reinforcing rib 23 other end is fixed on described second flange 22, the diameter of described first flange 12 equals the diameter of described cement pole 1, the diameter of described first steel ring is less than the diameter of described cement pole 1, the shape of described first reinforcing rib 13 is rectangle, the diameter of described second flange 22 equals the diameter of described cement pole 1, the diameter of described second steel ring is less than the diameter of described cement pole 1, the shape of described second reinforcing rib 23 is rectangle, described first flange 12, first steel ring, first reinforcing rib 13, second flange 22, second steel ring and the second reinforcing rib 23 surface are provided with zinc-plated surface layer.

In sum, the supporting structure for transformer station that the utility model provides, is provided with the flange for splicing in cement pole and framework node, flange and cement pole and framework node are connected firmly, reasonable stress, to be fixed by the flange of correspondence by bolt when assembling and just can complete assembling, can not destroy steel work galvanizing surface layer, anticorrosion ability is good, process velocity is fast, duration is short, the long service life of building, does not need to make Corrosion Maintenance frequently.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model manual and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (7)

1. the supporting structure for transformer station, it is characterized in that: comprise cement pole and framework node, described cement pole end is provided with the first flange by the first connector, described first flange is provided with more than one first through hole, the second flange matched with described first flange is installed by the second connector bottom described framework node, described second flange is provided with more than one second through hole, connects described first through hole and the second through hole makes described first flange and the second flange interfix by screw bolt and nut.

2. the supporting structure for transformer station according to claim 1, is characterized in that: described first through hole is rounded evenly distributed on described first flange, and described second through hole is rounded evenly distributed on described second flange.

3. the supporting structure for transformer station according to claim 1, is characterized in that: described first connector is the first steel ring, and described first steel ring one end is fixed on cement pole end, and the described first steel ring other end is fixed on described first flange; Described second connector is the second steel ring, and described second steel ring one end is fixed on bottom described framework node, and the described second steel ring other end is fixed on described second flange.

4. the supporting structure for transformer station according to claim 3, it is characterized in that: also comprise more than one first reinforcing rib and more than one second reinforcing rib, described first reinforcing rib one end is fixed on described first steel ring, the described first reinforcing rib other end is fixed on described first flange, described second reinforcing rib one end is fixed on described second steel ring, and the described second reinforcing rib other end is fixed on described second flange.

5. the supporting structure for transformer station according to claim 4, it is characterized in that: the diameter of described first flange is greater than the diameter of described cement pole, the diameter of described first steel ring equals the diameter of described cement pole, the shape of described first reinforcing rib is triangle, the diameter of described second flange is greater than the diameter of described cement pole, the diameter of described second steel ring equals the diameter of described cement pole, and the shape of described second reinforcing rib is triangle.

6. the supporting structure for transformer station according to claim 4, it is characterized in that: the diameter of described first flange equals the diameter of described cement pole, the diameter of described first steel ring is less than the diameter of described cement pole, the shape of described first reinforcing rib is rectangle, the diameter of described second flange equals the diameter of described cement pole, the diameter of described second steel ring is less than the diameter of described cement pole, and the shape of described second reinforcing rib is rectangle.

7. the supporting structure for transformer station according to claim 5 or 6, is characterized in that: described first flange, the first steel ring, the first reinforcing rib, the second flange, the second steel ring and the second reinforcing rib surface are provided with zinc-plated surface layer.