CN217580280U - Structure is assembled to component of assembled station - Google Patents

Abstract

The utility model discloses a component assembling structure of an assembly station in the technical field of subway construction, which comprises a plurality of prefabricated components which are mutually spliced, wherein a bottom plate prefabricated component and a side plate prefabricated component are clamped through a boss positioning pile and a side plate positioning hole and are tightly matched with a first bottom plate pre-tightening device hole through a second side plate pre-tightening device hole; the side plate prefabricated part and the top plate prefabricated part are clamped and connected through a side plate positioning pile and a top plate positioning hole and are tightly matched through a first side plate pre-tightening device hole and a first top plate pre-tightening device hole; the middle plate prefabricated part is fixed on a middle plate fixing table of the side plate prefabricated part and is fixedly connected with the middle plate fixing table; the center pillar prefabricated part and the bottom plate prefabricated part are fixedly connected through the center pillar clamping table and the cup opening through hole. The utility model overcomes walk the coarse defect in position when current portal crane mechanism hoist prefabricated component, the structure of leading to and sending each lock can accurate counterpoint to it is all comparatively convenient with fixed mounting to counterpoint the operation, has reduced the degree of difficulty of construction.

Description

Structure is assembled to component of assembled station

Technical Field

The utility model relates to a subway construction technical field, specific theory relates to a structure is assembled to component at assembled station.

Background

In the subway construction process, the main structure of the subway station comprises a bottom plate, a side plate, a stand column, a middle plate, a top plate and the like, the structure is usually processed in a field formwork pouring mode, and the structure has the advantages of being good in integrity, large in rigidity and the like, but along with the improvement of the construction technical level, the requirements for energy conservation, short construction period and the like in the construction process cannot be met in the field construction mode, and the mode also has the defects of noise pollution, air pollution and the like.

In order to solve the problem, the existing subway construction adopts an assembly production mode, namely, each structural part is prefabricated to form a prefabricated part in the early stage, and the prefabricated part can be directly machined during later-stage assembly. However, because each prefabricated component is transported to a construction site for hoisting after being processed in a factory in advance, the size of each component is large, the components are affected by the precision of the gantry crane during assembly, each prefabricated component is difficult to accurately carry in place, alignment is not accurate enough during assembly, and the construction progress is affected.

The above-mentioned drawbacks are worth improving.

SUMMERY OF THE UTILITY MODEL

In order to overcome the deficiencies of the prior art, the utility model provides a structure is assembled to component at assembled station.

The utility model discloses technical scheme as follows:

a component assembling structure of an assembled station comprises a bottom plate prefabricated component, side plate prefabricated components positioned at the left side and the right side of the bottom plate prefabricated component, a top plate prefabricated component positioned above the two side plate prefabricated components, a middle plate prefabricated component positioned between the two side plate prefabricated components, and a middle column prefabricated component positioned between the middle plate prefabricated component and the bottom plate prefabricated component,

the bottom plate prefabricated part comprises a bottom plate body and bottom plate embedding tables positioned at the left end and the right end of the bottom plate body, wherein the top surface of each bottom plate embedding table is provided with a convex boss positioning pile, a boss positioning pin hole is formed in the boss positioning pile at the inner side of each bottom plate embedding table, a vertical first bottom plate pre-tightening device hole is formed in the outer side of each bottom plate embedding table, a convex center pillar clamping table is arranged at the upper side of the bottom plate, a transverse cup opening through hole is formed in each center pillar clamping table, and each center pillar clamping table is fixed with the bottom of each center pillar through the cup opening through hole;

the side plate prefabricated part comprises a side plate body, a middle plate fixing table positioned on the inner side of the middle part of the side plate body, a first side plate embedding table positioned at the upper end of the side plate body and a second side plate embedding table positioned at the lower end of the side plate body, wherein a convex side plate positioning pile is arranged on the top surface of the first side plate embedding table, a side plate positioning pin hole is formed in the side plate positioning pile on the inner side, a first side plate pre-tightening device hole is formed in the outer side of the first side plate embedding table and penetrates through the side plate positioning pile on the outer side, a concave side plate positioning hole is formed in the bottom surface of the second side plate embedding table, the side plate positioning hole is clamped with the boss positioning pile, a vertical second side plate pre-tightening device hole is formed in the outer side of the second side plate embedding table and matched with the first bottom plate pre-tightening device hole, and the middle plate fixing table is fixedly connected with the end part of the middle plate prefabricated part;

the top plate prefabricated part comprises a top plate body and top plate embedding tables arranged at two ends of the top plate body, wherein the bottom surface of each top plate embedding table is provided with a sunken top plate positioning hole, each top plate positioning hole is connected with the corresponding side plate positioning pile in a clamping mode, a vertical first top plate pre-tightening device hole is formed in the outer side of each top plate embedding table, and the first top plate pre-tightening device hole is matched with the first side plate pre-tightening device hole.

According to the above scheme the utility model discloses, a serial communication port, one side of bottom plate body is equipped with convex bottom plate card and fixes the boss, with one side that the solid boss of bottom plate card is relative is equipped with sunken bottom plate card and fixes recess, one the solid recess of bottom plate body's bottom plate card fixes the boss joint with another the solid boss joint of bottom plate body's bottom plate card.

According to the above scheme the utility model discloses, a serial communication port, the inside of bottom plate body is equipped with the inside cavity of bottom plate, the inside of curb plate body is equipped with the inside cavity of curb plate, the inside of roof body is equipped with the inside cavity of roof.

According to the above scheme the utility model discloses, a serial communication port, be equipped with the second bottom plate preloading device hole that runs through around a plurality of on the bottom plate body, both sides still are equipped with a plurality of bottom plate location pinhole around the bottom plate body.

According to the above scheme the utility model discloses, a serial communication port, the upper surface of bottom plate body is the cambered surface, and is equipped with first bottom plate platform, second bottom plate platform in this cambered surface, two first bottom plate platform symmetry sets up, two second bottom plate platform symmetry sets up, be equipped with first bottom plate thread bush on the first bottom plate platform, be equipped with second bottom plate thread bush on the second bottom plate platform.

According to the above scheme the utility model discloses, a serial communication port, one side of curb plate body is equipped with convex curb plate card and fixes the boss, with one side that the solid boss of curb plate card is relative is equipped with sunken curb plate card and fixes recess, one the solid recess of curb plate body's curb plate card and another the solid boss joint of curb plate body's curb plate card.

According to the above scheme the utility model discloses, a serial communication port, the medium plate fixed station includes first medium plate platform and second medium plate platform, first medium plate platform with second medium plate platform is connected and is formed the step form, the medium plate prefabricated component passes through medium plate fastening bolt to be fixed in on the first medium plate platform, the upside of medium plate prefabricated component is equipped with superimposed sheet, superimposed sheet's tip support in on the second medium plate platform.

According to the scheme the utility model discloses, a serial communication port, the middle part outside pre-buried steel sheet that has of curb plate body.

According to the above scheme the utility model discloses, a serial communication port, one side of roof body is equipped with convex roof card and fixes the boss, with one side that the roof card fixed boss is relative is equipped with sunken roof card and fixes recess, one the roof card of roof body fixes recess and another the roof card of roof body fixes the boss joint.

According to the above scheme the utility model discloses, a serial communication port, the lower surface of roof body is the cambered surface, and is equipped with first roof platform, second roof platform, two on this cambered surface first roof platform symmetry sets up, two second roof platform symmetry sets up, be equipped with first roof thread bush on the first roof platform, be equipped with second roof thread bush on the second roof platform.

According to the above scheme the utility model discloses, its beneficial effect lies in, the utility model discloses an above-mentioned structure can be so that the accurate piece together of each prefabricated component to each prefabricated component after the amalgamation can be firm connection, walk the imprecise defect in position when having overcome current portal crane mechanism hoist prefabricated component, behind the portal crane hoist prefabricated component, constructor pulling prefabricated component to general position after, the structure of delivering each lock can be accurate counterpoint, and counterpoint operation and fixed mounting are all comparatively convenient, have reduced the degree of difficulty of construction.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic structural view of the middle floor prefabricated part of the present invention;

FIG. 3 is an enlarged view of portion B of FIG. 2;

FIG. 4 is an enlarged view of portion C of FIG. 2;

FIG. 5 is a schematic structural view of a middle side plate prefabricated part according to the present invention;

FIG. 6 is an enlarged view of portion D of FIG. 5;

FIG. 7 is an enlarged view of section E of FIG. 5;

FIG. 8 is an enlarged view of portion A of FIG. 1;

fig. 9 is a schematic structural view of the middle top plate prefabricated component of the present invention;

FIG. 10 is an enlarged view of portion F of FIG. 9;

fig. 11 is an enlarged view of portion G in fig. 9.

In the figures, the various reference numbers are:

10. a floor panel preform;

11. a base plate body; 12. a bottom plate embedding table; 13. bottom plate exhaust/grouting pipes; 14. a second base plate pre-tightening device hole; 15. a bottom plate positioning pin hole; 16. a first backplane platform; 17. a bottom plate hoisting point; 18. a second backplane platform; 19. a center pillar clamping table;

111. the bottom plate is clamped with the lug boss; 112. a bottom plate internal cavity;

121. a boss positioning pile; 122. boss positioning pin holes; 123. a first base plate pre-tightening device hole;

161. a first bottom plate thread bushing;

181. a second bottom plate thread sleeve;

191. perforating the cup mouth;

20. side plate prefabricated parts;

21. a side plate body; 22. a first side plate embedding table; 23. a second side plate embedding table; 24. side plate exhaust pipe/side plate grouting pipe; 25. a third side plate pre-tightening device hole; 26. a side plate thread sleeve; 27. hanging points of the side plates; 28. a middle plate fixing table; 29. pre-burying a steel plate;

211. the side plate clamps and fixes the boss; 212. a cavity inside the side plate;

221. side plate positioning piles; 222. a side plate positioning pin hole; 223. a first side plate pre-tightening device hole;

231. side plate positioning holes; 232. a second side plate pre-tightening device hole;

281. a first middle plate platform; 282. a second middle plate platform;

30. a top plate prefabricated member;

31. a top plate body; 32. a top plate engaging table; 33. a second top plate pre-tightening device hole; 34. a first top deck platform; 35. a second ceiling platform; 36. a connecting device groove; 37. a top plate hanging point;

311. the top plate is clamped with the boss; 312. a top plate interior cavity;

321. a top plate positioning hole; 322. a first top plate pre-tightening device hole; 323. a third top plate thread sleeve;

341. a first top plate thread bushing;

351. a second top plate thread sleeve;

40. middle plate prefabricated components;

41. a rail top air duct; 42. a laminated slab; 43. a middle plate fastening bolt;

50. a middle beam prefabricated part;

60. a center pillar prefabricated member;

70. a template;

81. a track right line platform; 82. track left line platform.

Detailed Description

The invention is further described with reference to the following figures and embodiments:

as shown in fig. 1 to 11, the utility model discloses a solve the unable accurate defect of fixing a position and splicing of each prefabricated component in the current assembled station, the component assembly structure in assembled station is proposed, it includes bottom plate prefabricated component 10, be located the curb plate prefabricated component 20 of the bottom plate prefabricated component 10 left and right sides, be located the roof prefabricated component 30 of two curb plate prefabricated component 20 tops, be located the middle plate prefabricated component 40 between two curb plate prefabricated components 20, be located the center pillar prefabricated component 60 between middle plate prefabricated component 40 and the bottom plate prefabricated component 10, curb plate prefabricated component 20, roof prefabricated component 30, middle plate prefabricated component 40 and center pillar prefabricated component 60 splice each other and form.

The middle plate is positioned between the left and right side plate prefabricated parts 20 so that the whole tunnel is divided into an upper part and a lower part, the center pillar prefabricated part 60 is positioned between the middle plate prefabricated part 40 and the bottom plate prefabricated part 10 so that the lower space is divided into a left part and a right part, and a rail right line platform 81 and a rail left line platform 82 are formed in the lower space after being poured through the formworks 70. Preferably, a rail top air duct 41 is arranged on the lower side of the middle plate, the rail top air duct 41 realizes the guiding of air flowing in the tunnel, and the two rail top air ducts 41 respectively correspond to the rail right line platform 81 and the rail left line platform 82.

Preferably, a center sill precast element 50 is arranged on the lower side of the middle plate precast element 40, the extending direction of the center sill precast element 50 is perpendicular to the length direction of the middle plate precast element 40, and the lower end of the center sill precast element 50 is fixedly connected with a center pillar precast element 60.

1. Prefabricated component of bottom plate

The utility model provides a bottom plate prefabricated component 10 includes bottom plate body 11 and is located bottom plate gomphosis platform 12 at both ends about bottom plate body 11. Specifically, a convex boss positioning pile 121 is arranged on the top surface of the bottom plate embedding table 12, a boss positioning pin hole 122 is arranged in the boss positioning pile 121 on the inner side, a vertical first bottom plate pre-tightening device hole 123 is arranged on the outer side of the bottom plate embedding table 12, and the bottom plate body 11 is connected with the side plate prefabricated part 20 through the boss positioning pile 121, the boss positioning pin hole 122 and the first bottom plate pre-tightening device hole 123. The upper side of bottom plate is equipped with convex center pillar ka tai 19, is equipped with horizontal rim of a cup perforation 191 on the center pillar ka tai 19, and center pillar ka tai 19 is fixed with the bottom of center pillar through rim of a cup perforation 191, and bottom plate body 11 is fixed with the center pillar through center pillar ka tai 19, rim of a cup perforation 191.

The upper surface of bottom plate body 11 is the cambered surface, and be equipped with first bottom plate platform 16 on this cambered surface, second bottom plate platform 18, 16 symmetries of two first bottom plate platforms set up, 18 symmetries of two second bottom plate platforms set up, be equipped with first bottom plate thread bush 161 on first bottom plate platform 16 (first bottom plate thread bush 161 on every first bottom plate platform 16 is equipped with 12), be equipped with second bottom plate thread bush 181 on second bottom plate platform 18 (second bottom plate thread bush 181 on every second bottom plate platform 18 is equipped with 12).

Preferably, a bottom plate air exhaust pipe/bottom plate grouting pipe 13 is further provided on the bottom plate fitting table 12 for realizing grouting and air exhaust when the bottom plate prefabricated part 10 is installed. In addition, the bottom plate inner cavity 112 is formed inside the bottom plate body 11, and the structural strength of the whole bottom plate body 11 is increased through the inner cavity.

When two adjacent bottom plate prefabricated parts 10 are connected, the two bottom plate prefabricated parts 10 are buckled and connected to realize positioning. Specifically, one side of the bottom plate body 11 is provided with a convex bottom plate clamping boss 111, one side opposite to the bottom plate clamping boss 111 is provided with a concave bottom plate clamping groove, and the bottom plate clamping groove of one bottom plate body 11 is clamped with the bottom plate clamping boss 111 of the other bottom plate body 11. A plurality of second bottom plate pre-tightening device holes 14 penetrating front and back are formed in the bottom plate body 11, a plurality of bottom plate positioning pin holes 15 are further formed in the front side and the back side of the bottom plate body 11, and limiting and connection of two adjacent bottom plate prefabricated parts 10 are achieved through the second bottom plate pre-tightening device holes 14 and the bottom plate positioning pin holes 15.

2. Side plate prefabricated part

The utility model provides a curb plate prefabricated component 20 includes curb plate body 21, is located curb plate body 21 middle part inboard medium plate fixed station 28, is located first curb plate gomphosis platform 22 of curb plate body 21 upper end, is located second curb plate gomphosis platform 23 of curb plate body 21 lower extreme.

The top surface of first curb plate gomphosis platform 22 is equipped with convex curb plate spud 221, is equipped with curb plate locating pin hole 222 in the inboard curb plate spud 221, and the outside of first curb plate gomphosis platform 22 is equipped with first curb plate preloading device hole 223, and first curb plate preloading device hole 223 passes the curb plate spud 221 in the outside, and curb plate body 21 passes through curb plate spud 221, curb plate locating pin hole 222, first curb plate preloading device hole 223 and roof prefabricated component 30 fixed connection. Preferably, the first side plate fitting table 22 is provided with a side plate exhaust pipe/side plate grouting pipe 24 for realizing grouting and exhaust when the side plate prefabricated part 20 and the top plate prefabricated part 30 are installed. The top of the inner side of the side plate body 21 is also provided with a side plate thread sleeve 26.

The bottom surface of second curb plate gomphosis platform 23 is equipped with sunken curb plate locating hole 231, and the outside of second curb plate gomphosis platform 23 is equipped with vertical second curb plate preloading device hole 232, and curb plate body 21 passes through curb plate locating hole 231, second curb plate preloading device hole 232 and is connected with bottom plate prefabricated component 10: the second side plate preloading device hole 232 is matched with the first bottom plate preloading device hole 123, and the side plate positioning hole 231 is clamped with the boss positioning pile 121.

The middle plate fixing table 28 is fixedly connected to an end of the middle plate prefabricated member 40. Specifically, the midplane fixing table 28 includes a first midplane platform 281 and a second midplane platform 282, the first midplane platform 281 and the second midplane platform 282 are connected to form a step shape, the midplane prefabricated component 40 is fixed on the first midplane platform 281 by means of the midplane fastening bolt 43, a laminated board 42 is provided on the upper side of the midplane prefabricated component 40, and the end of the laminated board 42 is supported on the second midplane platform 282.

When the connection of two adjacent side plate prefabricated parts 20 is realized, the two side plate prefabricated parts 20 are connected in a buckling manner to realize the positioning. Specifically, one side of the side plate body 21 is provided with a convex side plate clamping boss 211, one side opposite to the side plate clamping boss 211 is provided with a concave side plate clamping groove, and the side plate clamping groove of one side plate body 21 is clamped with the side plate clamping boss 211 of the other side plate body 21. A plurality of third side plate pre-tightening device holes 25 which penetrate through the side plate body 21 from front to back are formed in the side plate body 21, and the two adjacent side plate prefabricated parts 20 are fixed through the third side plate pre-tightening device holes 25.

Preferably, the pre-buried steel sheet 29 that has (preferably 20mm thick) in the middle part outside of curb plate body 21 is pre-buried, can be so that the structure is more firm, and convenient simultaneously supports with the external world. In addition, the interior of the side panel body 21 is provided with a side panel internal cavity 212, which increases the structural strength of the entire side panel body 21.

3. Top plate prefabricated part

The top plate prefabricated component 30 comprises a top plate body 31 and top plate embedding tables 32 arranged at two ends of the top plate body 31, recessed top plate positioning holes 321 are formed in the bottom surfaces of the top plate embedding tables 32, vertical first top plate pre-tightening device holes 322 are formed in the outer sides of the top plate embedding tables 32, and the top plate body 31 is fixed with the side plate prefabricated component 20 through the top plate positioning holes 321, the first top plate pre-tightening device holes 322 and specifically comprises: the top plate positioning hole 321 is clamped with the side plate positioning pile 221, and the first top plate pre-tightening device hole 322 is matched with the first side plate pre-tightening device hole 223.

The lower surface of roof body 31 is the cambered surface, and is equipped with first roof platform 34, second roof platform 35 on this cambered surface, and two first roof platforms 34 symmetry set up, and two second roof platforms 35 symmetry set up, are equipped with first roof thread bush 341 on the first roof platform 34, are equipped with second roof thread bush 351 on the second roof platform 35.

Preferably, the inner side surfaces of the left and right ends of the top plate body 31 are provided with connecting device grooves 36 for anchoring with the prestressed reinforcement, and the left and right sides of the top plate body 31 are further provided with third top plate thread sleeves 323. In addition, the ceiling body 31 is provided with a ceiling internal cavity 312 inside, and the structural strength of the entire ceiling body 31 is increased by the internal cavity.

When the connection of two adjacent top plate prefabricated components 30 is realized, the two top plate prefabricated components 30 are connected in a buckling manner to realize the positioning. Specifically, one side of the top plate body 31 is provided with a convex top plate clamping boss 311, one side opposite to the top plate clamping boss 311 is provided with a concave top plate clamping groove, and the top plate clamping groove of one top plate body 31 is clamped with the top plate clamping boss 311 of the other top plate body 31. A plurality of second top plate pre-tightening device holes 33 penetrating front and back are formed in the top plate body 31, and two adjacent top plate prefabricated parts 30 are fixed through the second top plate pre-tightening device holes 33.

The utility model provides a bottom plate body 11's upper and lower both sides are equipped with a plurality of bottom plate hoisting points 17 respectively, and both ends are equipped with curb plate hoisting point 27 about curb plate body 21's the outside, and roof body 31's upside is equipped with a plurality of roof hoisting points 37. When the prefabricated member is assembled, each lifting point is lifted by the gantry crane, the carrying and auxiliary assembly of each prefabricated member are realized, and the installation process is more convenient.

The middle bottom plate prefabricated part 10 and the side plate prefabricated part 20 of the utility model are clamped through the boss positioning pile 121 and the side plate positioning hole 231 and are tightly matched with the first bottom plate pre-tightening device hole 123 through the second side plate pre-tightening device hole 232; the side plate prefabricated part 20 and the top plate prefabricated part 30 are clamped through a side plate positioning pile 221 and a top plate positioning hole 321 and are tightly matched through a first side plate pre-tightening device hole 223 and a first top plate pre-tightening device hole 322; the middle plate prefabricated part 40 is fixedly connected with the middle plate fixing table 28 fixed on the side plate prefabricated part 20; the center pillar preform 60 and the floor preform 10 are fixedly connected to each other by the center pillar retaining base 19 and the cup hole 191.

The utility model discloses an above-mentioned structure can be so that the accurate piece together of each prefabricated component to each prefabricated component after the amalgamation can be firm connection, walk the imprecise defect in position when having overcome current portal crane mechanism hoist prefabricated component, behind the portal crane hoist prefabricated component, constructor pulling prefabricated component to roughly after the position, the structure that leads to and send each lock can accurate counterpoint, and counterpoint operation and fixed mounting are all comparatively convenient, have reduced the degree of difficulty of construction.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

The above exemplary description of the present invention is made in conjunction with the accompanying drawings, and it is obvious that the present invention is not limited by the above manner, and various improvements made by the method concept and technical solution of the present invention or by directly applying the concept and technical solution of the present invention to other occasions without improvement are all within the protection scope of the present invention.

Claims (10)

1. A component assembling structure of an assembly type station comprises a bottom plate prefabricated component, side plate prefabricated components positioned on the left side and the right side of the bottom plate prefabricated component, a top plate prefabricated component positioned above the two side plate prefabricated components, a middle plate prefabricated component positioned between the two side plate prefabricated components, and a middle column prefabricated component positioned between the middle plate prefabricated component and the bottom plate prefabricated component,

the prefabricated bottom plate component comprises a bottom plate body and bottom plate embedding tables positioned at the left end and the right end of the bottom plate body, wherein convex boss positioning piles are arranged on the top surface of each bottom plate embedding table, boss positioning pin holes are formed in the boss positioning piles on the inner side of each bottom plate embedding table, a vertical first bottom plate pre-tightening device hole is formed in the outer side of each bottom plate embedding table, a convex center pillar clamping table is arranged on the upper side of the bottom plate, a transverse cup opening through hole is formed in the center pillar clamping table, and the center pillar clamping table is fixed with the bottom of the center pillar through the cup opening through hole;

the side plate prefabricated part comprises a side plate body, a middle plate fixing platform positioned on the inner side of the middle part of the side plate body, a first side plate embedding platform positioned at the upper end of the side plate body and a second side plate embedding platform positioned at the lower end of the side plate body, wherein a convex side plate positioning pile is arranged on the top surface of the first side plate embedding platform, a side plate positioning pin hole is formed in the side plate positioning pile on the inner side, a first side plate pre-tightening device hole is arranged on the outer side of the first side plate embedding platform, the first side plate pre-tightening device hole penetrates through the side plate positioning pile on the outer side, a concave side plate positioning hole is arranged on the bottom surface of the second side plate embedding platform, the side plate positioning hole is clamped with the boss positioning pile, a vertical second side plate pre-tightening device hole is arranged on the outer side of the second side plate embedding platform, the second side plate pre-tightening device hole is matched with the first bottom plate pre-tightening device hole, and the middle plate fixing platform is fixedly connected with the end part of the middle plate prefabricated part;

the top plate prefabricated part comprises a top plate body and top plate embedding tables arranged at two ends of the top plate body, wherein the bottom surface of each top plate embedding table is provided with a sunken top plate positioning hole, each top plate positioning hole is connected with the corresponding side plate positioning pile in a clamping mode, a vertical first top plate pre-tightening device hole is formed in the outer side of each top plate embedding table, and the first top plate pre-tightening device hole is matched with the first side plate pre-tightening device hole.

2. The component assembling structure of an assembled station as claimed in claim 1, wherein a protruding bottom plate fastening boss is provided on one side of the bottom plate body, a recessed bottom plate fastening groove is provided on the side opposite to the bottom plate fastening boss, and the bottom plate fastening groove of one bottom plate body is fastened to the bottom plate fastening boss of the other bottom plate body.

3. The component assembling structure of an assembled station as claimed in claim 1, wherein a bottom plate inner cavity is provided inside the bottom plate body, a side plate inner cavity is provided inside the side plate body, and a top plate inner cavity is provided inside the top plate body.

4. The component assembling structure of the fabricated station as claimed in claim 1, wherein the bottom plate body is provided with a plurality of second bottom plate pre-tightening device holes penetrating front and back, and a plurality of bottom plate positioning pin holes are further provided on front and back sides of the bottom plate body.

5. The component assembling structure of an assembled station as claimed in claim 1, wherein the upper surface of the bottom plate body is an arc surface, and the arc surface is provided with a first bottom plate platform and a second bottom plate platform, two first bottom plate platforms are symmetrically arranged, two second bottom plate platforms are symmetrically arranged, the first bottom plate platform is provided with a first bottom plate thread bushing, and the second bottom plate platform is provided with a second bottom plate thread bushing.

6. The component assembling structure of an assembled station as claimed in claim 1, wherein one side of the side plate bodies is provided with a convex side plate fastening boss, the side opposite to the side plate fastening boss is provided with a concave side plate fastening groove, and the side plate fastening groove of one side plate body is fastened to the side plate fastening boss of the other side plate body.

7. The component assembling structure of an assembled station according to claim 1, wherein the middle plate fixing table includes a first middle plate platform and a second middle plate platform, the first middle plate platform and the second middle plate platform are connected to form a step shape, the middle plate prefabricated components are fixed on the first middle plate platform by middle plate fastening bolts, laminated plates are provided on upper sides of the middle plate prefabricated components, and ends of the laminated plates are supported on the second middle plate platform.

8. The component assembling structure of the fabricated station as claimed in claim 1, wherein pre-buried steel plates are pre-buried in the outer side of the middle portion of the side plate body.

9. The component assembling structure of an assembled station as claimed in claim 1, wherein one side of the roof body is provided with a convex roof fastening boss, the side opposite to the roof fastening boss is provided with a concave roof fastening groove, and the roof fastening groove of one roof body is fastened to the roof fastening boss of the other roof body.

10. The component assembling structure of the fabricated station as claimed in claim 1, wherein the lower surface of the top plate body is an arc surface, and the arc surface is provided with a first top plate platform and a second top plate platform, two first top plate platforms are symmetrically arranged, two second top plate platforms are symmetrically arranged, the first top plate platform is provided with a first top plate thread bushing, and the second top plate platform is provided with a second top plate thread bushing.

Images