CN219864243U - Supporting structure for building structure reinforcement - Google Patents

Abstract

The utility model relates to the technical field of building structure reinforcement supporting structures, and discloses a supporting structure for building structure reinforcement. According to the utility model, the problem that holes are required to be punched when the beam body in the building structure is reinforced by adopting the steel structure is solved through the stress plate and the fixed plate structure, meanwhile, the problem that the beam body is secondarily damaged due to punching is solved, the problem that the building maintenance cost is high due to the fact that the reinforcing structure cannot be secondarily utilized is solved by arranging the detachable reinforcing structure, and the problem that the reinforcing structure cannot be adjusted is solved by arranging the adjustable connecting column structure and the stress piece structure according to the deformation of the building structure.

Description

Supporting structure for building structure reinforcement

Technical Field

The utility model relates to the technical field of building structure reinforcement support structures, in particular to a support structure for building structure reinforcement.

Background

With the acceleration of the urban process, the safety and durability of building structures have become an increasing concern. In order to improve the bearing capacity and the shock resistance of building structures, support structure technology has been developed. The supporting structure technology is a building structure reinforcing technology, and the supporting structure is added into the existing building structure, so that the overall stability and bearing capacity of the structure are improved, and the safety of a building is guaranteed. The technology is widely applied to the fields of bridges, high-rise buildings, industrial plants and the like, and becomes an important means for reinforcing modern building structures

At present, the present building structure reinforcement bearing structure has steel bearing structure, carbon fiber consolidates, depression bar bearing structure, shape material consolidates, concrete consolidates, wherein steel bearing structure need punch on the building body when strengthening building structure, both increased work load, still can cause the destruction of certain degree to the building body, when especially involving roof beam body and cylinder, secondly many reinforcement structures are direct with building body fixed connection, can not dismantle and carry out the reutilization, make building structure's maintenance cost higher, and the connected mode of reinforcement structure itself is electric welding connection, the reinforcement structure can not be adjusted according to the deformation that the building body takes place in the use, based on above-mentioned circumstances, carry out the innovation to the bearing structure that building structure reinforcement was used.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a supporting structure for reinforcing a building structure, which can realize the perforation-free reinforcement of a transverse hollow cross beam through a stress plate and a fixed plate structure when the reinforcing structure is used, and the arranged detachable structure can enable the reinforcing structure to be secondarily utilized, and the arranged adjustable connecting column and stress piece structure can be adjusted according to the deformation of the building structure.

In order to solve the technical problems, the utility model provides the following technical scheme:

the utility model relates to a supporting structure for building structure reinforcement, which comprises a main body, wherein a beam hole is formed in the main body, stress plates are arranged on one side and the other side of the main body, tension columns are sequentially arranged on the front parts of the stress plates, connecting columns are arranged on one sides of the tension columns, supporting columns are arranged at one ends of the connecting columns, stress pieces are arranged at one ends and the other ends of the supporting columns, and fixing plates are arranged at the tops of the stress pieces.

As a preferable technical scheme of the utility model, the connecting column comprises a first shaft piece, a connecting rod and a second shaft piece, wherein the first shaft piece is arranged at one end of the connecting rod, a rod hole is formed at one end of the first shaft piece, a shaft hole is formed at the other end of the first shaft piece, an adjusting piece is arranged at one side of the connecting rod, a fixing piece is arranged at the other end of the connecting rod, the second shaft piece is arranged at the other end of the connecting rod, a rod hole is formed at one end of the shaft piece, a fixing hole is formed in the second shaft piece, and a shaft hole is formed at the other end of the second shaft piece.

As a preferable technical scheme of the utility model, the bottom of the fixing plate is provided with limiting holes in sequence, the interiors of the limiting holes are provided with stress pieces in sequence, the bottoms of the stress pieces are provided with stress grooves (18), and the tops of the stress pieces are provided with limiting columns in sequence.

As a preferable technical scheme of the utility model, the stress plate is fixedly connected with the tension column, the stress plate is movably connected with the connecting column through the tension column, the tension column is movably connected with the stress piece through the support column, and the stress piece is movably connected with the fixing plate.

As a preferable technical scheme of the utility model, the inside of each rod hole is provided with an internal thread, one side of each connecting rod is provided with an external thread, the connecting rods are in threaded connection with the first shaft part, the connecting rods and the adjusting parts are integrally arranged, the adjusting parts are prismatic, the fixing parts and the connecting rods are integrally arranged, and the connecting rods are movably connected with the second shaft part through the fixing parts.

As a preferable technical scheme of the utility model, the fixing plate is arranged in a U shape, the limiting holes are arranged in straight rows at equal intervals, and the number of the limiting holes is two rows.

As a preferable technical scheme of the utility model, the stress piece is arranged in a U shape, and the stress piece and the limit column are fixedly connected.

Compared with the prior art, the utility model has the following beneficial effects:

according to the utility model, the problem that holes are required to be punched when the beam body in the building structure is reinforced by adopting the steel structure is solved through the stress plate and the fixed plate structure, meanwhile, the problem that the beam body is secondarily damaged due to punching is solved, the problem that the building maintenance cost is high due to the fact that the reinforcing structure cannot be secondarily utilized is solved by arranging the detachable reinforcing structure, and the problem that the reinforcing structure cannot be adjusted is solved by arranging the adjustable connecting column structure and the stress piece structure according to the deformation of the building structure.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of a force plate structure of the present utility model;

FIG. 3 is a schematic cross-sectional view of a connecting column according to the present utility model;

FIG. 4 is a schematic view of the connecting rod structure of the present utility model;

FIG. 5 is a schematic view of a mounting plate structure of the present utility model;

FIG. 6 is a schematic view of the force bearing member structure of the present utility model;

in the figure: 1. a main body; 2. a beam hole; 3. a force-bearing plate; 4. a tension column; 5. a connecting column; 6. a support column; 7. a force-bearing member; 8. a fixing plate; 9. a first shaft member; 10. a connecting rod; 11. a second shaft member; 12. a rod hole; 13. a shaft hole; 14. an adjusting member; 15. a fixing member; 16. a fixing hole; 17. a limiting hole; 18. a stress groove; 19. and a limit column.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Wherein like reference numerals refer to like elements throughout.

Example 1

As shown in fig. 1-6, the utility model provides a supporting structure for building structure reinforcement, which comprises a main body 1, wherein a beam hole 2 is formed in the main body 1, a stress plate 3 is arranged on one side and the other side of the main body 1, tension columns 4 are sequentially arranged at the front parts of the stress plates 3, connecting columns 5 are arranged on one sides of the tension columns 4, supporting columns 6 are arranged at one ends of the connecting columns 5, stress pieces 7 are arranged at one ends and the other ends of the supporting columns 6, a fixing plate 8 is arranged at the top of each stress piece 7, the fixing plate 8 is a stress part of a beam, the fixing plate 8, the connecting columns 5 and the stress plate 3 form a stress system of the damaged beam, and the stress of the beam is transmitted to other beams through the stress system, so that the effect of reducing the load of the damaged beam is achieved.

The connecting column 5 comprises a first shaft piece 9, a connecting rod 10 and a second shaft piece 11, wherein the first shaft piece 9 is installed at one end of the connecting rod 10, a rod hole 12 is formed in one end of the first shaft piece 9, a shaft hole 13 is formed in the other end of the first shaft piece 9, an adjusting piece 14 is installed on one side of the connecting rod 10, a fixing piece 15 is installed on the other end of the connecting rod 10, the second shaft piece 11 is installed at the other end of the connecting rod 10, a rod hole 12 is formed in one end of the shaft piece, a fixing hole 16 is formed in the inner portion of the second shaft piece 11, a shaft hole 13 is formed in the other end of the second shaft piece 11, the connecting rod 10 is connected with the first shaft piece 9 and the second shaft piece 11, the adjusting piece 14 is rotated, and the connecting rod 10 achieves the effect of adjusting tightness of the stress plate 3 and the fixing plate 8 through the action of external threads arranged on one side and the internal threads arranged inside the rod hole 12.

Limiting holes 17 are formed in the bottom of the fixing plate 8 in sequence, stress pieces 7 are sequentially arranged in the limiting holes 17, stress grooves 18 are formed in the bottoms of the stress pieces 7, limiting columns 19 are sequentially arranged at the tops of the stress pieces 7, and the stress pieces 7 are arranged in the limiting holes 17 at different positions of the bottom of the fixing plate 8 according to the damage condition stress requirements of the cross beam to achieve the adjusting effect of the reinforcing structure.

The stress plate 3 and the tension column 4 are fixedly connected, the stress plate 3 is movably connected with the connecting column 5 through the tension column 4, the tension column 4 is movably connected with the stress piece 7 through the supporting column 6, the stress piece 7 and the fixing plate 8 are movably connected, and the connecting column 5 can be detached after the tightness degree of the first shaft piece 9 and the tension column 4 is adjusted by the rotation adjusting piece 14, so that the whole reinforcing structure can be further detached.

The equal inside of pole hole 12 is provided with the internal thread, and one side of connecting rod 10 all is provided with the external screw thread, connecting rod 10 and first shaft member 9 are threaded connection, and connecting rod 10 and regulating part 14 set up as an organic wholely, and regulating part 14 is prismatic setting, and mounting 15 and connecting rod 10 set up as an organic wholely, and connecting rod 10 is swing joint through mounting 15 and second shaft member 11, and the prismatic setting of regulating part 14 facilitates the use spanner instrument to adjust it.

The fixed plate 8 is U-shaped, limiting holes 17 are arranged in straight rows at equal intervals, the number of the limiting holes is two, the U-shaped fixed plate 8 is used for increasing the stress area of the fixed plate 8, and damage to the main body 1 caused by stress at two ends of the fixed plate 8 is prevented.

The atress spare 7 is "U" type setting, and atress spare 7 and spacing post 19 are fixed connection, and the support column 6 is dismantled in the "U" type setting of atress spare 7, further conveniently adjusts the reinforcement structure.

Specifically, the stress plate 3, the connecting column 5 and the fixing plate 8 are used for forming a stress system of the damaged cross beam, the stress plate 3 is a stress component and used for installing the tension column 4, the tension column 4 is used for installing the connecting column 5, the connecting column 5 is used for connecting the stress plate 3 and the fixing plate 8, the stress plate 3 is a stress component of the damaged cross beam and used for supporting and fixing the damaged cross beam, the first shaft piece 9, the connecting rod 10 and the second shaft piece 11 are used for forming the connecting column 5, the adjusting piece 14 is used for adjusting the length of the connecting column 5, the fixing piece 15 is used for connecting the connecting rod 10 and the second shaft piece 11 and preventing the connecting rod 10 and the second shaft piece 11 from falling off, the supporting column 6 is used for connecting the connecting column 5 and the stress piece 7, the stress piece 7 is a stress component and an adjusting component between the connecting column 5 and the fixing plate 8, and the stress point of the connecting column 5 on the fixing plate 8 is changed through the stress piece 7, and the working principle: the fixed plate 8 installed at the bottom of the damaged beam transmits the force born by the fixed plate 8 to other beams through the connecting column 5 and the stress plate 3, the effect of reducing the load of the damaged beam is achieved, when the connecting column 5 needs to be replaced or the reinforcing structure needs to be adjusted, the rotating adjusting piece 14 drives the connecting rod 10 to rotate, the adjusting effect is achieved through the threaded arrangement of the connecting rod 10 and the first shaft piece 9, when the stress point of the connecting column 5 at the bottom of the fixed plate 8 needs to be adjusted, the rotating adjusting piece 14 enables the connecting column 5, the stress plate 3 and the fixed plate 8 to be in a loose state, the stress point of the connecting column 5 can be adjusted through the limiting holes 17 correspondingly installed at different positions of the stress piece 7, and finally the purpose of adjustment is achieved.

When the staff uses the reinforcement structure, only need install atress board 3 on the crossbeam that the structure is good, correspondingly install connecting rod 10 on atress board 3 through the pulling force pole, fixed plate 8 installs in the crossbeam bottom that has damaged, correspondingly install the spacing hole 17 in fixed plate 8 bottom inside atress spare 7, at atress groove 18 internally mounted upper support pole, install the second shaft spare 11 of the other end of spliced pole 5 on the bracing piece, rotatory regulating part 14 adjust spliced pole 5 and atress board 3, the elasticity of fixed plate 8 can, later regulation and dismantlement only need rotatory regulating part 14 can accomplish.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. The utility model provides a bearing structure for building structure reinforcement, includes main part (1), its characterized in that, main part (1) inside is provided with beam hole (2), atress board (3) are all installed to one side and the opposite side of main part (1), tensile post (4) are all installed in proper order in the front portion of atress board (3), spliced pole (5) are all installed to one side of tensile post (4), support column (6) are installed to one end of spliced pole (5), atress spare (7) are all installed to one end and the other end of support column (6), fixed plate (8) are installed at the top of atress spare (7).

2. The supporting structure for building structure reinforcement according to claim 1, characterized in that the connecting column (5) comprises a first shaft (9), a connecting rod (10) and a second shaft (11), the first shaft (9) is installed at one end of the connecting rod (10), a rod hole (12) is formed in one end of the first shaft (9), a shaft hole (13) is formed in the other end of the first shaft (9), an adjusting piece (14) is installed at one side of the connecting rod (10), a fixing piece (15) is installed at the other end of the connecting rod (10), the second shaft (11) is installed at the other end of the connecting rod (10), a rod hole (12) is formed in one end of the shaft, a fixing hole (16) is formed in the inner portion of the second shaft (11), and a shaft hole (13) is formed in the other end of the second shaft (11).

3. The supporting structure for building structure reinforcement according to claim 1, wherein the bottom of the fixing plate (8) is provided with limiting holes (17) in sequence, the inside of each limiting hole (17) is provided with a stress piece (7) in sequence, the bottom of each stress piece (7) is provided with a stress groove (18), and the top of each stress piece (7) is provided with a limiting column (19) in sequence.

4. The supporting structure for building structure reinforcement according to claim 1, wherein the stress plate (3) and the tension column (4) are fixedly connected, the stress plate (3) is movably connected with the connecting column (5) through the tension column (4), the tension column (4) is movably connected with the stress piece (7) through the supporting column (6), and the stress piece (7) is movably connected with the fixing plate (8).

5. The supporting structure for building structure reinforcement according to claim 2, wherein the rod holes (12) are internally provided with internal threads, one side of the connecting rod (10) is provided with external threads, the connecting rod (10) and the first shaft member (9) are in threaded connection, the connecting rod (10) and the adjusting member (14) are integrally arranged, the adjusting member (14) is a prism, the fixing member (15) and the connecting rod (10) are integrally arranged, and the connecting rod (10) is movably connected through the fixing member (15) and the second shaft member (11).

6. A support structure for reinforcing a building structure according to claim 3, wherein the fixing plates (8) are arranged in a "U" shape, the limiting holes (17) are arranged in straight rows at equal intervals, and the number of the limiting holes is two.

7. A support structure for reinforcing a building structure according to claim 3, wherein the force-bearing member (7) is provided in a "U" shape, and the force-bearing member (7) and the stopper post (19) are fixedly connected.