CN216641037U - Double-steel-plate concrete combined shear wall with bolt locking piece assembled and stiffened - Google Patents

Abstract

The utility model relates to a double-steel-plate concrete combined shear wall with a bolt locking piece assembled and stiffened, which comprises a wall body part and an edge part; the wall body part comprises a front plate member and a rear plate member which are arranged at intervals, a plurality of transverse connecting pieces which are distributed in an array form are fixedly arranged on the inner side surface of the front plate member, locking pieces which correspond to the transverse connecting pieces one by one are arranged on the rear plate member, and the locking pieces and the rear end parts of the transverse connecting pieces can be assembled, disassembled and connected; the edge portions are respectively provided on the left and right sides of the wall body portion. The utility model aims to provide a double-steel-plate concrete combined shear wall with a bolt locking piece assembled and stiffened. The utility model has the advantages that: the two steel plates are assembled and connected through mechanical buckling of the stud and the locking piece to form a shear wall with the two steel plates restrained and fixed in a pulling and pressing mode, so that the problem of plate burst of poured and pounded concrete is effectively solved; the automatic processing of a factory can be realized, the labor intensity of workers is reduced, and the labor efficiency and the productivity of the workers are improved.

Description

Double-steel-plate concrete combined shear wall with bolt locking piece assembled and stiffened

Technical Field

The utility model relates to structural design and factory manufacturing of an industrial steel structure building (fabricated steel structure building), and site construction, namely fabricated construction, in particular to a double-steel-plate concrete combined shear wall for assembling and stiffening bolt and lock pieces.

Background

In steel structures, particularly residential steel structure buildings, the steel plate composite shear wall is easier to accept by vast residents than steel frame and frame support structure buildings due to the fact that exposed columns and exposed beams are few indoors, and the steel plate composite shear wall is widely used in high-rise residences. Fig. 1 shows 5 kinds of construction schematic diagrams of the steel plate composite shear wall.

At present, a steel pipe bundle column shear wall structure is also provided by Hangzhou Xiao steel structures, and is also a steel plate combined shear wall form with concrete poured in steel plates, as shown in figure 2.

In the existing steel plate composite shear wall, the stud connection is adopted (a) most, and a special stud welding machine can be adopted for welding the stud and the steel plate in a factory, so that the specialization degree is high, the welding quality is stable and reliable, and the production efficiency of workers is highest; (b) the form and the mechanical property of the T-shaped stiffening rib are similar to those of the stud, only the T-shaped stiffening rib is welded without professional equipment, the welding efficiency is low, the steel plates can be horizontally arranged and welded when the connecting piece is welded on the combined shear wall of the two steel plates, the processing is convenient, and the two steel plates and the end plate are assembled and welded to be processed and finished. The outsourcing steel plates of the two steel plate combined shear walls are not connected except the middle of the wall end and the outer wall body. Both of these two types of steel plate composite shear walls present a problem: when concrete is poured and tamped into the steel plate wall in construction, the steel plate can bulge outwards and deform due to pressure generated on the side wall of the steel plate; if the concrete is poured and tamped for 3 to 4 layers at a time, the lateral pressure generated by the 12 meters of liquid concrete and the additional pressure of vibration generated when the vibrating spear vibrates to tamp the dense concrete are high, and the plate explosion often occurs due to the large pressure value. Because the function of the studs or T-shaped stiffening ribs is to integrate the steel plate and the concrete filled in and prevent the two from separating from each other. Under the action of compressive stress, the steel plate has the tendency of local buckling outwards, and the design only considers the tensile force borne by the part of the stud and the T-shaped stiffening rib in the compression stage. The designed width-thickness ratio of the plate is the ratio of the width to the thickness of the steel plate between the stud and the T-shaped stiffening rib, the outward local buckling of the steel plate can be limited only in the use stage under the compression state of the plate, the calculated width of the outward buckling of the plate in the construction stage is the distance between the transverse steel plates at the end part of the straight section of the wall body, and no connection between the two outer-wrapped steel plates needs to take measures to control the steel plate explosion.

(c) The batten plate connection or (d) the split bolt connection is used as the combined shear wall of the other two steel plates connected between the steel plates, the lateral pressure of the cast concrete can be balanced by the connection between the steel plates before the concrete is hardened, and the plate explosion is not easy to generate. However, the batten plates are welded in a closed space, and are not used much due to difficulty in processing and manufacturing, and can be welded between steel plates unless the batten plates are used for a shear wall with the thickness of more than 600mm, the number of holes formed in the split bolt steel plates is large, bolt heads on the outer sides of the steel plates are exposed, the shear wall surface needs post-processing, and a large amount of labor is needed.

The steel tube bundle column shear wall structure is pushed out by Hangzhou Xiao steel structures, the problem of steel plate explosion is well solved, special welding equipment is developed to realize automatic welding of a machine, and the working efficiency is high. However, the welding amount of each wall is very large, two vertical through long welding lines are formed at intervals of a certain width determined by a production mode, the number of factors causing defects of the welding lines is large, the carbon emission amount corresponding to the large welding amount is large, each closed cavity needs to be independently poured and compacted when concrete is poured and tamped, and construction is complex.

Disclosure of Invention

The utility model aims to provide a double-steel-plate concrete combined shear wall with a bolt locking piece for assembly stiffening, which can improve the production efficiency, reduce the complexity of site construction and reduce the labor intensity of workers, can adopt an industrial production mode for assembly construction in factory manufacturing and site equipment hoisting, and can reduce the labor intensity of the workers when concrete is cast in situ on site.

The purpose of the utility model is realized by the following technical scheme: a stud lock assembly assembles the double steel plate concrete composite shear wall stiffened, it includes wall body part and edge portion; the wall body part comprises a front plate member and a rear plate member which are arranged at intervals, a plurality of transverse connecting pieces which are distributed in an array manner are fixedly arranged on the inner side surface of the front plate member, locking pieces which correspond to the transverse connecting pieces one by one are arranged on the rear plate member, and the locking pieces and the rear end parts of the transverse connecting pieces can be assembled, disassembled and connected; the edge parts are respectively arranged on the left side and the right side of the wall body part; the transverse connecting piece is a stud, the head of the stud faces backwards, and the tail of the stud is fixedly connected to the front plate component; the locking piece is provided with a T-shaped groove matched with the head of the stud.

Compared with the prior art, the utility model has the advantages that: the utility model is divided into an edge part and a wall part, wherein the wall part consists of two steel plates and internally poured concrete, the edge part adopts a rectangular steel pipe column with equal thickness or thicker, the concrete is internally poured, and steel is intensively configured to the edge of the end part with high stress level;

the two steel plates are assembled and connected through mechanical buckling of the stud and the locking piece to form a shear wall with the two steel plates restrained and fixed in a pulling and pressing mode, so that the problem of plate burst of poured and pounded concrete is effectively solved; and the automatic processing of a factory can be realized, the welding work amount is reduced, the labor intensity of workers is reduced, the labor efficiency and the productivity of the workers are improved, and the welding amount and the carbon emission in the manufacturing process are reduced.

Drawings

FIG. 1 is a schematic view of 5 configurations of a steel plate composite shear wall (a is a stud connection, b is a T-shaped stiffener, c is a gusset plate connection, d is a split bolt connection, and e is a hybrid connection).

Fig. 2 is a schematic structural diagram of the steel tube bundle column shear wall.

Fig. 3 is a schematic structural view of an embodiment of the utility model (a straight wall steel plate combined shear wall).

Fig. 4 is a schematic structural diagram of the L-shaped wall steel plate combined shear wall spliced by fig. 3.

Fig. 5 is a schematic structural diagram of the steel plate composite shear wall spliced into the T-shaped wall in fig. 3.

Fig. 6 is a schematic structural view of the locking member.

Figure 7 is a top view of a wall section.

Figure 8 is a side view of a wall section.

Description of reference numerals: the steel pipe column comprises a front plate member 1, a transverse connecting member 2, a rear plate member 3, a locking member 4, a T-shaped groove 5 and a rectangular steel pipe column 7.

Detailed Description

The utility model is described in detail below with reference to the drawings and examples of the specification:

fig. 3 to 8 are schematic views illustrating an embodiment of a bolt-lock assembly stiffened double steel plate concrete composite shear wall according to the present invention.

A stud lock assembly assembles the double steel plate concrete composite shear wall stiffened, it includes wall body part and edge portion;

the wall body part comprises a front plate member 1 and a rear plate member 3 which are arranged at intervals, a plurality of transverse connecting pieces 2 which are distributed in an array form are fixedly arranged on the inner side surface of the front plate member 1, locking pieces 4 which correspond to the transverse connecting pieces 2 one by one are arranged on the rear plate member 3, and the locking pieces 4 are detachably connected with the rear end parts of the transverse connecting pieces 2; the edge portions are respectively arranged on the left side and the right side of the wall body portion (the edge portions are in relative positions, namely when the edge portions are opposite to the front side of the wall body portion, the edge portions are arranged on the left side and the right side of the corresponding wall body portion), namely the edge portions are respectively arranged on the left side and the right side of the straight-line wall body portion (see figure 3) or the joint of the L-shaped wall steel plate composite shear wall and the T-shaped wall steel plate composite shear wall (see figures 4-5).

The front plate member 1 and the rear plate member 3 are both steel plates.

The locking piece 4 is welded and fixed to the rear plate member 3.

The edge part is a rectangular steel pipe column.

The rectangular steel pipe column is fixed with the front plate component 1 and the rear plate component 3 through welding.

The transverse connecting piece 2 is a stud, the head of the stud faces backwards, and the tail of the stud is fixedly connected to the front plate member 1; the locking piece 4 is provided with a T-shaped groove 5 matched with the head of the stud.

The tail of the stud is welded and fixed on the front plate component 1.

The notch of the T-shaped groove 5 faces upwards.

The production process and construction of the prefabricated part are roughly divided into the following steps:

the method comprises the steps of deepening a drawing, carrying out factory prefabrication and splitting design according to a designed shear wall plane drawing, and splitting the drawing into a wall body part and an edge part of the prefabricated shear wall produced in a factory.

Step two, factory processing is carried out, wherein 1, rectangular steel pipe columns at the edge parts can be directly purchased or processed by blanking factory steel plates; 2. the front plate member and the rear plate member of the wall body part are spliced into a section of required length and width by steel plate blanking; 3. the pin is purchased according to the designed diameter and length, and if the length is not exactly the length, the pin needs to be customized or purchased and reprocessed; 4. the locking piece is machined by a machine in a factory, and the size of the locking piece is matched with that of the stud cylindrical head; 5. the stud is welded with the front plate component, and the steel plate and the stud are welded in a factory by a special stud welding machine; 6. the locking piece is welded with the rear plate component, the locking piece adopts fillet weld three-edge girth welding, and automatic welding can be realized in a factory by adopting an automatic welding robot; 7. then the stud cylinder heads of the two welded steel plates are aligned with the locking piece and buckled, and the stud cylinder heads are assembled into a whole to be used as a section of standard double-steel-plate straight-section wall body; 8. welding and combining each assembled wall body section and the rectangular steel pipe columns at the edge parts into a drawing to split the straight section shear wall, so that the straight section shear wall is convenient to transport, and one end of the edge part which is not welded needs to be temporarily stiffened to prevent deformation in the transporting and hoisting processes; 9. the shear walls in various shapes are assembled on a designed plane view on a construction site and then hoisted. For the end walls and the wing walls with smaller sizes, the T-shaped and L-shaped walls can be welded in a factory and then transported; the straight section of the shear wall transported to a construction site can be directly hoisted due to limited hoisting capacity, and the straight section is spliced into a designed shear wall shape in the air.

And thirdly, derusting and coating, namely performing shot blasting derusting on the processed straight section shear wall according to the grade of the design requirement, coating the primer, the intermediate paint and the first finish according to the design paint variety and the coating process requirement, and protecting the friction surface required by bolt connection.

And fourthly, transporting the processed and coated straight section shear wall to a construction site.

And fifthly, assembling and hoisting, namely assembling the straight shear walls into shear walls with various shapes on a designed plane diagram in a construction site, hoisting the shear walls in place generally, penetrating temporarily fixed bolts through splicing ear plates at the butt joint positions of the upper section and the lower section, loosening hooks of hoisting equipment, and turning to a next component for hoisting. And (4) butt welding the upper section and the lower section, symmetrically welding by two persons, and performing nondestructive testing after welding.

And sixthly, hoisting the shear wall connecting beam and other floor beams.

And seventhly, installing a floor panel and installing a steel bar truss floor bearing plate or a floor bearing plate.

And eighth step, arranging and binding the floor reinforcing steel bars, namely, arranging and binding the floor bottom reinforcing steel bars, the gluten and the distribution reinforcing steel bars according to the drawing.

And ninth step, laying and embedding electromechanical pipelines of the floor.

And tenth step, pouring and smashing concrete in the steel plate shear wall, pouring and smashing multilayer floor concrete of the wall of the section, and maintaining. Of course, the floor concrete can be poured and tamped layer by layer continuously after more layers of floor concrete connected with the shear walls are connected.

And the eleventh step repeats the fifth step to the tenth step until the structure is capped.

Claims (7)

1. The utility model provides a two steel sheet concrete composite shear wall that bolt latch fitting assembly was put more energy into, its characterized in that: it includes wall body portion and edge portion;

the wall body part comprises a front plate component (1) and a rear plate component (3) which are arranged at intervals, a plurality of transverse connecting pieces (2) which are distributed in an array manner are fixedly arranged on the inner side surface of the front plate component (1), locking pieces (4) which correspond to the transverse connecting pieces (2) one by one are arranged on the rear plate component (3), and the locking pieces (4) and the rear end parts of the transverse connecting pieces (2) can be assembled, disassembled and connected; the edge parts are respectively arranged on the left side and the right side of the wall body part;

the transverse connecting piece (2) is a stud, the head of the stud faces backwards, and the tail of the stud is fixedly connected to the front plate component (1); the locking piece (4) is provided with a T-shaped groove (5) matched with the head of the stud.

2. The double steel plate concrete composite shear wall stiffened by the bolt lock assembly of claim 1, wherein: the front plate member (1) and the rear plate member (3) are both steel plates.

3. The double steel plate concrete composite shear wall stiffened by the bolt lock assembly of claim 1, wherein: the tail part of the stud is welded and fixed on the front plate component (1).

4. The double steel plate concrete composite shear wall stiffened by the bolt lock assembly of claim 1, wherein: the notch of the T-shaped groove (5) faces upwards.

5. The double steel plate concrete composite shear wall stiffened by the bolt lock assembly of claim 1, wherein: the locking piece (4) is welded and fixed on the rear plate component (3).

6. A nailer lock fitted stiffened dual steel plate concrete composite shear wall as claimed in any one of claims 1 to 5 wherein: the edge part is a rectangular steel pipe column (7).

7. The stud lock assembly stiffened double steel plate concrete composite shear wall of claim 6, wherein: the rectangular steel pipe column is fixed with the front plate component (1) and the rear plate component (3) through welding.

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