CN111691582A - Close-spliced vertical joint structure of superposed shear wall and construction method - Google Patents

Abstract

The invention discloses a close-spliced vertical joint structure of a superposed shear wall and a construction method, wherein only an installation joint with the width of about 20mm is arranged between adjacent prefabricated walls, a specially designed vertical joint mould is adopted to improve the capability of a cantilever section at the end part of a prefabricated concrete wall plate of the prefabricated wall for resisting the pressure of a concrete pouring side mould, the distance between a steel bar truss and the side edge of the prefabricated wall is increased, an internal large cavity is formed at the position of the close-spliced vertical joint, and a horizontal connecting steel bar shaping steel bar cage is arranged in the cavity to realize the lap joint of horizontally distributed steel bars of the prefabricated walls at two sides of the vertical joint. The invention can realize the close splicing construction of the vertical joint of the superposed shear wall, the horizontal connecting steel bar of the vertical joint adopts the shaped steel bar cage which is produced in industrialization, the mould adopts a shaped universal mould, the site construction steel bar of the vertical joint is penetrated, the mould is erected and has high standardized operation degree, the site construction efficiency can be improved, the construction quality can be improved, and the construction cost can be reduced through standardization and generalization.

Description

Close-spliced vertical joint structure of superposed shear wall and construction method

Technical Field

The invention belongs to the technical field of buildings, relates to a superposed shear wall, and particularly relates to a close-spliced vertical joint structure of the superposed shear wall and a construction method.

Background

The requirement on the processing and mounting precision of the superposed shear wall structure is low, ribs can not be arranged on the side faces of the prefabricated walls, the connection of the adjacent prefabricated hollow wall boards is realized by means of the cavities, no holes can be formed on side forms in the production stage of the prefabricated walls, the standardization and the universalization degrees of the molds are high, the superposed shear wall structure system is an assembled concrete shear wall structure system suitable for residential buildings in China, and a representative system comprises a double-faced superposed shear wall structure and the like.

When the prefabricated wall in the double-sided superposed shear wall structure is connected at a position other than an edge component, the existing national specification 'assembly concrete building technical standard' and the multi-place local standard only consider the contribution of the outermost steel bar truss of the prefabricated wall to the pressure of the precast concrete wall plate for resisting the post-cast concrete pouring side mold in the cavity, and the distance between the outermost steel bar of the prefabricated wall and the side surface of the prefabricated wall is not more than 250mm, so that the field penetration of the vertical seam horizontal connecting steel bar in the cavity is directly influenced. The existing structure needs to arrange a vertical post-pouring section with the width not less than 200mm between prefabricated walls so as to penetrate through horizontal steel bars, and vertical steel bars and stirrups need to be configured in the vertical post-pouring section. Horizontal connecting steel bars, vertical steel bars and stirrups in the vertical post-pouring section are dense, and the horizontal connecting steel bars need to penetrate through steel bar trusses of prefabricated walls on two sides of the vertical joint, so that the on-site horizontal connecting steel bars are difficult to penetrate and arrange, the work efficiency is low, the vertical post-pouring section steel bars are difficult to bind, the formwork supporting amount is large, and the advantages of assembly type construction cannot be exerted on a construction site.

Disclosure of Invention

In order to overcome the defects of the vertical joint structure of the existing superposed shear wall, the invention aims to provide a close-jointed vertical joint structure of the superposed shear wall and a construction method thereof, wherein the specially designed vertical joint shaping mold with higher rigidity is used for clamping prefabricated walls on two sides of the vertical joint, so that the capability of resisting the mould pressing force of the concrete pouring side of the cantilever section at the end part of the prefabricated concrete wallboard of the prefabricated wall is improved, the condition that the prefabricated concrete wallboard is bundled to resist the pressure of the post-pouring side mould in the cavity by only utilizing the outermost steel bar truss of the prefabricated wall is avoided, the close-jointed construction of the vertical joint is realized, meanwhile, the distance between the outermost steel bar truss of the prefabricated wall and the side surface of the prefabricated wall can be properly increased, the horizontal connecting steel bar shaping steel bar cage is conveniently adopted to replace the existing structure for binding the horizontal connecting steel bars on site, the standardization, the, The method is universal, improves the on-site construction efficiency, improves the construction quality and effectively controls the construction cost.

In order to achieve the purpose, the invention adopts the technical scheme that:

the utility model provides a close vertical seam structure of piecing together of superimposed shear wall, adjacent prefabricated wall 1 is the same with two 2 structures of prefabricated wall, all includes two-layer precast concrete wallboard 11 around, forms cavity 12 between two precast concrete wallboard 11, a serial communication port, prefabricated wall 1 is connected at the non-edge member region of shear wall with prefabricated wall two 2, and vertical seam position only sets up millimeter or centimetre level's erection joint 3 between the two, all set up steel bar truss 13 and horizontal distribution reinforcing bar 17 in prefabricated wall 1 and prefabricated wall two 2's the cavity 12, form inside big cavity between the two steel bar trusses 13 that are closest in prefabricated wall 1 and the prefabricated wall two 2, set up horizontal connection reinforcing bar shaping steel bar cage 4 in this inside big cavity and realize the overlap joint of horizontal distribution reinforcing bar 17 in prefabricated wall 1 and the prefabricated wall two 2.

The distance between two nearest steel bar trusses 13 in the prefabricated wall I1 and the prefabricated wall II 2 and the installation seam 3 is not less than 450mm, and the width of the installation seam 3 is 10-30 mm.

The capability of the cantilever section at the end part of the precast concrete wallboard 11 of the precast wall for bearing the pressure of the post-cast concrete pouring side mold in the cavity 12 is improved by the vertical joint shaping mold 5, so that the requirement of forming an inner large cavity between two nearest steel bar trusses 13 in the precast wall I1 and the precast wall II 2 is met.

The vertical joint shaping mold 5 comprises two vertical back ridges 51, a plurality of transverse back ridges 52 are welded on each vertical back ridge 51, the transverse back ridges 52 on the two vertical back ridges 51 are relatively positioned on the same horizontal plane one by one, round holes are distributed on the two vertical back ridges 51 along the center line to install counter-pulling screw rods 53 which horizontally penetrate through the installation joints 3, and the two vertical back ridges 51 and the vertical back ridges 51 are fixed by nuts 54, wherein the vertical back ridges 51 and the vertical back ridges 51 are flush with the surfaces of one sides of the prefabricated wall I1 and the prefabricated wall II 2 which are contacted with each other, so that the outer surfaces of the prefabricated wall I1 and the prefabricated wall II 2 are tightly contacted; the cross-sectional dimensions of the vertical back edge 51 and the transverse back edge 52, the length of the transverse back edge 52, and the distance between the transverse back edge 52 and the counter-pulling screw 53 in the height direction of the wall body are determined according to post-cast concrete construction checking calculation; after the prefabricated wall I1, the prefabricated wall II 2 and the horizontal connecting reinforcing steel bar shaping reinforcing cage 4 are installed, the opposite-pulling screw rods 53 penetrate through the installation seams 3, the vertical back ridges 51 are fixed through the nuts 54, the vertical seam shaping mold 5 is erected, and the plastic pipes are sleeved on the part, in the wall, of the opposite-pulling screw rods 53 for recycling.

The horizontal connecting reinforcement shaping reinforcement cage 4 is formed by welding annular horizontal connecting reinforcements 41 and vertical structural reinforcements 42 of the shaped reinforcement cage, the vertical distribution reinforcements 14 of the prefabricated wall in the horizontal connecting reinforcement sections of the upper layer and the lower layer are in lap joint by adopting a single row of additional connecting reinforcements 141, the single row of additional connecting reinforcements 141 are distributed along the center line of the wall body and are discontinuous up and down, the length meets the requirement of reinforcement lap joint force transmission, and the area is not less than the total area of the vertical distribution reinforcements 14 of the prefabricated wall in the two horizontal connecting reinforcement sections in lap joint;

or the horizontal connecting reinforcement shaping reinforcement cage 4 is formed by welding annular horizontal connecting reinforcements 41 and vertical stress reinforcements 43 of the shaping reinforcement cage, the vertical constructional reinforcements 15 of the prefabricated wall in the sections of the upper and lower layers of horizontal connecting reinforcements are not connected, and the vertical stress reinforcements 43 of the upper and lower layers of shaping reinforcement cage are in lap joint; the vertical atress reinforcing bar 431 of lower floor's shaping steel reinforcement cage stretches into in this layer cavity 12 with the vertical atress reinforcing bar 43 of this layer of shaping steel reinforcement cage at wall body root overlap joint, and overlap joint length satisfies the reinforcing bar and passes power the requirement, and the vertical atress reinforcing bar 43 of shaping steel reinforcement cage is buckled in prefabricated wall top level post-cast strip 62 to guarantee that the vertical atress reinforcing bar 43 of overlap joint section shaping steel reinforcement cage staggers each other.

The diameter of horizontally connected reinforcing bar 41 is the same with the diameter of horizontal distribution reinforcing bar 17, and horizontally connected reinforcing bar 41 is the same along vertical interval with horizontal distribution reinforcing bar 17 along vertical interval, and horizontally connected reinforcing bar 41 is along the little 20mm of the size of cavity 12 of wallboard thickness direction crust size ratio, adopts the reinforcing bar to buckle the welding preparation, or adopts many reinforcing bars to become through resistance spot welding shaping.

The number of the formed steel reinforcement cage vertical structural steel reinforcements 42 or the formed steel reinforcement cage vertical stress reinforcements 43 of the single horizontally-connected steel reinforcement shaping steel reinforcement cage 4 is not less than 2; the diameter of the vertical structural steel bar 42 of the formed steel bar cage is not less than 6mm, and the total area of the vertical stressed steel bar 43 of the formed steel bar cage meets the requirement of the current standard on the minimum reinforcement ratio of the vertical distributed steel bars of the shear wall.

The inner wall of the precast concrete wall plate 11 adopts a natural pouring surface formed in the production of the superposed shear wall and is not specially treated; or the groove 111 is arranged in the area, close to the mounting seam 3, of the inner wall of the precast concrete wall panel 11 along the height direction of the wall body, the groove 111 is formed by pressing through a special die after the corresponding precast concrete wall panel 11 is poured, or concrete at the corresponding position is planed through a special tool, the depth of the groove 111 is not less than 10mm, the width along the height direction of the wall body is not less than 100mm, the center distance is not more than 500mm, and the length extending into the precast wall is not less than 200 mm.

The front and rear layers of precast concrete wallboards 11 are connected by adopting a steel bar truss 13, or are connected by adopting a concrete longitudinal rib or a plane steel bar welding net, and the distance between the precast concrete longitudinal rib or the plane steel bar welding net and the installation seam 3 is not less than 450 mm.

The invention also provides a construction method of the close-splicing vertical joint structure of the superposed shear wall, which comprises the steps of firstly installing the prefabricated wall I1 and the prefabricated wall II 2, and adjusting the verticality and the levelness of the prefabricated wall I and the prefabricated wall II; the horizontal connecting reinforcement bar shaping reinforcement cage 4 is arranged in the cavity 12 from the top of the prefabricated wall downwards; installing a vertical joint shaping die 5 and laying other reinforcing steel bars; and post-pouring concrete in the pouring cavity 12 to connect the prefabricated wall I1 and the prefabricated wall II 2, and maintaining and removing the formwork.

Compared with the prior art, the invention has the beneficial effects that:

(1) according to the invention, the capability of the precast concrete wall plate for resisting the pressure of the post-cast concrete pouring side mold in the cavity is improved by virtue of the vertical joint mold and the precast wall steel bar truss, the distance between the outermost side steel bar truss of the precast wall and the side edge of the precast wall is enlarged to more than 450mm, enough space is formed in the cavity of the precast wall at the vertical joint position for installing the horizontal connecting steel bar, the vertical post-cast section does not need to be arranged for penetrating the horizontal steel bar, the work of in-situ formwork supporting and steel bar binding of the vertical joint is obviously reduced, and the in-situ construction.

(2) Adopt the on-spot ligature horizontal connection reinforcing bar of horizontal connection reinforcing bar design steel reinforcement cage replacement current structure, the whole one-time installation of horizontal connection reinforcing bar targets in place, and the efficiency of construction is high, and the reinforcing bar location is accurate.

(3) The vertical seam die is a shaping die, the universalization and standardization degrees are high, the die can be installed only by installing the split screw on site, and the manual work on site can be reduced.

(4) Through horizontal connection shaping steel reinforcement cage and vertical seam design mould, improve the industrialization level of site operation greatly, help site operation quality control.

Drawings

Fig. 1 is a three-dimensional schematic view of a typical structure of a close-spliced vertical joint of the present invention, in which the vertical reinforcement of the formed reinforcement cage is a structural reinforcement and the upper and lower layers are not connected.

Figure 2 is a schematic cross-sectional view of a-a of the close-fit vertical seam shown in figure 1.

Fig. 3 is a three-dimensional schematic view of the horizontal connecting reinforcement cage of fig. 1.

Fig. 4 is a schematic cross-sectional view of B-B in fig. 3.

Fig. 5 is a schematic view of the connection structure of the vertically distributed reinforcing bars of the prefabricated wall in the horizontal connecting reinforcing bar section in fig. 1.

Fig. 6 is a schematic view of the connection structure of the vertically distributed reinforcing bars of the prefabricated wall in the section without the horizontal connecting reinforcing bars in fig. 1.

Fig. 7 and 8 are modified forms of the horizontal coupling bars of fig. 1.

FIG. 9 is a schematic diagram of the erection of a close-fit vertical joint on-site construction formwork of the present invention.

FIG. 10 is a schematic view of the close-fit vertical seam sizing die of the present invention.

Fig. 11 shows a first modification of the present invention, in which the upper and lower formed reinforcement cages are connected in a lap joint with vertically stressed reinforcements.

Figure 12 is a cross-sectional schematic view of the close-fit vertical seam C-C shown in figure 11.

Fig. 13 is a three-dimensional schematic view of the horizontal connecting reinforcement cage of fig. 11.

Fig. 14 is a schematic cross-sectional view taken along line D-D of fig. 13.

Fig. 15 is a schematic view of the connection structure of the vertically stressed steel bars of the upper and lower layer formed steel reinforcement cages in fig. 1.

Fig. 16 shows a horizontal connecting reinforcement forming reinforcement cage modified form of the first modified form.

Fig. 17 is a modified form of the precast wall concrete wall panel of the present invention in which grooves are embossed in the inner wall thereof.

FIG. 18 is a prior art vertical joint configuration for a laminated shear wall, a comparative example of the present invention.

In the figure: 1-prefabricating a first wall; 2-prefabricating a second wall; 3, installing a seam; 4-horizontally connecting the reinforcing steel bars to form a reinforcing cage; 5-vertical seam shaping mould; 7-vertical post-pouring section; 11-prefabricating a concrete wall plate; 111-grooves; 12-a cavity; 13-steel bar trusses; 14-vertically distributing reinforcing steel bars in the prefabricated wall in the horizontal connecting reinforcing steel bar section; 141-single row of additional vertical connecting steel bars; 15-horizontally connecting the vertical constructional steel bars of the wall in the steel bar section; 16-vertically distributing reinforcing steel bars in the prefabricated wall in the section without the horizontal connecting reinforcing steel bars; 161-double rows of additional vertical connecting steel bars; 17-horizontally distributing reinforcing steel bars; 18-horizontally connecting the rebar sections; 19-no horizontal connecting reinforcement sections; 41-horizontally connecting steel bars; 42-forming vertical constructional steel bars of the steel bar cage; 43-forming vertical stressed steel bars of the steel bar cage; 431-vertical stressed steel bars of the lower-layer formed steel bar cage; 432-vertically stressed steel bars of the upper-layer formed steel bar cage; 51-vertical back arris; 52-transverse back ridges; 53-counter-pulling screw; 54-a nut; 61-horizontal seaming of the bottom of the prefabricated wall; 62-horizontal post-cast strip at the top of the prefabricated wall; 63-prefabricating a floor slab; 71-post-cast section vertical steel bars; 72-post-cast section stirrup.

Detailed Description

The embodiments of the present invention will be described in detail below with reference to the drawings and examples.

As shown in fig. 1 to 17, the close-splicing vertical joint structure of the superposed shear wall and the construction method are used for connecting adjacent superposed shear walls at the position of a non-edge component of the shear wall, the adjacent prefabricated wall I1 and the adjacent prefabricated wall II 2 have the same structure and respectively comprise a front layer of prefabricated concrete wall plate 11 and a rear layer of prefabricated concrete wall plate 11, a cavity 12 is formed between the two prefabricated concrete wall plates 11, the prefabricated wall I1 and the prefabricated wall II 2 are connected in the region of the non-edge component of the shear wall, and the contribution of a vertical joint mold and a prefabricated wall steel bar truss to the prefabricated concrete wall plate to resist the pressure of a post-cast concrete pouring side mold in the cavity is comprehensively considered.

At vertical seam both sides prefabricated wall 1, only set up the width between the prefabricated wall 2 and be the installation seam 3 of millimeter or centimetre level (this embodiment selects about 20 mm), all set up steel bar truss 13 and horizontal distribution reinforcing bar 17 in the cavity 12 of prefabricated wall 1 and prefabricated wall two 2, form inside big cavity (the distance of two steel bar trusses 13 that are closest in prefabricated wall 1 and the prefabricated wall two 2 apart from installation seam 3 is all not less than 450mm) between two steel bar trusses 13 nearest in prefabricated wall 1 and the prefabricated wall two 2, set up horizontal connection steel bar forming reinforcement cage 4 in this inside big cavity and realize the overlap joint of horizontal distribution reinforcing bar 17 in prefabricated wall 1 and the prefabricated wall two 2.

Specifically, the invention improves the capability of the cantilever section at the end part of the precast concrete wallboard 11 of the precast wall to bear the pressure of the post-cast concrete pouring side mold in the cavity 12 by means of the vertical joint shaping mold 5, thereby meeting the requirement of forming an internal large cavity between two closest steel bar trusses 13 in the precast wall I1 and the precast wall II 2.

In the invention, the vertical seam shaping mold 5 has enough rigidity to provide enough support for the cantilever section at the end part of the precast concrete wallboard 11, so as to restrain the deformation of the precast concrete wallboard 11 under the pressure of the side mold for casting the post-cast concrete in the cavity 12 and ensure that the precast concrete wallboard does not crack under the pressure of the side mold for casting the post-cast concrete in the cavity. Therefore, the construction checking calculation considering the influence of cavity post-cast concrete pouring is carried out, and a shaped and universal mould is formed so as to be recycled.

According to the invention, the vertical seam shaping mold 5 comprises two vertical back ridges 51, a plurality of transverse back ridges 52 are welded on each vertical back ridge 51, the transverse back ridges 52 on the two vertical back ridges 51 are relatively positioned on the same horizontal plane one by one, round holes are distributed on the two vertical back ridges 51 along the center line to install counter-pulling screws 53 which horizontally penetrate through the installation seams 3, and the counter-pulling screws are fixed by nuts 54, wherein the vertical back ridges 51 and the vertical back ridges 51 are preferably made of rectangular metal pipes and are flush with the surfaces of the sides, which are in contact with the prefabricated wall I1 and the prefabricated wall II 2, so as to ensure that the vertical back ridges are in tight contact with the outer surfaces of the prefabricated wall I1 and the prefabricated wall II 2; in the invention, the sectional dimensions of the vertical back edge 51 and the transverse back edge 52, the length of the transverse back edge 52, and the distance between the transverse back edge 52 and the counter-pulling screw 53 along the height direction of the wall body are determined according to the post-cast concrete construction checking calculation; after the prefabricated wall I1, the prefabricated wall II 2 and the horizontal connection reinforcing steel bar shaping reinforcing cage 4 are installed, the split screw rods 53 are arranged in the installation seams 3 in a penetrating mode, the vertical back ridges 51 are fixed through the nuts 54, the vertical seam shaping mold 5 is erected, and the split screw rods 53 are located in the wall body, and the plastic sleeves with slightly larger inner diameters can be sleeved outside the portions, located in the wall body, of the split screw rods to protect the portions, so that the mold can be disassembled and reused.

The principle lies in that after the prefabricated wall and the horizontal connection steel bar shaping steel bar cage 4 are installed, the vertical joint shaping die 5 is oppositely fixed on two sides of the installation seam 3 by penetrating the opposite-pulling screw rod 53 in the installation seam 3 and screwing the nut 54. Wherein vertical back arris 51 is fixed in the installation seam 3 both sides, forms the continuous supporting action along the direction of height to the prefabricated wall side when shutoff installation seam 3, and horizontal back arris 52 extends to both sides prefabricated wall in to strengthen the supporting action to the precast concrete wallboard 11 between steel bar truss 13 and the installation seam 3. Through carrying out special design to vertical seam design mould 5, carry out the check calculation to cavity 12 post-cast concrete pouring construction, improve vertical seam design mould 5 self rigidity greatly. The vertical seam shaping mold 5 and the steel bar truss 13 on the outermost side of the prefabricated wall jointly form a drawknot effect on the prefabricated concrete wallboard 11 between the vertical seam shaping mold 5 and the prefabricated wall, and the capability of resisting the pressure of the post-cast concrete pouring side mold in the cavity 12 of the prefabricated concrete wallboard 11 is improved.

Based on the improvement, the distance between the outermost steel bar truss 13 of the prefabricated wall and the side edge (namely the installation seam 3) of the prefabricated wall is increased from the existing distance not greater than 250mm to the distance not less than 450mm, and then a space with the total width not less than 900mm is formed in the cavity 12 of the prefabricated wall near the installation seam 3, so that the horizontal connecting steel bars 41 of the horizontal connecting steel bar molding steel bar cage 4 are distributed downwards from the top of the prefabricated wall, and the lap joint force transmission performance of the horizontal connecting steel bars 41 and the horizontal distribution steel bars 17 in the prefabricated wall can be ensured. The structure of the horizontally connected steel bar forming reinforcement cage 4 is convenient for being integrally and quickly installed in the closed cavity at the vertical joint position during field construction.

Round holes are formed along the center line of the vertical back ridge 51 to install the opposite-pulling screw rods 53, the vertical back ridge 51 is fixed at two sides of the installation seam 3 through the opposite-pulling screw rods 53 and the nuts 54, and the installation seam 3 is plugged while the prefabricated wall side edge is continuously supported along the height direction. The transverse back edge 52 extends inwards of the prefabricated walls on both sides to reinforce the supporting function of the prefabricated concrete wall panel 11.

In the invention, the horizontal connecting reinforcement forming reinforcement cage 4 is formed by welding the horizontal connecting reinforcement 41 and the forming reinforcement cage vertical structural reinforcement 42 or the forming reinforcement cage vertical stress reinforcement 43, and the stability and the precision of the reinforcement cage are higher, so that the horizontal connecting reinforcement forming reinforcement cage 4 is integrally and rapidly descended along the cavity 12 at the top of the vertical joint during on-site construction and is installed to a specified position, and meanwhile, the horizontal connecting reinforcement 41 is prevented from shifting during post-cast concrete pouring. After the horizontal connecting reinforcing steel bar shaping reinforcing steel bar cage 4 is installed in place, the horizontal connecting reinforcing steel bars 41 are in indirect lap joint with the horizontal distribution reinforcing steel bars 17 in the prefabricated walls on the two sides, and stress transfer of the horizontal distribution reinforcing steel bars in the prefabricated walls on the two sides of the vertical joint is achieved. In order to ensure the stability of the horizontal connecting reinforcement shaping reinforcement cage 4, the number of the vertical structural reinforcements 42 or the vertical stress reinforcements 43 of the shaped reinforcement cage of the single horizontal connecting reinforcement shaping reinforcement cage 4 is not less than 2, and the number can be also properly increased according to the process requirement.

In the invention, the horizontal connecting steel bars 41 are preferably ring-shaped steel bars, can be made by bending and welding the steel bars, and can also be formed by resistance spot welding a plurality of steel bars. The outer skin size of horizontal connecting reinforcement 41 along wallboard thickness direction should be 20mm less than cavity 12 size to horizontal connecting reinforcement design steel reinforcement cage 4 falls to the design position smoothly by prefabricated wall top in cavity 12. The strength grade, the diameter and the vertical interval of the horizontal connecting reinforcing steel bars 41 are the same as those of the horizontally distributed reinforcing steel bars 17 in the prefabricated wall, and the length extending into the cavity 12 of the prefabricated wall meets the requirement of lap joint force transmission of the reinforcing steel bars.

In the invention, when the vertical steel bars of the horizontally connected steel bar shaping steel bar cage 4 are only used as constructional steel bars and do not participate in structural stress, the diameter of the vertical constructional steel bars 42 of the shaping steel bar cage is not less than 6mm, and the horizontally connected steel bar shaping steel bar cages 4 in the upper-layer cavity 12 and the lower-layer cavity 12 are mutually independent and do not need to be lapped. At this time, the vertically distributed reinforcing steel bars 14 of the prefabricated wall in the horizontal connecting reinforcing steel bar section with the upper layer and the lower layer located in the horizontal connecting reinforcing steel bar section 18 should be in lap joint by adopting a single row of additional connecting reinforcing steel bars 141 so as to avoid the additional connecting reinforcing steel bars from interfering the installation of the horizontal connecting reinforcing steel bar shaping reinforcing cage 4. The single row of additional connecting steel bars 141 are arranged along the center line of the wall body at the floor position in the cavity 12 and are discontinuous up and down, the length meets the requirement of steel bar lapping force transmission, and the area is not less than the total area of the two vertical distributed steel bars 14 of the prefabricated wall in the lapping connection. The advantage of this kind of structure lies in that the horizontal connection reinforcing bar design steel reinforcement cage 4 mutual independence in the upper and lower layer cavity, the processing of being convenient for, but need lay single row additional connecting reinforcement 141 alone in cavity 12, and need take special measures to fix its position.

Furthermore, the vertical steel bars of the horizontal connecting steel bar shaping steel bar cage 4 can also be adopted as vertical stressed steel bars in the horizontal connecting steel bar section 18, at the moment, the prefabricated wall concrete wall panel 11 is only provided with the prefabricated wall vertical construction steel bars 15 in the horizontal connecting steel bar section 18, and the upper layer and the lower layer can not be connected. The vertical atress reinforcing bar 43 of upper and lower floor's shaping steel reinforcement cage should pass through the overlap joint, the vertical atress reinforcing bar 431 of lower floor's shaping steel reinforcement cage is buckled in casting strip 62 behind the prefabricated wall top level promptly, the skew, extend in prefabricated wall bottom cavity 12 of upper strata, and stagger certain distance overlap joint with the vertical atress reinforcing bar 43 of this layer of shaping steel reinforcement cage, overlap joint length should satisfy the reinforcing bar and pass power needs, the vertical atress reinforcing bar 43 of shaping steel reinforcement cage is buckled in casting strip 62 behind the prefabricated wall top level, stagger each other with the vertical atress reinforcing bar 43 of assurance overlap section shaping steel reinforcement cage. The total area of the vertical stressed steel bars 43 of the formed steel bar cage should meet the requirement of the current specification on the minimum reinforcement ratio of the vertical distributed steel bars of the shear wall.

In the invention, the inner wall of the precast concrete wall panel 11 can adopt a natural pouring surface formed in the production of the superposed shear wall without special treatment. Furthermore, a groove 111 can be arranged in the area, close to the mounting seam 3, of the inner wall of the precast concrete wall panel 11 along the height direction of the wall body, and after the post-cast concrete in the cavity 12 is poured, a shear key is formed between the precast concrete and the post-cast concrete at the position of the groove 111, so that the shear force transmission at the position of the vertical joint is enhanced.

Specifically, the groove 111 may be formed by pressing a special mold after the corresponding precast concrete wall panel 11 is poured and before the concrete is initially set, or may be formed by removing the concrete at a corresponding position by using a special tool, the depth of the groove 111 is not smaller than 10mm, the width in the height direction of the wall is not smaller than 100mm, the center distance is not larger than 500mm, and the length extending into the precast wall is not smaller than 200 mm.

In the invention, the precast wall concrete wallboards 11 at two sides can be connected by adopting the steel bar trusses 13, and also can be connected by using the concrete longitudinal ribs or the plane steel bar welding nets, and the distance between the precast wall concrete longitudinal ribs or the plane steel bar welding nets and the side edges of the precast wall is not less than 450 mm.

Fig. 1 to 10 show a first preferred embodiment of the present invention, and as shown in fig. 3 and 4, the horizontal connecting reinforcement shaped reinforcement cage 4 is formed by welding the horizontal connecting reinforcement 41 and the vertical structural reinforcement 42 of the shaped reinforcement cage. As shown in fig. 1 and 2, only the installation joints 3 with the width of about 20mm are arranged between the prefabricated walls 1 and 2 on two sides of the vertical joints, the distance between the steel bar trusses 13 on the outermost sides of the prefabricated walls 1 and 2 and the side edges of the prefabricated walls is not less than 450mm, and after the installation of the prefabricated walls 1 and 2 and the side edges of the prefabricated walls, a space with the total width of not less than 900mm is formed in the cavity 12 near the installation joints 3, so that no steel bar trusses can be ensured in the range of the horizontal connecting steel bars 41, and in the field construction, the horizontal connecting steel bar shaped steel bar cage 4 shown in fig. 3 and 4 falls to the designed position along the whole cavity 12 from the top of the vertical joints, so that the arrangement of the horizontal connecting steel bars 41 can be completed, and the lap joint between the horizontal connecting steel.

As shown in fig. 3 and 4, the horizontal connecting reinforcement shaped reinforcement cage 4 is formed by welding the horizontal connecting reinforcement 41 and the vertical structural reinforcement 42 of the shaped reinforcement cage. As shown in fig. 1, the horizontally connected reinforcement-bar-shaped reinforcement cages 4 in the upper and lower cavities 12 are independent of each other and do not need to be lapped. The length of the vertical constructional steel bar 42 of the formed steel bar cage does not exceed the height range of the prefabricated wall 1 and the prefabricated wall 2, the vertical constructional steel bar 42 is only used as constructional steel bars and does not participate in structural stress, the main function is to position the horizontal connecting steel bars 41 so that the horizontal connecting steel bars can be conveniently distributed on the site of the formed steel bar cage 4, and the diameter of the formed steel bar cage is not smaller than 6 mm. The horizontal connecting reinforcement shaping reinforcement cage 4 shown in fig. 3 and 4, 2 vertical constructional reinforcements 42 of the shaped reinforcement cage are welded on the inner sides of the two ends of the horizontal connecting reinforcement 41 to ensure the stability of the horizontal connecting reinforcement shaping reinforcement cage 4, and the number of the vertical constructional reinforcements can also be properly increased according to the process requirement shown in fig. 7.

The horizontal connecting steel bars 41 are ring-shaped steel bars, which can be manufactured by bending and welding steel bars as shown in fig. 3, 4 and 7, or formed by resistance spot welding by a plurality of steel bars as shown in fig. 8, and the outer skin size along the thickness direction of the wall panel is preferably 20mm smaller than the size of the cavity 12 of the prefabricated wall. The strength grade, diameter and vertical spacing of the horizontal connecting steel bars 41 are the same as those of the horizontal distributed steel bars 17 in the prefabricated wall, and the length of the horizontal connecting steel bars extending into the cavity 12 of the prefabricated wall as shown in fig. 2 meets the requirement of steel bar lap joint force transmission.

As shown in fig. 1, 2 and 5, in order to prevent other reinforcing bars in the cavity 12 within the range of the horizontal connecting reinforcing bars 41 from interfering with the installation of the horizontal connecting reinforcing bar shaping reinforcement cage 4, the vertical distribution reinforcing bars 14 of the prefabricated wall, which are located at the horizontal connecting reinforcing bar sections 18 at the upper and lower layers, should be lap-jointed by using a single row of additional connecting reinforcing bars 141. The single row of additional connecting steel bars 141 are arranged along the center line of the wall body at the floor position in the cavity 12 and are discontinuous up and down, the length meets the requirement of steel bar lapping force transmission, and the area is not less than the total area of the two vertical distributed steel bars 14 of the prefabricated wall in the lapping connection. The vertical distribution reinforcing steel bars at the end parts of the prefabricated walls on only one side of the first prefabricated wall 1 and the second prefabricated wall 2 are in lap joint by adopting a single row of additional connecting reinforcing steel bars 141, namely, the vertical construction reinforcing steel bars 15 at the end parts of the second prefabricated wall 2 only serve as construction reinforcing steel bars and do not participate in structural stress calculation.

As shown in fig. 1, 2 and 5, the vertical distribution reinforcing bars 16 of the prefabricated wall, which are located at the sections 19 without the horizontal connecting reinforcing bars at the upper and lower layers, can adopt the existing vertical distribution reinforcing bar connection structure of the laminated shear wall, that is, adopt the lap joint of two rows of additional connecting reinforcing bars 161. Referring also to fig. 5, a single row of additional connecting rebar lap joints is used.

In fig. 5 and 6, the height of the horizontal seam 61 at the bottom of the prefabricated wall is not lower than 50mm, and the prefabricated wall is connected with prefabricated floor slabs 63 at two sides through a horizontal post-cast strip 62 at the top of the prefabricated wall.

As shown in fig. 9 and 10, the vertical seam shaping mold 5 is composed of a vertical back ridge 51, a horizontal back ridge 52, a counter-pull screw 53 and a nut 54, and is fixed on two sides of the vertical seam by the counter-pull screw 53 penetrating through the installation seam 3. The vertical seam shaping mold 5 is specially designed, so that the rigidity of the vertical seam shaping mold is high, the vertical seam shaping mold and the outermost side steel bar truss 13 of the prefabricated wall jointly form a drawknot effect on the prefabricated concrete wallboard 11 between the vertical seam shaping mold and the outermost side steel bar truss 13 of the prefabricated wall after installation is completed, and the capability of resisting the pressure of a post-cast concrete pouring side mold in the cavity 12 of the prefabricated concrete wallboard 11 is improved.

Specifically, horizontal back of the body stupefied 52 and vertical back of the body stupefied 51 welded connection, the two adopt the rectangular metal pipe preparation and with prefabricated wall 1, prefabricated wall two 2 contact one side surface parallel and level to guarantee vertical back of the body stupefied 51, horizontal back of the body stupefied 52 and prefabricated wall 1, prefabricated wall two 2 in close contact with. The transverse back edge 52 extends inwards of the prefabricated walls on both sides to reinforce the supporting function of the prefabricated concrete wall panel 11. The sectional dimensions of the vertical back edge 51 and the transverse back edge 52, the length of the transverse back edge 52, and the distance between the transverse back edge 52 and the counter-pulling screw 53 in the height direction of the wall body are determined according to the checking calculation of post-cast concrete construction. The part of the pull screw 53 in the wall body can be covered by a plastic sleeve with a slightly larger inner diameter for protection, so as to be convenient for form removal and recycling.

The site operation process of the first preferred embodiment is as follows: mounting a first prefabricated wall 1 and a second prefabricated wall 2 on two sides of a vertical joint, and adjusting the verticality and the levelness of the first prefabricated wall and the second prefabricated wall; the horizontal connecting reinforcement bar shaping reinforcement cage 4 is placed into the cavity 12 from the top of the prefabricated wall downwards and falls to a designed position; installing a vertical joint shaping mold 5, and additionally connecting reinforcing steel bars 141 and other reinforcing steel bars in a single row in the cavity; and post-pouring concrete in the pouring cavity 12 to realize the connection of the prefabricated wall I1 and the prefabricated wall II 2 on two sides of the vertical joint, and maintaining and removing the formwork.

Fig. 11 to 15 show a first improvement of the present invention, in which on the basis of the first preferred embodiment, the vertical reinforcing bars of the horizontally connecting reinforcing bar shaping reinforcement cage 4 are also used as the vertical stressed reinforcing bars of the prefabricated wall in the horizontally connecting reinforcing bar section 18, and there is no need to arrange a special single row of additional connecting reinforcing bars 141 in the cavity 12. The vertical construction steel bars 15 of the prefabricated wall I1 and the prefabricated wall II 2 in the horizontal connection steel bar section 18 only serve as construction steel bars and do not participate in structural stress.

As shown in fig. 11 to 14, 1 vertical stress steel bar 43 of the formed steel bar cage is welded to the inner side of two long sides of the horizontal connecting steel bar 41 and the position close to the center, the vertical stress steel bar 431 of the formed steel bar cage at the lower layer is bent and deviated in the horizontal post-cast strip 62 at the top of the prefabricated wall, extends into the cavity 12 at the bottom of the prefabricated wall at the upper layer, and is connected with the vertical stress steel bar 43 of the formed steel bar cage at a certain staggered distance in a lap joint mode, and the lap joint length meets the requirement of steel bar force transmission. This layer of vertical atress reinforcing bar 43 of shaping steel reinforcement cage stretches out this layer of prefabricated wall and the vertical atress reinforcing bar 432 overlap joint of upper strata shaping steel reinforcement cage. The total area of the vertical stressed steel bars 43 of the formed steel bar cage should meet the requirement of the current specification on the minimum reinforcement ratio of the vertical distributed steel bars of the shear wall.

The site construction sequence of the first modification is substantially identical to that of the first preferred embodiment, but without laying a single row of additional connecting rebars 141.

In particular, as shown in fig. 16, the number of the first modified type of the formed reinforcement cage vertical stressed reinforcements 43 of the present invention can be increased as required, the formed reinforcement cage vertical stressed reinforcements 43 should be staggered on the two long sides of the horizontal connecting reinforcements 41, and the installation slit 3 is avoided to prevent interference with the through-going counter-pull screws 53.

The inner walls of the precast concrete wall panels 11 on both sides of the precast wall according to the first preferred embodiment and the first improved embodiment can adopt natural pouring surfaces formed during the production of the superposed shear wall without special treatment. Furthermore, according to fig. 17, a groove 111 may be provided in the area of the inner wall of the precast concrete wall panel 11 near the installation joint 3 along the height direction of the wall, and after the post-cast concrete in the cavity 12 is poured, a shear key is formed between the precast concrete and the post-cast concrete at the position of the groove 111, so as to enhance the shear force transmission at the position of the vertical joint.

Specifically, the groove 111 is formed by pressing a special mold after the corresponding precast concrete wall panel 11 is poured and before the concrete is initially set, or formed by removing the concrete at the corresponding position by using a special tool, the depth of the groove 111 is not smaller than 10mm, the width in the height direction of the wall body is not smaller than 100mm, the center distance is not larger than 500mm, and the length extending into the precast wall is not smaller than 200 mm.

Fig. 18 shows a conventional vertical joint structure of a laminated shear wall connected at a position of a non-edge member of the shear wall, namely a comparative example, a vertical post-cast section 7 with a width not less than 200mm is arranged between a first prefabricated wall 1 and a second prefabricated wall 2, and post-cast section vertical steel bars 71 and post-cast section stirrups 72 are required to be arranged in the vertical post-cast section 7. A comparison of the first preferred embodiment of the present invention with the comparative example shown in FIG. 18 is shown in Table 1

TABLE 1

In conclusion, the invention discloses a close-spliced vertical joint structure of a superposed shear wall and a construction method, wherein only an installation joint with the width of about 20mm is arranged between adjacent prefabricated walls, a specially designed vertical joint mould is adopted to improve the capability of a cantilever section at the end part of a prefabricated concrete wall plate of the prefabricated wall for resisting the mould pressure of a concrete pouring side mould, the distance between a steel bar truss and the side edge of the prefabricated wall is increased, an inner large cavity is formed at the position of the close-spliced vertical joint, and a horizontal connecting steel bar shaping steel bar cage is arranged in the cavity in a rear mode to realize the lap joint of horizontally distributed steel bars of the prefabricated walls at two sides of the vertical joint. The invention can realize the close splicing construction of the vertical joint of the superposed shear wall, the horizontal connecting steel bar of the vertical joint adopts the shaped steel bar cage which is produced in industrialization, the mould adopts a shaped universal mould, the site construction steel bar of the vertical joint is penetrated, the mould is erected and has high standardized operation degree, the site construction efficiency can be improved, the construction quality can be improved, and the construction cost can be reduced through standardization and generalization.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes and substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A close-spliced vertical joint structure of a superposed shear wall is characterized in that a first prefabricated wall (1) and a second prefabricated wall (2) which are adjacent have the same structure and respectively comprise a front layer prefabricated concrete wall plate and a rear layer prefabricated concrete wall plate (11), a cavity (12) is formed between the two prefabricated concrete wall plates (11), it is characterized in that the prefabricated wall I (1) and the prefabricated wall II (2) are connected in the non-edge component area of the shear wall, only a millimeter or centimeter-level installation seam (3) is arranged at the vertical joint position between the prefabricated wall I and the prefabricated wall II, the cavity (12) of the first prefabricated wall (1) and the cavity (12) of the second prefabricated wall (2) are internally provided with steel bar trusses (13) and horizontally distributed steel bars (17), an internal large cavity is formed between the two steel bar trusses (13) which are closest to each other in the first prefabricated wall (1) and the second prefabricated wall (2), a horizontal connecting steel bar forming steel bar cage (4) is arranged in the large inner cavity to realize lap joint of horizontally distributed steel bars (17) in the first prefabricated wall (1) and the second prefabricated wall (2).

2. The close-spliced vertical joint structure of the superposed shear wall according to claim 1, wherein the distance between two nearest steel bar trusses (13) in the first prefabricated wall (1) and the second prefabricated wall (2) and the installation joint (3) is not less than 450mm, and the width of the installation joint (3) is 10-30 mm.

3. The close-joint vertical joint structure of the superposed shear wall according to claim 1 or 2, characterized in that the capability of the cantilever section at the end part of the precast concrete wall panel (11) of the precast wall to bear the pressure of a post-cast concrete pouring side mold in the cavity (12) is improved by the vertical joint shaping mold (5), so that the requirement of forming an internal large cavity between two nearest steel bar trusses (13) in the precast wall I (1) and the precast wall II (2) is met.

4. The superposed shear wall close-splicing vertical seam construction according to claim 3, wherein the vertical seam shaping mold (5) comprises two vertical back ridges (51), each vertical back ridge (51) is welded with a plurality of transverse back ridges (52), the transverse back ridges (52) on the two vertical back ridges (51) are relatively positioned on the same horizontal plane one by one, round holes are distributed on the two vertical back ridges (51) along the center line to install counter-pulling screw rods (53) which horizontally penetrate through the installation seams (3) and are fixed by nuts (54), and the vertical back ridges (51) are flush with the contact side surfaces of the first prefabricated wall (1) and the second prefabricated wall (2) so as to ensure that the first prefabricated wall (1) and the second prefabricated wall (2) are in close contact; the cross-sectional dimensions of the vertical back edge (51) and the transverse back edge (52), the length of the transverse back edge (52), the distance between the transverse back edge (52) and the counter-pulling screw (53) along the height direction of the wall body are determined according to the checking calculation of post-cast concrete construction; after the prefabricated wall I (1), the prefabricated wall II (2) and the horizontal connection steel bar shaping steel bar cage (4) are installed, the split screw rods (53) are arranged in the installation seams (3) in a penetrating mode, the vertical back ridges (51) are fixed through nuts (54), and the vertical seam shaping mold (5) is erected.

5. The close-splicing vertical joint structure of the superposed shear wall according to claim 1, wherein the horizontal connecting reinforcement forming reinforcement cage (4) is formed by welding annular horizontal connecting reinforcements (41) and forming reinforcement cage vertical structural reinforcements (42), the vertical distribution reinforcements (14) of the prefabricated wall in the horizontal connecting reinforcement sections of the upper layer and the lower layer are in lap joint by adopting a single row of additional connecting reinforcements (141), the single row of additional connecting reinforcements (141) are arranged along the center line of the wall body and are discontinuous from top to bottom, the length meets the requirement of reinforcement lap joint force transmission, and the area is not less than the total area of the vertical distribution reinforcements (14) of the prefabricated wall in the two horizontal connecting reinforcement sections in lap joint;

or the horizontal connecting reinforcement shaping reinforcement cage (4) is formed by welding annular horizontal connecting reinforcements (41) and vertical stressed reinforcements (43) of the shaping reinforcement cage, the vertical constructional reinforcements (15) of the prefabricated wall in the sections of the upper and lower layers of horizontal connecting reinforcements are not connected, and the vertical stressed reinforcements (43) of the upper and lower layers of shaping reinforcement cage are in lap joint; the vertical stress reinforcing steel bar (431) of lower floor's shaping steel reinforcement cage stretch into this layer cavity (12) in with the vertical stress reinforcing steel bar (43) of this layer shaping steel reinforcement cage at wall body root overlap joint, overlap joint length satisfies the reinforcing bar and passes power the requirement, buckle in the horizontal post-cast strip (62) in prefabricated wall top shaping steel reinforcement cage vertical stress reinforcing steel bar (43) of shaping steel reinforcement cage to guarantee that overlap joint district section shaping steel reinforcement cage vertical stress reinforcing steel bar (43) stagger each other.

6. A close-spliced vertical joint structure of a superposed shear wall according to claim 5, wherein the diameter of the horizontal connecting steel bars (41) is the same as that of the horizontal distribution steel bars (17), the vertical distance between the horizontal connecting steel bars (41) and the vertical distance between the horizontal distribution steel bars (17) is the same, and the size of the outer skin of the horizontal connecting steel bars (41) along the thickness direction of the wall board is 20mm smaller than that of the cavity (12), and the joint structure is manufactured by bending and welding the steel bars or formed by resistance spot welding a plurality of steel bars.

7. The close-spliced vertical joint structure of the superposed shear wall according to claim 5, wherein the number of the formed reinforcement cage vertical construction reinforcements (42) or the formed reinforcement cage vertical stress reinforcements (43) of a single horizontal connecting reinforcement forming reinforcement cage (4) is not less than 2; the diameter of the vertical structural steel bar (42) of the formed steel bar cage is not less than 6mm, and the total area of the vertical stressed steel bar (43) of the formed steel bar cage meets the requirement of the current standard on the minimum reinforcement ratio of the vertical distributed steel bar of the shear wall.

8. The close-fitting vertical joint structure of the superposed shear wall according to claim 1, wherein the inner wall of the precast concrete wall panel (11) adopts a natural pouring surface formed during production of the superposed shear wall without special treatment; or a groove (111) is arranged in the area, close to the mounting seam (3), of the inner wall of the precast concrete wall panel (11) along the height direction of the wall body, the groove (111) is formed by pressing through a special die after the corresponding precast concrete wall panel (11) is poured, or concrete at the corresponding position is removed through a special tool, the depth of the groove (111) is not less than 10mm, the width along the height direction of the wall body is not less than 100mm, the center distance is not more than 500mm, and the length extending into the precast wall is not less than 200 mm.

9. The close-spliced vertical joint structure of the superposed shear wall according to claim 1, wherein the front and rear prefabricated concrete wall panels (11) are connected by adopting a steel bar truss (13) or a concrete longitudinal rib or a planar steel bar welding net, and the distance between the prefabricated wall concrete longitudinal rib or the planar steel bar welding net and the installation joint (3) is not less than 450 mm.

10. The construction method of the close-splicing vertical joint structure of the superposed shear wall as recited in claim 1, wherein the prefabricated wall I (1) and the prefabricated wall II (2) are firstly installed, and the verticality and the levelness of the prefabricated wall I and the prefabricated wall II are adjusted; the horizontal connecting reinforcement bar shaping reinforcement cage (4) is placed into the cavity (12) from the top of the prefabricated wall downwards; installing a vertical seam shaping mold (5) and laying other reinforcing steel bars; and post-pouring concrete in the pouring cavity (12) to realize connection of the first prefabricated wall (1) and the second prefabricated wall (2), maintenance and form removal.

Images