CN220580536U - Reinforcing system for integrally connecting building template reinforcing members - Google Patents

Abstract

The utility model belongs to the field of aluminum alloy templates for buildings, and particularly relates to an integral connection reinforcing system for a reinforcement of a building template; the connecting and reinforcing system is added in the aluminum alloy template pull-tab system; the connecting and reinforcing system comprises one or more reinforcing structures, wherein a straight connecting plate is added at a plane square on-off opening, an L-shaped connecting plate is added at a yin and yang corner square on-off opening, a Z-shaped connecting plate is added at a door and window stack and a Z-shaped wall square on-off opening, the straight connecting plate is added between square passages of an inner template and an outer template at the end of a wall, pin holes penetrating through the square passages at two sides of the fracture along the length direction of the square passages are formed, and the square passages at two sides of the fracture are connected into a whole through the connecting plates and bolts; the square tube is effectively connected with the square tube into a whole by adopting the connecting piece, so that the problem of weak reinforcement at the square tube opening is solved, the construction quality is effectively improved, meanwhile, the specification types of the square tube are reduced, the recycling of materials is facilitated, and the comprehensive cost is reduced.

Description

Reinforcing system for integrally connecting building template reinforcing members

Technical Field

The utility model belongs to the field of aluminum alloy templates for buildings, and particularly relates to an integral connection reinforcing system for a reinforcing member of a building template.

Background

The aluminum alloy template belongs to a novel building material, and has the characteristics of excellent mechanical property, simple construction and installation, no generation of building rubbish, high turnover rate, environmental protection, high recycling value, suitability for complex construction environments and the like by virtue of the characteristics of products, and becomes a main development direction of the use of domestic building engineering materials. By the end of 2021, the national aluminum alloy template market has been kept at about 7950 square meters, which will continue to grow at a high rate for the next 3 to 5 years.

Along with the general application of aluminum alloy templates, clients' requirements on construction quality are continuously improved, and the flatness of a concrete surface can be effectively improved due to the square through reinforcement of a pull-tab system, so that the flatness is improved by means of construction teaching, but the aluminum alloy templates are limited to the length of materials, transportation and building structures, the square through has fracture, and cannot form integral connection, so that the weak part is reinforced at the fracture, and the forming quality of the fracture often restricts the further improvement of the construction quality.

In the design of the pulling-on piece project, the square tube adopts an inner scheme and an outer scheme, as shown in figure 1, the fracture of the conventional square tube design is not subjected to any treatment, such as a plane straight square tube fracture, a Yang Jiaofang fracture, an internal corner square on-off port and the like. Therefore, the square tubes are not connected, the difficulty in adjustment is high, the adjustment and management are easy to influence, and the construction quality is unstable; secondly, when concrete is poured, the reinforcement at the square fracture is weak, and the square fracture is often the main position with the out-of-tolerance flatness value, and the prescription accuracy of the yin and yang angles is poor. In order to solve the problem, a novel back edge and a connecting piece thereof are developed, and the problem that the square tube is not integrated in the solution, so that the molding quality is reduced is solved.

Disclosure of Invention

The utility model aims to solve the problem that the forming quality of a concrete structure is reduced due to the fact that a fracture exists between square openings of an aluminum alloy template pull tab system and the reinforcement of the square openings is weak.

The utility model provides the following technical scheme: the integral connection reinforcing system for the building template reinforcement is added in an aluminum alloy template pull-tab system; the connection reinforcing system comprises one or more reinforcing structures, wherein a straight connecting plate is added at a plane square on-off opening, an L-shaped connecting plate is added at a yin-yang corner square on-off opening, a Z-shaped connecting plate is added at a door and window buttress and a Z-shaped wall square on-off opening, the straight connecting plate is added between square conductors of an inner and an outer templates of a wall end, penetrating pin holes are formed in the square conductors on two sides of a fracture along the length direction of the square conductors, and the square conductors on two sides of the fracture are integrally connected through the connecting plates and bolts.

Further, at the on-off opening of the plane square, the two square through holes are clamped and connected by the straight connecting plates on the top surface and the bottom surface, the bolts penetrate through the square through holes and the straight connecting plates on the top surface and the bottom surface to fasten the three parts together, and each straight connecting plate is connected with at least two bolts on one side of the square through hole.

Further, at the opening and closing positions of the male and female corners, an L-shaped connecting plate is arranged on the top surface and the bottom surface of the square through, two sides of the L-shaped connecting plate are respectively connected with the square through on two sides, bolts penetrate through the square through and the L-shaped connecting plates on the top surface and the bottom surface to fasten the three parts together, and at least two bolts are connected with each L-shaped connecting plate and the square through on one side.

Further, at the on-off opening of the square of the Z-shaped wall, a Z-shaped connecting plate is arranged on the top surface and the bottom surface of the square, two transverse edges of the Z-shaped connecting plate are respectively connected with Fang Tonglian of the front template and the rear template, and the length of the vertical edge of the Z-shaped connecting plate is equal to the distance between the front template and the rear template; the bolts penetrate through the square through and the Z-shaped connecting plates on the top and bottom surfaces to fasten the three parts together, and each Z-shaped connecting plate is connected with at least two bolts on one side.

Further, at the opening and closing position of the door and window buttress, a set of connecting plate sets are respectively arranged at the left and right sides to connect the square through of the outer convex template with the square through of the wall template, and each set of connecting plate set consists of two Z-shaped connecting plates and matched bolts; the two transverse edges of the Z-shaped connecting plate are respectively connected with the square through of the outer convex template and the square through of the wall surface template, and the length of the vertical edge of the Z-shaped connecting plate is equal to the distance between the outer convex template and the wall surface template; the bolts penetrate through the square through and the Z-shaped connecting plates on the top and bottom surfaces to fasten the three parts together, and each Z-shaped connecting plate is connected with at least two bolts on one side.

Further, the square through of the inner and outer templates of the wall end is tied by the straight connecting plates of the top surface and the bottom surface of the square through, and the bolts penetrate through the square through and the straight connecting plates of the top surface and the bottom surface to fasten the square through, the top surface and the bottom surface of the wall end together.

Further, the straight connecting plate, the Z-shaped connecting plate and the L-shaped connecting plate are all steel plates.

Compared with the prior art, the utility model has the advantages that:

the square tube is effectively connected with the square tube into a whole by adopting the connecting piece, so that the problem of weak reinforcement at the square tube opening is solved, the construction quality is effectively improved, meanwhile, the specification types of the square tube are reduced, the recycling of materials is facilitated, and the comprehensive cost is reduced.

The plane square on-off ports are connected into a whole through the straight steel plates, the whole wall reinforcement forms a whole plane, the whole stress is beneficial to adjustment and calibration standard when the diagonal bracing is adjusted, the operation difficulty of workers is reduced, reinforced weak parts are avoided when pouring is carried out, and the molded verticality of the wall surface is improved;

the L-shaped steel plates and the Z-shaped steel plates enable the formulas of the yin and yang angles, the door and window stacks and the Z-shaped wall to be connected into a whole, meet the requirement of project that the yin and yang angles are not broken, solve the problem that the reinforcement is trivial, be favorable for improving the square degree of building forming and improve the construction quality level; meanwhile, the material specification and the welding workload are reduced, the universality of the reinforcing material is improved, and the recycling is facilitated.

The steel plate is adopted at the end of the wall and in the narrow space for auxiliary reinforcement, so that the use of short and small square tubes is reduced, the problem of complicated installation is solved while the use of materials is reduced, and the requirements of special position adding inherent efficiency and convenient assembly and disassembly are facilitated.

Drawings

FIG. 1 is a schematic diagram of a fracture of a conventional square-through design;

FIG. 2 is a schematic diagram of a square through connection;

FIG. 3 is a schematic diagram of a square Z-connection;

FIG. 4 is a schematic diagram of a square L connection;

FIG. 5 is a schematic diagram of a square-through Chinese character 'ji' connection;

FIG. 6 is a schematic view of a square wall end connection;

FIG. 7 is a schematic view of a connection plate at a square on-off port;

in the figure: 1-a plane square on-off port; 2-the on-off opening of the male and female corner square; 3-a straight connecting plate; a 4-L-shaped connecting plate; a 5-Z-shaped connecting plate; 6-square communication; 6.1-pin holes; 7-concrete wall.

Detailed Description

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

As shown in fig. 2 to 7: the integral connection reinforcing system for the building template reinforcement is added in an aluminum alloy template pull-tab system; the connecting and reinforcing system comprises one or more reinforcing structures, wherein a straight connecting plate 3 is added at a plane square on-off opening, an L-shaped connecting plate 4 is added at a yin-yang corner square on-off opening, a Z-shaped connecting plate 5 is added at a door and window stack and a Z-shaped wall square on-off opening, the straight connecting plate 3 is added between square tubes 6 of an inner and outer template at the end of a wall, pin holes 6.1 penetrating through the square tubes 6 at two sides of a fracture are formed in the square tubes 6 along the length direction of the square tubes, and the square tubes 6 at two sides of the fracture are integrally connected through the connecting plate and the bolts.

The straight connecting plate 3, the Z-shaped connecting plate 5 and the L-shaped connecting plate 4 are all steel plates.

The novel square tube 6 is adopted, and pin holes 6.1 are processed on the square tube 6 at equal intervals along the length so as to facilitate the connection and reinforcement of connecting plates with various specifications; the straight connecting plate 3, the L-shaped connecting plate 4 and the Z-shaped connecting plate 5 are adopted to be matched with pin holes, and all the directions are connected into a whole through pins and bolts. By analyzing various fracture types of the building structure, an effective connection mode of the system is established for the two types of reinforcements, and a set of integral connection system scheme of the reinforcement of the pull sheet body system project is formed.

As shown in fig. 2: at the on-off opening of the plane square, two square through pipes 6 are clamped and connected by the straight connecting plates 3 on the top surface and the bottom surface, bolts penetrate through the square through pipes 6 and the straight connecting plates 3 on the top surface and the bottom surface to fasten the three together, and each straight connecting plate 3 is connected with at least two bolts on one side of the square through pipe; so that the combined straight square through length meets all lengths of the building structure, and the wall plane square through integral connection is formed.

As shown in fig. 4: the upper surface and the bottom surface of the square connecting plate 6 are respectively provided with an L-shaped connecting plate 4, two sides of the L-shaped connecting plate 4 are respectively connected with the square connecting plates 6 on two sides, bolts penetrate through the square connecting plates 6 and the L-shaped connecting plates 4 on the top and bottom surfaces to fasten the three together, and each L-shaped connecting plate 4 is connected with at least two bolts on one side of the square connecting plate. The L-shaped back edges are combined, so that no fracture is caused in the prescription of the male and female corners, the welding workload of the female and male corners is reduced, the universality of materials is improved, the recycling is facilitated, and the transportation of the materials is facilitated.

As shown in fig. 3: the upper surface and the bottom surface of the square connecting plate 6 are respectively provided with a Z-shaped connecting plate 5 at the square opening and closing position of the Z-shaped wall, two transverse edges of the Z-shaped connecting plate 5 are respectively connected with the square connecting plate 6 of the front template and the rear template, and the length of the vertical edge of the Z-shaped connecting plate 5 is equal to the distance between the front template and the rear template; the bolts penetrate through the square through 6 and the Z-shaped connecting plates 5 on the top and bottom surfaces to fasten the three parts together, and each Z-shaped connecting plate 5 is connected with at least two bolts on one side. The Z-shaped square tube is combined to meet the requirement of a building Z-shaped wall structure, so that the welding processing workload of the square tube is reduced, the universality of materials is improved, and the recycling is facilitated.

As shown in fig. 5: the left and right sets of connecting plate groups are respectively used for connecting the square through 6 of the outer convex template and the square through 6 of the wall template at the opening and closing position of the door and window stack, and each set of connecting plate groups consists of two Z-shaped connecting plates 5 and matched bolts; the two transverse edges of the Z-shaped connecting plate 5 are respectively connected with a square through 6 of the outer convex template and a square through 6 of the wall surface template, and the length of the vertical edge of the Z-shaped connecting plate 5 is equal to the distance between the outer convex template and the wall surface template; the bolts penetrate through the square through 6 and the Z-shaped connecting plates 5 on the top and bottom surfaces to fasten the three parts together, and each Z-shaped connecting plate 5 is connected with at least two bolts on one side. The combination of the square tubes in the shape of a Chinese character 'ji' meets the requirement of a building door and window stack structure, reduces the welding processing workload of the square tubes, increases the universality of materials and is beneficial to recycling.

As shown in fig. 6: the square through 6 of the inner and outer templates at the end of the wall is tied by the straight connecting plates 3 at the top and bottom surfaces of the square through, and the bolts penetrate through the square through 6 and the straight connecting plates 3 at the top and bottom surfaces to fasten the square through, the top and the bottom surfaces of the wall together. The aluminum template component is pressed by the end straight connecting plate 3, so that the casting molding quality of the concrete wall is ensured, and the integral connection of the wall plane square is formed.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. A reinforcement system for integrally connecting building formwork reinforcement, comprising: the connecting and reinforcing system is added in the aluminum alloy template pull-tab system; the connection reinforcing system comprises one or more of the following reinforcing structures, wherein a straight connecting plate (3) is added at a plane square on-off opening, an L-shaped connecting plate (4) is added at a yin-yang corner square on-off opening, a Z-shaped connecting plate (5) is added at a door and window pile and a Z-shaped wall square on-off opening, the straight connecting plate (3) is added between square through (6) of an inner template and an outer template of a wall end, penetrating pin holes (6.1) are formed in the square through (6) on two sides of a fracture along the length direction of the square through (6), and the square through (6) on two sides of the fracture are integrally connected through the connecting plate and a bolt.

2. A reinforcing system for integrally connecting building form reinforcements as set forth in claim 1, wherein: two square through (6) are clamped and connected by the straight connecting plates (3) on the top surface and the bottom surface at the opening and closing position of the plane square, bolts penetrate through the square through (6) and the straight connecting plates (3) on the top surface and the bottom surface to fasten the three together, and each straight connecting plate (3) is connected with at least two bolts on one side square through.

3. A reinforcing system for integrally connecting building form reinforcements as set forth in claim 1, wherein: the female and male corner square on-off opening is formed in the top surface and the bottom surface of the square through (6), the L-shaped connecting plates (4) are arranged on the top surface and the bottom surface of the square through (6), two sides of each L-shaped connecting plate (4) are connected with the square through (6) on two sides respectively, bolts penetrate through the square through (6) and the L-shaped connecting plates (4) on the top surface and the bottom surface to fasten the three parts together, and each L-shaped connecting plate (4) is connected with at least two bolts on one side.

4. A reinforcing system for integrally connecting building form reinforcements as set forth in claim 1, wherein: the upper surface and the bottom surface of the square connecting plate (5) are respectively provided with a Z-shaped connecting plate (5) at the on-off opening of the Z-shaped wall, two transverse edges of the Z-shaped connecting plate (5) are respectively connected with the square connecting plate (6) of the front template and the rear template, and the length of the vertical edge of the Z-shaped connecting plate (5) is equal to the distance between the front template and the rear template; the bolts penetrate through the square through (6) and the Z-shaped connecting plates (5) on the top surface and the bottom surface to fasten the three parts together, and each Z-shaped connecting plate (5) is connected with at least two bolts on one side.

5. A system for integrally connecting and reinforcing a building form reinforcement as set forth in claim 4, wherein: the left and right sets of connecting plate groups are respectively connected with the square through (6) of the outer convex template and the square through (6) of the wall template at the opening and closing position of the door and window buttress, and each set of connecting plate groups consists of two Z-shaped connecting plates (5) and matched bolts; two transverse edges of the Z-shaped connecting plate (5) are respectively connected with a square through (6) of the outer convex template and a square through (6) of the wall surface template, and the length of a vertical edge of the Z-shaped connecting plate (5) is equal to the distance between the outer convex template and the wall surface template; the bolts penetrate through the square through (6) and the Z-shaped connecting plates (5) on the top surface and the bottom surface to fasten the three parts together, and each Z-shaped connecting plate (5) is connected with at least two bolts on one side.

6. A reinforcing system for integrally connecting building form reinforcements as set forth in claim 1, wherein: the square through (6) of the inner and outer templates at the end of the wall is tied by the straight connecting plates (3) at the top surface and the bottom surface of the square through, and bolts penetrate through the square through (6) and the straight connecting plates (3) at the top surface and the bottom surface to fasten the square through, the top surface and the bottom surface together.

7. A reinforcing system for integrally connecting building form reinforcements as set forth in claim 1, wherein: the straight connecting plates (3), the Z-shaped connecting plates (5) and the L-shaped connecting plates (4) are all steel plates.