CN219431366U - Aluminum alloy template groove pressing combined system for reinforced concrete outer wall window - Google Patents

Abstract

The utility model discloses an aluminum alloy template groove pressing combined system for a reinforced concrete outer wall window, which comprises a rectangular template frame arranged in the window and a supporting system arranged in the rectangular template frame, wherein the rectangular template frame comprises four aluminum alloy templates, groove pressing patches are arranged on one sides of the four aluminum alloy templates, which are close to a wall body, the supporting system comprises a movable reinforcing frame, two vertical telescopic rods and a transverse telescopic rod, the two vertical telescopic rods and the one transverse telescopic rod are supported in the movable reinforcing frame, and the movable reinforcing frame comprises four reentrant corner reinforcing members and four sliding rails used for connecting the four reentrant corner reinforcing members into a whole. The utility model has reasonable structural design and wide application range, ensures the molding size of the window opening, reduces the gap filling engineering quantity between the outer wall window wall and the window frame in the later construction process, improves the construction efficiency, and reduces the water seepage probability of the gap between the outer wall window wall and the window frame, thereby ensuring the construction quality of the later indoor decoration engineering, reducing the construction cost and being capable of being reused.

Description

Aluminum alloy template groove pressing combined system for reinforced concrete outer wall window

Technical Field

The utility model belongs to the technical field of building construction, and particularly relates to an aluminum alloy template groove pressing combined system for a reinforced concrete outer wall window.

Background

The joint of the reinforced concrete outer wall window wall and the window frame is that the window side wall is a reinforced concrete structure wall, and the window frame is a bridge-cut-off aluminum alloy material. Because the wall structure is reinforced concrete and the broken bridge aluminum alloy of the window frame material are two completely different materials, the treatment construction of the joint between the reinforced concrete outer wall window wall and the window frame is a construction difficulty of building decoration construction, and the crack, hollowing, water seepage and window opening size of the joint are important points for pre-controlling the quality of the building engineering. At present, the gap at the joint between the wall body at the outer window of the outer wall and the window frame is large, after filling treatment by adopting polyurethane foam rubber, the cement mortar is used for secondary closing-in, the filling is not compact easily, and the risk of water seepage exists in rainy seasons, so that the construction quality of later-stage indoor decoration engineering can be influenced. Meanwhile, when the outer wall window is constructed, an aluminum alloy template is required to be supported at the outer wall window by adopting a supporting system to form the window, but the existing supporting system is generally only suitable for windows with fixed sizes, and for buildings with different window sizes, multiple supporting systems are required to be processed, so that the construction cost is increased, and the construction efficiency is reduced. Therefore, it is necessary to provide an aluminum alloy template pressing groove combination system which is applicable to multiple window sizes and can reduce the water seepage probability of gaps between an outer wall window body and a window frame.

Disclosure of Invention

The utility model aims to solve the technical problems in the prior art, and provides an aluminum alloy template and pressing groove combined system for a reinforced concrete outer wall window, which has the advantages of reasonable structural design and wide application range, ensures the forming size of a window opening, reduces the gap filling engineering quantity between an outer wall window wall and a window frame in the later construction process, improves the construction efficiency, reduces the water seepage probability of the gap between the outer wall window wall and the window frame, ensures the construction quality of the later indoor decoration engineering, reduces the construction cost, and can be reused.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides an aluminum alloy template indent combination system for reinforced concrete outer wall window, includes the rectangle template frame that sets up at the window and sets up the braced system in the rectangle template frame, its characterized in that: the rectangular template frame comprises four aluminum alloy templates which are respectively arranged on four sides of a window, one sides of the four aluminum alloy templates, which are close to a wall body, are respectively provided with a pressing groove patch, the width of each pressing groove patch is smaller than that of the aluminum alloy template, and one side of each pressing groove patch is flush with the outer side of the aluminum alloy template;

the support system comprises a movable reinforcing frame which is tightly attached to the inner side of the rectangular template frame, two vertical telescopic rods and a transverse telescopic rod which are supported in the movable reinforcing frame, wherein the movable reinforcing frame comprises four internal corner reinforcements which are respectively supported at four internal corners of the rectangular template frame and four sliding rails which are used for connecting the four internal corner reinforcements into a whole, two ends of each sliding rail are respectively and slidably mounted on the two internal corner reinforcements, two sliding grooves are respectively formed in two ends of each sliding rail, an external thread sliding column which is matched with each sliding groove is respectively arranged on two sides of each internal corner reinforcement, and locking nuts are arranged on the external thread sliding columns.

Foretell an aluminum alloy template indent combination system for reinforced concrete outer wall window, its characterized in that: the pressing groove patch is connected with the aluminum alloy template through flat head screws.

Foretell an aluminum alloy template indent combination system for reinforced concrete outer wall window, its characterized in that: the internal corner reinforcement is a right-angle reinforcement formed by welding a horizontal channel steel and a vertical channel steel.

Foretell an aluminum alloy template indent combination system for reinforced concrete outer wall window, its characterized in that: the two ends of the sliding rail are respectively arranged in the grooves of two adjacent internal corner reinforcements in a sliding manner.

Foretell an aluminum alloy template indent combination system for reinforced concrete outer wall window, its characterized in that: the sliding rail is a steel plate, and the external thread sliding column is perpendicular to the sliding rail in sliding connection with the external thread sliding column.

Foretell an aluminum alloy template indent combination system for reinforced concrete outer wall window, its characterized in that: the sliding groove is formed in the length direction of the sliding rail.

Foretell an aluminum alloy template indent combination system for reinforced concrete outer wall window, its characterized in that: an inclined surface is arranged on the other side of the pressing groove patch.

Foretell an aluminum alloy template indent combination system for reinforced concrete outer wall window, its characterized in that: one vertical telescopic rod is supported between two internal corner reinforcements on the left side of the window, and the other vertical telescopic rod is supported between two internal corner reinforcements on the right side of the window.

Foretell an aluminum alloy template indent combination system for reinforced concrete outer wall window, its characterized in that: the transverse telescopic rod is supported between the sliding rail on the left side of the window and the sliding rail on the right side of the window.

Foretell an aluminum alloy template indent combination system for reinforced concrete outer wall window, its characterized in that: the two ends of the vertical telescopic rod are provided with transverse top plates, and the two ends of the transverse telescopic rod are provided with vertical top plates.

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

1. according to the utility model, the groove pressing patch is arranged on one side, close to the wall, of the aluminum alloy template, so that after the concrete pouring of the wall at the window is completed and the aluminum alloy template and the groove pressing patch are removed, a tongue-and-groove is formed at the position of the groove pressing patch, therefore, only one side of the window frame is provided with a gap after the window frame is installed, the filling quantity of polyurethane foaming glue and the construction secondary closing-up engineering quantity can be greatly reduced, and the quality hidden trouble of the gap water seepage between the wall and the window frame can be effectively prevented by the concrete tongue-and-groove.

2. According to the utility model, the four internal corner reinforcements are connected into a whole through the four slide rails, so that a movable reinforcing frame with a variable size is formed, the rectangular template frame can be reinforced and supported, and meanwhile, the influence adjustment can be carried out according to different window sizes, so that the application range is wide.

3. According to the utility model, the two vertical telescopic rods and one horizontal telescopic rod are supported in the movable reinforcing frame, so that the structural strength and stability of a supporting system can be improved, the construction quality of a wall window can be conveniently improved, the verticality and levelness of the window are ensured, and the gap between the wall and the window frame is further reduced.

In conclusion, the utility model has reasonable structural design and wide application range, ensures the molding size of the window opening, reduces the gap filling engineering quantity between the outer wall window wall and the window frame in the later construction process, improves the construction efficiency, and reduces the water seepage probability of the gap between the outer wall window wall and the window frame, thereby ensuring the construction quality of the later indoor decoration engineering, reducing the construction cost and being capable of being reused.

The technical scheme of the utility model is further described in detail through the drawings and the embodiments.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a section A-A of fig. 1.

Fig. 3 is a schematic diagram of a connection structure of the inside corner reinforcement and the slide rail according to the present utility model.

Fig. 4 is a top view of fig. 3.

Reference numerals illustrate:

1-a wall body; 2-an aluminum alloy template; 3-pressing the groove patch;

4-internal corner reinforcement; 5-a sliding rail; 5-1 of a chute;

6-an external thread sliding column; 7, locking a nut; 8-flat head screws;

9-a vertical telescopic rod; 10-a transverse telescopic rod; 11-a vertical top plate;

12-transverse roof.

Detailed Description

As shown in fig. 1 to 4, the utility model comprises a rectangular template frame arranged on a window and a supporting system arranged in the rectangular template frame, wherein the rectangular template frame comprises four aluminum alloy templates 2 respectively arranged on four sides of the window, one sides of the four aluminum alloy templates 2 close to a wall body 1 are respectively provided with a pressing groove patch 3, the width of the pressing groove patch 3 is smaller than that of the aluminum alloy templates 2, and one side of the pressing groove patch 3 is level with the outer side of the aluminum alloy templates 2;

the support system comprises a movable reinforcing frame which is arranged on the inner side of the rectangular template frame in a clinging mode, two vertical telescopic rods 9 and a transverse telescopic rod 10 which are supported in the movable reinforcing frame, wherein the movable reinforcing frame comprises four internal corner reinforcing members 4 which are respectively supported at four internal corners of the rectangular template frame and four sliding rails 5 which are used for connecting the four internal corner reinforcing members 4 into a whole, two ends of each sliding rail 5 are respectively and slidably arranged on the two internal corner reinforcing members 4, two sliding grooves 5-1 are respectively arranged at two ends of each sliding rail 5, an external thread sliding column 6 which is matched with each sliding groove 5-1 is respectively arranged at two sides of each internal corner reinforcing member 4, and locking nuts 7 are arranged on the external thread sliding columns 6.

When in actual use, the pressing groove patch 3 is arranged on one side, close to the wall body 1, of the aluminum alloy template 2, so that after the wall body concrete pouring at the window is completed and the aluminum alloy template 2 and the pressing groove patch 3 are removed, a tongue-and-groove is formed at the position of the pressing groove patch 3, therefore, a gap is formed on only one side after the window frame is installed, the filling quantity of polyurethane foaming glue and the construction secondary closing-up engineering quantity can be greatly reduced, and the quality hidden trouble of gap water seepage between the wall body and the window frame can be effectively prevented by the concrete tongue-and-groove.

It should be noted that, connect four reentrant corner reinforcement 4 as an organic wholes through four slide rails 5, and then form a changeable movable reinforcement frame of size, can consolidate the support to the rectangle template frame, can also be according to different window sizes and influence the regulation, application scope is extensive.

During concrete implementation, through supporting two vertical telescopic links 9 and a horizontal telescopic link 10 in the activity reinforcement frame, can improve the structural strength and the stability of supporting system, and then be convenient for improve the construction quality of wall body window department, guarantee the straightness that hangs down and the levelness of window, further reduce the gap between wall body and the window frame.

In specific implementation, the size of the aluminum alloy template 2 is prefabricated in a factory according to the design window size of the drawing, the size of the pressing groove patch 3 is prefabricated in a factory according to the optimized tongue-and-groove size, the length is equal to the length of the aluminum alloy template 2 connected with the pressing groove patch 3, and the thickness of the pressing groove patch 3 is 20-30 mm.

In this embodiment, as shown in fig. 2, the indent patch 3 is connected with the aluminum alloy template 2 through flat head screws 8.

During actual use, the indent paster 3 is connected with the aluminum alloy template 2 through a plurality of flat head screws 8, and a plurality of flat head screws 8 are distributed along the length direction equidistant of the indent paster 3, and the interval between two adjacent flat head screws 8 on the indent paster 3 is 500mm.

As shown in fig. 3 and 4, in this embodiment, the internal corner reinforcement 4 is a right-angle reinforcement formed by welding a horizontal channel steel and a vertical channel steel.

In actual use, the internal corner reinforcement 4 is formed by machining 14# to 16# channel steel.

As shown in fig. 3 and 4, in this embodiment, two ends of the sliding rail 5 are slidably disposed in the grooves of two adjacent female angle reinforcements 4, respectively.

During actual use, the groove of the internal angle reinforcement 4 can guide the sliding rail 5, so that the sliding stability of the internal angle reinforcement 4 and the sliding rail 5 can be further ensured, and the size adjustment of the movable reinforcing frame is facilitated.

In this embodiment, the sliding rail 5 is a steel plate, and the external thread sliding column 6 and the sliding rail 5 slidingly connected with the external thread sliding column are perpendicular to each other.

In actual use, the thickness of the sliding rail 5 is 1 mm-2 mm.

In this embodiment, the sliding groove 5-1 is formed along the length direction of the sliding rail 5.

In this embodiment, as shown in fig. 2, an inclined surface is provided on the other side of the slot patch 3.

During actual use, the inclined plane is arranged on the pressing groove patch 3, so that the width of one side, close to the aluminum alloy template 2, of the pressing groove patch 3 is larger than the width of one side, far away from the aluminum alloy template 2, of the pressing groove patch 3.

It should be noted that, when installing the window frame, the window frame is installed in the middle, and the maximum width of indent paster 3 is 120mm ~ 160mm, and the width of one side that is close to aluminum alloy template 2 on the indent paster 3 is half of wall thickness and window frame width sum, and the window frame is installed in the middle in this embodiment, and the width of one side that keeps away from aluminum alloy template 2 on the indent paster 3 is less than 10mm than the width of one side that is close to aluminum alloy template 2 on the indent paster 3.

In this embodiment, one of the vertical telescopic rods 9 is supported between two female corner reinforcements 4 on the left side of the window, and the other vertical telescopic rod 9 is supported between two female corner reinforcements 4 on the right side of the window.

When in actual use, the vertical telescopic rod 9 and the horizontal telescopic rod 10 are arranged in a staggered manner, and two ends of the vertical telescopic rod 9 are respectively supported in the grooves of the two internal corner reinforcing members 4.

It should be noted that, the structures of the vertical telescopic rod 9 and the horizontal telescopic rod 10 are the same, the vertical telescopic rod 9 and the horizontal telescopic rod 10 can adopt hydraulic rods, the vertical telescopic rod 9 and the horizontal telescopic rod 10 can also be formed by mutually sleeving two sections of rod sections, and the locking parts are adopted for locking and fixing, and a plurality of through holes for the locking parts to penetrate are formed in one rod.

In this embodiment, the lateral expansion link 10 is supported between the left side slide rail 5 of the window and the right side slide rail 5 of the window.

In actual use, the two ends of the transverse telescopic rod 10 are respectively supported at the middle parts of the two sliding rails 5.

In this embodiment, the two ends of the vertical telescopic rod 9 are all provided with a transverse top plate 12, and the two ends of the transverse telescopic rod 10 are all provided with a vertical top plate 11.

In actual use, the arrangement of the transverse top plate 12 and the vertical top plate 11 is convenient for ensuring the perpendicularity of the transverse telescopic rod 10 and the vertical aluminum alloy template, and the perpendicularity of the vertical top plate 11 and the transverse aluminum alloy template.

During the implementation, the internal corner reinforcement 4 and the slide rail 5 can be provided with positioning blocks, and the transverse top plate 12 and the vertical top plate 11 are provided with positioning holes matched with the positioning blocks, so that the quick installation of the transverse top plate 12 and the vertical top plate 11 is convenient.

When the aluminum alloy template is actually used, firstly, a pressing groove patch 3 is arranged on each aluminum alloy template 2 through flat head screws 8, then the aluminum alloy template 2 provided with the pressing groove patch 3 is supported at a window design position, after the size of a movable reinforcing frame is adjusted, the movable reinforcing frame is adopted to support the aluminum alloy template 2, concrete is poured, after the concrete pouring is completed and initial setting is carried out, the combined body of the aluminum alloy template 2 and the pressing groove patch 3 is removed, a concrete tongue-and-groove finished product is well protected, a window frame is installed, and after the window frame is installed, a gap between the window frame and a wall body is filled tightly by adopting a sealing material.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, and any simple modification, variation and equivalent structural changes made to the above embodiment according to the technical substance of the present utility model still fall within the scope of the technical solution of the present utility model.

Claims (10)

1. The utility model provides an aluminum alloy template indent combination system for reinforced concrete outer wall window, includes the rectangle template frame that sets up at the window and sets up the braced system in the rectangle template frame, its characterized in that: the rectangular template frame comprises four aluminum alloy templates (2) which are respectively arranged on four sides of a window, one sides, close to a wall body (1), of the four aluminum alloy templates (2) are provided with pressing groove patches (3), the width of each pressing groove patch (3) is smaller than that of each aluminum alloy template (2), and one side of each pressing groove patch (3) is flush with the outer side of each aluminum alloy template (2);

the support system comprises a movable reinforcing frame which is arranged on the inner side of the rectangular template frame in a clinging mode, two vertical telescopic rods (9) and a transverse telescopic rod (10) which are supported in the movable reinforcing frame, wherein the movable reinforcing frame comprises four internal corner reinforcements (4) which are respectively supported at four internal corners of the rectangular template frame and four sliding rails (5) which are used for connecting the four internal corner reinforcements (4) into a whole, two ends of each sliding rail (5) are respectively and slidably mounted on the two internal corner reinforcements (4), two ends of each sliding rail (5) are respectively provided with a sliding groove (5-1), two sides of each internal corner reinforcement (4) are respectively provided with an external thread sliding column (6) which is matched with the corresponding sliding groove (5-1), and locking nuts (7) are arranged on the external thread sliding columns (6).

2. An aluminum alloy template indent combination system for a reinforced concrete outer wall window as claimed in claim 1, wherein: the pressing groove patch (3) is connected with the aluminum alloy template (2) through flat head screws (8).

3. An aluminum alloy template indent combination system for a reinforced concrete outer wall window as claimed in claim 1, wherein: the internal corner reinforcement (4) is a right-angle reinforcement formed by welding a horizontal channel steel and a vertical channel steel.

4. An aluminum alloy template indent combination system for a reinforced concrete outer wall window according to claim 3, which is characterized in that: the two ends of the sliding rail (5) are respectively arranged in the grooves of two adjacent internal corner reinforcements (4) in a sliding way.

5. An aluminum alloy template indent combination system for a reinforced concrete outer wall window as claimed in claim 1, wherein: the sliding rail (5) is a steel plate, and the external thread sliding column (6) is perpendicular to the sliding rail (5) which is connected with the external thread sliding column in a sliding manner.

6. An aluminum alloy template indent combination system for a reinforced concrete outer wall window as claimed in claim 1, wherein: the sliding groove (5-1) is formed along the length direction of the sliding rail (5).

7. An aluminum alloy template indent combination system for a reinforced concrete outer wall window as claimed in claim 1, wherein: an inclined plane is arranged on the other side of the pressing groove patch (3).

8. An aluminum alloy template indent combination system for a reinforced concrete outer wall window as claimed in claim 1, wherein: one vertical telescopic rod (9) is supported between two internal corner reinforcements (4) on the left side of the window, and the other vertical telescopic rod (9) is supported between two internal corner reinforcements (4) on the right side of the window.

9. An aluminum alloy template indent combination system for a reinforced concrete outer wall window as claimed in claim 1, wherein: the transverse telescopic rod (10) is supported between the window left side sliding rail (5) and the window right side sliding rail (5).

10. An aluminum alloy template indent combination system for a reinforced concrete outer wall window as claimed in claim 1, wherein: both ends of the vertical telescopic rod (9) are provided with transverse top plates (12), and both ends of the transverse telescopic rod (10) are provided with vertical top plates (11).