CN209874858U

CN209874858U - Building template assembly

Info

Publication number: CN209874858U
Application number: CN201920266692.2U
Authority: CN
Inventors: 骆运勇; 温月柔; 袁强勇; 廖昆鹏; 李国庆
Original assignee: Zhongshan Sino Swiss Building Decoration Engineering Co Ltd
Current assignee: Zhongshan Sino Swiss Building Decoration Engineering Co Ltd
Priority date: 2019-03-01
Filing date: 2019-03-01
Publication date: 2019-12-31
Anticipated expiration: 2029-03-01

Abstract

The utility model discloses a building templates subassembly, including front mould subassembly (1) and back mould subassembly (2), front mould subassembly (1) and back mould subassembly (2) between be equipped with and be used for connecting the two and can with the two aluminum alloy window frame (3) of detaching, front mould subassembly (1), back mould subassembly (2) and aluminum alloy window frame (3) enclose into die cavity (5) that are used for concreting concrete wall body (4), aluminum alloy window frame (3) including framework (31), framework (31) on be equipped with and stretch into in die cavity (5) and can bury underground in concrete wall body (4) and bury muscle (32) underground. The utility model discloses can improve the construction progress, reduce construction cost, can ensure moreover that aluminum alloy window frame waterproof performance is better, the installation roughness is high, and the installation size precision is high.

Description

Building template assembly

[ technical field ] A method for producing a semiconductor device

The utility model relates to a building templates subassembly.

[ background of the invention ]

At present, the aluminum alloy window frame can be installed on a concrete wall body in the building construction process, the aluminum alloy window frame is fixed on the concrete wall body through expansion screws in the traditional installation mode, holes need to be formed in the concrete wall body, bolts and other steps are buried, the process is multiple, the construction progress is low, the construction cost is high, the size precision of the aluminum alloy window frame installed in the mode is low, and the waterproof performance is poor.

Therefore, the present invention is based on the above disadvantages.

[ Utility model ] content

The utility model aims at overcoming prior art's is not enough, provides a simple structure, can realize the building templates subassembly of the quick installation of aluminum alloy window frame to improve the construction progress, reduce construction cost, can ensure moreover that aluminum alloy window frame waterproof performance is better, and the installation roughness is high, and the installation size precision is high.

The utility model discloses a realize through following technical scheme:

a building template assembly characterized by: including front mould subassembly 1 and back mould subassembly 2, front mould subassembly 1 and back mould subassembly 2 between be equipped with and be used for connecting the two and can with the two aluminum alloy window frame 3 of detaching, front mould subassembly 1, back mould subassembly 2 and aluminum alloy window frame 3 enclose into the die cavity 5 that is used for pouring concrete wall 4, aluminum alloy window frame 3 include framework 31, framework 31 on be equipped with and stretch into in the die cavity 5 and can bury underground the muscle 32 in concrete wall 4 underground.

A building formwork assembly as defined above, wherein: the front die assembly 1 comprises a first front die plate 11, a second front die plate 12 and a third front die plate 13 which are connected with each other, the rear die assembly 2 comprises a first rear die plate 21, a second rear die plate 22 and a third rear die plate 23, and the aluminum alloy window frame 3 is arranged between the second front die plate 12 and the second rear die plate 22 and between the third front die plate 13 and the third rear die plate 23.

A building formwork assembly as defined above, wherein: the inner side walls of the second front template 12 and the second rear template 22 are flush with the inner side wall of the frame body 31 between the second front template and the second rear template, and the inner side walls of the third front template 13 and the third rear template 23 are flush with the inner side wall of the frame body 31 between the third front template and the third rear template.

A building formwork assembly as defined above, wherein: the second front template 12, the second rear template 22, the third front template 13 and the third rear template 23 are provided with bayonet grooves 6, and the frame body 31 is provided with clamping strips 33 which can be clamped with the corresponding bayonet grooves 6.

A building formwork assembly as defined above, wherein: the clamping strips 33 are positioned at two sides of the frame body 31 and extend towards one side of the die cavity 5 in an inclined mode, and the bayonet grooves 6 are inclined grooves and are matched with the clamping strips 33.

A building formwork assembly as defined above, wherein: the embedded rib 32 includes a linear rib 321 extending linearly into the cavity 5 and a bent rib 322 bent with respect to the linear rib 321.

A building formwork assembly as defined above, wherein: and a connecting bolt 7 for connecting the first front template 11 and the first rear template 21 is arranged between the two templates in a penetrating way.

The method for installing the aluminum alloy window frame is characterized by comprising the following steps of: the method comprises the following steps:

a: preparing a front mold assembly 1 and a rear mold assembly 2;

b: the front mould component 1 and the rear mould component 2 are connected through the aluminum alloy window frame 3, the front mould component 1 and the rear mould component 2 enclose a mould cavity 5 for pouring a concrete wall 4 together, the aluminum alloy window frame 3 comprises a frame body 31, and an embedded rib 32 which extends into the mould cavity 5 and can be embedded in the concrete wall 4 is arranged on the frame body 31;

c: pouring concrete in the die cavity 5 and curing to form a concrete wall 4;

d: the front module 1 and the rear module 2 are detached from the aluminum alloy window frame 3, and the aluminum alloy window frame 3 is fixed on the concrete wall 4 through the embedded ribs 32 embedded in the concrete wall 4.

The method for installing the aluminum alloy window frame is characterized in that: preceding mould subassembly 1 include interconnect's first preceding template 11, second preceding template 12 and third preceding template 13, back mould subassembly 2 include template 21, second back template 22 and third back template 23 after first, second preceding template 12 and second back template 22 and third preceding template 13 and third back template 23 between all be equipped with aluminum alloy window frame 3, second preceding template 12, second back template 22, third preceding template 13 and third back template 23 on all be equipped with bayonet socket 6, framework 31 on be equipped with the card strip 33 that can with corresponding bayonet socket 6 block.

The method for installing the aluminum alloy window frame is characterized in that: the step D is followed by the following steps:

step E: and filling the structural adhesive 8 between the concrete wall 4 and the clamping strip 33, and arranging the decoration coating 9 on the concrete wall 4.

Compared with the prior art, the utility model discloses there is following advantage:

1. the utility model discloses be equipped with between the front mould subassembly of building templates subassembly and the back mould subassembly and be used for connecting the two and can with the two aluminum alloy window frame that separates, front mould subassembly, back mould subassembly and aluminum alloy window frame enclose into the die cavity that is used for concreting the concrete wall body, and the aluminum alloy window frame includes the framework, is equipped with in the framework to stretch into the die cavity and can bury underground the muscle underground in the concrete wall body. Therefore, the aluminum alloy window frame becomes a part of the building template assembly, in the pouring process of the concrete wall body, the embedded ribs on the aluminum alloy window frame are poured into the concrete wall body, so that the aluminum alloy window frame and the concrete wall body are integrated in one-step forming process, the defects of low construction progress and high construction cost caused by installation of expansion bolts of the aluminum alloy window frame are avoided, the aluminum alloy window frame is connected with the concrete wall body more tightly, the waterproof performance is better, the installation flatness is higher, the installation size precision is high, and the building quality is improved.

2. The utility model discloses the adoption of building templates subassembly can improve the construction progress, reduces construction cost, improves building quality, is fit for popularizing and applying.

[ description of the drawings ]

FIG. 1 is a schematic view of a building template assembly of the present invention;

FIG. 2 is a schematic view of the present invention building form assembly during the pouring of a concrete wall;

FIG. 3 is a schematic view of an aluminum alloy window frame mounted on a concrete wall;

FIG. 4 is an enlarged view at A in FIG. 2;

fig. 5 is an enlarged view at B in fig. 3.

[ detailed description ] embodiments

The invention will be further described with reference to the accompanying drawings:

as shown in fig. 1 to 5, a building formwork assembly comprises a front formwork assembly 1 and a rear formwork assembly 2, an aluminum alloy window frame 3 which is used for connecting the front formwork assembly 1 and the rear formwork assembly 2 and can be detached from the front formwork assembly 1 and the rear formwork assembly 2 is arranged between the front formwork assembly 1 and the rear formwork assembly 2, the front formwork assembly 1, the rear formwork assembly 2 and the aluminum alloy window frame 3 enclose a mold cavity 5 for pouring a concrete wall 4, the aluminum alloy window frame 3 comprises a frame body 31, and embedded ribs 32 which extend into the mold cavity 5 and can be embedded in the concrete wall 4 are arranged on the frame body 31. Aluminum alloy window frame 3 becomes a part of building templates subassembly, at concrete wall 4's the in-process of pouring, bury underground muscle 32 on aluminum alloy window frame 3 and just be pour concrete wall 4 in, thereby make aluminum alloy window frame 3 and concrete wall 4 combine together at one shot forming in-process, avoided aluminum alloy window frame 3 to pass through the low and high defect of construction cost of construction progress that the expansion bolts installation caused, and make aluminum alloy window frame 3 and concrete wall 4 be connected inseparabler, waterproof performance is better, the installation roughness is higher, installation size precision is high, improve the building quality.

As shown in fig. 1 and 2, the front mold assembly 1 includes a first front mold plate 11, a second front mold plate 12, and a third front mold plate 13 connected to each other, the rear mold assembly 2 includes a first rear mold plate 21, a second rear mold plate 22, and a third rear mold plate 23, and the aluminum alloy window frame 3 is disposed between the second front mold plate 12 and the second rear mold plate 22 and between the third front mold plate 13 and the third rear mold plate 23. The first front template 11, the second front template 12, the third front template 13, the first rear template 21, the second rear template 22 and the third rear template 23 can all adopt aluminum alloy templates.

As shown in fig. 1 and 2, the inner side walls of the second front mold plate 12 and the second rear mold plate 22 are flush with the inner side wall of the frame 31 therebetween, and the inner side walls of the third front mold plate 13 and the third rear mold plate 23 are flush with the inner side wall of the frame 31 therebetween.

As shown in fig. 4 and 5, the second front mold plate 12, the second rear mold plate 22, the third front mold plate 13, and the third rear mold plate 23 are provided with bayonet grooves 6, and the frame 31 is provided with snap bars 33 that can be engaged with the corresponding bayonet grooves 6. Realize being connected of aluminum alloy window frame 3 and preceding mould subassembly 1 and back mould subassembly 2 through the block of card strip 33 and bayonet groove 6, firm in connection also very convenient and fast when dismantling preceding mould subassembly 1 and back mould subassembly 2 moreover.

As shown in fig. 4 and 5, the clamping strip 33 is located on both sides of the frame 31 and extends obliquely toward the mold cavity 5, and the bayonet slot 6 is an inclined slot and matches with the clamping strip 33. Therefore, the inclined bayonet grooves 6 are matched with the inclined clamping strips 33, so that the aluminum alloy window frame 3 is firmly and tightly connected with the front mold assembly 1 and the rear mold assembly 2 in the pouring process, the phenomenon that the aluminum alloy window frame is separated from the concrete wall 4 in the thickness direction to form a gap is avoided, and the quality of the building wall is ensured.

As shown in fig. 4 and 5, the embedded rib 32 includes a straight rib 321 extending straight into the cavity 5 and a bent rib 322 bent with respect to the straight rib 321. The aluminum alloy window frame 3 and the concrete wall 4 can be connected more firmly by the aid of the bent ribs 322.

As shown in fig. 1 and 2, a connecting bolt 7 for connecting the first front formwork 11 and the first rear formwork 21 is inserted between them. The connecting bolts 7 firmly connect the front mould assembly 1 and the rear mould assembly 2, so that the size of the mould cavity 5 is kept stable in the pouring process of the concrete wall 4, and the building quality is ensured.

An aluminum alloy window frame installation method comprises the following steps:

a: preparing a front mold assembly 1 and a rear mold assembly 2;

b: the front mould component 1 and the rear mould component 2 are connected through the aluminum alloy window frame 3, the front mould component 1 and the rear mould component 2 together enclose a mould cavity 5 for pouring a concrete wall 4, the aluminum alloy window frame 3 comprises a frame body 31, an embedding rib 32 which extends into the mould cavity 5 and can be embedded in the concrete wall 4 is arranged on the frame body 31, the front mould component 1 comprises a first front mould plate 11, a second front mould plate 12 and a third front mould plate 13 which are connected with each other, the rear mould component 2 comprises a first rear mould plate 21, a second rear mould plate 22 and a third rear mould plate 23, the window frame 3 is arranged between the second front mould plate 12 and the second rear mould plate 22 and between the third front mould plate 13 and the third rear mould plate 23, and the second front mould plate 12, the second rear mould plate 22, the third front mould plate 13 and the third rear mould plate 23 are all provided with bayonet grooves 6, the frame body 31 is provided with a clamping strip 33 which can be clamped with the corresponding bayonet groove 6;

c: pouring concrete in the die cavity 5 and curing to form a concrete wall 4;

E: and filling the structural adhesive 8 between the concrete wall 4 and the clamping strip 33, and arranging the decoration coating 9 on the concrete wall 4. There is the space between card strip 33 and concrete wall 4, and it is more difficult to scribble the decorative layer in this space, consequently can conveniently fill the space between card strip 33 and concrete wall 4 fast through structural adhesive 8, avoids appearing hollow structure, and decoration coating 9 then plays the effect that the decoration is pleasing to the eye.

Claims

1. A building template assembly characterized by: including preceding mould subassembly (1) and back mould subassembly (2), preceding mould subassembly (1) and back mould subassembly (2) between be equipped with and be used for connecting the two and can with aluminium alloy window frame (3) that the two was detached, preceding mould subassembly (1), back mould subassembly (2) and aluminium alloy window frame (3) enclose into die cavity (5) that are used for pouring concrete wall (4), aluminium alloy window frame (3) including framework (31), framework (31) on be equipped with and stretch into die cavity (5) and can bury underground muscle (32) in concrete wall (4) underground.

2. The building template assembly of claim 1, wherein: the front die assembly (1) comprises a first front die plate (11), a second front die plate (12) and a third front die plate (13) which are connected with each other, the rear die assembly (2) comprises a first rear die plate (21), a second rear die plate (22) and a third rear die plate (23), and the aluminum alloy window frame (3) is arranged between the second front die plate (12) and the second rear die plate (22) and between the third front die plate (13) and the third rear die plate (23).

3. The building template assembly of claim 2, wherein: the inside wall of second front formwork (12) and second back formwork (22) and the inside wall of framework (31) between the two are parallel and level, the inside wall of third front formwork (13) and third back formwork (23) and the inside wall of framework (31) between the two are parallel and level.

4. The building template assembly according to claim 2 or 3, wherein: the improved structure is characterized in that bayonet grooves (6) are formed in the second front template (12), the second rear template (22), the third front template (13) and the third rear template (23), and bayonet strips (33) capable of being clamped with the corresponding bayonet grooves (6) are arranged on the frame body (31).

5. The building template assembly of claim 4, wherein: the clamping strips (33) are positioned on two sides of the frame body (31) and extend towards one side of the die cavity (5) in an inclined mode, and the bayonet grooves (6) are inclined grooves and are matched with the clamping strips (33).

6. The building template assembly of claim 1, wherein: the embedded ribs (32) comprise straight ribs (321) extending to the inside of the die cavity (5) in a straight line and bending ribs (322) bending relative to the straight ribs (321).

7. The building template assembly of claim 2, wherein: and a connecting bolt (7) for connecting the first front template (11) and the first rear template (21) is arranged between the first front template and the first rear template in a penetrating manner.