CN217000873U - Bay window assembly - Google Patents

Abstract

The utility model discloses a bay window assembly which comprises an upper bay window prefabricated component and a lower bay window prefabricated component which are oppositely arranged on the same side of an upper bay window and a lower bay window to be poured respectively, wherein the upper bay window prefabricated component is connected with an upper beam side plate positioned on the other side of the upper bay window to be poured through a detachable upper wall-penetrating reinforcing component, and the lower bay window prefabricated component is connected with a lower beam side plate positioned on the other side of the lower bay window to be poured through a detachable lower wall-penetrating reinforcing component.

Description

Bay window assembly

Technical Field

The utility model relates to a building component, in particular to a bay window component.

Background

The Prefabricated Concrete Structure is a Concrete Structure formed by assembling and connecting Prefabricated members serving as main stressed members. The assembled reinforced concrete structure is one of the important directions for the development of building structures in China, is beneficial to the development of industrialization of buildings in China, improves the production efficiency, saves energy, develops green and environment-friendly buildings, and is beneficial to improving and ensuring the quality of building engineering.

The aluminum template is a new generation template system appearing after a wood template and a steel template. The aluminum template is designed according to modulus, is extruded and molded by special equipment, and can be freely combined according to different structural sizes. The design, research and development and construction application of the aluminum template are one great development of the building industry. The application of the aluminum template system in the building industry improves the construction efficiency of building construction engineering, and greatly saves a lot of construction materials and manual arrangement.

In the prior art, the aluminum die and the prefabricated part are usually installed only through a plurality of angle aluminum connections or welding, and the structural stability is insufficient.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the bay window assembly is convenient to disassemble and assemble and high in assembling efficiency.

The technical scheme adopted by the utility model for solving the technical problem is as follows:

the utility model provides a window subassembly that wafts, including respectively treat the window that wafts on waiting to pour and waft the window down with the window prefabricated component that wafts on with the relative setting of one side with under with the window prefabricated component that wafts, the window prefabricated component that wafts on is connected with the upper beam curb plate that is located the opposite side of the window that wafts on waiting to pour through wearing wall reinforcement assembly on the detachable, the window prefabricated component that wafts down is connected with the underbeam curb plate that is located the opposite side of the window that wafts down of waiting to pour through wearing wall reinforcement assembly under the detachable.

The upper wall-through reinforcing assembly comprises an upper embedded part which is supported between the upper beam side plate and the upper bay window prefabricated part, an upper back beam is arranged on one side of the upper beam side plate, and the upper beam side plate and the upper bay window prefabricated part are connected and installed through an upper screw and nut assembly which penetrates through the upper back beam, the upper beam side plate, the upper embedded part and the upper bay window prefabricated part.

The wall-penetrating reinforcing assembly comprises a lower embedded part which is supported on the top between the lower beam side plate and the lower bay window prefabricated part, a lower back ridge is arranged on one side of the lower beam side plate, and the lower beam side plate and the lower bay window prefabricated part are connected and installed through a lower screw and nut assembly which penetrates through the lower back ridge, the lower beam side plate, the lower embedded part and the lower bay window prefabricated part.

The lower end of the upward floating window prefabricated part is connected and installed with a bottom plate which extends to the lower end of an upward floating window to be poured and is used for supporting the upward floating window prefabricated part so as to prevent the upward floating window prefabricated part from falling through an upper connecting angle aluminum.

The upper end of the lower bay window prefabricated part is connected and installed with a cover plate which extends to the lower end of a lower bay window to be poured and is used for pressing the lower bay window prefabricated part to prevent the lower bay window prefabricated part from overturning through a lower connecting angle aluminum.

The friction lines are distributed on one surface, in contact with the upper bay window to be poured, of the upper bay window prefabricated component, and the friction lines are distributed on one surface, in contact with the lower bay window to be poured, of the lower bay window prefabricated component.

The upper end of the upper wall-penetrating reinforcing component is connected with a transverse top plate template positioned at the lower end of the top transverse part of the upper bay window to be poured through a corner template.

The utility model has the beneficial effects that: the upper bay window prefabricated component is connected with the upper beam side plate positioned on the other side of the upper bay window to be poured through the detachable upper wall-penetrating reinforcing component, the lower bay window prefabricated component is connected with the lower beam side plate positioned on the other side of the lower bay window to be poured through the detachable lower wall-penetrating reinforcing component, and the side plate aluminum mold and the prefabricated component are stable in structure, convenient to assemble and disassemble, high in assembling efficiency and good in construction effect.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of an upper embedment and a lower embedment of the utility model;

FIG. 3 is a schematic structural view of a bay window prefabricated component of the present invention;

fig. 4 is a schematic structural view of a bay window prefabricated part according to the present invention.

Detailed Description

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" or "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 4, a bay window assembly includes an upper bay window prefabricated part 3 and a lower bay window prefabricated part 4 which are oppositely arranged at the same side of an upper bay window 1 and a lower bay window 2 to be poured, respectively, the upper bay window prefabricated part 3 is connected with an upper beam side plate 6 positioned at the other side of the upper bay window 1 to be poured through a detachable upper wall-through reinforcing component 5, and the lower bay window prefabricated part 4 is connected with a lower beam side plate 8 positioned at the other side of the lower bay window 2 to be poured through a detachable lower wall-through reinforcing component 7.

This embodiment is connected with through wall reinforcement subassembly 5 on the prefabricated component 3 of the last window that wafts and is located the upper beam curb plate 6 of waiting to pour the opposite side of the last window that wafts 1 of waiting, through wear wall reinforcement subassembly 7 under the detachable on the prefabricated component 4 of the window that wafts under and be connected with the underbeam curb plate 8 that is located the opposite side of waiting to pour the window that wafts 2, and the structure is firm between curb plate aluminium mould and the prefabricated component, easy dismounting, the packaging efficiency is high, and the construction effect is good.

The upper wall-through reinforcing component 5 comprises an upper embedded part 501 supported between an upper beam side plate 6 and an upper bay window prefabricated component 3, an upper back ridge 502 is arranged on one side of the upper beam side plate 6, the upper beam side plate 6 and the upper bay window prefabricated component 3 are connected and installed through an upper screw nut component 503 which penetrates through the upper back ridge 502, the upper beam side plate 6, the upper embedded part 501 and the upper bay window prefabricated component 3, the upper embedded part 501 plays a role in positioning and is convenient to pass through the upper screw nut component 503, concrete is prevented from directly contacting the upper screw nut component 503, the upper screw nut component 503 plays a role in reinforcing, and the upper beam side plate 6 and the upper bay window prefabricated component 3 are prevented from shifting during concrete pouring.

The lower wall-through reinforcing component 7 comprises a lower embedded part 701 supported between the lower beam side plate 8 and the lower bay window prefabricated component 4, a lower back ridge 702 is arranged on one side of the lower beam side plate 8, the lower beam side plate 8 and the lower bay window prefabricated component 4 are connected and installed through a lower screw nut component 703 penetrating through the lower back ridge 702, the lower beam side plate 8, the lower embedded part 701 and the lower bay window prefabricated component 4, the lower embedded part 701 plays a role in positioning and is convenient for the lower screw nut component 703 to penetrate through, concrete is prevented from directly contacting with the lower screw nut component 703, and the lower screw nut component 703 plays a role in reinforcing and prevents the lower beam side plate 8 and the lower bay window prefabricated component 4 from shifting during concrete pouring.

Go up 3 lower extremes of window prefabricated component that wafts and connect through last connection angle aluminium 9 and install and extend to waiting to pour on the window 1 lower extreme that wafts be used for the shore go up window prefabricated component 3 that wafts in order to prevent go up the bottom plate 10 that wafts window prefabricated component 3 and drop, on waft window prefabricated component 3 seted up reserve sleeve in order to make things convenient for go up connection angle aluminium 9 installation, bottom plate 10 can prevent on waft window prefabricated component 3 takes place to drop, and the structure is more firm.

Under 4 upper ends of the prefabricated component of the bay window are connected through lower connecting angle aluminium 11 and are installed and extend to the window 2 upper end that wafts under waiting to pour and be used for compressing tightly the prefabricated component of the bay window 4 is in order to prevent under the apron 12 that the prefabricated component of the bay window 4 topples, the prefabricated component of the bay window 4 has been seted up and has been reserved the sleeve so that convenience under the installation of connecting angle aluminium 11, apron 12 can prevent under the prefabricated component of the bay window 4 produces and topples, the structure is more firm.

The upper bay window prefabricated part 3 is full of upper friction grains 301 on one side in contact with the upper bay window 1 to be poured, and the lower bay window prefabricated part 4 is full of lower friction grains 401 on one side in contact with the lower bay window 2 to be poured, so that the upper bay window prefabricated part is conveniently combined with concrete.

The upper end of the upper wall-penetrating reinforcing component 5 is connected with a transverse top plate template 15 positioned at the lower end of the top transverse part of the bay window 1 to be poured through a corner template 13, and the transverse top plate template is used for forming a transverse pouring space of the bay window.

The present example is implemented with the following steps:

a. firstly binding the steel bars of the lower beam side plate 8, installing the lower beam side plate 8, and then placing the lower embedded part 701;

b. installing a lower bay window prefabricated part 4, and then connecting and installing a cover plate 12 and a lower connecting angle aluminum 11 on the lower bay window prefabricated part 4;

c. a lower screw and nut assembly 703 penetrates through and is fixed to a lower back ridge 702, a lower beam side plate 8, a lower embedded part 701 and a lower bay window prefabricated part 4;

d. connecting the bottom plate 10 and the upper connecting angle aluminum 9, and supporting the bottom plate after the bottom plate is arranged at a designated position;

e. connecting and installing the upper beam side plate 6 and the corner template 13;

f. installing the prefabricated component 3 of the bay window and connecting the prefabricated component with the upper connecting angle aluminum 9;

g. an upper screw and nut assembly 503 penetrates through an upper back ridge 502, an upper beam side plate 6, an upper embedded part 501 and an upper bay window prefabricated part 3 and is fixed, and a top plate template 15 is installed;

h. and pouring concrete, vibrating to compact, curing the concrete until certain strength is achieved, and removing the templates.

The above embodiments do not limit the scope of the present invention, and those skilled in the art can make modifications and variations without departing from the overall spirit of the present invention.

Claims (7)

1. The utility model provides a window subassembly that wafts, its characterized in that is including respectively waiting to pour on waft window (1) and waft window (2) down on with the window prefabricated component (3) that wafts on the same side relative setting and waft window prefabricated component (4) down, on waft window prefabricated component (3) wear wall reinforcement subassembly (5) through the detachable on be connected with and lie in waiting to pour upper beam curb plate (6) of the opposite side of wafting window (1), under waft window prefabricated component (4) wear wall reinforcement subassembly (7) through the detachable under be connected with and lie in waiting to pour underbeam curb plate (8) of the opposite side of wafting window (2) down.

2. The bay window assembly of claim 1, wherein the upper wall-through reinforcement assembly (5) comprises an upper embedded part (501) supported between the upper beam side plate (6) and the upper bay window prefabricated member (3), an upper back edge (502) is arranged on one side of the upper beam side plate (6), and the upper beam side plate (6) and the upper bay window prefabricated member (3) are connected and mounted through an upper screw nut assembly (503) penetrating through the upper back edge (502), the upper beam side plate (6), the upper embedded part (501) and the upper bay window prefabricated member (3).

3. A bay window assembly as claimed in claim 1, wherein said lower wall-through reinforcement assembly (7) comprises a lower embedded part (701) supported between said lower beam side plate (8) and said lower bay window prefabricated member (4), a lower back ridge (702) is provided on one side of said lower beam side plate (8), and said lower beam side plate (8) and said lower bay window prefabricated member (4) are connected and mounted by a lower screw nut assembly (703) passing through said lower back ridge (702), said lower beam side plate (8), said lower embedded part (701) and said lower bay window prefabricated member (4).

4. A bay window assembly as claimed in claim 1, characterised in that the lower end of the bay window prefabricated component (3) is attached by an upper attachment angle aluminium (9) to a base plate (10) extending to the lower end of the bay window (1) to be cast for bracing the bay window prefabricated component (3) against falling of the bay window prefabricated component (3).

5. A bay window assembly as claimed in claim 1, characterised in that the upper end of the bay window prefabricated component (4) is connectively fitted with a cover plate (12) extending to the upper end of the bay window (2) to be poured for pressing the bay window prefabricated component (4) against the bay window prefabricated component (4) to prevent the bay window prefabricated component (4) from tipping over, by means of a lower connecting angle aluminium (11).

6. Bay window assembly according to claim 1, characterised in that the side of the bay window prefabricated element (3) in contact with the bay window (1) to be cast is lined with upper friction lines (301) and the side of the bay window prefabricated element (4) in contact with the bay window (2) to be cast is lined with lower friction lines (401).

7. Bay window assembly according to claim 1, characterised in that the upper end of the upper through-wall reinforcement assembly (5) is connected by means of a corner formwork (13) to a transverse roof formwork (15) located at the lower end of the top transverse portion of the bay window (1) to be poured.

Images