CN220353691U

CN220353691U - Assembled unit window system

Info

Publication number: CN220353691U
Application number: CN202321589316.XU
Authority: CN
Inventors: 梁方岭; 杨凤玲; 来佳锋; 干慧欣; 张媛
Original assignee: Zhejiang Province Institute of Architectural Design and Research
Current assignee: Zhejiang Province Institute of Architectural Design and Research
Priority date: 2023-06-20
Filing date: 2023-06-20
Publication date: 2024-01-16
Anticipated expiration: 2033-06-20

Abstract

The utility model provides an assembled unit window system, wherein an inserting middle stile is arranged at the end part of glass, a middle stile member is arranged between adjacent inserting middle stiles, a first connecting part matched with the inserting middle stile is arranged on the side surface of the middle stile member, a hollow area is arranged in a two-way penetrating way at the middle part of the middle stile member, and the axial direction of the hollow area is perpendicular to the laying direction of the glass; the interlayer structure of the building is provided with a mounting member connected with the interlayer structure, and the other end of the mounting member connected with the interlayer structure is provided with a second connecting part in a protruding mode. According to the utility model, the middle stile and the T-shaped mounting member are connected and matched to cut off the stress state between the middle stile and the upper glass of the middle stile in a building structure, so that the stress condition of the whole unit window system is changed, and the external structure of the building is a curtain wall with a window structure form.

Description

Assembled unit window system

Technical Field

The utility model relates to the technical field of building curtain walls, in particular to an assembled unit window system.

Background

Window curtain walls are glass curtain walls supported by metal frames between floors or between floors and roofs, and are a common form of interlayer glass curtain walls. Although the curtain wall is widely used in building design as a common form, the manufacturing cost of the window curtain wall is higher, and along with the development of the curtain wall and the adjustment of new standards, the development trend of the curtain wall is also a structure and design which are more cost-saving. If the curtain wall is designed and installed in a standard form of the strip window, the required cost can be further controlled besides the external structural form, but the corresponding structural form of combining the window and the curtain wall is not proposed in the prior art, so that the construction cost of the external structure of the building is high and the installation is complicated.

Disclosure of Invention

The utility model aims to provide a unit window system which is convenient to install and is blocked by stress.

For this purpose, the utility model adopts the following technical scheme:

an assembled unit window system is characterized in that an inserting middle stile is arranged at the end part of glass, a middle stile member is arranged between adjacent inserting middle stiles, a first connecting part matched with the inserting middle stile in an inserting way is arranged on the side surface of the middle stile member, a hollow area is arranged in a two-way penetrating way in the middle part of the middle stile member, and the axial direction of the hollow area is perpendicular to the laying direction of the glass; the interlayer structure of the building is provided with a mounting component connected with the interlayer structure, the other end of the mounting component connected with the interlayer structure is provided with a second connecting part in a protruding mode, and the second connecting part is connected and matched with the hollow area to form a partition type arrangement state of the unit window system on the building.

Further: the middle stile component is arranged in a symmetrical structure by taking the axial direction of the hollow area as a reference.

Further: a plurality of plug parts are arranged in the plug middle stile, and each plug part is connected and matched with the first connecting part.

Further: the first connecting portion is provided with a cushion pad in the plug portion region to form a cushion control for the first connecting portion and the plug portion.

Further: and a bolt piece is arranged between the second connecting part of the mounting component and the middle stile component in a connecting way.

Further: the mounting members are disposed at both ends of the hollow region of the stiffening member.

Further: the mounting component is provided with a mounting part at the connecting part of the interlayer structure, and the cross section area of the mounting part is larger than that of the second connecting part.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model separates the stress state of the middle stile and the upper glass of the middle stile through the connection and the coordination of the middle stile component and the T-shaped installation component, so that the stress condition of the whole unit window system is changed (the difference between the window type curtain wall and the strip type curtain wall is needed to be described, the window type curtain wall is a frame supporting glass curtain wall with transverse continuity, and the strip type curtain wall is a single window with no transverse continuity, and the window type curtain wall is a transverse combined window formed by connecting the split mould components), thereby the external structure of the building is a curtain wall with a window structure form, the appearance of the curtain wall is reserved while the safety of the structure is ensured, and the corresponding cost can be effectively controlled. Compared with the original curtain wall structure, the curtain wall structure can be installed more flexibly, conveniently and rapidly, so that the construction efficiency is further improved.

Drawings

FIG. 1 is a schematic cross-sectional view of a sealing fan according to the present utility model;

FIG. 2 is a schematic cross-sectional view of the utility model as an opening fan;

fig. 3 is a schematic cross-sectional structure of a T-shaped mounting member of the present utility model.

The marks in the drawings are: the middle stile component 1, the first connecting part 2, the hollow area 3, the buffer cushion 4, the splicing middle stile 5, the glass 6, the mounting component 7, the second connecting part 71, the splicing part 8 and the bolt piece 9.

Detailed Description

The utility model is further illustrated by the following figures and examples, which are not intended to be limiting.

As shown in fig. 1-3, in an assembled unit window system, a splicing middle stile 5 is arranged at the end part of a glass 6, a middle stile member 1 is arranged between adjacent splicing middle stiles 5, a first connecting part 2 which is in splicing fit with the splicing middle stile 5 is arranged on the side surface of the middle stile member 1, a hollow area 3 is arranged in a two-way penetrating way at the middle part of the middle stile member 1, and the axial direction of the hollow area 3 is perpendicular to the laying direction of the glass 6; the interlayer structure of the building is provided with a mounting member 7 connected with the interlayer structure, the other end of the mounting member 7 connected with the interlayer structure is provided with a second connecting part 71 in a protruding mode, and the second connecting part 71 is connected and matched with the hollow area 3 to form a partition type arrangement state of the unit window system on the building.

In this embodiment, the unit window system configures an opening fan and/or a closing fan according to the interlayer requirement of the building, if the opening fan needs to be equipped, an aluminum alloy window frame connected with the glass 6 can be installed on the plug middle stile 5, and if the closing fan needs to be equipped, the opening fan needs to be connected with the glass 6 only by matching the plug middle stile 5 with an aluminum alloy decorative cover plate.

Wherein, the glass 6 adopts 6 (toughened Low-E) +12A+6 (toughened) hollow glass.

In the embodiment, the separation between the adjacent glass 6 is formed under the connection of the splicing middle stile 5 and the middle stile component 1, and the separation is connected with the interlayer structure of a building through the mounting component 7, so that corresponding stress support is provided for each glass 6 of the unit window system, and the unit window structure without transverse continuity is formed. Meanwhile, the installation of the unit window system is more convenient based on the above, and each glass 6 is installed by only inserting and matching the splicing middle stile 5 and the middle stile component 1.

Specifically, the stiffening member 1 is disposed in a symmetrical structure with respect to the axial direction of the hollow region 3. Wherein, a plurality of plug-in connection parts 8 are arranged in the plug-in connection middle stile 5, and each plug-in connection part 8 is connected and matched with the first connecting part 2. Each plug middle stile 5 is preferably provided with two plug parts 8.

In this embodiment, the stiffening member 1 is i-shaped and the mounting member 7 is preferably provided in a T-shape so that the second connection portion 71 on the mounting member 7 is in a connection engagement with the hollow region 3 of the stiffening member 1. At the same time, the stiffening member 1 is provided with mounting members 7 at both ends in the axial direction of the hollow area 3.

Wherein a bolt piece 9 is arranged between the second connection portion 71 of the mounting member 7 and the stiffening member 1. The bolt member 9 may be a porcine nose bolt.

Wherein the mounting member 7 and the interlayer structure are provided with a mounting portion having a larger cross-sectional area than the second connecting portion 71. The mounting portion is fixed by a screw connected to the interlayer structure to be mounted, and the screw is preferably arranged on both sides with reference to the second connection portion 71.

As shown in fig. 1-2, wherein the first connection part 2 is provided with a cushion pad 4 in the region of the plug-in part 8, in order to form a cushion control for the first connection part 2 as well as the plug-in part 8.

Referring to fig. 1-3, during installation of the unit window system, the following is a specific manner:

first, a predetermined target position is set for the interlayer structure of the building, and the mounting member 7 is fixed between the upper and lower sides of the target position, and the mounting member 7 is connected to the middle stile member 1 by the bolt 9. Secondly, the whole formed by the glass 6 and the inserted middle stile 5 which are connected in advance is hoisted to a target position, so that the whole is inserted and connected with the middle stile component 1 through the inserted middle stile 5, thereby simplifying the installation mode, and the glass 6 is sequentially installed to form a unit window system of the floor and a whole unit window system of a building.

The above embodiment is only one preferred technical solution of the present utility model, and it should be understood by those skilled in the art that modifications and substitutions can be made to the technical solution or parameters in the embodiment without departing from the principle and essence of the present utility model, and all the modifications and substitutions are covered in the protection scope of the present utility model.

Claims

1. A modular unit window system, characterized by: a middle stile (5) is arranged at the end part of the glass (6), a middle stile component (1) is arranged between adjacent middle stiles (5), a first connecting part (2) which is in plug fit with the middle stile (5) is arranged on the side surface of the middle stile component (1), a hollow area (3) is arranged in a two-way through manner at the middle part of the middle stile component (1), and the axial direction of the hollow area (3) is perpendicular to the laying direction of the glass (6);

the interlayer structure of the building is provided with a mounting member (7) connected with the interlayer structure, the other end of the mounting member (7) connected with the interlayer structure is provided with a second connecting part (71) in a protruding mode, and the second connecting part (71) is connected and matched with the hollow area (3) to form a partition type arrangement state of the unit window system on the building.

2. A modular unit window system as claimed in claim 1, wherein: the middle stile component (1) is arranged in a symmetrical structure by taking the axial direction of the hollow area (3) as a reference.

3. A modular unit window system as claimed in claim 1, wherein: a plurality of plug-in connection parts (8) are arranged in the plug-in connection middle stile (5), and each plug-in connection part (8) is connected and matched with the first connection part (2).

4. A modular unit window system as claimed in claim 3, wherein: the first connection part (2) is provided with a buffer pad (4) in the region of the plug-in part (8) to form buffer control for the first connection part (2) and the plug-in part (8).

5. A modular unit window system as claimed in claim 1, wherein: a bolt piece (9) is arranged between the second connecting part (71) of the mounting component (7) and the middle stile component (1).

6. A modular unit window system as claimed in claim 1, wherein: the mounting members (7) are arranged at two ends of the hollow area (3) of the middle stile member (1).

7. A modular unit window system as claimed in claim 1, wherein: the connecting part of the mounting member (7) and the interlayer structure is provided with a mounting part, and the cross-sectional area of the mounting part is larger than that of the second connecting part (71).