CN114458136A

CN114458136A - High energy-saving unitized curtain wall construction

Info

Publication number: CN114458136A
Application number: CN202111563353.9A
Authority: CN
Inventors: 狄峡; 赵华; 颜培明; 黄继华; 石义
Original assignee: Shanghai Gaoxin Energy Saving Co ltd
Current assignee: Shanghai Gaoxin Energy Saving Co ltd
Priority date: 2021-12-20
Filing date: 2021-12-20
Publication date: 2022-05-10

Abstract

The invention discloses a high energy-saving unitized curtain wall structure, which comprises an outer unitized curtain wall and an inner unitized curtain wall, wherein an air channel for communicating an air inlet and an air outlet is formed between the outer unitized curtain wall and the inner unitized curtain wall, and a sun-shading structure is arranged in the air channel; two adjacent high energy-saving unitized curtain wall structures are connected through an isolation alloy part, one end of the isolation alloy part is connected with an adjacent pair of outer layer side window frames, and the other end of the isolation alloy part is connected with an adjacent pair of inner layer side window frames. The invention has excellent energy-saving and heat-insulating properties, and also has built-in sunshade, thereby meeting the requirements of multiple functions such as ventilation, sunshade, energy saving, sealing, sound insulation and the like.

Description

High energy-saving unitized curtain wall construction

Technical Field

The invention relates to the field of curtain walls, in particular to a high-energy-saving unit type curtain wall structure.

Background

Curtain walls are developed along with social development, more and more buildings are produced, the shapes of the curtain walls are various, and various curtain wall structures are developed along with the curtain walls. For example, currently, there are a steel-aluminum composite structure type external ventilation double-layer curtain wall disclosed in chinese patent publication No. CN201301509Y, an internal circulation double-layer curtain wall disclosed in chinese patent publication No. CN201817940U, and an integral unit type double-layer external circulation curtain wall disclosed in chinese patent publication No. CN201933666U, but the above patent structures are unreasonable in arrangement and are difficult to meet the requirements of multiple functions such as ventilation, sun shading, energy saving, sealing, sound insulation, and the like.

Disclosure of Invention

The present invention is directed to overcoming the above-mentioned shortcomings and drawbacks of the prior art, and providing a high energy-saving curtain wall unit structure to solve the above-mentioned problems.

The technical problem solved by the invention can be realized by adopting the following technical scheme:

the high energy-saving unitized curtain wall structure comprises an outer unitized curtain wall and an inner unitized curtain wall,

the outer layer unit type curtain wall comprises an outer layer window frame structure and an outer layer glass unit arranged in the outer layer window frame structure, wherein the outer layer window frame structure comprises an outer layer upper window frame, an outer layer lower window frame and a pair of outer layer side window frames;

the inner layer unit type curtain wall comprises an inner layer window frame structure and an inner layer glass unit arranged in the inner layer window frame structure, wherein the inner layer window frame structure comprises an inner layer upper window frame, an inner layer lower window frame and a pair of inner layer side window frames, the inner layer glass unit comprises inner layer glass and an inner layer window sash structure which is arranged on the periphery of the inner layer glass and matched with the inner layer window frame structure, and the inner layer upper window frame and the inner layer lower window frame are respectively connected with a wall body;

an air channel communicated with the air inlet and the air outlet is formed between the outer layer unit type curtain wall and the inner layer unit type curtain wall, and a sun-shading structure is arranged in the air channel;

two adjacent high energy-saving unitized curtain wall structures are connected through an isolation alloy piece, one end of the isolation alloy piece is connected with an adjacent pair of outer layer side window frames, and the other end of the isolation alloy piece is connected with an adjacent pair of inner layer side window frames.

In a preferred embodiment of the invention, the sunshade comprises electrically driven sunshade blinds arranged on a wall structure at the top of the air passage.

In a preferred embodiment of the present invention, the air inlet and the air outlet are provided with an on-off switch.

In a preferred embodiment of the present invention, a filter screen is disposed on the air inlet.

In a preferred embodiment of the present invention, an air guide edge is provided on the air outlet.

In a preferred embodiment of the present invention, the isolation alloy member includes a pair of aluminum alloy core material and aluminum alloy mother material which are inserted into each other, two ends of the aluminum alloy core material are respectively connected to the outer layer side window frame and the inner layer side window frame of one of the two adjacent high energy saving type unit curtain wall structures, and two ends of the aluminum alloy mother material are respectively connected to the outer layer side window frame and the inner layer side window frame of the other one of the two adjacent high energy saving type unit curtain wall structures.

In a preferred embodiment of the invention, a sealant is arranged at the joint of the aluminum alloy male material and the aluminum alloy master batch.

In a preferred embodiment of the present invention, the outer lower window frame is provided with an inclined drainage structure.

In a preferred embodiment of the invention, the inner layer sash structure is hinged to the inner layer frame structure and provided with window hardware locking members corresponding to the inner layer frame structure, so that the inner layer glass unit forms an inwardly opened window structure.

In a preferred embodiment of the invention, the outer layer glass comprises ultra-white semi-tempered laminated coated colored glaze glass, and the inner layer glass comprises ultra-white double-silver hollow laminated glass.

Due to the adoption of the technical scheme, the invention has excellent energy-saving and heat-insulating properties, and also has built-in sunshade, thereby achieving the requirements of multiple functions such as ventilation, sunshade, energy conservation, sealing, sound insulation and the like.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a cross-sectional view of an embodiment of the present invention in use.

Fig. 2 is an enlarged view at I of fig. 1.

Fig. 3 is an enlarged view at II of fig. 1.

Fig. 4 is a schematic transverse section view of two adjacent high energy-saving unitized curtain wall structures of the invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below.

Referring to fig. 1 to 4, the energy-saving curtain wall unit structure 1000 includes an outer curtain wall unit 100 and an inner curtain wall unit 200. An air passage 300 is formed between the outer unitized curtain wall 100 and the inner unitized curtain wall 200.

The outer unit curtain wall 100 includes an outer sash frame structure 110 and an outer glass unit 120 disposed within the outer sash frame structure 110. The outer sash structure 110 includes an outer upper sash 111, an outer lower sash 112, and a pair of outer side sashes 113. The outer glass unit 120 includes an outer glass 121 and an outer window sash structure 122 disposed at the periphery of the outer glass 121 and engaged with the outer window frame structure 110, and the outer glass 121 includes a super white semi-tempered sandwich coated color glazed glass. The outer upper sash 111 and the outer lower sash 112 are respectively connected to the wall 10, the outer upper sash 111 is provided with an air outlet 111a, and the outer lower sash 112 is provided with an air inlet 112 a. The air inlet 112a and the air outlet 111a in this embodiment are provided with on-off switches, which facilitate opening or closing of the air inlet 112a and the air outlet 111a according to circumstances. The air inlet 112a is provided with a filter screen 112b to prevent dust from entering the air passage 300. The air outlet 111a is provided with an air guide side 111b for guiding air to accelerate the flow of air. An inclined drainage structure 112c is arranged on the outer-layer lower window frame 112 to prevent water from accumulating on the window frame.

The curtain wall 200 includes an inner sash structure 210 and an inner glass unit 220 disposed within the inner sash structure 210. The inner layer window frame structure 210 comprises an inner layer upper window frame 211, an inner layer lower window frame 212 and a pair of inner layer side window frames 213, the inner layer glass unit 220 comprises inner layer glass 221 and an inner layer window sash structure 222 which is arranged on the periphery of the inner layer glass 221 and matched with the inner layer window frame structure 210, the inner layer glass 221 comprises ultra-white double-silver hollow sandwich glass, and the inner layer upper window frame 211 and the inner layer lower window frame 212 are respectively connected with the wall 10. The inner layer window sash structure 222 is hinged to the inner layer window frame structure 210 through a hinge, specifically, one side of the inner layer window sash structure 222 is hinged to the inner layer side window frame 213 of the inner layer window frame structure 210 through a hinge, and the inner layer window sash structure 222 is provided with a window hardware locking piece corresponding to the inner layer window frame structure 210, so that the inner layer glass unit 220 forms an inner opening window structure, and the inner and outer circulation is considered. The inner glass unit 220 can be opened when the air exchange is needed indoors; in summer, when the indoor air conditioner needs to save energy, the inner glass unit 220 may be closed, and the outer air inlet 112a and the air outlet 111a may be opened.

The air passage 300 communicates the air inlet 112a and the air outlet 111a, and the sunshade structure 400 is provided in the air passage 300. The sunshade structure 400 in this embodiment comprises an electrically powered sunshade louver arranged on a wall structure at the top of the air passage.

Two adjacent high energy-saving unit type curtain wall structures 1000 are connected through an isolation alloy member 500, one end of the isolation alloy member 500 is connected with the adjacent pair of outer layer side window frames 113, and the other end is connected with the adjacent pair of inner layer side window frames 213. In this embodiment, the isolation alloy member 500 includes a pair of aluminum alloy male material 510 and an aluminum alloy female material 520 which are inserted into each other, two ends of the aluminum alloy male material 510 are respectively connected with the outer layer side window frame 113 and the inner layer side window frame 213 of one of the two adjacent high energy saving type unit curtain wall structures through screws, and two ends of the aluminum alloy female material 520 are respectively connected with the outer layer side window frame 113 and the inner layer side window frame 213 of the other one of the two adjacent high energy saving type unit curtain wall structures through screws. Sealant 530 is arranged at the splicing part of the aluminum alloy male material 510 and the aluminum alloy master batch 520, so that the energy-saving and heat-insulating performance is ensured.

The invention has excellent energy-saving and heat-insulating performance, and also has built-in sunshade, thereby meeting the requirements of multiple functions such as ventilation, sunshade, energy conservation, sealing, sound insulation and the like. The sound insulation performance of a common double-layer curtain wall is 30-35 dB, and the sound insulation performance of the double-layer curtain wall is 35-40 dB.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The high energy-saving unitized curtain wall structure is characterized by comprising an outer unitized curtain wall and an inner unitized curtain wall,

2. The curtain wall construction of claim 1, wherein the sunshade structure comprises an electrically powered sunshade louver disposed on the wall structure at the top of the air channel.

3. The curtain wall structure of claim 1, wherein the air inlet and the air outlet are provided with on-off switches.

4. The curtain wall structure of claim 1, wherein the air inlet is provided with a filter screen.

5. The curtain wall structure of claim 1, wherein the air outlet is provided with an air guide edge.

6. The curtain wall structure of claim 1, wherein the isolating alloy member comprises a pair of aluminum alloy material and aluminum alloy material, the aluminum alloy material is inserted into the aluminum alloy material, the aluminum alloy material is connected to the outer side window frame and the inner side window frame of one of the two adjacent curtain wall structures, and the aluminum alloy material is connected to the outer side window frame and the inner side window frame of the other of the two adjacent curtain wall structures.

7. The curtain wall structure of claim 6, wherein a sealant is disposed at the joint of the aluminum alloy material and the aluminum alloy material.

8. The curtain wall structure of claim 1, wherein the outer lower window frame is provided with an inclined drainage structure.

9. The curtain wall construction of claim 1, wherein the inner window sash structure is hinged to the inner window frame structure, and the inner window sash structure is provided with window hardware locking members corresponding to the inner window frame structure, such that the inner glass unit forms an inwardly opened window structure.

10. The curtain wall structure of claim 1, wherein the outer glass layer comprises ultra-white semi-tempered laminated coated color glazed glass, and the inner glass layer comprises ultra-white double-silver hollow laminated glass.