CN216740268U - Novel transparent breathing type folded glass curtain wall - Google Patents

Abstract

The utility model provides a novel transparent breathing type folded glass curtain wall, which solves the problems of poor heat insulation, lighting and ventilation effects and the like of the glass curtain wall. The utility model has the advantages of good heat insulation and ventilation effect, stable structure and the like.

Description

Novel transparent breathing type folded glass curtain wall

Technical Field

The utility model belongs to the technical field of glass curtain walls, and particularly relates to a novel transparent breathing type folded glass curtain wall.

Background

The glass curtain wall is a building external protective structure or a decorative structure which has a certain displacement capacity relative to the main structure by a supporting structure system and does not bear the action of the main structure. The wall body has two types of single-layer glass and double-layer glass. The glass curtain wall of modern high-rise building adopts hollow glass which is formed by combining mirror glass and common glass and filling dry air or inert gas into an interlayer. However, in the actual use process, the existing glass curtain wall has poor heat insulation and lighting and ventilation effects. In addition, the curtain wall of abnormal shape structure is at the installation fixed in-process, because connection structure is too complicated, inconvenient operating personnel rapid Assembly.

In order to solve the defects of the prior art, people have long searched for and put forward various solutions. For example, chinese patent literature discloses a cascaded abnormal shape aluminum plate curtain system [201921016001.X ], and it includes standing-seam crimping roof boarding, pipe fossil fragments and abnormal shape aluminum plate, the inboard of pipe fossil fragments is connected with standing-seam crimping roof boarding through multiunit fossil fragments switching components and multiunit roof boarding fastener, the outside of pipe fossil fragments has linked firmly multiunit aluminum plate switching components, and the outside of every group aluminum plate switching components has linked firmly the switching dish, be provided with a plurality of arc holes along its circumference on the switching dish, abnormal shape aluminum plate's inboard has linked firmly the aluminum plate connecting piece, is in the upper and lower adjacent two aluminum plate connecting pieces of cascaded arrangement, is connected with the altitude mixture control subassembly between the inboard of the looks remote site of two aluminum plate connecting pieces and the switching dish respectively.

Above-mentioned scheme has solved the too complicated problem of heterotypic curtain wall mounting structure to a certain extent, but this scheme still has a great deal of not enough, for example glass curtain wall thermal-insulated daylighting ventilation effect scheduling problem relatively poor.

Disclosure of Invention

The utility model aims to solve the problems and provides a novel transparent breathing type folding glass curtain wall which is reasonable in design and good in heat insulation, lighting and ventilation effects.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model provides a novel transparent breathing type folded glass curtain wall, is including arranging the high reflection toughened glass layer of arranging, and the high reflection toughened glass layer is arranged its relative extending direction slope and is set up and between through aluminum alloy heat insulation window body interconnect, and aluminum alloy heat insulation window body fixed mounting is on aluminum alloy curtain wall fossil fragments, is provided with the perforation cambered surface aluminum plate curtain wall of installing on aluminum alloy heat insulation window body between the adjacent high reflection toughened glass layer of arranging. The perforated cambered surface aluminum plate curtain wall seals gaps between the obliquely arranged high-reflection toughened glass layers, and is matched with an aluminum alloy heat insulation window body to realize heat insulation, lighting and ventilation functions.

In foretell novel transparent breathing formula book face glass curtain wall, aluminum alloy curtain wall fossil fragments include the first aluminum alloy stand, second aluminum alloy stand and the third aluminum alloy stand of vertical setting, and first aluminum alloy stand is relative with one of them of the high reflection toughened glass layer of adjacent setting, and third aluminum alloy stand is relative with another high reflection toughened glass layer. The aluminum alloy curtain wall keel provides a supporting structure, and the aluminum alloy heat insulation window body is ensured to be in a vertical state.

In foretell novel transparent breathing formula book face glass curtain wall, the thermal-insulated window form of aluminum alloy is provided with the thermal-insulated structure of second including installing the first thermal-insulated structure between first aluminum alloy stand and high reflection toughened glass layer between first aluminum alloy stand and the second aluminum alloy stand, is provided with the thermal-insulated structure of third between second aluminum alloy stand and the third aluminum alloy stand, is provided with the thermal-insulated structure of fourth between third aluminum alloy stand and the high reflection toughened glass layer. The whole body of the aluminum alloy heat insulation window body is L-shaped, and the position fixation of the high-reflection toughened glass layer is realized.

In foretell a novel transparent breathing formula book face glass curtain wall, first thermal-insulated structure includes the angle aluminium of being connected with first aluminum alloy stand and the aluminium veneer with the laminating of high reflection toughened glass layer, is provided with sealed glue between first aluminum alloy stand and the high reflection toughened glass layer, and it has heat preservation rock wool and polyurethane foaming glue to fill between first aluminum alloy stand and the high reflection toughened glass layer. The first heat insulation structure realizes that the first aluminum alloy upright post is fixedly installed on the high-reflection toughened glass layer.

In foretell novel transparent breathing formula broken face glass curtain wall, the thermal-insulated casement of second includes the thermal-insulated casement of aluminum alloy of being connected with first aluminum alloy stand, and second aluminum alloy stand is connected with another thermal-insulated casement of aluminum alloy, is provided with heat preservation rock wool between the thermal-insulated casement of aluminum alloy and keeps warm the rock wool front and back both sides and seal by the aluminium veneer, is provided with the aluminum alloy casting die between thermal-insulated casement of aluminum alloy and the aluminium veneer, and the thermal-insulated casement of aluminum alloy passes through the thermal-insulated window frame of aluminum alloy to be connected and fill between first aluminum alloy stand and the second aluminum alloy stand and have the polyurethane foaming adhesive. The second heat insulation structure is arranged between the first aluminum alloy upright post and the second aluminum alloy upright post, and the heat preservation effect of the heat preservation rock wool in the second heat insulation structure is ensured.

In foretell novel transparent breathing formula book face glass curtain wall, third thermal-insulated structure is sealed by the aluminium veneer including filling heat preservation rock wool and heat preservation rock wool front and back between second aluminum alloy stand and third aluminum alloy stand. The third heat insulation structure plays a supporting role for the second aluminum alloy upright post and the third aluminum alloy upright post and is vertical to the second heat insulation structure.

In foretell a novel transparent breathing formula book face glass curtain wall, the fourth thermal-insulated structure includes the angle aluminium of being connected with third aluminum alloy stand and is fixed with aluminium square pipe with the aluminium veneer of high reflection toughened glass layer laminating and the inboard corner of angle aluminium, is provided with sealed glue between third aluminum alloy stand and the high reflection toughened glass layer, and it has heat preservation rock wool and polyurethane foaming glue to fill between third aluminum alloy stand and the high reflection toughened glass layer. The fourth heat insulation structure connects the third aluminum alloy upright post with the high-reflection toughened glass layer, and the aluminum square tube on the inner side of the angle aluminum of the fourth heat insulation structure has a reinforcing effect on the extension part of the high-reflection toughened glass layer relative to the fourth heat insulation structure.

In foretell a novel transparent breathing formula book face glass curtain wall, the cambered surface aluminum plate curtain wall that perforates includes arc and the fenestrate aluminium veneer in surface, and the cambered surface aluminum plate curtain wall both ends that perforates are connected and each aluminium veneer surface coating has the fluorine carbon-coated layer with the aluminium veneer that highly reflective toughened glass layer was laminated respectively, is provided with waterproof strip between aluminium alloy heat-insulating window body and aluminium alloy curtain wall fossil fragments and the cambered surface aluminum plate curtain wall that perforates. The perforation cambered surface aluminum plate curtain wall surface is even open, supplies normal ventilation, and the fluorine carbon layer guarantees its surface smoothness cleanness simultaneously.

In foretell a novel transparent breathing formula book face glass curtain wall, the toughened glass that the cavity was left between the high reflection toughened glass layer set up and including the stack, seals through the sealing strip between the toughened glass edge, and wherein the toughened glass in the outside adopts two silver Low-E coated glass and the inner face is blackened by resistant time glue. The high-reflection toughened glass layer has heat preservation and light reflection and good visual effect.

In foretell novel transparent breathing formula book face glass curtain wall, perforation cambered surface aluminum plate curtain inboard and/or outside are close to boundary department and are provided with the lighting lamp area, and the lighting lamp area is relative with the inboard cavity of perforation cambered surface aluminum plate curtain wall or the surface of perforation cambered surface aluminum plate curtain wall. The perforated cambered surface aluminum plate curtain wall is provided with illumination brightness by the illumination lamp strip, and has a better display effect by matching with the high-reflection toughened glass layer under the night environment.

Compared with the prior art, the utility model has the advantages that: the perforated cambered-surface aluminum plate curtain wall and the high-reflection toughened glass layer are mutually connected through the aluminum alloy heat-insulation window body, so that the heat-insulation, lighting and ventilation requirements of the building are met; the aluminum alloy curtain wall keel provides a better supporting effect for the aluminum alloy heat insulation window body, and the consistent inclination angle of each aluminum alloy heat insulation window body is ensured; the perforated cambered surface aluminum plate curtain wall is provided with the lighting lamp strip, so that the overall visual effect of the glass curtain wall is improved.

Drawings

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

FIG. 2 is an assembly schematic of the present invention;

FIG. 3 is a partial schematic view of the present invention;

FIG. 4 is an enlarged view of a portion of the present invention;

FIG. 5 is an enlarged view of a portion of the present invention;

in the figure, a high-reflection toughened glass layer 1, toughened glass 11, an aluminum alloy heat insulation window body 2, an aluminum alloy heat insulation window sash 21, an aluminum alloy heat insulation window frame 22, an aluminum alloy pressing piece 23, an aluminum alloy curtain wall keel 3, a first aluminum alloy upright column 31, a second aluminum alloy upright column 32, a third aluminum alloy upright column 33, a perforated cambered-surface aluminum plate curtain wall 4, a first heat insulation structure 5, a second heat insulation structure 6, a third heat insulation structure 7, a fourth heat insulation structure 8 and a lighting lamp band 9.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-5, a novel transparent breathing type folded glass curtain wall, including arranging highly reflective toughened glass layer 1 who arranges, highly reflective toughened glass layer 1 arranges relative to it that extending direction slope sets up and between through the thermal-insulated window form 2 interconnect of aluminum alloy, and the thermal-insulated window form 2 fixed mounting of aluminum alloy is on aluminum alloy curtain wall fossil fragments 3, is provided with perforation cambered surface aluminum curtain wall 4 of installing on the thermal-insulated window form 2 of aluminum alloy between the highly reflective toughened glass layer 1 of adjacent arrangement. Aluminum alloy curtain wall fossil fragments 3 vertical settings, aluminum alloy heat-insulating window body 2 installs between aluminum alloy curtain wall fossil fragments 3, provides the mounting base for high reflection toughened glass layer 1, and wherein 1 slope and equidistance in high reflection toughened glass layer are arranged, and perforation cambered surface aluminum plate curtain wall 4 between adjacent high reflection toughened glass layer 1 is the arc and opens the ventilation hole that has the matrix to arrange on the surface.

Specifically, the aluminum alloy curtain wall keel 3 comprises a first aluminum alloy upright column 31, a second aluminum alloy upright column 32 and a third aluminum alloy upright column 33 which are vertically arranged, the first aluminum alloy upright column 31 is opposite to one of the adjacent high-reflection toughened glass layers 1, and the third aluminum alloy upright column 33 is opposite to the other high-reflection toughened glass layer 1. First aluminum alloy stand 31, second aluminum alloy stand 32 and third aluminum alloy stand 33 are right triangle-shaped and distribute, and the relative distance of first aluminum alloy stand 31 and second aluminum alloy stand 32 is less than the relative distance of second aluminum alloy stand 32 and third aluminum alloy stand 33, and each high reflection toughened glass layer 1 is parallel arrangement relatively. The aluminum alloy curtain wall keel 3 and the aluminum alloy heat insulation window body 2 are connected with each other through the threaded parts, and an ethylene propylene diene monomer rubber strip is filled in a gap between the aluminum alloy curtain wall keel and the aluminum alloy heat insulation window body.

Deeply, the aluminum alloy heat insulation window body 2 comprises a first heat insulation structure 5 arranged between a first aluminum alloy upright column 31 and a high-reflection toughened glass layer 1, a second heat insulation structure 6 is arranged between the first aluminum alloy upright column 31 and a second aluminum alloy upright column 32, a third heat insulation structure 7 is arranged between the second aluminum alloy upright column 32 and a third aluminum alloy upright column 33, and a fourth heat insulation structure 8 is arranged between the third aluminum alloy upright column 33 and the high-reflection toughened glass layer 1. The installation that aluminium alloy heat insulation window body 2 realized aluminium alloy curtain wall fossil fragments 3 and high reflection toughened glass layer 1 is fixed, and each thermal-insulated structure is relatively independent, earlier is connected second thermal-insulated structure 6 and third thermal-insulated structure 7 during the installation, later installs high reflection toughened glass layer 1 on aluminium alloy curtain wall fossil fragments 3 through first thermal-insulated structure 5 and fourth thermal-insulated structure 8. The first aluminum alloy upright 31 and the third aluminum alloy upright 33 are 150 mm by 65mm in specification, and the second aluminum alloy upright 32 is 110 mm by 65mm in specification. The whole width of the second heat insulation structure 6 is 410mm, and the whole width of the third heat insulation structure 7 to the high-reflection toughened glass layer 1 is 555 mm.

Further, first thermal-insulated structure 5 includes the angle aluminium of being connected with first aluminum alloy stand 31 and the aluminium veneer of laminating with high reflection toughened glass layer 1, is provided with sealed glue between first aluminum alloy stand 31 and the high reflection toughened glass layer 1, and it has heat preservation rock wool and polyurethane foam to fill between first aluminum alloy stand 31 and the high reflection toughened glass layer 1. The first heat insulation structure 5 adopts sealant to plug the gap between the high-reflection toughened glass layer 1 and the first aluminum alloy upright column 31, and the filled heat preservation rock wool and polyurethane foaming adhesive have good heat insulation and connection effects.

Furthermore, the second heat insulation structure 6 comprises an aluminum alloy heat insulation window sash 21 connected with the first aluminum alloy upright column 31, the second aluminum alloy upright column 32 is connected with another aluminum alloy heat insulation window sash 21, heat insulation rock wool is arranged between the aluminum alloy heat insulation window sashes 21, the front side and the rear side of the heat insulation rock wool are sealed by aluminum veneers, an aluminum alloy pressing part 23 is arranged between the aluminum alloy heat insulation window sash 21 and the aluminum veneers, and the aluminum alloy heat insulation window sash 21 is connected with the first aluminum alloy upright column 31 and the second aluminum alloy upright column 32 through an aluminum alloy heat insulation window frame 22 and polyurethane foaming glue is filled between the aluminum alloy heat insulation window sash 21 and the first aluminum alloy upright column 31 and the second aluminum alloy upright column 32. The second heat insulation structure 6 is formed by combining an aluminum veneer and heat preservation rock wool, plays a role in heat insulation and connection, the aluminum alloy pressing piece 23 improves the connection stability of the aluminum alloy heat insulation window sash 21 and the aluminum veneer, and the aluminum alloy heat insulation window sash 21 and the aluminum alloy heat insulation window frame 22 adopt 65 systems.

Besides, the third heat insulation structure 7 includes heat preservation rock wool filled between the second aluminum alloy upright column 32 and the third aluminum alloy upright column 33, and the front side and the rear side of the heat preservation rock wool are sealed by aluminum veneers. The third thermal-insulated structure 7 is arranged by heat preservation rock wool and aluminium veneer stack, and it is perpendicular relative to second thermal-insulated structure 6.

Simultaneously, fourth thermal-insulated structure 8 includes the angle aluminium of being connected with third aluminum alloy stand 33 and is fixed with aluminium square pipe with the aluminium veneer of 1 laminating of high reflection toughened glass layer and the inboard corner of angle aluminium, is provided with sealed glue between third aluminum alloy stand 33 and the high reflection toughened glass layer 1, and it has heat preservation rock wool and polyurethane foaming glue to fill between third aluminum alloy stand 33 and the high reflection toughened glass layer 1. Aluminium veneer and angle aluminium and perforation cambered surface aluminum plate curtain 4 interconnect just provide the installation fixed point for perforation cambered surface aluminum plate curtain 4 in the fourth thermal-insulated structure 8, and inboard aluminium square pipe plays the reinforcing action to 1 edge on high reflection toughened glass layer.

Visibly, the perforated cambered surface aluminum plate curtain wall 4 comprises an arc-shaped aluminum veneer with a perforated surface, the two ends of the perforated cambered surface aluminum plate curtain wall 4 are respectively connected with the aluminum veneer laminated by the high-reflection toughened glass layer 1, the outer surface of each aluminum veneer is coated with a fluorine carbon layer, and waterproof strips are arranged between the aluminum alloy heat insulation window body 2 and the aluminum alloy curtain wall keel 3 as well as between the perforated cambered surface aluminum plate curtain wall 4. Two sides of an aluminum veneer of the perforated cambered surface aluminum plate curtain wall 4 are respectively connected with the first heat insulation structure 5 and the fourth heat insulation structure 8, wherein the waterproof strips are arranged on the joints of the heat insulation structures, and the thickness of each aluminum veneer is 1-4 mm.

Obviously, the high-reflection toughened glass layer 1 comprises toughened glass 11 which is arranged in an overlapping mode and provided with a cavity in between, the edges of the toughened glass 11 are sealed through sealing strips, the toughened glass 11 on the outer side is made of double-silver Low-E coated glass, and the inner surface of the toughened glass is blackened through weather-resistant glue. The double-silver Low-E coated glass has good heat insulation and light transmission effects, is superposed with the conventional toughened glass 11, and has a cavity in between, so that the heat insulation effect is further improved, and the total thickness of the high-reflection toughened glass layer 1 is 43 mm.

Preferably, a lighting lamp strip 9 is arranged on the inner side and/or the outer side of the perforated cambered aluminum plate curtain wall 4 close to the edge, and the lighting lamp strip 9 is opposite to the cavity on the inner side of the perforated cambered aluminum plate curtain wall 4 or the outer surface of the perforated cambered aluminum plate curtain wall 4. The lighting lamp strip 9 selects the LED floodlight, and the illumination of the lighting lamp strip penetrates through the ventilation holes on the surface of the perforated cambered aluminum plate curtain wall 4 and forms reflection with the outer surface of the lighting lamp strip.

In summary, the principle of the present embodiment is: high reflection toughened glass layer 1 slope is arranged and is sealed by perforation cambered surface aluminum plate curtain 4 between and, and 4 surperficial trompils of perforation cambered surface aluminum plate curtain satisfy the ventilation demand, and high reflection toughened glass layer 1 and the thermal-insulated window form 2 of the inboard aluminum alloy of perforation cambered surface aluminum plate curtain 4 and aluminum alloy curtain fossil fragments 3 provide support and thermal-insulated heat preservation effect simultaneously.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Although terms such as the highly reflective tempered glass layer 1, the tempered glass 11, the aluminum alloy heat insulation window body 2, the aluminum alloy heat insulation sash 21, the aluminum alloy heat insulation window frame 22, the aluminum alloy pressing member 23, the aluminum alloy curtain wall keel 3, the first aluminum alloy upright column 31, the second aluminum alloy upright column 32, the third aluminum alloy upright column 33, the perforated cambered aluminum curtain wall 4, the first heat insulation structure 5, the second heat insulation structure 6, the third heat insulation structure 7, the fourth heat insulation structure 8, the lighting strip 9 and the like are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. The utility model provides a novel transparent breathing type folded glass curtain wall, is including arranging highly reflective toughened glass layer (1) of arranging, its characterized in that, highly reflective toughened glass layer (1) arrange the extending direction slope relative it and set up and between through the thermal-insulated window form of aluminum alloy (2) interconnect, thermal-insulated window form of aluminum alloy (2) fixed mounting on aluminum alloy curtain wall fossil fragments (3), be provided with between the highly reflective toughened glass layer (1) of adjacent arrangement and install perforation cambered surface aluminum curtain wall (4) on the thermal-insulated window form of aluminum alloy (2).

2. The novel transparent breathing type folded glass curtain wall as claimed in claim 1, wherein the aluminum alloy curtain wall keel (3) comprises a first aluminum alloy upright (31), a second aluminum alloy upright (32) and a third aluminum alloy upright (33) which are vertically arranged, the first aluminum alloy upright (31) is opposite to one of the adjacent high-reflection toughened glass layers (1), and the third aluminum alloy upright (33) is opposite to the other high-reflection toughened glass layer (1).

3. The novel transparent breathing type folded glass curtain wall as claimed in claim 2, wherein the aluminum alloy heat insulation window body (2) comprises a first heat insulation structure (5) installed between a first aluminum alloy upright (31) and the high-reflection toughened glass layer (1), a second heat insulation structure (6) is arranged between the first aluminum alloy upright (31) and a second aluminum alloy upright (32), a third heat insulation structure (7) is arranged between the second aluminum alloy upright (32) and a third aluminum alloy upright (33), and a fourth heat insulation structure (8) is arranged between the third aluminum alloy upright (33) and the high-reflection toughened glass layer (1).

4. The novel transparent breathing type folded glass curtain wall as claimed in claim 3, wherein the first thermal insulation structure (5) comprises an aluminum angle connected with the first aluminum alloy column (31) and an aluminum veneer attached to the highly-reflective toughened glass layer (1), a sealant is arranged between the first aluminum alloy column (31) and the highly-reflective toughened glass layer (1), and heat-insulating rock wool and polyurethane foam are filled between the first aluminum alloy column (31) and the highly-reflective toughened glass layer (1).

5. The novel transparent breathing type folded glass curtain wall as claimed in claim 4, wherein the second heat insulation structure (6) comprises an aluminum alloy heat insulation window sash (21) connected with the first aluminum alloy column (31), the second aluminum alloy column (32) is connected with another aluminum alloy heat insulation window sash (21), heat insulation rock wool is arranged between the aluminum alloy heat insulation window sashes (21), the front side and the rear side of the heat insulation rock wool are sealed by aluminum veneers, an aluminum alloy pressing piece (23) is arranged between the aluminum alloy heat insulation window sash (21) and the aluminum veneers, the aluminum alloy heat insulation window sash (21) is connected with the first aluminum alloy column (31) and the second aluminum alloy column (32) through an aluminum alloy heat insulation window frame (22), and polyurethane foaming glue is filled between the aluminum alloy heat insulation window sash and the first aluminum alloy column (31) and the second aluminum alloy column (32).

6. The novel transparent breathing type folded glass curtain wall as claimed in claim 5, wherein the third heat insulation structure (7) comprises heat insulation rock wool filled between the second aluminum alloy upright (32) and the third aluminum alloy upright (33), and the front side and the rear side of the heat insulation rock wool are sealed by aluminum veneers.

7. The novel transparent breathing type folded glass curtain wall as claimed in claim 6, wherein the fourth thermal insulation structure (8) comprises an aluminum corner connected with the third aluminum alloy column (33) and an aluminum single plate attached to the highly-reflective tempered glass layer (1), an aluminum square tube is fixed at the inner corner of the aluminum corner, a sealant is arranged between the third aluminum alloy column (33) and the highly-reflective tempered glass layer (1), and heat-insulating rock wool and polyurethane foam are filled between the third aluminum alloy column (33) and the highly-reflective tempered glass layer (1).

8. The novel transparent breathing type folded glass curtain wall as claimed in claim 7, wherein the perforated cambered aluminum plate curtain wall (4) comprises an aluminum veneer with an arc shape and a perforated surface, the two ends of the perforated cambered aluminum plate curtain wall (4) are respectively connected with the aluminum veneer laminated by the high-reflection toughened glass layer (1), the outer surface of each aluminum veneer is coated with a fluorocarbon layer, and waterproof strips are arranged between the aluminum alloy heat insulation window body (2) and the aluminum alloy curtain wall keel (3) as well as between the perforated cambered aluminum plate curtain wall (4).

9. The novel transparent breathing type folded glass curtain wall as claimed in claim 1, wherein the highly reflective tempered glass layer (1) comprises tempered glass (11) which is stacked and has a cavity left between the tempered glass layer and the tempered glass (11) edge is sealed by a sealing strip, wherein the tempered glass (11) on the outer side is double-silver Low-E coated glass, and the inner surface of the tempered glass layer is blackened by weather-resistant glue.

10. The novel transparent breathing type folded glass curtain wall according to claim 1, wherein a lighting strip (9) is arranged at the position close to the edge of the inner side and/or the outer side of the perforated cambered aluminum plate curtain wall (4), and the lighting strip (9) is opposite to the cavity at the inner side of the perforated cambered aluminum plate curtain wall (4) or the outer surface of the perforated cambered aluminum plate curtain wall (4).

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