CN215630945U - U-shaped glass mounting assembly and mounting structure - Google Patents

Abstract

The U-shaped glass mounting assembly comprises a W-shaped aluminum profile, an M-shaped aluminum profile, a W-shaped bridge-cut aluminum profile and an M-shaped bridge-cut aluminum profile, wherein the W-shaped aluminum profile and the W-shaped bridge-cut aluminum profile are arranged between the U-shaped glass to be mounted and the lower end side edge of the mounting frame, and the M-shaped aluminum profile and the M-shaped bridge-cut aluminum profile are arranged between the U-shaped glass to be mounted and the upper end side edge and the two side edges of the mounting frame. According to the utility model, by adding the novel mounting assembly, the volume of the cavity in the U-shaped glass curtain wall can be enlarged, the double-layer single cavity can be expanded into three layers of double cavities, and the functionality of the U-shaped glass curtain wall can be effectively improved by matching with U-shaped glass or functional materials with certain functionality, namely, the heat insulation performance can be selectively enhanced, the fireproof performance of the curtain wall can be selectively enhanced, or the performance requirements of sound insulation or sun shading can be selectively met, so that different use requirements can be met.

Description

U-shaped glass mounting assembly and mounting structure

Technical Field

The utility model relates to a U-shaped glass mounting assembly and a mounting structure.

Background

U-shaped glass is being used more and more widely as a new building material in curtain walls and interiors of buildings. The conventional U-shaped glass installation mode comprises a double-layer buckling installation mode and a single-layer installation mode, and the two installation modes can meet the basic requirements of curtain walls or interior installation but have limitations. For example, when the heat insulation requirement of a building is relatively high, the traditional installation mode of the U-shaped glass is often difficult to meet, and at this time, the installation mode of the U-shaped glass needs to be further improved so as to meet the more severe requirements of the building engineering.

Disclosure of Invention

In order to overcome the defects, the utility model provides a U-shaped glass mounting assembly and a mounting structure.

The technical scheme adopted by the utility model for solving the technical problem is as follows: a U-shaped glass mounting assembly comprises a W-shaped aluminum profile, an M-shaped aluminum profile, a W-shaped bridge-cut aluminum profile and an M-shaped bridge-cut aluminum profile, wherein the W-shaped aluminum profile and the W-shaped bridge-cut aluminum profile are arranged between the lower end side edges of U-shaped glass to be mounted and a mounting frame, the M-shaped aluminum profile and the M-shaped bridge-cut aluminum profile are arranged between the upper end side edges and the two side edges of the U-shaped glass to be mounted and the mounting frame, and the W-shaped aluminum profile comprises a bottom limiting plate, a first middle baffle vertically arranged at the central position of the bottom limiting plate and first side baffles vertically arranged at the two side edges of the bottom limiting plate; the M-shaped aluminum profile comprises a top limiting plate, a second middle baffle vertically arranged at the center of the top limiting plate and second side baffles vertically arranged at two side edges of the top limiting plate; the W-shaped bridge cut-off aluminum profile comprises a bridge cut-off bottom, a third middle baffle vertically arranged in the center of the bridge cut-off bottom and third side baffles vertically arranged on two side edges of the bridge cut-off bottom; the M-shaped bridge-cut-off aluminum profile comprises a bridge-cut-off top, a fourth middle baffle vertically arranged at the center of the bridge-cut-off top and a fourth side baffle vertically arranged at two side edges of the bridge-cut-off top.

As a further improvement of the utility model, a first middle baffle plate of the W-shaped aluminum profile is close to two side edges of the two first side baffle plates, and the inner side walls of the two first side baffle plates are respectively provided with a first lower anti-falling barb; and the third middle baffle of the W-shaped bridge-cut-off aluminum profile is close to two sides of the third side baffle, and two third lower anti-falling barbs are respectively arranged on the inner wall of the third side baffle.

As a further improvement of the utility model, a second middle baffle plate of the M-shaped aluminum profile is close to two side edges of the two second side baffle plates, and second upper anti-falling barbs are respectively arranged on the inner side walls of the two second side baffle plates; and fourth upper anti-falling barbs are respectively arranged on the fourth middle baffle plate of the M-shaped bridge-cut-off aluminum profile, the fourth middle baffle plate is close to two side edges of the two fourth side baffle plates, and the inner side walls of the two fourth side baffle plates.

As a further improvement of the utility model, two layers of buckled U-shaped glass are arranged between a W-shaped aluminum profile at the lower end of a frame to be installed and an M-shaped aluminum profile at the upper end of the frame, wherein the end parts of the U-shaped glass at the inner layer are respectively arranged in an installation clamping groove formed by a first middle baffle plate and one of the first side baffle plates of the W-shaped aluminum profile and an installation clamping groove formed by a second middle baffle plate and one of the second side baffle plates of the M-shaped aluminum profile; the end parts of the outer layer of U-shaped glass are respectively arranged in an installation clamping groove formed by the first middle baffle and the other first side baffle of the W-shaped aluminum section and an installation clamping groove formed by the second middle baffle and the other second side baffle of the M-shaped aluminum section.

As a further improvement of the utility model, a plurality of pairs of M-shaped aluminum profiles are arranged at the left end and the right end of the U-shaped glass after being buckled and arranged in parallel, and PVC components are arranged among the U-shaped glass, the W-shaped aluminum profiles and the M-shaped aluminum profiles; and a cavity for placing functional materials is formed between the two layers of U-shaped glass.

As a further improvement of the utility model, three layers of buckled U-shaped glass are arranged between a W-shaped bridge-cut-off aluminum profile at the lower end of a frame to be installed and an M-shaped bridge-cut-off aluminum profile at the upper end of the frame to be installed, wherein the end parts of a pair of buckled U-shaped glasses are respectively arranged in an installation clamping groove formed by a third middle baffle and one third side baffle of the W-shaped bridge-cut-off aluminum profile and an installation clamping groove formed by a fourth middle baffle and one fourth side baffle of the M-shaped bridge-cut-off aluminum profile; the end parts of the third U-shaped glass are respectively arranged in an installation clamping groove formed by a third middle baffle and another third side baffle of the W-shaped bridge-cut-off aluminum profile and an installation clamping groove formed by a fourth middle baffle and another fourth side baffle of the M-shaped bridge-cut-off aluminum profile.

As a further improvement of the utility model, the left side and the right side of the installation structure formed by connecting a plurality of groups of three layers of U-shaped glass in parallel or in a staggered manner are respectively provided with the M-shaped bridge-cut-off aluminum profiles, PVC components are arranged between the U-shaped glass and the W-shaped bridge-cut-off aluminum profiles as well as between the M-shaped bridge-cut-off aluminum profiles, and a cavity for placing functional materials is formed between a pair of buckled U-shaped glass.

As a further improvement of the utility model, two pairs of buckled double-layer U-shaped glass are arranged between a W-shaped bridge-cut-off aluminum profile at the lower end of the frame to be installed and an M-shaped bridge-cut-off aluminum profile at the upper end of the frame to be installed, wherein the end parts of the buckled double-layer U-shaped glass are respectively arranged in an installation clamping groove formed by a third middle baffle and one third side baffle of the W-shaped bridge-cut-off aluminum profile and an installation clamping groove formed by a fourth middle baffle and one fourth side baffle of the M-shaped bridge-cut-off aluminum profile; the end parts of the other pair of buckled U-shaped glass are respectively arranged in an installation clamping groove formed by a third middle baffle and another third side baffle of the W-shaped bridge-cut-off aluminum section bar and an installation clamping groove formed by a fourth middle baffle and another fourth side baffle of the M-shaped bridge-cut-off aluminum section bar.

As a further improvement of the utility model, the M-shaped bridge-cut-off aluminum profiles are respectively arranged on the left side and the right side of the four-layer mounting structure formed by connecting the four-layer mounting structure formed by the two pairs of U-shaped glass in parallel or in a staggered manner, PVC components are arranged among the U-shaped glass, the W-shaped bridge-cut-off aluminum profiles and the M-shaped bridge-cut-off aluminum profiles, and cavities for placing functional materials are respectively formed between the two pairs of buckled U-shaped glass.

The utility model has the beneficial effects that: according to the utility model, by adding the novel mounting assembly, the volume of the cavity in the U-shaped glass curtain wall can be enlarged, the double-layer single cavity can be expanded into three-layer double cavities, and the functionality of the U-shaped glass curtain wall can be effectively improved by matching with U-shaped glass or functional materials with certain functionality. When the curtain wall has higher heat insulation requirements, the installation mode of the utility model can enhance the heat insulation performance. When the curtain wall has fire protection requirements, the installation mode of the utility model can enhance the fire protection performance of the curtain wall. When the curtain wall has the requirements of sound insulation or sun shading, the installation mode of the utility model can also meet the performance requirements of sound insulation or sun shading.

Drawings

FIG. 1 is a schematic structural diagram of a W-shaped aluminum profile of the present invention;

FIG. 2 is a schematic structural diagram of an M-shaped aluminum profile according to the present invention;

FIG. 3 is a schematic structural view of a W-shaped bridge-cut aluminum profile of the utility model;

FIG. 4 is a schematic structural view of an M-shaped bridge-cut aluminum profile of the utility model;

FIG. 5 is a schematic longitudinal sectional view of a double-layered mounting structure according to the present invention;

FIG. 6 is a schematic cross-sectional view of a double-deck mounting structure according to the present invention;

FIG. 7 is a schematic longitudinal cross-sectional view of a three-layer mounting structure according to the present invention;

FIG. 8 is a schematic cross-sectional view of a three-layer mounting structure according to the present invention;

FIG. 9 is a schematic longitudinal cross-sectional view of a four-layer mounting structure according to the present invention;

fig. 10 is a schematic cross-sectional view of a four-layer mounting structure according to the present invention.

The following description is made with reference to the accompanying drawings:

1-W type aluminum section bar; 111-bottom limit plate;

12-first middle baffle; 13-first side dam;

14-first lower anti-run barb; 2-M type aluminum section bar;

21-top limiting plate; 22-second middle baffle;

23-second side dam; 24-second upper anti-run barb;

3-W type bridge cut-off aluminum profile; 31-bridge cut-off bottom;

32-third middle baffle; 33-third side baffle;

34-third lower anti-run barb; 4-M type bridge cut-off aluminium section bar;

41-bridge cut-off top; 42-fourth middle baffle;

43-fourth side baffle; 44-fourth Upper anti-slip barb

100-U-shaped glass; 101-PVC components;

102-cavity.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1-4, the U-shaped glass mounting assembly according to the present invention includes a W-shaped aluminum profile 1, an M-shaped aluminum profile 2, a W-shaped bridge-cut aluminum profile 3, and an M-shaped bridge-cut aluminum profile 4, wherein the W-shaped aluminum profile 1 and the W-shaped bridge-cut aluminum profile 3 are disposed between a U-shaped glass 100 to be mounted and a lower end side of a mounting frame, and the M-shaped aluminum profile 2 and the M-shaped bridge-cut aluminum profile 4 are disposed between the U-shaped glass 100 to be mounted and an upper end side and two side edges of the mounting frame.

Referring to fig. 1, the W-shaped aluminum profile 1 includes a bottom limiting plate 11, a first middle baffle 12 vertically disposed at a central position of the bottom limiting plate 11, and first side baffles 13 vertically disposed at two side edges of the bottom limiting plate 11; two sides of two first side shields 13 that are close to baffle 12 in the first of W type aluminium alloy 1, and be equipped with first anticreep barb 14 down on the inside wall of two first side shields 13 respectively.

Referring to fig. 2, the M-shaped aluminum profile 2 includes a top limiting plate 21, a second middle baffle 22 vertically disposed at the center of the top limiting plate 21, and second side baffles 23 vertically disposed at two side edges of the top limiting plate 21; two sides that baffle 22 is close to two second side shields 23 in M type aluminium alloy 2's the second, and two be equipped with anticreep barb 24 on the second on the inside wall of second side shield 23 respectively.

Referring to fig. 3, the W-shaped bridge-cut-off aluminum profile 3 includes a bridge-cut-off bottom 31, a third middle baffle 32 vertically disposed at the center of the bridge-cut-off bottom 31, and third side baffles 33 vertically disposed at two sides of the bridge-cut-off bottom 31; and the third middle baffle 32 of the W-shaped bridge-cut-off aluminum profile 3 is close to two sides of the third side baffle 33 and the inner walls of the two third side baffles 33 are respectively provided with a third lower anti-falling barb 34.

Referring to fig. 4, the M-shaped bridge-cut aluminum profile 4 includes a bridge-cut top 41, a fourth middle baffle 42 vertically disposed at the center of the bridge-cut top 41, and fourth side baffles 43 vertically disposed at two sides of the bridge-cut top 41. The fourth middle baffle 42 of the M-shaped bridge-cut aluminum profile 4 is close to two sides of the two fourth side baffles 43, and the inner side walls of the two fourth side baffles 43 are respectively provided with a fourth upper anti-falling barb 44.

Referring to fig. 5-6, in order to provide a double-layer installation structure for installation by using the above U-shaped glass installation assembly, two layers of U-shaped glass 100 are disposed between a W-shaped aluminum profile 1 at the lower end of an installation frame and an M-shaped aluminum profile 2 at the upper end of the installation frame, wherein the ends of the U-shaped glass 100 at the inner layer are respectively disposed in an installation slot formed by a first middle baffle 12 and one of the first side baffles 13 of the W-shaped aluminum profile 1 and an installation slot formed by a second middle baffle 22 and one of the second side baffles 23 of the M-shaped aluminum profile 2; the ends of the outer layer of U-shaped glass 100 are respectively placed in the mounting clamping grooves formed by the first middle baffle plate 12 and the other first side baffle plate 13 of the W-shaped aluminum profile 1 and the mounting clamping grooves formed by the second middle baffle plate 22 and the other second side baffle plate 23 of the M-shaped aluminum profile 2.

In the double-layer mounting structure, the left and right ends of a plurality of groups of buckled U-shaped glass 100 which are arranged in parallel are simultaneously provided with corresponding M-shaped aluminum profiles 2, and PVC components 101 are arranged among the U-shaped glass 100, the W-shaped aluminum profiles 1 and the M-shaped aluminum profiles 2; two layers of U-shaped glass 100 form a cavity 102 for placing functional materials.

It is thus clear that this double-deck mounting structure uses M type aluminium alloy and W type aluminium alloy, and PVC fixes two-layer U type glass about the installation of two sets of individual layers, can show the volume of cavity in the original U glass curtain wall mounting means of increase, can strengthen the curtain heat-proof quality to a certain extent, can strengthen the curtain sound-proof quality to a certain extent. Furthermore, the cavity is filled with a heat insulation material, so that the heat insulation performance of the curtain wall can be obviously enhanced. Furthermore, the cavity is filled with fireproof materials, so that the fireproof performance of the curtain wall can be obviously enhanced. Furthermore, the sound insulation material is filled in the cavity, so that the sound insulation performance of the curtain wall can be obviously enhanced. Furthermore, the cavity is filled with coloring materials, so that the appearance effect of the curtain wall can be effectively changed.

Referring to fig. 7-8, in order to provide a three-layer mounting structure for mounting by using the above U-shaped glass mounting assembly, three layers of U-shaped glass 100 are provided between a W-shaped bridge-cut-off aluminum profile 3 at the lower end of a frame to be mounted and an M-shaped bridge-cut-off aluminum profile 4 at the upper end of the frame, wherein the ends of a pair of U-shaped glass 100 are respectively disposed in a mounting groove formed by a third middle baffle 32 and one of third side baffles 33 of the W-shaped bridge-cut-off aluminum profile 3 and a mounting groove formed by a fourth middle baffle 42 and one of fourth side baffles 43 of the M-shaped bridge-cut-off aluminum profile 4; the end parts of the third U-shaped glass 100 are respectively placed in the mounting slot formed by the third middle baffle 32 and the other third side baffle 33 of the W-shaped bridge-cut aluminum profile 3 and the mounting slot formed by the fourth middle baffle 42 and the other fourth side baffle 43 of the M-shaped bridge-cut aluminum profile 4.

In the three-layer mounting structure, M-shaped bridge-cut-off aluminum profiles 4 are respectively arranged on the left side and the right side of the mounting structure formed by connecting a plurality of groups of three-layer U-shaped glass in parallel or in a staggered manner, PVC components 101 are arranged between the U-shaped glass 100 and the W-shaped bridge-cut-off aluminum profiles 3 and between the M-shaped bridge-cut-off aluminum profiles 4, and a cavity 102 for placing functional materials is formed between a pair of buckled U-shaped glass 100.

It is thus clear that this three-layer mounting structure uses M type bridge cut-off aluminium alloy and W type bridge cut-off aluminium alloy, and PVC fixes three-layer U type glass about PVC and a set of individual layer installation about the installation about a set of double-deck installation, can increase the volume in the cavity in the original U glass curtain wall mounting means to a certain extent, can strengthen the curtain heat-proof quality to a certain extent, can strengthen the curtain sound-proof quality to a certain extent. Furthermore, when the newly added third layer of U-shaped glass adopts the U-shaped glass plated with the Low-e film, the heat insulation performance of the curtain wall can be obviously enhanced. Furthermore, when the newly added third layer of U-shaped glass adopts U-shaped glass coated with the sun-shading film, the sun-shading performance of the curtain wall can be obviously enhanced. Furthermore, the cavity is filled with a heat insulation material, so that the heat insulation performance of the curtain wall can be obviously enhanced. Furthermore, the cavity is filled with fireproof materials, so that the fireproof performance of the curtain wall can be obviously enhanced. Furthermore, the sound insulation material is filled in the cavity, so that the sound insulation performance of the curtain wall can be obviously enhanced. Furthermore, the cavity is filled with coloring materials, so that the appearance effect of the curtain wall can be effectively changed.

Referring to fig. 9-10, for the four-layer installation structure for installing the U-shaped glass installation component of the present invention, two pairs of buckled double-layer U-shaped glass 100 are disposed between the W-shaped bridge-cut-off aluminum profile 3 at the lower end of the frame to be installed and the M-shaped bridge-cut-off aluminum profile 4 at the upper end of the frame, wherein the ends of the pair of buckled double-layer U-shaped glass 100 are respectively disposed in the installation slot formed by the third middle baffle 32 and one of the third side baffles 33 of the W-shaped bridge-cut-off aluminum profile 3 and the installation slot formed by the fourth middle baffle 42 and one of the fourth side baffles 43 of the M-shaped bridge-cut-off aluminum profile 4; the ends of the other pair of buckled U-shaped glass 100 are respectively arranged in the mounting clamping groove formed by the third middle baffle 32 and the other third side baffle 33 of the W-shaped bridge-cut-off aluminum profile 3 and the mounting clamping groove formed by the fourth middle baffle 42 and the other fourth side baffle 43 of the M-shaped bridge-cut-off aluminum profile 4.

In the four-layer mounting structure, the left side and the right side of the four-layer mounting structure formed by the two pairs of U-shaped glass of a plurality of groups are parallel or connected in a staggered manner, the M-shaped broken bridge aluminum profiles 4 are respectively arranged on the left side and the right side of the four-layer mounting structure formed by the two pairs of U-shaped glass, PVC components 101 are arranged between the U-shaped glass 100 and the W-shaped broken bridge aluminum profiles 3 and between the M-shaped broken bridge aluminum profiles 4, and cavities 102 used for placing functional materials are respectively formed between the two pairs of U-shaped glass 100 which are buckled.

It is thus clear that this four layers mounting structure uses M type bridge cut-off aluminium alloy and W type bridge cut-off aluminium alloy, cooperates two sets of double-deck fixed four layers of U type glass of installation PVC, can increase the volume in the cavity in the original U glass curtain wall mounting means of certain degree, can show reinforcing curtain heat-proof quality, can show reinforcing curtain sound-proof properties. Furthermore, when the newly added fourth layer of U-shaped glass adopts the U-shaped glass plated with the Low-e film, the heat insulation performance of the curtain wall can be obviously enhanced. Furthermore, when the newly added fourth layer of U-shaped glass adopts U-shaped glass coated with the sun-shading film, the sun-shading performance of the curtain wall can be obviously enhanced. Furthermore, the cavity is filled with a heat insulation material, so that the heat insulation performance of the curtain wall can be obviously enhanced. Furthermore, the cavity is filled with fireproof materials, so that the fireproof performance of the curtain wall can be obviously enhanced. Furthermore, the sound insulation material is filled in the cavity, so that the sound insulation performance of the curtain wall can be obviously enhanced. Furthermore, the cavity is filled with coloring materials, so that the appearance effect of the curtain wall can be effectively changed.

Therefore, the novel installation assembly is added, the size of the inner cavity of the U-shaped glass curtain wall can be enlarged, the double-layer single cavity can be expanded into three layers of double cavities, and the functionality of the U-shaped glass curtain wall can be effectively improved by matching with U-shaped glass or functional materials with certain functionality. When the curtain wall has higher heat insulation requirements, the installation mode of the utility model can enhance the heat insulation performance. When the curtain wall has fire protection requirements, the installation mode of the utility model can enhance the fire protection performance of the curtain wall. When the curtain wall has the requirements of sound insulation or sun shading, the installation mode of the utility model can also meet the performance requirements of sound insulation or sun shading.

In the previous description, numerous specific details were set forth in order to provide a thorough understanding of the present invention. The foregoing description is only a preferred embodiment of the utility model, which can be embodied in many different forms than described herein, and therefore the utility model is not limited to the specific embodiments disclosed above. And that those skilled in the art may, using the methods and techniques disclosed above, make numerous possible variations and modifications to the disclosed embodiments, or modify equivalents thereof, without departing from the scope of the claimed embodiments. Any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention are within the scope of the technical solution of the present invention.

Claims (9)

1. A U type glass installation component which characterized in that: comprises a W-shaped aluminum profile (1), an M-shaped aluminum profile (2), a W-shaped bridge-cut-off aluminum profile (3) and an M-shaped bridge-cut-off aluminum profile (4), wherein the W-shaped aluminum profile (1) and the W-shaped bridge-cut-off aluminum profile (3) are arranged between the lower end side edges of U-shaped glass (100) to be installed and an installation frame, the M-shaped aluminum profile (2) and the M-shaped bridge-cut-off aluminum profile (4) are arranged between the upper end side edges and the two side edges of the U-shaped glass (100) to be installed and the installation frame,

the W-shaped aluminum profile (1) comprises a bottom limiting plate (11), a first middle baffle (12) and first side baffles (13), wherein the first middle baffle (12) is vertically arranged at the center of the bottom limiting plate (11), and the first side baffles (13) are vertically arranged on two side edges of the bottom limiting plate (11);

the M-shaped aluminum profile (2) comprises a top limiting plate (21), a second middle baffle (22) vertically arranged at the center of the top limiting plate (21) and second side baffles (23) vertically arranged at two side edges of the top limiting plate (21);

the W-shaped bridge cut-off aluminum profile (3) comprises a bridge cut-off bottom (31), a third middle baffle (32) vertically arranged at the center of the bridge cut-off bottom (31), and third side baffles (33) vertically arranged at two side edges of the bridge cut-off bottom (31);

the M-shaped bridge cut-off aluminum profile (4) comprises a bridge cut-off top (41), a fourth middle baffle (42) vertically arranged at the center of the bridge cut-off top (41), and a fourth side baffle (43) vertically arranged at two side edges of the bridge cut-off top (41).

2. A U-glass mounting assembly according to claim 1 wherein: a first middle baffle (12) of the W-shaped aluminum profile (1) is close to two side edges of the two first side baffles (13), and the inner side walls of the two first side baffles (13) are respectively provided with a first lower anti-falling barb (14);

baffle (32) are close to two in the third of W type bridge cut-off aluminium alloy (3) two of third side shield (33) two sides, and two be equipped with third anticreep barb (34) down on the inner wall of third side shield (33) respectively.

3. A U-glass mounting assembly according to claim 1 wherein: a second middle baffle (22) of the M-shaped aluminum profile (2) is close to two side edges of the two second side baffles (23), and second upper anti-falling barbs (24) are respectively arranged on the inner side walls of the two second side baffles (23);

and fourth middle baffles (42) of the M-shaped bridge-cut-off aluminum profile (4) are close to two side edges of the two fourth side baffles (43), and fourth upper anti-falling barbs (44) are respectively arranged on the inner side walls of the two fourth side baffles (43).

4. A double-glazing installation structure for installation using the U-shaped glazing assembly of any one of claims 1 to 3, wherein: two layers of buckled U-shaped glass (100) are arranged between a W-shaped aluminum profile (1) at the lower end and an M-shaped aluminum profile (2) at the upper end of a frame to be installed, wherein,

the end parts of the U-shaped glass (100) on the inner layer are respectively arranged in an installation clamping groove formed by a first middle baffle (12) and one of the first side baffles (13) of the W-shaped aluminum profile (1) and an installation clamping groove formed by a second middle baffle (22) and one of the second side baffles (23) of the M-shaped aluminum profile (2);

the end parts of the outer layer U-shaped glass (100) are respectively arranged in an installation clamping groove formed by a first middle baffle (12) and another first side baffle (13) of the W-shaped aluminum section (1) and an installation clamping groove formed by a second middle baffle (22) and another second side baffle (23) of the M-shaped aluminum section (2).

5. The double-deck mounting structure of claim 4, wherein:

the left end and the right end of the U-shaped glass (100) which are arranged in parallel are provided with corresponding M-shaped aluminum profiles (2) at the same time, and PVC components (101) are arranged among the U-shaped glass (100), the W-shaped aluminum profiles (1) and the M-shaped aluminum profiles (2); a cavity (102) for placing functional materials is formed between the two layers of U-shaped glass (100).

6. A triple-layer mounting structure mounted using the U-glass mounting assembly of any one of claims 1 to 3, wherein: three layers of buckled U-shaped glass (100) are arranged between a W-shaped bridge-cut aluminum profile (3) at the lower end of the frame to be installed and an M-shaped bridge-cut aluminum profile (4) at the upper end of the frame, wherein,

the end parts of a pair of buckled U-shaped glass (100) are respectively arranged in an installation clamping groove formed by a third middle baffle (32) and one third side baffle (33) of the W-shaped bridge-cut-off aluminum profile (3) and an installation clamping groove formed by a fourth middle baffle (42) and one fourth side baffle (43) of the M-shaped bridge-cut-off aluminum profile (4);

the end parts of the third U-shaped glass (100) are respectively arranged in an installation clamping groove formed by a third middle baffle (32) and another third side baffle (33) of the W-shaped bridge-cut-off aluminum profile (3) and an installation clamping groove formed by a fourth middle baffle (42) and another fourth side baffle (43) of the M-shaped bridge-cut-off aluminum profile (4).

7. The three-layer mounting structure of claim 6, wherein:

the left and right sides that the mounting structure that three-layer U type glass of a plurality of groups parallels or the staggered connection formed is equipped with respectively M type bridge cut-off aluminium alloy (4), be equipped with PVC subassembly (101) between U type glass (100) and W type bridge cut-off aluminium alloy (3) and M type bridge cut-off aluminium alloy (4), form cavity (102) that are used for placing functional material between a pair of U type glass (100) of butt joint.

8. A four-layer mounting structure for mounting using the U-glass mounting assembly of any one of claims 1 to 3, wherein: two pairs of buckled double-layer U-shaped glass (100) are arranged between a W-shaped bridge-cut aluminum profile (3) at the lower end of the frame to be installed and an M-shaped bridge-cut aluminum profile (4) at the upper end of the frame, wherein,

the end parts of a pair of buckled U-shaped glass (100) are respectively arranged in an installation clamping groove formed by a third middle baffle (32) and one third side baffle (33) of the W-shaped bridge-cut-off aluminum profile (3) and an installation clamping groove formed by a fourth middle baffle (42) and one fourth side baffle (43) of the M-shaped bridge-cut-off aluminum profile (4);

the end parts of the other pair of buckled U-shaped glass (100) are respectively arranged in an installation clamping groove formed by a third middle baffle (32) and another third side baffle (33) of the W-shaped bridge-cut-off aluminum section bar (3) and an installation clamping groove formed by a fourth middle baffle (42) and another fourth side baffle (43) of the M-shaped bridge-cut-off aluminum section bar (4).

9. The four-layer mounting structure of claim 8, wherein:

the left and right sides that four layers of mounting structure that two pairs of U type glass of a plurality of groups formed parallels or the staggered connection formed is equipped with respectively M type bridge cut-off aluminium alloy (4), be equipped with PVC subassembly (101) between U type glass (100) and W type bridge cut-off aluminium alloy (3) and M type bridge cut-off aluminium alloy (4), form respectively between two pairs of U type glass (100) of butt joint and be used for placing cavity (102) of functional material.

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