CN114541947A

CN114541947A - Sound-insulation anti-cracking outer window with assembled structure for ultralow-energy-consumption building

Info

Publication number: CN114541947A
Application number: CN202111575733.4A
Authority: CN
Inventors: 李海生; 于海洋; 亓群; 杨迎春; 高旭林; 贾国行; 吴金栩; 王勇; 郑文涛
Original assignee: Ronghua Intelligent Integrated Construction Technology Co ltd
Current assignee: Ronghua Intelligent Integrated Construction Technology Co ltd
Priority date: 2021-12-22
Filing date: 2021-12-22
Publication date: 2022-05-27

Abstract

The invention discloses an assembled structure sound-insulation anti-cracking outer window for a building with ultralow energy consumption, which comprises a window frame and glass, wherein the window frame is formed by connecting a plurality of window frame units end to end, each window frame unit is formed by a peripheral section, an inner cladding section I, an inner cladding section II, a limiting support section I, a limiting support section II, a pre-tightening section, a glass clamping section I and a glass clamping section II, the glass is formed by a glass body and an outer cladding frame, and the glass body is formed by a toughened glass outer layer, a toughened glass middle layer and a toughened glass inner layer. Has the advantages that: make this window be convenient for assemble to it is rational in infrastructure, connect closely, can reduce the whole weight of window frame, do not influence the bulk strength of window frame simultaneously, make the window frame have thermal-insulated fire prevention and noise control's effect, adopt the design of two-layer vacuum layer to effectively improve glass's noise control performance, the glass that constitutes through glass body and outer cladding frame can effectively avoid glass's breakage, improves the wholeness ability of window.

Description

Assembled structure sound-insulation anti-cracking outer window for ultralow-energy-consumption building

Technical Field

The invention relates to the technical field of windows, in particular to an assembled structure sound-insulation anti-cracking outer window for an ultra-low energy consumption building.

Background

With the issuance of new central 'practical, economic, green and beautiful' guidelines, in order to improve the indoor environment of buildings, improve the energy utilization efficiency, improve the building quality and life, and guide the buildings to continuously improve the energy-saving level, the ultra-low energy consumption, near-zero energy consumption and zero energy consumption become the development trend of future green buildings. In the ultra-low energy consumption building, the heat preservation performance, the air tightness and the heat bridge free of the external window are important technical measures for realizing the ultra-low energy consumption building. But current exterior window structure wholeness can not be good, and window frame weight is great, the assembly of being not convenient for, and the window frame does not have thermal-insulated noise insulation performance simultaneously, and toughened glass's whole anti-fracture performance is not good in addition, and use experience is not good.

An effective solution to the problems in the related art has not been proposed yet.

Disclosure of Invention

Aiming at the problems in the related art, the invention provides an assembled structure sound-insulation anti-cracking outer window for an ultra-low energy consumption building, which aims to overcome the technical problems in the prior related art.

Therefore, the invention adopts the following specific technical scheme:

an assembled structure sound-insulation anti-cracking outer window for an ultra-low energy consumption building comprises a window frame and glass, wherein the glass is positioned inside the window frame, the window frame is formed by connecting a plurality of window frame units end to end, each window frame unit comprises a peripheral profile, an inner coating profile I, an inner coating profile II, a limiting support profile I, a limiting support profile II, a pre-tightening profile, a glass clamping profile I and a glass clamping profile II, the inner coating profile I and the inner coating profile II are respectively positioned at two sides inside the peripheral profile, the limiting support profile I and the limiting support profile II are respectively connected at two ends between the inner coating profile I and the inner coating profile II, the pre-tightening profile is connected between the limiting support profile II and the inner coating profile I and the inner coating profile II, the glass clamping profile I is positioned between the inner coating profile I and the peripheral profile, the glass clamping section bar II is located between the inner cladding section bar II and the peripheral section bar, the glass is composed of a glass body and an outer cladding frame, the outer cladding frame is located on the side edge of the glass body, the glass body is composed of a toughened glass outer layer, a toughened glass middle layer and a toughened glass inner layer, a first vacuum layer is formed between the toughened glass outer layer and the toughened glass middle layer, and a second vacuum layer is formed between the toughened glass middle layer and the toughened glass inner layer.

Furthermore, an inner heat insulation fireproof layer is arranged among the inner coating profile I, the inner coating profile II, the limiting support profile I and the limiting support profile II, and a honeycomb sound insulation layer is arranged inside the inner heat insulation fireproof layer.

Furthermore, peripheral section bar comprises peripheral frame, first buckle section, second buckle section, third buckle section and fourth buckle section, first buckle section with the second buckle section is located the both ends of the inside one side of peripheral frame, third buckle section with the fourth buckle section is located the both ends of the inside opposite side of peripheral frame.

Furthermore, the first inner coating section bar and the second inner coating section bar are respectively composed of a U-shaped frame, a first elastic chuck and a second elastic chuck, the first elastic chuck is fixedly connected to one end of the U-shaped frame, and the second elastic chuck is fixedly connected to the other end of the U-shaped frame.

Furthermore, the first limiting support section bar and the second limiting support section bar are both composed of a linear clamping plate, a first limiting clamping head and a second limiting clamping head, and the first limiting clamping head and the second limiting clamping head are respectively located at two ends of the linear clamping plate.

Furthermore, the pre-tightening section bar is composed of a pre-tightening plate, a pre-tightening chuck I and a pre-tightening chuck II, and the pre-tightening chuck I and the pre-tightening chuck II are respectively positioned at two ends of the pre-tightening plate.

Furthermore, the first glass clamping section bar and the second glass clamping section bar are respectively composed of a special-shaped holding block and a silica gel chuck, and the silica gel chuck is fixedly connected to one side of the special-shaped holding block.

Furthermore, sealing rubber strips and PVC frame bodies are arranged on the side edges between the outer layer of the toughened glass and the middle layer of the toughened glass and between the middle layer of the toughened glass and the inner layer of the toughened glass, and the PVC frame bodies are located on the inner sides of the sealing rubber strips.

Furthermore, the inside of the PVC frame body is filled with a molecular sieve drying agent, one side of the PVC frame body, which is far away from the sealing rubber strip, is provided with a plurality of micropores, and the outer edge of the glass body is of a round angle structure.

Furthermore, outer cladding frame comprises U type cladding frame and spacing card strip, spacing card strip is located the intermediate position of U type cladding frame one side, the inside wall of U type cladding frame be provided with glass body assorted seal gasket, the top and the bottom of U type cladding frame all be provided with the spacing draw-in groove of silica gel dop assorted arc.

The invention has the beneficial effects that: by arranging the ultra-low energy consumption sound-insulation anti-cracking outer window with the assembly type structure for the building, which is composed of a window frame, glass, a peripheral section bar, an inner cladding section bar I, an inner cladding section bar II, a limiting supporting section bar I, a limiting supporting section bar II, a pre-tightening section bar, a glass clamping section bar I, a glass clamping section bar II, a glass body, an outer cladding frame, a toughened glass outer layer, a toughened glass middle layer, a toughened glass inner layer, a first vacuum layer and a second vacuum layer, thereby the window is convenient to assemble, has reasonable structure and tight connection, can reduce the whole weight of the window frame, simultaneously, the whole strength of the window frame is not influenced, so that the window frame has the effects of heat insulation, fire prevention and noise prevention, the noise prevention performance of the glass is effectively improved by adopting the design of two vacuum layers, the glass formed by the glass body and the outer cladding frame can effectively avoid the breakage of the glass and improve the overall performance of the window.

Drawings

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

Fig. 1 is a schematic structural view of an assembled structure soundproof and crack resistant outer window for ultra-low energy consumption construction according to an embodiment of the present invention;

FIG. 2 is a partial cross-sectional view of an ultra low energy consumption fabricated structural acoustical insulation rupture resistant exterior window for a building according to an embodiment of the present invention;

fig. 3 is a sectional view of a sash unit of an outer window for soundproof and breakage-proof of a fabricated structure for ultra-low power consumption construction according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of an assembled sound-insulating and fracture-preventing exterior window surrounding profile for an ultra-low energy consumption building according to an embodiment of the invention;

FIG. 5 is a schematic view illustrating an inner cladding profile structure of an assembled structure soundproof and crack-resistant outer window for ultra-low energy consumption construction according to an embodiment of the present invention;

FIG. 6 is a schematic structural view of a spacing support profile of an external window for soundproof and crack-proof of a fabricated structure for ultra-low energy consumption architecture according to an embodiment of the present invention;

FIG. 7 is a schematic view of a pre-fastened profile structure of an outer window for soundproof and crack-proof of fabricated structure for ultra-low energy consumption construction according to an embodiment of the present invention;

FIG. 8 is a schematic view illustrating a glass fastening profile structure of an external window for soundproof and crack-resistant assembly structure for ultra-low energy consumption architecture according to an embodiment of the present invention;

FIG. 9 is a partial structural view of glass of an ultra low energy building fabricated structure sound insulating and breakage preventing outer window according to an embodiment of the present invention;

FIG. 10 is a partial structural view of a glass body of an outer window for sound insulation and crack prevention of a fabricated structure for an ultra-low energy consumption building according to an embodiment of the present invention;

FIG. 11 is an enlarged view of a portion of FIG. 10 at A;

fig. 12 is a partial structural view of an outer covering frame of an assembled structure soundproof and crack-proof outer window for ultra-low energy consumption building according to an embodiment of the present invention.

In the figure:

1. a window frame; 2. glass; 3. a window frame unit; 4. a peripheral profile; 5. the first section bar is coated inside; 6. the inner cladding section bar II; 7. limiting and supporting the first section bar; 8. a second limiting support section bar; 9. pre-tightening the section; 10. clamping the first glass clamping section; 11. a second glass clamping section; 12. a glass body; 13. wrapping the frame; 14. an outer layer of toughened glass; 15. a middle layer of toughened glass; 16. an inner layer of toughened glass; 17. a first vacuum layer; 18. a second vacuum layer; 19. an inner heat insulation fireproof layer; 20. a honeycomb sound insulation layer; 21. a peripheral frame; 22. a first snap section; 23. a second snap section; 24. a third snap section; 25. a fourth snap section; 26. a U-shaped frame; 27. a first elastic chuck; 28. a second elastic chuck; 29. a straight line snap gauge; 30. a first limit chuck; 31. a second limit chuck; 32. pre-tightening the plate; 33. pre-tightening the first clamping head; 34. pre-tightening the chuck II; 35. a special-shaped holding block; 36. a silica gel chuck; 37. sealing rubber strips; 38. a PVC frame body; 39. a molecular sieve desiccant; 40. micropores; 41. a U-shaped cladding frame; 42. limiting clamping strips; 43. sealing gaskets; 44. arc spacing draw-in groove.

Detailed Description

For further explanation of the various embodiments, the drawings which form a part of the disclosure and which are incorporated in and constitute a part of this specification, illustrate embodiments and, together with the description, serve to explain the principles of operation of the embodiments, and to enable others of ordinary skill in the art to understand the various embodiments and advantages of the invention, and, by reference to these figures, reference is made to the accompanying drawings, which are not to scale and wherein like reference numerals generally refer to like elements.

According to an embodiment of the present invention, there is provided an assembled structure soundproof and crack resistant outer window for ultra-low energy consumption building.

The first embodiment is as follows:

as shown in fig. 1 to 12, the assembled sound-insulating and anti-cracking outer window for an ultra-low energy consumption building according to the embodiment of the invention includes a window frame 1 and a glass 2, the glass 2 is located inside the window frame 1, the window frame 1 is formed by connecting a plurality of window frame units 3 end to end, the window frame units 3 are formed by a peripheral profile 4, an inner cladding profile 5, an inner cladding profile 6, a spacing support profile 7, a spacing support profile 8, a pre-tightening profile 9, a glass clamping profile 10 and a glass clamping profile 11, the inner cladding profile 5 and the inner cladding profile 6 are respectively located at two sides inside the peripheral profile 4, the spacing support profile 7 and the spacing support profile 8 are respectively connected to two ends between the inner cladding profile 5 and the inner cladding profile 6, the pre-tightening profile 9 is connected to the spacing support profile 8, the inner cladding profile 5 and the inner cladding profile 6 The glass clamping section bar I10 is located between the inner cladding section bar I5 and the peripheral section bar 4, the glass clamping section bar II 11 is located between the inner cladding section bar II 6 and the peripheral section bar 4, the glass 2 is composed of a glass body 12 and an outer cladding frame 13, the outer cladding frame 13 is located on the side edge of the glass body 12, the glass body 12 is composed of a toughened glass outer layer 14, a toughened glass middle layer 15 and a toughened glass inner layer 16, a first vacuum layer 17 is formed between the toughened glass outer layer 14 and the toughened glass middle layer 15, and a second vacuum layer 18 is formed between the toughened glass middle layer 15 and the toughened glass inner layer 16.

By means of the technical scheme, the assembled-type structure sound-insulation and breakage-prevention outer window for the ultra-low energy consumption building is formed by the window frame 1, the glass 2, the peripheral section bar 4, the inner cladding section bar 5, the inner cladding section bar two 6, the limiting support section bar one 7, the limiting support section bar two 8, the pre-tightening section bar 9, the glass clamping section bar one 10, the glass clamping section bar two 11, the glass body 12, the outer cladding frame 13, the toughened glass outer layer 14, the toughened glass middle layer 15, the toughened glass inner layer 16, the first vacuum layer 17 and the second vacuum layer 18, so that the window is convenient to assemble, reasonable in structure and tight in connection, the whole weight of the window frame can be reduced, the whole strength of the window frame is not influenced, the window frame has the effects of heat insulation, fire prevention and noise prevention, the noise prevention performance of the glass is effectively improved by adopting the design of the two vacuum layers, and the glass formed by the glass body and the outer cladding frame can effectively avoid the breakage of the glass, the overall performance of the window is improved.

Example two:

as shown in fig. 1 to 12, the glass 2 is located inside the window frame 1, the window frame 1 is formed by connecting a plurality of window frame units 3 end to end, each window frame unit 3 is formed by a peripheral profile 4, an inner cladding profile 5, an inner cladding profile 6, a limiting support profile 7, a limiting support profile 8, a pre-tightening profile 9, a glass clamping profile 10 and a glass clamping profile 11, the inner cladding profile 5 and the inner cladding profile 6 are respectively located at two sides inside the peripheral profile 4, the limiting support profile 7 and the limiting support profile 8 are respectively connected to two ends between the inner cladding profile 5 and the inner cladding profile 6, the pre-tightening profile 9 is connected between the limiting support profile 8 and the inner cladding profile 5 and the inner cladding profile 6, the glass clamping profile 10 is located between the inner cladding profile 5 and the peripheral profile 4, the glass clamping section bar II 11 is located between the inner cladding section bar II 6 and the peripheral section bar 4, the glass 2 is composed of a glass body 12 and an outer cladding frame 13, the outer cladding frame 13 is located on the side edge of the glass body 12, the glass body 12 is composed of a toughened glass outer layer 14, a toughened glass middle layer 15 and a toughened glass inner layer 16, a first vacuum layer 17 is formed between the toughened glass outer layer 14 and the toughened glass middle layer 15, a second vacuum layer 18 is formed between the toughened glass middle layer 15 and the toughened glass inner layer 16, an inner heat insulation fireproof layer 19 is arranged between the inner cladding section bar I5, the inner cladding section bar II 6, the limiting support section bar I7 and the limiting support section bar II 8, a honeycomb fireproof layer 20 is arranged inside the inner heat insulation layer 19, and the peripheral section bar 4 is composed of an outer cladding frame 21, a first buckle section 22 and a fireproof layer 19, The first buckling section 22 and the second buckling section 23 are located at two ends of one side inside the peripheral frame 21, the third buckling section 24 and the fourth buckling section 25 are located at two ends of the other side inside the peripheral frame 21, the first inner cladding profile 5 and the second inner cladding profile 6 are both composed of a U-shaped frame 26, a first elastic chuck 27 and a second elastic chuck 28, the first elastic chuck 27 is fixedly connected to one end of the U-shaped frame 26, the second elastic chuck 28 is fixedly connected to the other end of the U-shaped frame 26, the first limiting support profile 7 and the second limiting support profile 8 are both composed of a linear clamping plate 29, a first limiting chuck 30 and a second limiting chuck 31, the first limiting chuck 30 and the second limiting chuck 31 are respectively located at two ends of the linear clamping plate 29, the pre-tightening section 9 is composed of a pre-tightening plate 32, a first pre-tightening chuck 33 and a second pre-tightening chuck 34, the first pre-tightening chuck 33 and the second pre-tightening chuck 34 are respectively located at two ends of the pre-tightening plate 32, the first glass clamping section 10 and the second glass clamping section 11 are composed of a special-shaped holding block 35 and a silica gel chuck 36, and the silica gel chuck 36 is fixedly connected to one side of the special-shaped holding block 35.

Example three:

as shown in fig. 1 to 12, the glass 2 is located inside the window frame 1, the window frame 1 is formed by connecting a plurality of window frame units 3 end to end, each window frame unit 3 is formed by a peripheral profile 4, an inner cladding profile 5, an inner cladding profile 6, a limiting support profile 7, a limiting support profile 8, a pre-tightening profile 9, a glass clamping profile 10 and a glass clamping profile 11, the inner cladding profile 5 and the inner cladding profile 6 are respectively located at two sides inside the peripheral profile 4, the limiting support profile 7 and the limiting support profile 8 are respectively connected to two ends between the inner cladding profile 5 and the inner cladding profile 6, the pre-tightening profile 9 is connected between the limiting support profile 8 and the inner cladding profile 5 and the inner cladding profile 6, the glass clamping profile 10 is located between the inner cladding profile 5 and the peripheral profile 4, the second glass clamping section bar 11 is positioned between the second inner cladding section bar 6 and the peripheral section bar 4, the glass 2 is composed of a glass body 12 and an outer cladding frame 13, the outer cladding frame 13 is positioned on the side edge of the glass body 12, the glass body 12 is composed of an outer toughened glass layer 14, a middle toughened glass layer 15 and an inner toughened glass layer 16, a first vacuum layer 17 is formed between the outer toughened glass layer 14 and the middle toughened glass layer 15, a second vacuum layer 18 is formed between the middle toughened glass layer 15 and the inner toughened glass layer 16, sealing rubber strips 37 and PVC frame bodies 38 are arranged on the side edges between the outer toughened glass layer 14 and the middle toughened glass layer 15 and between the middle toughened glass layer 15 and the inner toughened glass layer 16, the PVC frame bodies 38 are positioned on the inner sides of the sealing rubber strips 37, and molecular sieve drying agents 39 are filled in the PVC frame bodies 38, the PVC frame body 38 is far away from one side of joint strip 37 and is seted up a plurality of micropores 40, the outward flange of glass body 12 is the fillet structure, outer cladding frame 13 comprises U type cladding frame 41 and spacing card strip 42, spacing card strip 42 is located the intermediate position of U type cladding frame 41 one side, the inside wall of U type cladding frame 41 be provided with glass body 12 assorted seal gasket 43, the top and the bottom of U type cladding frame 41 all be provided with the spacing draw-in groove 44 of silica gel dop 36 assorted arc.

The working principle is as follows: the peripheral section 4, the inner cladding section I5, the inner cladding section II 6, the limiting support section I7, the limiting support section II 8, the pre-tightening section 9, the glass clamping section I10 and the glass clamping section II 11 are assembled to form the window frame unit 3, then the window frame unit 3 is fixedly connected end to form the window frame 1, the fireproof, heat insulation and sound insulation performance of the window frame 1 can be improved through the inner heat insulation and fire protection layer 19 and the honeycomb sound insulation layer 20, the production efficiency and the assembly speed can be improved through the prefabricated assembly of the peripheral section 4, the inner cladding section I5, the inner cladding section II 6, the limiting support section I7, the limiting support section II 8, the pre-tightening section 9, the glass clamping section I10 and the glass clamping section II 11, the window is convenient to assemble, the structure is reasonable, the connection is tight, the whole weight of the window frame can be reduced, and the whole strength of the window frame is not influenced, through the setting on first vacuum layer 17 and second vacuum layer 18 for glass body 12 has better thermal-insulated effect of giving sound insulation, and the outer edges and corners through glass body 12 are the fillet design, and through the cladding of peripheral section bar 4 to glass body 12, can effectively avoid glass to break.

In summary, with the above technical solution of the present invention, by providing the assembled sound-insulation and crack-prevention outer window for ultra-low energy consumption building, which is composed of the window frame 1, the glass 2, the peripheral profile 4, the inner cladding profile one 5, the inner cladding profile two 6, the position-limiting support profile one 7, the position-limiting support profile two 8, the pre-tightening profile 9, the glass clamping profile one 10, the glass clamping profile two 11, the glass body 12, the outer cladding frame 13, the outer toughened glass layer 14, the middle toughened glass layer 15, the inner toughened glass layer 16, the first vacuum layer 17 and the second vacuum layer 18, the window is convenient to assemble, has reasonable structure and tight connection, can reduce the whole weight of the window frame, does not affect the whole strength of the window frame, enables the window frame to have the effects of heat insulation, fire prevention and noise prevention, and adopts the design of two vacuum layers to effectively improve the noise prevention performance of the glass, the glass formed by the glass body and the outer cladding frame can effectively avoid the breakage of the glass and improve the overall performance of the window.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "disposed," "connected," "secured," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides an outer window that ultra-low energy consumption building is with assembled structure sound insulation and is prevented breaking, its characterized in that includes window frame (1) and glass (2), glass (2) are located the inside of window frame (1), window frame (1) comprises a plurality of window frame units (3) end to end, window frame unit (3) comprises peripheral section bar (4), interior cladding section bar (5), interior cladding section bar (6), spacing support section bar (7), spacing support section bar (8), pretension section bar (9), glass chucking section bar (10) and glass chucking section bar (11), interior cladding section bar (5) and interior cladding section bar (6) are located respectively the inside both sides of peripheral section bar (4), spacing support section bar (7) and spacing support section bar (8) connect respectively in the both ends between interior cladding section bar (5) and interior cladding section bar (6), the pre-tightening profile (9) is connected between the limiting support profile II (8) and the inner coating profile I (5) and between the inner coating profile II (6), the glass clamping profile I (10) is located between the inner coating profile I (5) and the peripheral profile (4), the glass clamping profile II (11) is located between the inner coating profile II (6) and the peripheral profile (4), the glass (2) is composed of a glass body (12) and an outer coating frame (13), the outer coating frame (13) is located on the side edge of the glass body (12), the glass body (12) is composed of a tempered glass outer layer (14), a tempered glass middle layer (15) and a tempered glass inner layer (16), a first vacuum layer (17) is formed between the tempered glass outer layer (14) and the tempered glass middle layer (15), and a second vacuum layer (18) is formed between the tempered glass middle layer (15) and the tempered glass inner layer (16) ).

2. The assembled structure sound-insulation and crack-prevention outer window for the ultra-low energy consumption building as claimed in claim 1, wherein an inner heat-insulation fireproof layer (19) is arranged between the first inner coating profile (5), the second inner coating profile (6), the first limit support profile (7) and the second limit support profile (8), and a honeycomb sound-insulation layer (20) is arranged inside the inner heat-insulation fireproof layer (19).

3. The assembled structure soundproof and breakage resistant exterior window for ultra-low energy consumption building as claimed in claim 1, wherein the outer peripheral section bar (4) is composed of an outer peripheral frame (21), a first snap section (22), a second snap section (23), a third snap section (24) and a fourth snap section (25), the first snap section (22) and the second snap section (23) are located at both ends of one side inside the outer peripheral frame (21), and the third snap section (24) and the fourth snap section (25) are located at both ends of the other side inside the outer peripheral frame (21).

4. The assembled structural sound-insulation and crack-prevention external window for ultra-low energy consumption buildings as claimed in claim 1, wherein the first inner cladding profile (5) and the second inner cladding profile (6) are both formed by a U-shaped frame (26), a first elastic clamp (27) and a second elastic clamp (28), the first elastic clamp (27) is fixedly connected to one end of the U-shaped frame (26), and the second elastic clamp (28) is fixedly connected to the other end of the U-shaped frame (26).

5. The external window for soundproof and anti-cracking of fabricated structure for ultra low energy consumption building of claim 1, wherein the first limit support section bar (7) and the second limit support section bar (8) are each composed of a straight line chuck plate (29), a first limit chuck (30) and a second limit chuck (31), the first limit chuck (30) and the second limit chuck (31) being respectively located at both ends of the straight line chuck plate (29).

6. The assembled structure sound-insulation and anti-cracking external window for the ultra-low energy consumption building as claimed in claim 1, wherein the pre-tightening profile (9) is composed of a pre-tightening plate (32), a first pre-tightening chuck (33) and a second pre-tightening chuck (34), and the first pre-tightening chuck (33) and the second pre-tightening chuck (34) are respectively positioned at two ends of the pre-tightening plate (32).

7. The outer window with the sound insulation and the breakage prevention of the fabricated structure for the ultra-low energy consumption building as claimed in claim 1, wherein the first glass clamping section bar (10) and the second glass clamping section bar (11) are both composed of a special-shaped holding block (35) and a silica gel chuck (36), and the silica gel chuck (36) is fixedly connected to one side of the special-shaped holding block (35).

8. The assembled structure sound-insulation and breakage-prevention outer window for the ultra-low energy consumption building as claimed in claim 1, wherein sealing rubber strips (37) and PVC frames (38) are arranged on the side edges between the tempered glass outer layer (14) and the tempered glass middle layer (15) and between the tempered glass middle layer (15) and the tempered glass inner layer (16), and the PVC frames (38) are located on the inner sides of the sealing rubber strips (37).

9. The assembled structure sound-insulation and breakage-prevention outer window for the ultra-low energy consumption building as claimed in claim 8, wherein the interior of the PVC frame body (38) is filled with a molecular sieve desiccant (39), one side of the PVC frame body (38) far away from the sealing rubber strip (37) is provided with a plurality of micropores (40), and the outer edge of the glass body (12) is of a round-angle structure.

10. The outer window with the sound insulation and the breakage prevention of the fabricated structure for the ultra-low energy consumption building as claimed in claim 7, wherein the outer covering frame (13) is composed of a U-shaped covering frame (41) and a limiting clamping strip (42), the limiting clamping strip (42) is located in the middle of one side of the U-shaped covering frame (41), a sealing gasket (43) matched with the glass body (12) is arranged on the inner side wall of the U-shaped covering frame (41), and an arc-shaped limiting clamping groove (44) matched with the silica gel clamping head (36) is arranged at the top end and the bottom end of the U-shaped covering frame (41).