CN219691421U - Sound-insulating energy-saving glass window - Google Patents
Sound-insulating energy-saving glass window Download PDFInfo
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- CN219691421U CN219691421U CN202321018683.4U CN202321018683U CN219691421U CN 219691421 U CN219691421 U CN 219691421U CN 202321018683 U CN202321018683 U CN 202321018683U CN 219691421 U CN219691421 U CN 219691421U
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- 239000011521 glass Substances 0.000 title claims abstract description 58
- 239000005341 toughened glass Substances 0.000 claims abstract description 187
- 238000007789 sealing Methods 0.000 claims abstract description 95
- 238000009413 insulation Methods 0.000 claims abstract description 44
- 239000000565 sealant Substances 0.000 claims description 56
- 229910000838 Al alloy Inorganic materials 0.000 claims description 21
- 239000002274 desiccant Substances 0.000 claims description 11
- 239000004973 liquid crystal related substance Substances 0.000 claims description 6
- 239000000853 adhesive Substances 0.000 claims description 3
- 230000001070 adhesive effect Effects 0.000 claims description 3
- 125000000484 butyl group Chemical group [H]C([*])([H])C([H])([H])C([H])([H])C([H])([H])[H] 0.000 claims description 3
- 239000013464 silicone adhesive Substances 0.000 claims description 3
- 125000006850 spacer group Chemical group 0.000 claims description 3
- 239000011324 bead Substances 0.000 claims description 2
- 230000000694 effects Effects 0.000 description 24
- 230000007613 environmental effect Effects 0.000 description 4
- 238000010521 absorption reaction Methods 0.000 description 1
- 230000003872 anastomosis Effects 0.000 description 1
- 238000013016 damping Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000004134 energy conservation Methods 0.000 description 1
- 239000003292 glue Substances 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000004321 preservation Methods 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
Abstract
The utility model discloses a sound-insulating energy-saving glass window. It comprises a window frame and a window sash; the window frame is provided with a sealing strip I at one side close to the outside, a cushion bridge is arranged in the middle of the window frame, and a sealing plane I is arranged at one side close to the inside; the window sash comprises a window sash frame and a glass component; the window sash frame is provided with a sealing plane II which is in press fit sealing with the sealing strip I at a position corresponding to the window frame sealing strip I, and is provided with a sealing strip II which is in press fit sealing with the gasket bridge at a position corresponding to the gasket bridge; the window sash frame is provided with a sealing strip III which is pressed and sealed with the sealing plane I at a position corresponding to the sealing plane I; the glass component comprises a first toughened glass layer, a first transparent sound insulation film layer, a second toughened glass layer, a third toughened glass layer, a fourth toughened glass layer, a second transparent sound insulation film layer and a fifth toughened glass layer which are sequentially arranged. The sound-insulating energy-saving glass window meets higher sound-insulating requirements and energy-saving requirements.
Description
Technical Field
The utility model relates to the field of sound insulation windows, in particular to a sound insulation energy-saving glass window.
Background
The soundproof window consists of double-layer or three-layer glass with different thicknesses and window frames, and uses specially processed soundproof layers, wherein the soundproof layers are soundproof glass formed by firmly bonding and combining soundproof damping glue (film) at high temperature and high pressure. And the other is to manufacture a transparent, lighting and balanced and pressure-resistant plate-type glass member by utilizing the thermos flask principle. The 'anastomosis effect' and the formed sound insulation valleys are effectively restrained, the window frame is filled with sound absorption materials, the sound waves of the transparent glass are fully absorbed, and the noise of each frequency band is furthest isolated.
The sound insulation and noise reduction effects of the existing sound insulation window are obvious, but along with the continuous development of society, higher requirements are gradually provided for the sound insulation and noise reduction effects of the sound insulation window, meanwhile, the environment-friendly and energy-saving requirements are also provided for the sound insulation window, and the existing sound insulation window cannot meet the higher sound insulation and noise reduction requirements gradually and cannot meet the environment-friendly and energy-saving requirements.
The present inventors found that there are at least the following technical problems in the prior art:
the soundproof window in the prior art can not meet the requirements of higher soundproof and noise reduction gradually, and can not meet the requirements of environmental protection and energy conservation.
Disclosure of Invention
The utility model aims to provide a sound-insulating energy-saving glass window, which solves the technical problems that the sound-insulating window in the prior art cannot meet the requirements of higher sound insulation and noise reduction and cannot meet the requirements of environmental protection and energy saving. The preferred technical solutions of the technical solutions provided by the present utility model can produce a plurality of technical effects described below.
In order to achieve the above purpose, the present utility model provides the following technical solutions:
the utility model provides a sound-insulating energy-saving glass window which comprises a window frame, a pad bridge and a window sash; wherein, the liquid crystal display device comprises a liquid crystal display device,
the window frame is provided with a sealing strip I at one side close to the outside, a cushion bridge is arranged in the middle of the window frame, and a sealing plane I is arranged at one side close to the inside;
the window sash comprises a window sash frame and a glass component; the window sash frame is provided with a sealing plane II which is in press fit sealing with the sealing strip I at a position corresponding to the window frame sealing strip I, and is provided with a sealing strip II which is in press fit sealing with the gasket bridge at a position corresponding to the gasket bridge; the window sash frame is provided with a sealing strip III which is pressed and sealed with the sealing plane I at a position corresponding to the sealing plane I;
the glass component comprises a first toughened glass layer, a first transparent sound insulation film layer, a second toughened glass layer, a third toughened glass layer, a fourth toughened glass layer, a second transparent sound insulation film layer and a fifth toughened glass layer which are sequentially arranged; the first toughened glass layer, the first transparent sound insulation film layer and the second toughened glass layer are sequentially stuck and formed; the fourth toughened glass layer, the second transparent sound insulation film layer and the fifth toughened glass layer are sequentially stuck and formed; a heat preservation hollow layer is arranged between the second toughened glass layer and the third toughened glass layer and between the third toughened glass layer and the fourth toughened glass layer; the edges of the second toughened glass layer and the third toughened glass layer are respectively clamped with an aluminum alloy bulkhead filled with a drying agent, the outer sides of the aluminum alloy bulkhead are respectively provided with a first sealant layer, two sides of the first sealant layer are respectively connected with the second toughened glass layer and the third toughened glass layer, and the edges of the first sealant layer, the second toughened glass layer and the third toughened glass layer are also provided with a second sealant layer; the edges of the third toughened glass layer and the fourth toughened glass layer are respectively clamped with an aluminum alloy bulkhead filled with a drying agent, the outer sides of the aluminum alloy bulkhead are respectively provided with a third sealant layer, and the edges of the third sealant layers, the third toughened glass layer and the fourth toughened glass layer are connected with each other;
and a plurality of sound insulation cavities are arranged in the frame body of the window frame and the window sash frame.
Optionally or preferably, a first supporting frame for supporting is arranged in the window frame.
Optionally or preferably, the window sash frame comprises a frame body and a pressing strip; the frame body is provided with a sealing strip IV which is pressed on the outer side of the glass component on one side of the glass component, the pressing strip is arranged on the other side of the glass component, and the pressing strip is provided with a sealing strip V which is pressed on the outer side of the glass component; the pressing strip is clamped with the frame body; and a second supporting frame with supporting function is arranged in the frame body.
Optionally or preferably, a plurality of sound insulation cavities are arranged in the frame body of the window frame and the window sash frame.
Optionally or preferably, the thickness of the heat-insulating hollow layer between the second toughened glass layer and the third toughened glass layer and between the third toughened glass layer and the fourth toughened glass layer is 12-24mm.
Optionally or preferably, the thickness of the heat-insulating hollow layer between the second toughened glass layer and the third toughened glass layer and between the third toughened glass layer and the fourth toughened glass layer is 18mm.
Optionally or preferably, the first sealant layer is a silicone adhesive.
Optionally or preferably, the second sealant layer is butyl adhesive.
Optionally or preferably, the thickness of the toughened glass in the first toughened glass layer, the second toughened glass layer, the third toughened glass layer, the fourth toughened glass layer and the fifth toughened glass layer is 5-12mm.
Optionally or preferably, the thickness of the toughened glass in the first toughened glass layer, the second toughened glass layer, the third toughened glass layer, the fourth toughened glass layer and the fifth toughened glass layer is 9mm.
Based on the technical scheme, the embodiment of the utility model at least has the following technical effects:
(1) The utility model provides a sound-insulating energy-saving glass window, wherein a sealing strip I is arranged on one side of a window frame, which is close to an outdoor, a cushion bridge is arranged in the middle of the window frame, and a sealing plane I is arranged on one side of the window frame, which is close to an indoor; the window sash frame is provided with a sealing plane II which is in press fit sealing with the sealing strip I at a position corresponding to the window frame sealing strip I, and is provided with a sealing strip II which is in press fit sealing with the gasket bridge at a position corresponding to the gasket bridge; the window sash frame is provided with a sealing strip III which is pressed and sealed with the sealing plane I at a position corresponding to the sealing plane I; after the sound-insulating and energy-saving glass window is closed, three sealing is sequentially carried out from outside to inside through the first sealing strip, the second sealing strip and the third sealing strip, so that a good sealing effect is achieved between the window frame and the window sash, and further a better sound-insulating effect is achieved between the window sash and the window frame.
(2) According to the sound-insulating and energy-saving glass window provided by the utility model, the first toughened glass layer, the first transparent sound-insulating film layer and the second toughened glass layer in the glass assembly are sequentially stuck and formed, and the fourth toughened glass layer, the second transparent sound-insulating film layer and the fifth toughened glass layer in the structure are sequentially stuck and formed; it can be seen that two layers of transparent sound insulation films are adopted, so that the sound insulation effect of the window sash glass is ensured; the glass component is provided with the heat-insulating hollow layers between the second toughened glass layer and the third toughened glass layer and between the third toughened glass layer and the fourth toughened glass layer, and the heat-insulating hollow layers mainly have the heat-insulating and heat-insulating functions; meanwhile, the heat-insulating hollow layer plays a certain role in sound insulation; therefore, when the sound-insulating energy-saving glass window is applied to the sound-insulating window, the window sash has good sound-insulating and heat-insulating effects, and is more environment-friendly and energy-saving; in addition, the edges of the second toughened glass layer and the third toughened glass layer are respectively clamped with an aluminum alloy bulkhead filled with a drying agent, the outer sides of the aluminum alloy bulkhead are respectively provided with a first sealant layer, two sides of the first sealant layer are respectively connected with the second toughened glass layer and the third toughened glass layer, and the edges of the first sealant layer, the second toughened glass layer and the third toughened glass layer are also provided with a second sealant layer; the edges of the third toughened glass layer and the fourth toughened glass layer are respectively clamped with an aluminum alloy bulkhead filled with a drying agent, the outer sides of the aluminum alloy bulkhead are respectively provided with a third sealant layer, and the edges of the third sealant layers, the third toughened glass layer and the fourth toughened glass layer are connected with each other; the first sealant layer is adopted to seal the second toughened glass layer and the third toughened glass layer, and the second sealant layer is adopted to seal the joint between the first sealant layer and the toughened glass; sealing the third toughened glass layer and the fourth toughened glass layer by adopting a third sealant layer, and simultaneously sealing the joint between the second sealant layer and the toughened glass by adopting the fourth sealant layer; the edges of the second toughened glass layer and the third toughened glass layer and the edges of the third toughened glass layer and the fourth toughened glass layer are both provided with double sealing structures, so that the sealing performance of the window sash glass structure is ensured, and further the sound insulation and heat insulation performances are ensured.
(3) The sound-insulating energy-saving glass window provided by the utility model has the advantages that the frame bodies of the window frame and the window sash frame are internally provided with the plurality of sound-insulating cavities, so that good sound-insulating and heat-insulating effects can be ensured between the window frame and the window sash, the sound-insulating and noise-reducing effects are good, and the environment-friendly and energy-saving effects are realized.
(4) The soundproof and energy-saving glass window provided by the utility model has good soundproof and heat-insulating properties for the window frame and the window sash, and has good sealing effect between the window frame and the window sash, and when in use, the soundproof and energy-saving glass window has good soundproof and noise-reducing effects as a whole, can achieve the effects of environmental protection and energy saving, and meets the higher soundproof and energy-saving requirements.
Drawings
In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a schematic diagram of an embodiment of the present utility model;
FIG. 2 is an enlarged schematic view of portion A of FIG. 1;
fig. 3 is an installation schematic of an embodiment of the present utility model.
In the figure: 1. a first tempered glass layer; 2. a first transparent sound-insulating film layer; 3. a second tempered glass layer; 4. a third tempered glass layer; 5. a fourth tempered glass layer; 6. a second transparent sound-insulating film layer; 7. a fifth tempered glass layer; 8. insulating the hollow layer; 9. a first sealant layer; 10. a second sealant layer; 11. a third sealant layer; 12. a fourth sealant layer; 13. a drying agent; 14. an aluminum alloy spacer; 15. a window frame; 16. window sashes; 17. a first sealing strip; 18. a first sealing plane; 19. a window sash frame; 20. a glass assembly; 21. sealing plane II; 22. a second sealing strip; 23. a third sealing strip; 24. a sound-insulating cavity; 25. a frame; 26. pressing strips; 27. a sealing strip IV; 28. a fifth sealing strip; 29. a first supporting frame; 30. a second supporting frame; 31. and a pad bridge.
Detailed Description
In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, based on the examples herein, which are within the scope of the utility model as defined by the claims, will be within the scope of the utility model as defined by the claims.
As shown in fig. 1-3:
in fig. 1, the a side is outdoor, and the b side is indoor.
The utility model provides a sound-insulating energy-saving glass window, which comprises a window frame 15 and a window sash 16; wherein, the liquid crystal display device comprises a liquid crystal display device,
the window frame 15 is provided with a first sealing strip 17 at one side close to the outdoor, a cushion bridge 31 is arranged in the middle of the window frame 15, and a first sealing plane 18 is arranged at one side close to the indoor of the window frame 15;
the window sash 16 includes a window sash frame 19 and a glass assembly 20; the window sash frame 19 is provided with a sealing plane II 21 in press fit with the sealing strip I17 at a position corresponding to the sealing strip I17 of the window frame 15, and the window sash frame 19 is provided with a sealing strip II 22 in press fit with the gasket bridge 31 at a position corresponding to the gasket bridge 31; the window sash frame 19 is provided with a sealing strip III 23 which is pressed and sealed with the sealing plane I18 at a position corresponding to the sealing plane I18;
the glass assembly 20 comprises a first toughened glass layer 1, a first transparent sound insulation film layer 2, a second toughened glass layer 3, a third toughened glass layer 4, a fourth toughened glass layer 5, a second transparent sound insulation film layer 6 and a fifth toughened glass layer 7 which are sequentially arranged; the first toughened glass layer 1, the first transparent sound insulation film layer 2 and the second toughened glass layer 3 are sequentially stuck and formed; the fourth toughened glass layer 5, the second transparent sound insulation film layer 6 and the fifth toughened glass layer 7 are sequentially stuck and formed; a heat insulation hollow layer 8 is arranged between the second toughened glass layer 3 and the third toughened glass layer 4 and between the third toughened glass layer 4 and the fourth toughened glass layer 5; the edges of the second toughened glass layer 3 and the third toughened glass layer 4 are respectively clamped with an aluminum alloy bulkhead 14 filled with a drying agent 13, the outer sides of the aluminum alloy bulkhead 14 are respectively provided with a first sealant layer 9, two sides of the first sealant layer 9 are respectively connected with the second toughened glass layer 3 and the third toughened glass layer 4, and the edges of the first sealant layer 9 connected with the second toughened glass layer 3 and the third toughened glass layer 4 are also provided with a second sealant layer 10; the edges of the third toughened glass layer 4 and the fourth toughened glass layer 5 are respectively clamped with an aluminum alloy bulkhead 14 filled with a drying agent 13, the outer sides of the aluminum alloy bulkhead 14 are respectively provided with a third sealant layer 11, and the edges of the third sealant layers 11, the third toughened glass layer 4 and the fourth toughened glass layer 5 are respectively provided with a fourth sealant layer 12.
The utility model provides a sound-insulation energy-saving glass window, wherein a sealing strip I17 is arranged on one side, close to an outdoor side, of a window frame 15, a cushion bridge 31 is arranged in the middle of the window frame 15, and a sealing plane I18 is arranged on one side, close to an indoor side, of the window frame 15; the window sash frame 19 is provided with a sealing plane II 21 which is in pressing sealing with the sealing strip I17 at a position corresponding to the sealing strip I17 of the window frame 15, and the window sash frame 19 is provided with a sealing strip II 22 which is in pressing sealing with the gasket bridge 31 at a position corresponding to the gasket bridge 31; the window sash frame 19 is provided with a sealing strip III 23 which is pressed and sealed with the sealing plane I18 at a position corresponding to the sealing plane I18; after the sound-insulating and energy-saving glass window is closed, three sealing is sequentially carried out from outside to inside through the first sealing strip 17, the second sealing strip 22 and the third sealing strip 23, so that a good sealing effect is achieved between the window frame 15 and the window sash 16, and further a better sound-insulating effect is achieved between the window sash 16 and the window frame 15.
According to the sound-insulation energy-saving glass window provided by the utility model, the first toughened glass layer 1, the first transparent sound-insulation film layer 2 and the second toughened glass layer 3 in the glass assembly 20 are sequentially stuck and formed, and the fourth toughened glass layer 5, the second transparent sound-insulation film layer 6 and the fifth toughened glass layer 7 in the structure are sequentially stuck and formed; it can be seen that two layers of transparent sound-insulating films are adopted, so that the sound-insulating effect of the window sash 16 glass is ensured; the glass component 20 is provided with the heat-insulating hollow layers 8 between the second toughened glass layer 3 and the third toughened glass layer 4 and between the third toughened glass layer 4 and the fourth toughened glass layer 5, and the heat-insulating hollow layers 8 mainly have heat-insulating and heat-insulating functions; meanwhile, the heat-insulating hollow layer 8 plays a certain role in sound insulation; therefore, when the soundproof and energy-saving glass window is applied to the soundproof window, the window sash 16 has good soundproof and heat insulation effects, and is more environment-friendly and energy-saving; in addition, the edges of the second toughened glass layer 3 and the third toughened glass layer 4 are respectively clamped with an aluminum alloy bulkhead 14 filled with a drying agent 13, the outer sides of the aluminum alloy bulkhead 14 are respectively provided with a first sealant layer 9, two sides of the first sealant layer 9 are respectively connected with the second toughened glass layer 3 and the third toughened glass layer 4, and the edges of the first sealant layer 9 connected with the second toughened glass layer 3 and the third toughened glass layer 4 are also provided with a second sealant layer 10; the edges of the third toughened glass layer 4 and the fourth toughened glass layer 5 are respectively clamped with an aluminum alloy bulkhead 14 filled with a drying agent 13, the outer sides of the aluminum alloy bulkhead 14 are respectively provided with a third sealant layer 11, and the edges of the third sealant layers 11, the third toughened glass layer 4 and the fourth toughened glass layer 5 are respectively provided with a fourth sealant layer 12; in the utility model, the first sealant layer 9 is adopted to seal the second toughened glass layer 3 and the third toughened glass layer 4, and the second sealant layer 10 is adopted to seal the joint between the first sealant layer 9 and the toughened glass; the third toughened glass layer 4 and the fourth toughened glass layer 5 are sealed by adopting a third sealant layer 11, and the fourth sealant layer 12 is adopted, and the joint between the second sealant layer 10 and the toughened glass is sealed by adopting the fourth sealant layer 12; the edges of the second toughened glass layer 3 and the third toughened glass layer 4 and the edges of the third toughened glass layer 4 and the fourth toughened glass layer 5 are both provided with double sealing structures, so that the sealing performance of the window sash 16 glass structure is ensured, and further the sound insulation and heat insulation performances are ensured.
The soundproof and energy-saving glass window provided by the utility model has the advantages that the plurality of soundproof cavities 24 are arranged in the frame bodies 25 of the window frame 15 and the window sash frame 19, so that good soundproof and heat insulation effects can be ensured between the window frame 15 and the window sash 16, and the soundproof and energy-saving glass window has good soundproof and noise reduction effects, is environment-friendly and saves energy. According to the sound-insulating and energy-saving glass window provided by the utility model, as the window frame 15 and the window sash 16 have good sound-insulating and heat-insulating properties, and the window frame 15 and the window sash 16 have good sealing effects, when the glass window is used, the whole sound-insulating and energy-saving glass window has good sound-insulating and noise-reducing effects, and can achieve the effects of environmental protection and energy saving, thereby meeting higher sound-insulating requirements and energy-saving requirements.
As an alternative embodiment, a first supporting frame 29 for supporting is provided in the window frame 15.
As an alternative embodiment, the window sash frame 19 includes a frame body 25 and a bead 26; the frame 25 is provided with a sealing strip IV 27 pressed on the outer side of the glass assembly 20 on one side of the glass assembly 20, the pressing strip 26 is arranged on the other side of the glass assembly 20, and the pressing strip 26 is provided with a sealing strip V28 pressed on the outer side of the glass assembly 20; the pressing bar 26 is clamped with the frame 25; a second supporting frame 30 for supporting is provided in the frame 25.
As an alternative embodiment, a plurality of sound insulation cavities 24 are arranged in the frame body 25 of the window frame 15 and the window sash frame 19.
As an alternative embodiment, the thickness of the insulating hollow layer 8 between the second toughened glass layer 3 and the third toughened glass layer 4 and between the third toughened glass layer 4 and the fourth toughened glass layer 5 is 12-24mm.
As an alternative embodiment, the thickness of the insulating hollow layer 8 between the second toughened glass layer 3 and the third toughened glass layer 4 and between the third toughened glass layer 4 and the fourth toughened glass layer 5 is 18mm.
As an alternative embodiment, the first sealant layer 9 is a silicone adhesive.
As an alternative embodiment, the second sealant layer 10 is butyl adhesive.
As an alternative embodiment, the thickness of the toughened glass in the first toughened glass layer 1, the second toughened glass layer 3, the third toughened glass layer 4, the fourth toughened glass layer 5 and the fifth toughened glass layer 7 is 5-12mm.
As an alternative embodiment, the thicknesses of the toughened glass in the first toughened glass layer 1, the second toughened glass layer 3, the third toughened glass layer 4, the fourth toughened glass layer 5 and the fifth toughened glass layer 7 are all 9mm.
The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present utility model.
Claims (9)
1. A soundproof and energy-saving glass window, which is characterized by comprising a window frame (15) and a window sash (16); wherein, the liquid crystal display device comprises a liquid crystal display device,
the window frame (15) is provided with a sealing strip I (17) at one side close to the outside, a cushion bridge (31) is arranged in the middle of the window frame (15), and a sealing plane I (18) is arranged at one side close to the inside of the window frame (15);
the window sash (16) comprises a window sash frame (19) and a glass assembly (20); the window sash frame (19) is provided with a sealing plane II (21) which is in pressing sealing with the sealing strip I (17) at a position corresponding to the sealing strip I (17) of the window frame (15), and the window sash frame (19) is provided with a sealing strip II (22) which is in pressing sealing with the gasket bridge (31) at a position corresponding to the gasket bridge (31); the window sash frame (19) is provided with a sealing strip III (23) which is pressed and sealed with the sealing plane I (18) at a position corresponding to the sealing plane I (18);
the glass assembly (20) comprises a first toughened glass layer (1), a first transparent sound insulation film layer (2), a second toughened glass layer (3), a third toughened glass layer (4), a fourth toughened glass layer (5), a second transparent sound insulation film layer (6) and a fifth toughened glass layer (7) which are sequentially arranged; the first toughened glass layer (1), the first transparent sound insulation film layer (2) and the second toughened glass layer (3) are sequentially stuck and formed; the fourth toughened glass layer (5), the second transparent sound insulation film layer (6) and the fifth toughened glass layer (7) are sequentially stuck and formed; a heat-insulating hollow layer (8) is arranged between the second toughened glass layer (3) and the third toughened glass layer (4) and between the third toughened glass layer (4) and the fourth toughened glass layer (5); the edges of the second toughened glass layer (3) and the third toughened glass layer (4) are respectively clamped with an aluminum alloy bulkhead (14) filled with a drying agent (13), the outer sides of the aluminum alloy bulkhead (14) are respectively provided with a first sealant layer (9), two sides of the first sealant layer (9) are respectively connected with the second toughened glass layer (3) and the third toughened glass layer (4), and the edges of the first sealant layer (9) connected with the second toughened glass layer (3) and the third toughened glass layer (4) are also provided with a second sealant layer (10); an aluminum alloy spacer frame (14) filled with a drying agent (13) is clamped at the edges of the third toughened glass layer (4) and the fourth toughened glass layer (5), a third sealant layer (11) is arranged on the outer side of the aluminum alloy spacer frame (14), and a fourth sealant layer (12) is further arranged at the edge of the third sealant layer (11) connected with the third toughened glass layer (4) and the fourth toughened glass layer (5);
a plurality of sound insulation cavities (24) are arranged in the frame body (25) of the window frame (15) and the window sash frame (19).
2. A soundproofing energy saving glazing according to claim 1, characterized in that a supporting frame one (29) is provided in the frame (15).
3. A soundproofing energy saving glazing according to claim 1, characterized in that the sash frame (19) comprises a frame body (25) and a bead (26); the frame body (25) is provided with a sealing strip IV (27) pressed on the outer side of the glass assembly (20) on one side of the glass assembly (20), the pressing strip (26) is arranged on the other side of the glass assembly (20), and the pressing strip (26) is provided with a sealing strip V (28) pressed on the outer side of the glass assembly (20); the pressing strip (26) is clamped with the frame body (25); a second supporting frame (30) with supporting function is arranged in the frame body (25).
4. The soundproofing energy-saving glazing according to claim 1, characterized in that the thickness of the insulating hollow layer (8) between the second tempered glass layer (3) and the third tempered glass layer (4) and between the third tempered glass layer (4) and the fourth tempered glass layer (5) is all 12-24mm.
5. A soundproofing energy saving glazing according to claim 4, characterized in that the thickness of the insulating hollow layer (8) between the second tempered glass layer (3) and the third tempered glass layer (4) and between the third tempered glass layer (4) and the fourth tempered glass layer (5) is 18mm.
6. A soundproofing energy saving glazing according to claim 1, characterized in that the first sealant layer (9) is a silicone adhesive.
7. A soundproofing energy saving glazing according to claim 1, characterized in that the second sealant layer (10) is a butyl adhesive.
8. The sound-insulating energy-saving glazing according to claim 1, characterized in that the thickness of the tempered glass in the first (1), second (3), third (4), fourth (5) and fifth (7) tempered glass layers is 5-12mm.
9. The sound-insulating energy-saving glazing according to claim 8, characterized in that the thickness of the tempered glass in the first (1), second (3), third (4), fourth (5) and fifth (7) tempered glass layers is 9mm.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202321018683.4U CN219691421U (en) | 2023-04-30 | 2023-04-30 | Sound-insulating energy-saving glass window |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202321018683.4U CN219691421U (en) | 2023-04-30 | 2023-04-30 | Sound-insulating energy-saving glass window |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN219691421U true CN219691421U (en) | 2023-09-15 |
Family
ID=87937448
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202321018683.4U Active CN219691421U (en) | 2023-04-30 | 2023-04-30 | Sound-insulating energy-saving glass window |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN219691421U (en) |
-
2023
- 2023-04-30 CN CN202321018683.4U patent/CN219691421U/en active Active
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